diff --git a/data/kinhub.csv b/data/kinhub.csv
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+HGNC Name,xName,Manning Name,Kinase Name,Group,Family,SubFamily,UniprotID
+ABL1,ABL1,ABL,Tyrosine-protein kinase ABL1,TK,Abl,nan,P00519
+TNK2,ACK,ACK,Activated CDC42 kinase 1,TK,Ack,nan,Q07912
+ACVR2A,ACTR2,ACTR2,Activin receptor type-2A,TKL,STKR,STKR2,P27037
+ACVR2B,ACTR2B,ACTR2B,Activin receptor type-2B,TKL,STKR,STKR2,Q13705
+ADCK4,ADCK4,ADCK4,Uncharacterized aarF domain-containing protein kinase 4,Atypical,ABC1,ABC1-A,Q96D53
+TRIB1,Trb1,Trb1,Tribbles homolog 1,CAMK,Trbl,nan,Q96RU8
+BRSK2,BRSK2,BRSK2,Serine/threonine-protein kinase BRSK2,CAMK,CAMKL,BRSK,Q8IWQ3
+WNK2,Wnk2,Wnk2,Serine/threonine-protein kinase WNK2,Other,WNK,nan,Q9Y3S1
+AKT1,AKT1,AKT1,RAC-alpha serine/threonine-protein kinase,AGC,Akt,nan,P31749
+AKT2,AKT2,AKT2,RAC-beta serine/threonine-protein kinase,AGC,Akt,nan,P31751
+AKT3,AKT3,AKT3,RAC-gamma serine/threonine-protein kinase,AGC,Akt,nan,Q9Y243
+CAMK1G,CaMK1g,CaMK1g,Calcium/calmodulin-dependent protein kinase type 1G,CAMK,CAMK1,nan,Q96NX5
+ALK,ALK,ALK,ALK tyrosine kinase receptor,TK,ALK,nan,Q9UM73
+ACVRL1,ALK1,ALK1,Serine/threonine-protein kinase receptor R3,TKL,STKR,STKR1,P37023
+ACVR1,ALK2,ALK2,Activin receptor type-1,TKL,STKR,STKR1,Q04771
+BMPR1A,BMPR1A,BMPR1A,Bone morphogenetic protein receptor type-1A,TKL,STKR,STKR1,P36894
+ACVR1B,ALK4,ALK4,Activin receptor type-1B,TKL,STKR,STKR1,P36896
+TGFBR1,TGFbR1,TGFbR1,TGF-beta receptor type-1,TKL,STKR,STKR1,P36897
+BMPR1B,BMPR1B,BMPR1B,Bone morphogenetic protein receptor type-1B,TKL,STKR,STKR1,O00238
+PRKAA1,AMPKa1,AMPKa1,5'-AMP-activated protein kinase catalytic subunit alpha-1,CAMK,CAMKL,AMPK,Q13131
+PRKAA2,AMPKa2,AMPKa2,5'-AMP-activated protein kinase catalytic subunit alpha-2,CAMK,CAMKL,AMPK,P54646
+NPR1,ANPa,ANPa,Atrial natriuretic peptide receptor 1,RGC,RGC,nan,P16066
+NPR2,ANPb,ANPb,Atrial natriuretic peptide receptor 2,RGC,RGC,nan,P20594
+ARAF,ARAF,ARAF,Serine/threonine-protein kinase A-Raf,TKL,RAF,nan,P10398
+ABL2,ABL2,ARG,Abelson tyrosine-protein kinase 2,TK,Abl,nan,P42684
+ATM,ATM,ATM,Serine-protein kinase ATM,Atypical,PIKK,ATM,Q13315
+ATR,ATR,ATR,Serine/threonine-protein kinase ATR,Atypical,PIKK,ATR,Q13535
+AURKC,AurC,AurC,Aurora kinase C,Other,Aur,nan,Q9UQB9
+AXL,AXL,AXL,Tyrosine-protein kinase receptor UFO,TK,Axl,nan,P30530
+ADRBK1,BARK1,BARK1,Beta-adrenergic receptor kinase 1,AGC,GRK,BARK,P25098
+BCKDK,BCKDK,BCKDK,[3-methyl-2-oxobutanoate dehydrogenase [lipoamide]] kinase,Atypical,PDHK,nan,O14874
+MAP4K2,GCK,GCK,Mitogen-activated protein kinase kinase kinase kinase 2,STE,STE20,KHS,Q12851
+BLK,BLK,BLK,Tyrosine-protein kinase Blk,TK,Src,nan,P51451
+BRAF,BRAF,BRAF,Serine/threonine-protein kinase B-raf,TKL,RAF,nan,P15056
+PTK6,BRK,BRK,Protein-tyrosine kinase 6,TK,Src,nan,Q13882
+BTK,BTK,BTK,Tyrosine-protein kinase BTK,TK,Tec,nan,Q06187
+BUB1B,BUBR1,BUBR1,Mitotic checkpoint serine/threonine-protein kinase BUB1 beta,Other,BUB,nan,O60566
+CDK7,CDK7,CDK7,Cyclin-dependent kinase 7,CMGC,CDK,CDK7,P50613
+CAMK1,CaMK1a,CaMK1a,Calcium/calmodulin-dependent protein kinase type 1,CAMK,CAMK1,nan,Q14012
+CAMK2A,CaMK2a,CaMK2a,Calcium/calmodulin-dependent protein kinase type II subunit alpha,CAMK,CAMK2,nan,Q9UQM7
+CAMK2B,CaMK2b,CaMK2b,Calcium/calmodulin-dependent protein kinase type II subunit beta,CAMK,CAMK2,nan,Q13554
+CAMK2G,CaMK2g,CaMK2g,Calcium/calmodulin-dependent protein kinase (CaM kinase) II gamma,CAMK,CAMK2,nan,Q13555
+CAMK4,CaMK4,CaMK4,Calcium/calmodulin-dependent protein kinase type IV,CAMK,CAMK1,nan,Q16566
+CAMKV,VACAMKL,VACAMKL,CaM kinase-like vesicle-associated protein,CAMK,CAMK-Unique,nan,Q8NCB2
+DCLK1,DCAMKL1,DCAMKL1,Serine/threonine-protein kinase DCLK1,CAMK,DCAMKL,nan,O15075
+CASK,CASK,CASK,Peripheral plasma membrane protein CASK,CAMK,CASK,nan,O14936
+CDK1,CDC2,CDC2,Cyclin-dependent kinase 1,CMGC,CDK,CDC2,P06493
+CDC7,CDC7,CDC7,Cell division cycle 7-related protein kinase,Other,CDC7,nan,O00311
+CDK2,CDK2,CDK2,Cyclin-dependent kinase 2,CMGC,CDK,CDK2,P24941
+CDK3,CDK3,CDK3,Cyclin-dependent kinase 3,CMGC,CDK,CDK2,Q00526
+CDK4,CDK4,CDK4,Cyclin-dependent kinase 4,CMGC,CDK,CDK4,P11802
+CDK5,CDK5,CDK5,Cyclin-dependent kinase 5,CMGC,CDK,CDK5,Q00535
+CDK6,CDK6,CDK6,Cyclin-dependent kinase 6,CMGC,CDK,CDK4,Q00534
+CDK8,CDK8,CDK8,Cyclin-dependent kinase 8,CMGC,CDK,CDK8,P49336
+PRKG1,PKG1,PKG1,cGMP-dependent protein kinase,AGC,PKG,nan,Q13976
+PRKG2,PKG2,PKG2,cGMP-dependent protein kinase 2,AGC,PKG,nan,Q13237
+CDK13,CHED,CHED,Cyclin-dependent kinase 13,CMGC,CDK,CRK7,Q14004
+CHEK1,CHK1,CHK1,Serine/threonine-protein kinase Chk1,CAMK,CAMKL,CHK1,O14757
+CHEK2,CHK2,CHK2,Serine/threonine-protein kinase Chk2,CAMK,RAD53,nan,O96017
+CSNK1A1,CK1a,CK1a,Casein kinase I isoform alpha,CK1,CK1,nan,P48729
+CSNK1D,CK1d,CK1d,Casein kinase I isoform delta,CK1,CK1,nan,P48730
+CSNK1E,CK1e,CK1e,Casein kinase I isoform epsilon,CK1,CK1,nan,P49674
+CSNK1G2,CK1g2,CK1g2,Casein kinase I isoform gamma-2,CK1,CK1,nan,P78368
+CSNK1G3,CK1g3,CK1g3,Casein kinase I isoform gamma-3,CK1,CK1,nan,Q9Y6M4
+CSNK2A1,CK2a1,CK2a1,Casein kinase II subunit alpha,CMGC,CK2,nan,P68400
+CSNK2A2,CK2a2,CK2a2,Casein kinase II subunit alpha',CMGC,CK2,nan,P19784
+CLK1,CLK1,CLK1,Dual specificity protein kinase CLK1,CMGC,CLK,nan,P49759
+CLK2,CLK2,CLK2,Dual specificity protein kinase CLK2,CMGC,CLK,nan,P49760
+CLK3,CLK3,CLK3,Dual specificity protein kinase CLK3,CMGC,CLK,nan,P49761
+MAP3K8,COT,COT,Mitogen-activated protein kinase kinase kinase 8,STE,STE-Unique,nan,P41279
+CSF1R,FMS,FMS,Macrophage colony-stimulating factor 1 receptor,TK,PDGFR,nan,P07333
+CSK,CSK,CSK,Tyrosine-protein kinase CSK,TK,Csk,nan,P41240
+MARK3,MARK3,MARK3,MAP/microtubule affinity-regulating kinase 3,CAMK,CAMKL,MARK,P27448
+GUCY2D,CYGD,CYGD,Retinal guanylyl cyclase 1,RGC,RGC,nan,Q02846
+GUCY2F,CYGF,CYGF,Retinal guanylyl cyclase 2,RGC,RGC,nan,P51841
+DAPK1,DAPK1,DAPK1,Death-associated protein kinase 1,CAMK,DAPK,nan,P53355
+DAPK2,DAPK2,DAPK2,Death-associated protein kinase 2,CAMK,DAPK,nan,Q9UIK4
+MAP3K12,DLK,DLK,Mitogen-activated protein kinase kinase kinase 12,TKL,MLK,LZK,Q12852
+DMPK,DMPK1,DMPK1,Myotonin-protein kinase,AGC,DMPK,GEK,Q09013
+CDC42BPG,DMPK2,DMPK2,Serine/threonine-protein kinase MRCK gamma,AGC,DMPK,GEK,Q6DT37
+PRKDC,DNAPK,DNAPK,DNA-dependent protein kinase catalytic subunit,Atypical,PIKK,DNAPK,P78527
+DYRK1B,DYRK1B,DYRK1B,Dual specificity tyrosine-phosphorylation-regulated kinase 1B,CMGC,DYRK,DYRK1,Q9Y463
+DYRK2,DYRK2,DYRK2,Dual specificity tyrosine-phosphorylation-regulated kinase 2,CMGC,DYRK,DYRK2,Q92630
+DYRK4,DYRK4,DYRK4,Dual specificity tyrosine-phosphorylation-regulated kinase 4,CMGC,DYRK,DYRK2,Q9NR20
+EEF2K,eEF2K,eEF2K,Eukaryotic elongation factor 2 kinase,Atypical,Alpha,eEF2K,O00418
+EGFR,EGFR,EGFR,Epidermal growth factor receptor,TK,EGFR,nan,P00533
+EIF2AK2,PKR,PKR,Interferon-induced,Other,PEK,nan,P19525
+MARK2,MARK2,MARK2,Serine/threonine-protein kinase MARK2,CAMK,CAMKL,MARK,Q7KZI7
+EPHA1,EphA1,EphA1,Ephrin type-A receptor 1,TK,Eph,nan,P21709
+EPHA2,EphA2,EphA2,Ephrin type-A receptor 2,TK,Eph,nan,P29317
+EPHA3,EphA3,EphA3,Ephrin type-A receptor 3,TK,Eph,nan,P29320
+EPHA4,EphA4,EphA4,Ephrin type-A receptor 4,TK,Eph,nan,P54764
+EPHA5,EphA5,EphA5,Ephrin type-A receptor 5,TK,Eph,nan,P54756
+EPHA8,EphA8,EphA8,Ephrin type-A receptor 8,TK,Eph,nan,P29322
+EPHB1,EphB1,EphB1,Ephrin type-B receptor 1,TK,Eph,nan,P54762
+EPHB2,EphB2,EphB2,Ephrin type-B receptor 2,TK,Eph,nan,P29323
+EPHB3,EphB3,EphB3,Ephrin type-B receptor 3,TK,Eph,nan,P54753
+EPHB4,EphB4,EphB4,Ephrin type-B receptor 4,TK,Eph,nan,P54760
+EPHB6,EphB6,EphB6,Ephrin type-B receptor 6,TK,Eph,nan,O15197
+MAPK3,Erk1,Erk1,Mitogen-activated protein kinase 3,CMGC,MAPK,ERK1,P27361
+MAPK1,Erk2,Erk2,Mitogen-activated protein kinase 1,CMGC,MAPK,ERK1,P28482
+MAPK6,Erk3,Erk3,Mitogen-activated protein kinase 6,CMGC,MAPK,ERK3,Q16659
+MAPK4,Erk4,Erk4,Mitogen-activated protein kinase 4,CMGC,MAPK,ERK3,P31152
+PTK2,FAK,FAK,Focal adhesion kinase 1,TK,FAK,nan,Q05397
+FER,FER,FER,Tyrosine-protein kinase Fer,TK,Fer,nan,P16591
+FES,FES,FES,Tyrosine-protein kinase Fes/Fps,TK,Fer,nan,P07332
+FGFR1,FGFR1,FGFR1,Fibroblast growth factor receptor 1,TK,FGFR,nan,P11362
+FGFR2,FGFR2,FGFR2,Fibroblast growth factor receptor 2,TK,FGFR,nan,P21802
+FGFR3,FGFR3,FGFR3,Fibroblast growth factor receptor 3,TK,FGFR,nan,P22607
+FGFR4,FGFR4,FGFR4,Fibroblast growth factor receptor 4,TK,FGFR,nan,P22455
+FGR,FGR,FGR,Tyrosine-protein kinase Fgr,TK,Src,nan,P09769
+FLT3,FLT3,FLT3,Receptor-type tyrosine-protein kinase FLT3,TK,PDGFR,nan,P36888
+FLT1,FLT1,FLT1,Vascular endothelial growth factor receptor 1,TK,VEGFR,nan,P17948
+FLT4,FLT4,FLT4,Vascular endothelial growth factor receptor 3,TK,VEGFR,nan,P35916
+MTOR,FRAP,FRAP,Serine/threonine-protein kinase mTOR,Atypical,PIKK,FRAP,P42345
+FYN,FYN,FYN,Tyrosine-protein kinase Fyn,TK,Src,nan,P06241
+GAK,GAK,GAK,Cyclin-G-associated kinase,Other,NAK,nan,O14976
+GRK4,GPRK4,GPRK4,G protein-coupled receptor kinase 4,AGC,GRK,GRK,P32298
+GRK5,GPRK5,GPRK5,G protein-coupled receptor kinase 5,AGC,GRK,GRK,P34947
+GRK6,GPRK6,GPRK6,G protein-coupled receptor kinase 6,AGC,GRK,GRK,P43250
+TRIB2,Trb2,Trb2,Tribbles homolog 2,CAMK,Trbl,nan,Q92519
+GSK3A,GSK3A,GSK3A,Glycogen synthase kinase-3 alpha,CMGC,GSK,nan,P49840
+GSK3B,GSK3B,GSK3B,Glycogen synthase kinase-3 beta,CMGC,GSK,nan,P49841
+HCK,HCK,HCK,Tyrosine-protein kinase HCK,TK,Src,nan,P08631
+ERBB2,ErbB2,HER2/ErbB2,Receptor tyrosine-protein kinase erbB-2,TK,EGFR,nan,P04626
+ERBB3,ErbB3,HER3/ErbB3,Receptor tyrosine-protein kinase erbB-3,TK,EGFR,nan,P21860
+ERBB4,ErbB4,HER4/ErbB4,Receptor tyrosine-protein kinase erbB-4,TK,EGFR,nan,Q15303
+HIPK1,HIPK1,HIPK1,Homeodomain-interacting protein kinase 1,CMGC,DYRK,HIPK,Q86Z02
+MAP4K1,HPK1,HPK1,Mitogen-activated protein kinase kinase kinase kinase 1,STE,STE20,KHS,Q92918
+GUCY2C,HSER,HSER,Heat-stable enterotoxin receptor,RGC,RGC,nan,P25092
+IGF1R,IGF1R,IGF1R,Insulin-like growth factor 1 receptor,TK,InsR,nan,P08069
+CHUK,IKKa,IKKa,Inhibitor of nuclear factor kappa-B kinase subunit alpha,Other,IKK,nan,O15111
+IKBKB,IKKb,IKKb,Inhibitor of nuclear factor kappa-B kinase subunit beta,Other,IKK,nan,O14920
+ILK,ILK,ILK,Integrin-linked protein kinase,TKL,MLK,ILK,Q13418
+INSR,INSR,INSR,Insulin receptor,TK,InsR,nan,P06213
+IRAK1,IRAK1,IRAK1,Interleukin-1 receptor-associated kinase 1,TKL,IRAK,nan,P51617
+IRAK2,IRAK2,IRAK2,Interleukin-1 receptor-associated kinase-like 2,TKL,IRAK,nan,O43187
+IRAK3,IRAK3,IRAK3,Interleukin-1 receptor-associated kinase 3,TKL,IRAK,nan,Q9Y616
+ERN1,IRE1,IRE1,Serine/threonine-protein kinase/endoribonuclease IRE1,Other,IRE,nan,O75460
+INSRR,IRR,IRR,Insulin receptor-related protein,TK,InsR,nan,P14616
+ITK,ITK,ITK,Tyrosine-protein kinase ITK/TSK,TK,Tec,nan,Q08881
+JAK1,"JAK1, JAK1_b","JAK1, Domain2_JAK1",Tyrosine-protein kinase JAK1,TK,"JakB, Jak",nan,P23458
+JAK2,"JAK2_b, JAK2","Domain2_JAK2, JAK2",Tyrosine-protein kinase JAK2,TK,"JakB, Jak",nan,O60674
+JAK3,"JAK3_b, JAK3","JAK3, Domain2_JAK3",Tyrosine-protein kinase JAK3,TK,"JakB, Jak",nan,P52333
+MAPK8,JNK1,JNK1,Mitogen-activated protein kinase 8,CMGC,MAPK,JNK,P45983
+MAPK9,JNK2,JNK2,Mitogen-activated protein kinase 9,CMGC,MAPK,JNK,P45984
+MAPK10,JNK3,JNK3,Mitogen-activated protein kinase 10,CMGC,MAPK,JNK,P53779
+MAP4K5,KHS1,KHS1,Mitogen-activated protein kinase kinase kinase kinase 5,STE,STE20,KHS,Q9Y4K4
+IKBKE,IKKe,IKKe,Inhibitor of nuclear factor kappa-B kinase subunit epsilon,Other,IKK,nan,Q14164
+NUAK1,NuaK1,NuaK1,NUAK family SNF1-like kinase 1,CAMK,CAMKL,NuaK,O60285
+MAST3,MAST3,MAST3,Microtubule-associated serine/threonine-protein kinase 3,AGC,MAST,nan,O60307
+STK36,Fused,Fused,Serine/threonine-protein kinase 36,Other,ULK,nan,Q9NRP7
+PIM3,PIM3,PIM3,Serine/threonine-protein kinase pim-3,CAMK,PIM,nan,Q86V86
+KIT,KIT,KIT,Mast/stem cell growth factor receptor Kit,TK,PDGFR,nan,P10721
+CDKL2,CDKL2,CDKL2,Cyclin-dependent kinase-like 2,CMGC,CDKL,nan,Q92772
+CDKL1,CDKL1,CDKL1,Cyclin-dependent kinase-like 1,CMGC,CDKL,nan,Q00532
+KSR1,KSR1,KSR1,Kinase suppressor of Ras 1,TKL,RAF,KSR,Q8IVT5
+LCK,LCK,LCK,Tyrosine-protein kinase Lck,TK,Src,nan,P06239
+LIMK2,LIMK2,LIMK2,LIM domain kinase 2,TKL,LISK,LIMK,P53671
+STK11,LKB1,LKB1,Serine/threonine-protein kinase STK11,CAMK,CAMKL,LKB,Q15831
+LTK,LTK,LTK,Leukocyte tyrosine kinase receptor,TK,ALK,nan,P29376
+LYN,LYN,LYN,Tyrosine-protein kinase Lyn,TK,Src,nan,P07948
+MAK,MAK,MAK,Serine/threonine-protein kinase MAK,CMGC,RCK,nan,P20794
+MAPKAPK2,MAPKAPK2,MAPKAPK2,MAP kinase-activated protein kinase 2,CAMK,MAPKAPK,MK2,P49137
+MAPKAPK3,MAPKAPK3,MAPKAPK3,MAP kinase-activated protein kinase 3,CAMK,MAPKAPK,MK2,Q16644
+MAPKAPK5,MAPKAPK5,MAPKAPK5,MAP kinase-activated protein kinase 5,CAMK,MAPKAPK,MK5,Q8IW41
+MARK1,MARK1,MARK1,Serine/threonine-protein kinase MARK1,CAMK,CAMKL,MARK,Q9P0L2
+MAST2,MAST2,MAST2,Microtubule-associated serine/threonine-protein kinase 2,AGC,MAST,nan,Q6P0Q8
+MAP2K1,MAP2K1,MAP2K1,Dual specificity mitogen-activated protein kinase kinase 1,STE,STE7,nan,Q02750
+MAP2K2,MAP2K2,MAP2K2,Dual specificity mitogen-activated protein kinase kinase 2,STE,STE7,nan,P36507
+MAP2K5,MAP2K5,MAP2K5,Dual specificity mitogen-activated protein kinase kinase 5,STE,STE7,nan,Q13163
+MAP2K6,MAP2K6,MAP2K6,Dual specificity mitogen-activated protein kinase kinase 6,STE,STE7,nan,P52564
+MAP3K1,MAP3K1,MAP3K1,Mitogen-activated protein kinase kinase kinase 1,STE,STE11,nan,Q13233
+MAP3K2,MAP3K2,MAP3K2,Mitogen-activated protein kinase kinase kinase 2,STE,STE11,nan,Q9Y2U5
+MAP3K3,MAP3K3,MAP3K3,Mitogen-activated protein kinase kinase kinase 3,STE,STE11,nan,Q99759
+MAP3K4,MAP3K4,MAP3K4,Mitogen-activated protein kinase kinase kinase 4,STE,STE11,nan,Q9Y6R4
+MAP3K5,MAP3K5,MAP3K5,Mitogen-activated protein kinase kinase kinase 5,STE,STE11,nan,Q99683
+MERTK,MER,MER,Tyrosine-protein kinase Mer,TK,Axl,nan,Q12866
+MET,MET,MET,Hepatocyte growth factor receptor,TK,Met,nan,P08581
+AMHR2,MISR2,MISR2,Anti-Muellerian hormone type-2 receptor,TKL,STKR,STKR2,Q16671
+MAP2K7,MAP2K7,MAP2K7,Dual specificity mitogen-activated protein kinase kinase 7,STE,STE7,nan,O14733
+MYLK,smMLCK,smMLCK,Myosin light chain kinase,CAMK,MLCK,nan,Q15746
+MAP3K9,MLK1,MLK1,Mitogen-activated protein kinase kinase kinase 9,TKL,MLK,MLK,P80192
+MAP3K10,MLK2,MLK2,Mitogen-activated protein kinase kinase kinase 10,TKL,MLK,MLK,Q02779
+DYRK1A,DYRK1A,DYRK1A,Dual specificity tyrosine-phosphorylation-regulated kinase 1A,CMGC,DYRK,DYRK1,Q13627
+MKNK1,MNK1,MNK1,MAP kinase-interacting serine/threonine-protein kinase 1,CAMK,MAPKAPK,MNK,Q9BUB5
+MKNK2,MNK2,MNK2,MAP kinase-interacting serine/threonine-protein kinase 2,CAMK,MAPKAPK,MNK,Q9HBH9
+MOS,MOS,MOS,Proto-oncogene serine/threonine-protein kinase mos,Other,MOS,nan,P00540
+MAP2K3,MAP2K3,MAP2K3,Dual specificity mitogen-activated protein kinase kinase 3,STE,STE7,nan,P46734
+MAP2K4,MAP2K4,MAP2K4,Dual specificity mitogen-activated protein kinase kinase 4,STE,STE7,nan,P45985
+CDC42BPB,MRCKb,MRCKb,Serine/threonine-protein kinase MRCK beta,AGC,DMPK,GEK,Q9Y5S2
+RPS6KA5,"MSK1_b, MSK1","Domain2_MSK1, MSK1",Ribosomal protein S6 kinase alpha-5,"CAMK, AGC","RSKb, RSK","MSK, MSKb",O75582
+RPS6KA4,"MSK2_b, MSK2","MSK2, Domain2_MSK2",Ribosomal protein S6 kinase alpha-4,"CAMK, AGC","RSKb, RSK","MSK, MSKb",O75676
+STK4,MST1,MST1,Serine/threonine-protein kinase 4,STE,STE20,MST,Q13043
+STK3,MST2,MST2,Serine/threonine-protein kinase 3,STE,STE20,MST,Q13188
+STK24,MST3,MST3,Serine/threonine-protein kinase 24,STE,STE20,YSK,Q9Y6E0
+MUSK,MUSK,MUSK,Muscle,TK,Musk,nan,O15146
+PKMYT1,MYT1,MYT1,Membrane-associated tyrosine- and threonine-specific cdc2-inhibitory kinase,Other,WEE,nan,Q99640
+STK38,NDR1,NDR1,Serine/threonine-protein kinase 38,AGC,NDR,nan,Q15208
+NEK1,NEK1,NEK1,Serine/threonine-protein kinase Nek1,Other,NEK,nan,Q96PY6
+NEK2,NEK2,NEK2,Serine/threonine-protein kinase Nek2,Other,NEK,nan,P51955
+NEK3,NEK3,NEK3,Serine/threonine-protein kinase Nek3,Other,NEK,nan,P51956
+MAP3K14,NIK,NIK,Mitogen-activated protein kinase kinase kinase 14,STE,STE-Unique,nan,Q99558
+NLK,NLK,NLK,Serine/threonine-protein kinase NLK,CMGC,MAPK,nmo,Q9UBE8
+NEK4,NEK4,NEK4,Serine/threonine-protein kinase Nek4,Other,NEK,nan,P51957
+IRAK4,IRAK4,IRAK4,Interleukin-1 receptor-associated kinase 4,TKL,IRAK,nan,Q9NWZ3
+PIK3R4,PIK3R4,PIK3R4,Phosphoinositide 3-kinase regulatory subunit 4,Other,VPS15,nan,Q99570
+ROCK2,ROCK2,ROCK2,Rho-associated protein kinase 2,AGC,DMPK,ROCK,O75116
+MAPK14,p38a,p38a,Mitogen-activated protein kinase 14,CMGC,MAPK,p38,Q16539
+RPS6KB1,p70S6K,p70S6K,Ribosomal protein S6 kinase beta-1,AGC,RSK,RSKp70,P23443
+RPS6KB2,p70S6Kb,p70S6Kb,Ribosomal protein S6 kinase beta-2,AGC,RSK,RSKp70,Q9UBS0
+PAK1,PAK1,PAK1,Serine/threonine-protein kinase PAK 1,STE,STE20,PAKA,Q13153
+PAK2,PAK2,PAK2,Serine/threonine-protein kinase PAK 2,STE,STE20,PAKA,Q13177
+PAK3,PAK3,PAK3,Serine/threonine-protein kinase PAK 3,STE,STE20,PAKA,O75914
+PRKCH,PKCh,PKCh,Protein kinase C eta type,AGC,PKC,PKCh,P24723
+CDK16,PCTAIRE1,PCTAIRE1,Cyclin-dependent kinase 16,CMGC,CDK,PCTAIRE,Q00536
+CDK17,PCTAIRE2,PCTAIRE2,Cyclin-dependent kinase 17,CMGC,CDK,PCTAIRE,Q00537
+CDK18,PCTAIRE3,PCTAIRE3,Cyclin-dependent kinase 18,CMGC,CDK,PCTAIRE,Q07002
+PDGFRA,PDGFRa,PDGFRa,Platelet-derived growth factor receptor alpha,TK,PDGFR,nan,P16234
+PDGFRB,PDGFRb,PDGFRb,Platelet-derived growth factor receptor beta,TK,PDGFR,nan,P09619
+PDPK1,PDK1,PDK1,3-phosphoinositide-dependent protein kinase 1,AGC,PDK1,nan,O15530
+PDK1,PDHK1,PDHK1,[Pyruvate dehydrogenase [lipoamide]] kinase isozyme 1,Atypical,PDHK,nan,Q15118
+PDK2,PDHK2,PDHK2,[Pyruvate dehydrogenase [lipoamide]] kinase isozyme 2,Atypical,PDHK,nan,Q15119
+PDK3,PDHK3,PDHK3,[Pyruvate dehydrogenase [lipoamide]] kinase isozyme 3,Atypical,PDHK,nan,Q15120
+PDK4,PDHK4,PDHK4,[Pyruvate dehydrogenase [lipoamide]] kinase isozyme 4,Atypical,PDHK,nan,Q16654
+EIF2AK3,PEK,PEK,Eukaryotic translation initiation factor 2-alpha kinase 3,Other,PEK,PEK,Q9NZJ5
+CDK14,PFTAIRE1,PFTAIRE1,Cyclin-dependent kinase 14,CMGC,CDK,PFTAIRE,O94921
+PHKG1,PHKg1,PHKg1,Phosphorylase b kinase gamma catalytic chain,CAMK,PHK,nan,Q16816
+PHKG2,PHKg2,PHKg2,Phosphorylase b kinase gamma catalytic chain,CAMK,PHK,nan,P15735
+PIM1,PIM1,PIM1,Serine/threonine-protein kinase pim-1,CAMK,PIM,nan,P11309
+PIM2,PIM2,PIM2,Serine/threonine-protein kinase pim-2,CAMK,PIM,nan,Q9P1W9
+CDK10,CDK10,CDK10,Cyclin-dependent kinase 10,CMGC,CDK,CDK10,Q15131
+CDK9,CDK9,CDK9,Cyclin-dependent kinase 9,CMGC,CDK,CDK9,P50750
+CDK11B,PITSLRE,PITSLRE,Cyclin-dependent kinase 11B,CMGC,CDK,CDK11,P21127
+MELK,MELK,MELK,Maternal embryonic leucine zipper kinase,CAMK,CAMKL,MELK,Q14680
+CDC42BPA,MRCKa,MRCKa,Serine/threonine-protein kinase MRCK alpha,AGC,DMPK,GEK,Q5VT25
+PRKACA,PKACa,PKACa,cAMP-dependent protein kinase catalytic subunit alpha,AGC,PKA,nan,P17612
+PRKACB,PKACb,PKACb,cAMP-dependent protein kinase catalytic subunit beta,AGC,PKA,nan,P22694
+PRKACG,PKACg,PKACg,cAMP-dependent protein kinase catalytic subunit gamma,AGC,PKA,nan,P22612
+PRKCA,PKCa,PKCa,Protein kinase C alpha type,AGC,PKC,PKCa,P17252
+PRKCB,PKCb,PKCb,Protein kinase C beta type,AGC,PKC,PKCa,P05771
+PRKCD,PKCd,PKCd,Protein kinase C delta type,AGC,PKC,PKCd,Q05655
+PRKCE,PKCe,PKCe,Protein kinase C epsilon type,AGC,PKC,PKCh,Q02156
+PRKCG,PKCg,PKCg,Protein kinase C gamma type,AGC,PKC,PKCa,P05129
+PRKCI,PKCi,PKCi,Protein kinase C iota type,AGC,PKC,PKCi,P41743
+PRKD1,PKD1,PKD1,Serine/threonine-protein kinase D1,CAMK,PKD,nan,Q15139
+PRKCQ,PKCt,PKCt,Protein kinase C theta type,AGC,PKC,PKCd,Q04759
+PRKCZ,PKCz,PKCz,Protein kinase C zeta type,AGC,PKC,PKCi,Q05513
+PRKX,PRKX,PRKX,cAMP-dependent protein kinase catalytic subunit PRKX,AGC,PKA,nan,P51817
+HIPK3,HIPK3,HIPK3,Homeodomain-interacting protein kinase 3,CMGC,DYRK,HIPK,Q9H422
+PLK1,PLK1,PLK1,Serine/threonine-protein kinase PLK1,Other,PLK,nan,P53350
+PLK3,PLK3,PLK3,Serine/threonine-protein kinase PLK3,Other,PLK,nan,Q9H4B4
+PKN1,PKN1,PKN1,Serine/threonine-protein kinase N1,AGC,PKN,nan,Q16512
+PKN2,PKN2,PKN2,Serine/threonine-protein kinase N2,AGC,PKN,nan,Q16513
+PRKY,PRKY,PRKY,Serine/threonine-protein kinase PRKY,AGC,PKA,nan,O43930
+PRPF4B,PRP4,PRP4,Serine/threonine-protein kinase PRP4 homolog,CMGC,DYRK,PRP4,Q13523
+PSKH1,PSKH1,PSKH1,Serine/threonine-protein kinase H1,CAMK,PSK,nan,P11801
+RAF1,RAF1,RAF1,RAF proto-oncogene serine/threonine-protein kinase,TKL,RAF,nan,P04049
+RET,RET,RET,Proto-oncogene tyrosine-protein kinase receptor Ret,TK,Ret,nan,P07949
+GRK1,RHOK,RHOK,Rhodopsin kinase,AGC,GRK,GRK,Q15835
+RIPK1,RIPK1,RIPK1,Receptor-interacting serine/threonine-protein kinase 1,TKL,RIPK,nan,Q13546
+RIPK2,RIPK2,RIPK2,Receptor-interacting serine/threonine-protein kinase 2,TKL,RIPK,nan,O43353
+RIPK3,RIPK3,RIPK3,Receptor-interacting serine/threonine-protein kinase 3,TKL,RIPK,nan,Q9Y572
+ROCK1,ROCK1,ROCK1,Rho-associated protein kinase 1,AGC,DMPK,ROCK,Q13464
+MST1R,RON,RON,Macrophage-stimulating protein receptor,TK,Met,nan,Q04912
+ROR1,ROR1,ROR1,Tyrosine-protein kinase transmembrane receptor ROR1,TK,Ror,nan,Q01973
+ROR2,ROR2,ROR2,Tyrosine-protein kinase transmembrane receptor ROR2,TK,Ror,nan,Q01974
+ROS1,ROS,ROS,Proto-oncogene tyrosine-protein kinase ROS,TK,Sev,nan,P08922
+RPS6KA2,"RSK3_b, RSK3","Domain2_RSK1, RSK1",Ribosomal protein S6 kinase alpha-2,"CAMK, AGC","RSKb, RSK","RSKp90, RSKb",Q15349
+RPS6KA3,"RSK2_b, RSK2","Domain2_RSK2, RSK2",Ribosomal protein S6 kinase alpha-3,"CAMK, AGC","RSKb, RSK","RSKp90, RSKb",P51812
+RPS6KA1,"RSK1_b, RSK1","Domain2_RSK3, RSK3",Ribosomal protein S6 kinase alpha-1,"CAMK, AGC","RSKb, RSK","RSKp90, RSKb",Q15418
+RYK,RYK,RYK,Tyrosine-protein kinase RYK,TK,Ryk,nan,P34925
+PLK4,PLK4,PLK4,Serine/threonine-protein kinase PLK4,Other,PLK,nan,O00444
+MAPK11,p38b,p38b,Mitogen-activated protein kinase 11,CMGC,MAPK,p38,Q15759
+MAPK12,p38g,p38g,Mitogen-activated protein kinase 12,CMGC,MAPK,p38,P53778
+MAPK13,p38d,p38d,Mitogen-activated protein kinase 13,CMGC,MAPK,p38,O15264
+MAST1,MAST1,MAST1,Microtubule-associated serine/threonine-protein kinase 1,AGC,MAST,nan,Q9Y2H9
+SGK1,SGK1,SGK,Serine/threonine-protein kinase Sgk1,AGC,SGK,nan,O00141
+SLK,SLK,SLK,STE20-like serine/threonine-protein kinase,STE,STE20,SLK,Q9H2G2
+PLK2,PLK2,PLK2,Serine/threonine-protein kinase PLK2,Other,PLK,nan,Q9NYY3
+MAP3K11,MLK3,MLK3,Mitogen-activated protein kinase kinase kinase 11,TKL,MLK,MLK,Q16584
+SRC,SRC,SRC,Proto-oncogene tyrosine-protein kinase Src,TK,Src,nan,P12931
+SRPK1,SRPK1,SRPK1,SRSF protein kinase 1,CMGC,SRPK,nan,Q96SB4
+SRPK2,SRPK2,SRPK2,SRSF protein kinase 2,CMGC,SRPK,nan,P78362
+CDKL5,CDKL5,CDKL5,Cyclin-dependent kinase-like 5,CMGC,CDKL,nan,O76039
+TAOK2,TAO2,TAO2,Serine/threonine-protein kinase TAO2,STE,STE20,TAO,Q9UL54
+SYK,SYK,SYK,Tyrosine-protein kinase SYK,TK,Syk,nan,P43405
+MAP3K7,TAK1,TAK1,Mitogen-activated protein kinase kinase kinase 7,TKL,MLK,TAK1,O43318
+BMPR2,BMPR2,BMPR2,Bone morphogenetic protein receptor type-2,TKL,STKR,STKR2,Q13873
+TEC,TEC,TEC,Tyrosine-protein kinase Tec,TK,Tec,nan,P42680
+TEK,TIE2,TIE2,Angiopoietin-1 receptor,TK,Tie,nan,Q02763
+TESK1,TESK1,TESK1,Dual specificity testis-specific protein kinase 1,TKL,LISK,TESK,Q15569
+TGFBR2,TGFbR2,TGFbR2,TGF-beta receptor type-2,TKL,STKR,STKR2,P37173
+TIE1,TIE1,TIE1,Tyrosine-protein kinase receptor Tie-1,TK,Tie,nan,P35590
+TTN,TTN,TTN,Titin,CAMK,MLCK,nan,Q8WZ42
+TLK1,TLK1,TLK1,Serine/threonine-protein kinase tousled-like 1,Other,TLK,nan,Q9UKI8
+TLK2,TLK2,TLK2,Serine/threonine-protein kinase tousled-like 2,Other,TLK,nan,Q86UE8
+TNK1,TNK1,TNK1,Non-receptor tyrosine-protein kinase TNK1,TK,Ack,nan,Q13470
+TRIO,Trio,Trio,Triple functional domain protein,CAMK,Trio,nan,O75962
+NTRK1,TRKA,TRKA,High affinity nerve growth factor receptor,TK,Trk,nan,P04629
+NTRK2,TRKB,TRKB,BDNF/NT-3 growth factors receptor,TK,Trk,nan,Q16620
+NTRK3,TRKC,TRKC,NT-3 growth factor receptor,TK,Trk,nan,Q16288
+TRRAP,TRRAP,TRRAP,Transformation/transcription domain-associated protein,Atypical,PIKK,TRRAP,Q9Y4A5
+TTK,TTK,TTK,Dual specificity protein kinase TTK,Other,TTK,nan,P33981
+TXK,TXK,TXK,Tyrosine-protein kinase TXK,TK,Tec,nan,P42681
+TYK2,"TYK2_b, TYK2","TYK2, Domain2_TYK2",Non-receptor tyrosine-protein kinase TYK2,TK,"JakB, Jak",nan,P29597
+TYRO3,TYRO3,TYRO3,Tyrosine-protein kinase receptor TYRO3,TK,Axl,nan,Q06418
+ULK1,ULK1,ULK1,Serine/threonine-protein kinase ULK1,Other,ULK,nan,O75385
+ULK2,ULK2,ULK2,Serine/threonine-protein kinase ULK2,Other,ULK,nan,Q8IYT8
+VRK1,VRK1,VRK1,Serine/threonine-protein kinase VRK1,CK1,VRK,nan,Q99986
+VRK2,VRK2,VRK2,Serine/threonine-protein kinase VRK2,CK1,VRK,nan,Q86Y07
+WEE1,Wee1,Wee1,Wee1-like protein kinase,Other,WEE,nan,P30291
+YES1,YES,YES,Tyrosine-protein kinase Yes,TK,Src,nan,P07947
+STK25,YSK1,YSK1,Serine/threonine-protein kinase 25,STE,STE20,YSK,O00506
+ZAP70,ZAP70,ZAP70,Tyrosine-protein kinase ZAP-70,TK,Syk,nan,P43403
+MAP3K13,LZK,LZK,Mitogen-activated protein kinase kinase kinase 13,TKL,MLK,LZK,O43283
+DDR1,DDR1,DDR1,Epithelial discoidin domain-containing receptor 1,TK,DDR,nan,Q08345
+ADCK1,ADCK1,ADCK1,Uncharacterized aarF domain-containing protein kinase 1,Atypical,ABC1,ABC1-B,Q86TW2
+KDR,KDR,KDR,Vascular endothelial growth factor receptor 2,TK,VEGFR,nan,P35968
+ACVR1C,ALK7,ALK7,Activin receptor type-1C,TKL,STKR,STKR1,Q8NER5
+AURKB,AurB,AurB,Aurora kinase B,Other,Aur,nan,Q96GD4
+AURKA,AurA,AurA,Aurora kinase A,Other,Aur,nan,O14965
+MAPK7,Erk5,Erk5,Mitogen-activated protein kinase 7,CMGC,MAPK,ERK5,Q13164
+BUB1,BUB1,BUB1,Mitotic checkpoint serine/threonine-protein kinase BUB1,Other,BUB,nan,O43683
+DDR2,DDR2,DDR2,Discoidin domain-containing receptor 2,TK,DDR,nan,Q16832
+PTK7,CCK4,CCK4,Inactive tyrosine-protein kinase 7,TK,CCK4,nan,Q13308
+LIMK1,LIMK1,LIMK1,LIM domain kinase 1,TKL,LISK,LIMK,P53667
+AATK,LMR1,LMR1,Serine/threonine-protein kinase LMTK1,TK,Lmr,nan,Q6ZMQ8
+LMTK2,LMR2,LMR2,Serine/threonine-protein kinase LMTK2,TK,Lmr,nan,Q8IWU2
+LMTK3,LMR3,LMR3,Serine/threonine-protein kinase LMTK3,TK,Lmr,nan,Q96Q04
+EPHA7,EphA7,EphA7,Ephrin type-A receptor 7,TK,Eph,nan,Q15375
+BMX,BMX,BMX,Cytoplasmic tyrosine-protein kinase BMX,TK,Tec,nan,P51813
+MATK,CTK,CTK,Megakaryocyte-associated tyrosine-protein kinase,TK,Csk,nan,P42679
+FRK,FRK,FRK,Tyrosine-protein kinase FRK,TK,Src,nan,P42685
+NEK6,NEK6,NEK6,Serine/threonine-protein kinase Nek6,Other,NEK,nan,Q9HC98
+NEK7,NEK7,NEK7,Serine/threonine-protein kinase Nek7,Other,NEK,nan,Q8TDX7
+AAK1,AAK1,AAK1,AP2-associated protein kinase 1,Other,NAK,nan,Q2M2I8
+TRPM7,ChaK1,ChaK1,Transient receptor potential cation channel subfamily M member 7,Atypical,Alpha,ChaK,Q96QT4
+PTK2B,PYK2,PYK2,Protein-tyrosine kinase 2-beta,TK,FAK,nan,Q14289
+SRMS,SRM,SRM,Tyrosine-protein kinase Srms,TK,Src,nan,Q9H3Y6
+STK10,LOK,LOK,Serine/threonine-protein kinase 10,STE,STE20,SLK,O94804
+MAP4K3,KHS2,KHS2,Mitogen-activated protein kinase kinase kinase kinase 3,STE,STE20,KHS,Q8IVH8
+OXSR1,OSR1,OSR1,Serine/threonine-protein kinase OSR1,STE,STE20,FRAY,O95747
+PAK6,PAK6,PAK6,Serine/threonine-protein kinase PAK 6,STE,STE20,PAKB,Q9NQU5
+PAK4,PAK4,PAK4,Serine/threonine-protein kinase PAK 4,STE,STE20,PAKB,O96013
+STK26,MST4,MST4,Serine/threonine-protein kinase MST4,STE,STE20,YSK,Q9P289
+STK39,STLK3,STLK3,STE20/SPS1-related proline-alanine-rich protein kinase,STE,STE20,FRAY,Q9UEW8
+STRADA,STLK5,STLK5,STE20-related kinase adapter protein alpha,STE,STE20,STLK,Q7RTN6
+STRADB,STLK6,STLK6,STE20-related kinase adapter protein beta,STE,STE20,STLK,Q9C0K7
+TAOK3,TAO3,TAO3,Serine/threonine-protein kinase TAO3,STE,STE20,TAO,Q9H2K8
+TAOK1,TAO1,TAO1,Serine/threonine-protein kinase TAO1,STE,STE20,TAO,Q7L7X3
+MAP4K4,HGK,ZC1/HGK,Mitogen-activated protein kinase kinase kinase kinase 4,STE,STE20,MSN,O95819
+TNIK,TNIK,ZC2/TNIK,TRAF2 and NCK-interacting protein kinase,STE,STE20,MSN,Q9UKE5
+MINK1,MINK,ZC3/MINK,Misshapen-like kinase 1,STE,STE20,MSN,Q8N4C8
+NRK,NRK,ZC4/NRK,Nik-related protein kinase,STE,STE20,MSN,Q7Z2Y5
+LATS1,LATS1,LATS1,Serine/threonine-protein kinase LATS1,AGC,NDR,nan,O95835
+LATS2,LATS2,LATS2,Serine/threonine-protein kinase LATS2,AGC,NDR,nan,Q9NRM7
+CDK19,CDK11,CDK11,Cyclin-dependent kinase 19,CMGC,CDK,CDK8,Q9BWU1
+NIM1K,NIM1,NIM1,Serine/threonine-protein kinase NIM1,CAMK,CAMKL,NIM1,Q8IY84
+ULK3,ULK3,ULK3,Serine/threonine-protein kinase ULK3,Other,ULK,nan,Q6PHR2
+PDIK1L,CLIK1L,CLIK1L,Serine/threonine-protein kinase PDIK1L,Other,NKF4,nan,Q8N165
+TTBK2,TTBK2,TTBK2,Tau-tubulin kinase 2,CK1,TTBK,nan,Q6IQ55
+SCYL1,SCYL1,SCYL1,N-terminal kinase-like protein,Other,SCY1,nan,Q96KG9
+MASTL,MASTL,MASTL,Serine/threonine-protein kinase greatwall,AGC,MAST,nan,Q96GX5
+PINK1,PINK1,PINK1,Serine/threonine-protein kinase PINK1,Other,NKF2,nan,Q9BXM7
+ULK4,ULK4,ULK4,Serine/threonine-protein kinase ULK4,Other,ULK,nan,Q96C45
+MLKL,MLKL,MLKL,Mixed lineage kinase domain-like protein,TKL,TKL-Unique,nan,Q8NB16
+DCLK3,DCAMKL3,DCAMKL3,Serine/threonine-protein kinase DCLK3,CAMK,DCAMKL,nan,Q9C098
+PKDCC,SgK493,SgK493,Protein kinase domain-containing protein,Other,SgK493,nan,Q504Y2
+CDK15,PFTAIRE2,PFTAIRE2,Cyclin-dependent kinase 15,CMGC,CDK,PFTAIRE,Q96Q40
+STK33,STK33,STK33,Serine/threonine-protein kinase 33,CAMK,STK33,nan,Q9BYT3
+TP53RK,PRPK,PRPK,TP53-regulating kinase,Other,Bud32,nan,Q96S44
+MAPK15,Erk7,Erk7,Mitogen-activated protein kinase 15,CMGC,MAPK,ERK7,Q8TD08
+CDKL4,CDKL4,CDKL4,Cyclin-dependent kinase-like 4,CMGC,CDKL,nan,Q5MAI5
+SCYL3,SCYL3,SCYL3,Protein-associating with the carboxyl-terminal domain of ezrin,Other,SCY1,nan,Q8IZE3
+STK32C,YANK3,YANK3,Serine/threonine-protein kinase 32C,AGC,YANK,nan,Q86UX6
+NEK9,NEK9,NEK9,Serine/threonine-protein kinase Nek9,Other,NEK,nan,Q8TD19
+TSSK3,TSSK3,TSSK3,Testis-specific serine/threonine-protein kinase 3,CAMK,TSSK,nan,Q96PN8
+NUAK2,NuaK2,NuaK2,NUAK family SNF1-like kinase 2,CAMK,CAMKL,NuaK,Q9H093
+RPS6KL1,RSKL2,RSKL2,Ribosomal protein S6 kinase-like 1,AGC,RSKL,nan,Q9Y6S9
+TSSK2,TSSK2,TSSK2,Testis-specific serine/threonine-protein kinase 2,CAMK,TSSK,nan,Q96PF2
+SCYL2,SCYL2,SCYL2,SCY1-like protein 2,Other,SCY1,nan,Q6P3W7
+NEK8,NEK8,NEK8,Serine/threonine-protein kinase Nek8,Other,NEK,nan,Q86SG6
+ADRBK2,BARK2,BARK2,Beta-adrenergic receptor kinase 2,AGC,GRK,BARK,P35626
+NRBP1,NRBP1,NRBP1,Nuclear receptor-binding protein,Other,NRBP,nan,Q9UHY1
+PRKD2,PKD2,PKD2,Serine/threonine-protein kinase D2,CAMK,PKD,nan,Q9BZL6
+STK32B,YANK2,YANK2,Serine/threonine-protein kinase 32B,AGC,YANK,nan,Q9NY57
+CAMKK2,CaMKK2,CaMKK2,Calcium/calmodulin-dependent protein kinase kinase 2,Other,CAMKK,CAMKK-Meta,Q96RR4
+CDK20,CCRK,CCRK,Cyclin-dependent kinase 20,CMGC,CDK,nan,Q8IZL9
+CLK4,CLK4,CLK4,Dual specificity protein kinase CLK4,CMGC,CLK,nan,Q9HAZ1
+CDK12,CRK7,CRK7,Cyclin-dependent kinase 12,CMGC,CDK,CRK7,Q9NYV4
+STK17A,DRAK1,DRAK1,Serine/threonine-protein kinase 17A,CAMK,DAPK,nan,Q9UEE5
+STK17B,DRAK2,DRAK2,Serine/threonine-protein kinase 17B,CAMK,DAPK,nan,O94768
+DYRK3,DYRK3,DYRK3,Dual specificity tyrosine-phosphorylation-regulated kinase 3,CMGC,DYRK,DYRK2,O43781
+PRKD3,PKD3,PKD3,Serine/threonine-protein kinase D3,CAMK,PKD,nan,O94806
+EIF2AK4,"GCN2_b, GCN2","Domain2_GCN2, GCN2",Eukaryotic translation initiation factor 2-alpha kinase 4,"STE, Other","PEK, STE-Unique","nan, GCN2",Q9P2K8
+STK40,SgK495,SgK495,Serine/threonine-protein kinase 40,CAMK,SgK495,nan,Q8N2I9
+STK35,CLIK1,CLIK1,Serine/threonine-protein kinase 35,Other,NKF4,nan,Q8TDR2
+TNNI3K,HH498,HH498,Serine/threonine-protein kinase TNNI3K,TKL,MLK,HH498,Q59H18
+HIPK2,HIPK2,HIPK2,Homeodomain-interacting protein kinase 2,CMGC,DYRK,HIPK,Q9H2X6
+EIF2AK1,HRI,HRI,Eukaryotic translation initiation factor 2-alpha kinase 1,Other,PEK,nan,Q9BQI3
+ICK,ICK,ICK,Serine/threonine-protein kinase ICK,CMGC,RCK,nan,Q9UPZ9
+ERN2,IRE2,IRE2,Serine/threonine-protein kinase/endoribonuclease IRE2,Other,IRE,nan,Q76MJ5
+PASK,PASK,PASK,PAS domain-containing serine/threonine-protein kinase,CAMK,CAMKL,PASK,Q96RG2
+STK38L,NDR2,NDR2,Serine/threonine-protein kinase 38-like,AGC,NDR,nan,Q9Y2H1
+SIK3,QSK,QSK,Serine/threonine-protein kinase SIK3,CAMK,CAMKL,QIK,Q9Y2K2
+HUNK,HUNK,HUNK,Hormonally up-regulated neu tumor-associated kinase,CAMK,CAMKL,HUNK,P57058
+MAP3K6,MAP3K6,MAP3K6,Mitogen-activated protein kinase kinase kinase 6,STE,STE11,nan,O95382
+MOK,MOK,MOK,MAPK/MAK/MRK overlapping kinase,CMGC,RCK,nan,Q9UQ07
+STK16,MPSK1,MPSK1,Serine/threonine-protein kinase 16,Other,NAK,nan,O75716
+SRPK3,MSSK1,MSSK1,SRSF protein kinase 3,CMGC,SRPK,nan,Q9UPE1
+WNK1,Wnk1,Wnk1,Serine/threonine-protein kinase WNK1,Other,WNK,nan,Q9H4A3
+CDKL3,CDKL3,CDKL3,Cyclin-dependent kinase-like 3,CMGC,CDKL,nan,Q8IVW4
+PAK7,PAK5,PAK5,Serine/threonine-protein kinase PAK 7,STE,STE20,PAKB,Q9P286
+PKN3,PKN3,PKN3,Serine/threonine-protein kinase N3,AGC,PKN,nan,Q6P5Z2
+SIK2,QIK,QIK,Serine/threonine-protein kinase SIK2,CAMK,CAMKL,QIK,Q9H0K1
+MARK4,MARK4,MARK4,MAP/microtubule affinity-regulating kinase 4,CAMK,CAMKL,MARK,Q96L34
+DSTYK,SgK496,SgK496,Dual serine/threonine and tyrosine protein kinase,Other,Dusty,nan,Q6XUX3
+RPS6KC1,RSKL1,RSKL1,Ribosomal protein S6 kinase delta-1,AGC,RSKL,nan,Q96S38
+RPS6KA6,"RSK4_b, RSK4","RSK4, Domain2_RSK4",Ribosomal protein S6 kinase alpha-6,"CAMK, AGC","RSKb, RSK","RSKp90, RSKb",Q9UK32
+NRBP2,NRBP2,NRBP2,Nuclear receptor-binding protein 2,Other,NRBP,nan,Q9NSY0
+STKLD1,SgK071,SgK071,Protein kinase-like protein SgK071,Other,SgK071,nan,Q8NE28
+SGK2,SGK2,SGK2,Serine/threonine-protein kinase Sgk2,AGC,SGK,nan,Q9HBY8
+TSSK6,SSTK,SSTK,Testis-specific serine/threonine-protein kinase 6,CAMK,TSSK,nan,Q9BXA6
+SGK3,SGK3,SGK3,Serine/threonine-protein kinase Sgk3,AGC,SGK,nan,Q96BR1
+TTBK1,TTBK1,TTBK1,Tau-tubulin kinase 1,CK1,TTBK,nan,Q5TCY1
+DCLK2,DCAMKL2,DCAMKL2,Serine/threonine-protein kinase DCLK2,CAMK,DCAMKL,nan,Q8N568
+PXK,Slob,Slob,PX domain-containing protein kinase-like protein,Other,Slob,nan,Q7Z7A4
+PBK,PBK,PBK,Lymphokine-activated killer T-cell-originated protein kinase,Other,TOPK,nan,Q96KB5
+STYK1,SuRTK106,SuRTK106,Tyrosine-protein kinase STYK1,TK,TK-Unique,nan,Q6J9G0
+TBK1,TBK1,TBK1,Serine/threonine-protein kinase TBK1,Other,IKK,nan,Q9UHD2
+TESK2,TESK2,TESK2,Dual-specificity testis-specific protein kinase 2,TKL,LISK,TESK,Q96S53
+KALRN,Trad,Trad,HCG2039851,CAMK,Trio,nan,O60229
+TSSK4,TSSK4,TSSK4,Testis-specific serine/threonine-protein kinase 4,CAMK,TSSK,nan,Q6SA08
+VRK3,VRK3,VRK3,Inactive serine/threonine-protein kinase VRK3,CK1,VRK,nan,Q8IV63
+MYLK3,caMLCK,caMLCK,Myosin light chain kinase 3,CAMK,MLCK,nan,Q32MK0
+SPEG,"SPEG_b, SPEG","Domain2_SPEG, SPEG",Striated muscle preferentially expressed protein kinase,CAMK,Trio,nan,Q15772
+CSNK1A1L,CK1a2,CK1a2,Casein kinase I isoform alpha-like,CK1,CK1,nan,Q8N752
+RIPK4,ANKRD3,ANKRD3,Receptor-interacting serine/threonine-protein kinase 4,TKL,RIPK,nan,P57078
+NEK5,NEK5,NEK5,Serine/threonine-protein kinase Nek5,Other,NEK,nan,Q6P3R8
+CAMK1D,CaMK1d,CaMK1d,Calcium/calmodulin-dependent protein kinase type 1D,CAMK,CAMK1,nan,Q8IU85
+MAP3K19,MAP3K19,MAP3K8,Mitogen-activated protein kinase kinase kinase 19,STE,STE11,nan,Q56UN5
+NEK11,NEK11,NEK11,Serine/threonine-protein kinase Nek11,Other,NEK,nan,Q8NG66
+GRK7,GPRK7,GPRK7,G protein-coupled receptor kinase 7,AGC,GRK,GRK,Q8WTQ7
+SBK2,SgK069,SgK069,Serine/threonine-protein kinase SBK2,Other,NKF1,nan,P0C263
+HIPK4,HIPK4,HIPK4,Homeodomain-interacting protein kinase 4,CMGC,DYRK,HIPK,Q8NE63
+MYO3B,MYO3B,MYO3B,Myosin-IIIb,STE,STE20,NinaC,Q8WXR4
+WNK4,Wnk4,Wnk4,Serine/threonine-protein kinase WNK4,Other,WNK,nan,Q96J92
+SBK3,SgK110,SgK110,Putative uncharacterized serine/threonine-protein kinase SgK110,Other,NKF1,nan,P0C264
+BRSK1,BRSK1,BRSK1,Serine/threonine-protein kinase BRSK1,CAMK,CAMKL,BRSK,Q8TDC3
+OBSCN,"Obscn_b, Obscn","Obscn, Domain2_Obscn",Obscurin,CAMK,Trio,nan,Q5VST9
+PSKH2,PSKH2,PSKH2,Serine/threonine-protein kinase H2,CAMK,PSK,nan,Q96QS6
+SIK1,SIK,SIK,Serine/threonine-protein kinase SIK1,CAMK,CAMKL,QIK,P57059
+KSR2,KSR2,KSR2,Kinase suppressor of Ras 2,TKL,RAF,nan,Q6VAB6
+RIOK3,RIOK3,RIOK3,Serine/threonine-protein kinase RIO3,Atypical,RIO,RIO3,O14730
+ADCK3,ADCK3,ADCK3,Chaperone activity of bc1 complex-like,Atypical,ABC1,ABC1-A,Q8NI60
+RIOK1,RIOK1,RIOK1,Serine/threonine-protein kinase RIO1,Atypical,RIO,RIO1,Q9BRS2
+STK32A,YANK1,YANK1,Serine/threonine-protein kinase 32A,AGC,YANK,nan,Q8WU08
+SNRK,SNRK,SNRK,SNF-related serine/threonine-protein kinase,CAMK,CAMKL,SNRK,Q9NRH2
+EPHA10,EphA10,EphA10,Ephrin type-A receptor 10,TK,Eph,nan,Q5JZY3
+POMK,SgK196,SgK196,Protein kinase-like protein SgK196,Other,Other-Unique,nan,Q9H5K3
+MYO3A,MYO3A,MYO3A,Myosin-IIIa,STE,STE20,NinaC,Q8NEV4
+WNK3,Wnk3,Wnk3,Serine/threonine-protein kinase WNK3,Other,WNK,nan,Q9BYP7
+NEK10,NEK10,NEK10,Serine/threonine-protein kinase Nek10,Other,NEK,nan,Q6ZWH5
+EPHA6,EphA6,EphA6,Ephrin type-A receptor 6,TK,Eph,nan,Q9UF33
+CSNK1G1,CK1g1,CK1g1,Casein kinase I isoform gamma-1,CK1,CK1,nan,Q9HCP0
+PEAK1,SgK269,SgK269,Pseudopodium-enriched atypical kinase 1,Other,NKF3,nan,Q9H792
+SBK1,SBK,SBK,Serine/threonine-protein kinase SBK1,Other,NKF1,nan,Q52WX2
+STK31,SgK396,SgK396,Serine/threonine-protein kinase 31,Other,Other-Unique,nan,Q9BXU1
+ANKK1,SgK288,SgK288,Ankyrin repeat and protein kinase domain-containing protein 1,TKL,RIPK,nan,Q8NFD2
+UHMK1,KIS,KIS,Serine/threonine-protein kinase Kist,Other,KIS,nan,Q8TAS1
+PNCK,CaMK1b,CaMK1b,Calcium/calmodulin-dependent protein kinase type 1B,CAMK,CAMK1,nan,Q6P2M8
+TBCK,TBCK,TBCK,TBC domain-containing protein kinase-like protein,Other,TBCK,nan,Q8TEA7
+SMG1,SMG1,SMG1,Serine/threonine-protein kinase SMG1,Atypical,PIKK,SMG1,Q96Q15
+MYLK2,skMLCK,skMLCK,Myosin light chain kinase 2,CAMK,MLCK,nan,Q9H1R3
+MAP3K15,MAP3K7,MAP3K7,Mitogen-activated protein kinase kinase kinase 15,STE,STE11,nan,Q6ZN16
+LRRK2,LRRK2,LRRK2,Leucine-rich repeat serine/threonine-protein kinase 2,TKL,LRRK,nan,Q5S007
+GSG2,Haspin,Haspin,Serine/threonine-protein kinase haspin,Other,Haspin,nan,Q8TF76
+TRIB3,Trb3,Trb3,Tribbles homolog 3,CAMK,Trbl,nan,Q96RU7
+CIT,CRIK,CRIK,Citron Rho-interacting kinase,AGC,DMPK,nan,O14578
+CAMKK1,CaMKK1,CaMKK1,Calcium/calmodulin-dependent protein kinase kinase 1,Other,CAMKK,CAMKK-Meta,Q8N5S9
+LRRK1,LRRK1,LRRK1,Leucine-rich repeat serine/threonine-protein kinase 1,TKL,LRRK,nan,Q38SD2
+TEX14,"SgK307, SgK424","SgK307, SgK424",Inactive serine/threonine-protein kinase TEX14,Other,NKF5,nan,Q8IWB6
+MAST4,MAST4,MAST4,Microtubule-associated serine/threonine-protein kinase 4,AGC,MAST,nan,O15021
+CAMK2D,CaMK2d,CaMK2d,Calcium/calmodulin-dependent protein kinase type II subunit delta,CAMK,CAMK2,nan,Q13557
+BMP2K,BIKE,BIKE,BMP-2-inducible protein kinase,Other,NAK,nan,Q9NSY1
+TSSK1B,TSSK1,TSSK1,Testis-specific serine/threonine-protein kinase 1,CAMK,TSSK,nan,Q9BXA7
+MYLK4,SgK085,SgK085,Myosin light chain kinase family member 4,CAMK,MLCK,nan,Q86YV6
+ADCK2,ADCK2,ADCK2,Uncharacterized aarF domain-containing protein kinase 2,Atypical,ABC1,ABC1-C,Q7Z695
+DAPK3,DAPK3,DAPK3,Death-associated protein kinase 3,CAMK,DAPK,nan,O43293
+WEE2,Wee1B,Wee1B,Wee1-like protein kinase 2,Other,WEE,nan,P0C1S8
+RNASEL,RNAseL,RNAseL,2-5A-dependent ribonuclease,Other,Other-Unique,nan,Q05823
+TRPM6,ChaK2,ChaK2,Transient receptor potential cation channel subfamily M member 6,Atypical,Alpha,ChaK,Q9BX84
+RIOK2,RIOK2,RIOK2,Serine/threonine-protein kinase RIO2,Atypical,RIO,RIO2,Q9BVS4
+ALPK2,AlphaK2,AlphaK2,Alpha-protein kinase 2,Atypical,Alpha,nan,Q86TB3
+ALPK1,AlphaK3,AlphaK3,Alpha-protein kinase 1,Atypical,Alpha,nan,Q96QP1
+BRD2,BRD2,BRD2,Bromodomain-containing protein 2,Atypical,BRD,nan,P25440
+BRD3,BRD3,BRD3,Bromodomain-containing protein 3,Atypical,BRD,nan,Q15059
+BRD4,BRD4,BRD4,BRD4 protein,Atypical,BRD,nan,O60885
+BRDT,BRDT,BRDT,Bromodomain testis-specific protein,Atypical,BRD,nan,Q58F21
+ALPK3,AlphaK1,AlphaK1,Alpha-protein kinase 3,Atypical,Alpha,nan,Q96L96
+ADCK5,ADCK5,ADCK5,Uncharacterized aarF domain-containing protein kinase 5,Atypical,ABC1,ABC1-D,Q3MIX3
+TRIM24,TIF1a,TIF1a,Transcription intermediary factor 1-alpha,Atypical,TIF1,nan,O15164
+TRIM28,TIF1b,TIF1b,Transcription intermediary factor 1-beta,Atypical,TIF1,nan,Q13263
+TRIM33,TIF1g,TIF1g,E3 ubiquitin-protein ligase TRIM33,Atypical,TIF1,nan,Q9UPN9
+PAN3,PAN3,PAN3,PAB-dependent poly(A)-specific ribonuclease subunit 3,Other,PAN3,nan,Q58A45
+FASTK,FASTK,FASTK,Fas-activated serine/threonine kinase,Atypical,FAST,nan,Q14296
+STK19,G11,G11,Serine/threonine-protein kinase 19,Atypical,G11,nan,P49842
+TAF1,TAF1,TAF1,Transcription initiation factor TFIID subunit 1,Atypical,TAF1,nan,P21675
+TAF1L,TAF1L,TAF1L,Transcription initiation factor TFIID subunit 1-like,Atypical,TAF1,nan,Q8IZX4
+BCR,BCR,BCR,Breakpoint cluster region protein,Atypical,BCR,nan,P11274
+ABR,ABR,ABR,Active breakpoint cluster region-related protein,Atypical,BCR,nan,Q12979
+TRIM66,TIF1D,TIF1D,Tripartite motif-containing protein 66,Atypical,TIF1,nan,B5MCJ9
+COL4A3BP,Col4A3BP,Col4A3BP,Collagen type IV alpha-3-binding protein,Atypical,Col4A3BP,nan,Q9Y5P4
+BLVRA,BLVRA,BLVRA,Biliverdin reductase A,Atypical,BLVRA,nan,P53004
+BAZ1A,BAZ1A,BAZ1A,Bromodomain adjacent to zinc finger domain protein 1A,Atypical,BAZ,nan,Q9NRL2
+BAZ1B,BAZ1B,BAZ1B,Tyrosine-protein kinase BAZ1B,Atypical,BAZ,nan,Q9UIG0
diff --git a/data/kinhub_klifs.csv b/data/kinhub_klifs.csv
new file mode 100644
index 0000000..3603001
--- /dev/null
+++ b/data/kinhub_klifs.csv
@@ -0,0 +1,518 @@
+family,full_name,gene_name,group,iuphar,kinase_ID,name,pocket,species,subfamily,uniprot
+Abl,"ABL proto-oncogene 1, non-receptor tyrosine kinase",ABL1,TK,1923,392,ABL1,HKLGGGQYGEVYEVAVKTLEFLKEAAVMKEIKPNLVQLLGVYIITEFMTYGNLLDYLREYLEKKNFIHRDLAARNCLVVADFGLS,Human,,P00519
+Ack,"tyrosine kinase, non-receptor, 2",TNK2,TK,2246,394,ACK,EKLGDGSFGVVRRVAVKCLDFIREVNAMHSLDRNLIRLYGVKMVTELAPLGSLLDRLRKYLESKRFIHRDLAARNLLLIGDFGLM,Human,,Q07912
+STKR,activin A receptor type IIA,ACVR2A,TKL,1791,523,ACTR2,EVKARGRFGCVWKVAVKIFSWQNEYEVYSLPGENILQFIGAWLITAFHEKGSLSDFLKADGHKPAISHRDIKSKNVLLIADFGLA,Human,Type2,P27037
+STKR,activin A receptor type IIB,ACVR2B,TKL,1792,524,ACTR2B,EIKARGRFGCVWKVAVKIFSWQSEREIFSTPGENLLQFIAAWLITAFHDKGSLTDYLKGEGHKPSIAHRDFKSKNVLLLADFGLA,Human,Type2,Q13705
+ABC1,"Atypical kinase COQ8B, mitochondrial",COQ8B,Atypical,1928,71,ADCK4,VPFAAASIGQVHQVAVKIQDYRREAACAQNFRFRVPAVVKETRVLGMELGVPLDQCQGLELFEFRFMQTDPNWANFLYLLDFGAS,Human,ABC1-,Q96D53
+Trbl,tribbles pseudokinase 1,TRIB1,CAMK,0,170,Trb1,LLLPLAEREHVSRLRCKVFYQDKIRPYIQLPSSNITGIVEVYVFFEKDF-GDMHSYVRSHCHQSAIVLGDLKLRKFVFLRLESLE,Human,,Q96RU8
+CAMKL,BR serine/threonine kinase 2,BRSK2,CAMK,1947,119,BRSK2,KTLGKGQTGLVKLVAIKIVKVEREIAILKLIEPHVLKLHDVYLVLEHVSGGELFDYLVKFCHSHSICHRDLKPENLLLIADFGMA,Human,BRSK,Q8IWQ3
+WNK,WNK lysine deficient protein kinase 2,WNK2,Other,0,339,Wnk2,IELGRGSFKTVYKVAWCELRFKEEAEMLKGLQPNIVRFYDFVLVTELMTSGTLKTYLKRHTRTPPIIHRDLKCDNIFIIGDLGLA,Human,,Q9Y3S1
+Akt,v-akt murine thymoma viral oncogene homolog 1,AKT1,AGC,1479,1,AKT1,KLLGKGTFGKVILYAMKILHTLTENRVLQNSRPFLTALKYSCFVMEYANGGELFFHLSRLHSEKNVVYRDLKLENLMLITDFGLC,Human,,P31749
+Akt,v-akt murine thymoma viral oncogene homolog 2,AKT2,AGC,1480,2,AKT2,KLLGKGTFGKVILYAMKILHTVTESRVLQNTRPFLTALKYACFVMEYANGGELFFHLSRYLHSRDVVYRDIKLENLMLITDFGLC,Human,,P31751
+Akt,v-akt murine thymoma viral oncogene homolog 3,AKT3,AGC,2286,3,AKT3,KLLGKGTFGKVILYAMKILHTLTESRVLKNTRPFLTSLKYSCFVMEYVNGGELFFHLSRYLHSGKIVYRDLKLENLMLITDFGLC,Human,,Q9Y243
+CAMK1,calcium/calmodulin dependent protein kinase IG,CAMK1G,CAMK,1954,111,CaMK1g,EVLGSGAFSEVFLFALKCISLENEIAVLKKIKENIVTLEDIYLVMQLVSGGELFDRILEYLHENGIVHRDLKPENLLYITDFGLS,Human,,Q96NX5
+ALK,anaplastic lymphoma receptor tyrosine kinase,ALK,TK,1839,396,ALK,RGLGHGAFGEVYEVAVKTLDFLMEALIISKFNQNIVRCIGVFILLELMAGGDLKSFLREYLEENHFIHRDIAARNCLLIGDFGMA,Human,,Q9UM73
+STKR,activin A receptor type IL,ACVRL1,TKL,1784,518,ALK1,ECVGKGRYGEVWRVAVKIFSWFRETEIYNTVLDNILGFIASWLITHYHEHGSLYDFLQRTQGKPAIAHRDFKSRNVLVIADLGLA,Human,Type1,P37023
+STKR,activin A receptor type I,ACVR1,TKL,1785,516,ALK2,ECVGKGRYGEVWRVAVKIFSWFRETELYNTVMENILGFIASWLITHYHEMGSLYDYLQLTQGKPAIAHRDLKSKNILVIADLGLA,Human,Type1,Q04771
+STKR,bone morphogenetic protein receptor type 1A,BMPR1A,TKL,1786,519,BMPR1A,RQVGKGRYGEVWMVAVKVFSWFRETEIYQTVLENILGFIAAYLITDYHENGSLYDFLKCTQGKPAIAHRDLKSKNILIIADLGLA,Human,Type1,P36894
+STKR,activin A receptor type IB,ACVR1B,TKL,1787,517,ALK4,EIIGKGRFGEVWRVAVKIFSWFREAEIYQTVMENILGFIAAWLVSDYHEHGSLFDYLNRTQGKPGIAHRDLKSKNILVIADLGLA,Human,Type1,P36896
+STKR,transforming growth factor beta receptor I,TGFBR1,TKL,1788,521,TGFbR1,ESIGKGRFGEVWRVAVKIFSWFREAEIYQTVMENILGFIAAWLVSDYHEHGSLFDYLNRTQGKPAIAHRDLKSKNILVIADLGLA,Human,Type1,P36897
+STKR,bone morphogenetic protein receptor type 1B,BMPR1B,TKL,1789,520,BMPR1B,KQIGKGRYGEVWMVAVKVFSWFRETEIYQTVLENILGFIAAYLITDYHENGSLYDYLKSTQGKPAIAHRDLKSKNILVIADLGLA,Human,Type1,O00238
+CAMKL,protein kinase AMP-activated catalytic subunit alpha 1,PRKAA1,CAMK,1541,117,AMPKa1,DTLGVGTFGKVKVVAVKILKIRREIQNLKLFRPHIIKLYQVFMVMEYVSGGELFDYICKYCHRHMVVHRDLKPENVLLIADFGLS,Human,AMPK,Q13131
+CAMKL,protein kinase AMP-activated catalytic subunit alpha 2,PRKAA2,CAMK,1542,118,AMPKa2,DTLGVGTFGKVKIVAVKILKIKREIQNLKLFRPHIIKLYQVFMVMEYVSGGELFDYICKYCHRHMVVHRDLKPENVLLIADFGLS,Human,AMPK,P54646
+RGC,natriuretic peptide receptor 1,NPR1,RGC,1747,343,ANPa,TLSGRGSNYGSLLVAVKRVKVLFELKHMRDVQEHLTRFVGACILTEYCPRGSLQDILENLHNGAICSHGNLKSSNCVVITDYGLE,Human,,P16066
+RGC,natriuretic peptide receptor 2,NPR2,RGC,0,344,ANPb,TLSLRGSSYGSLMVAIKHVQVLFELKHMRDVQNHLTRFIGACIVTEYCPRGSLQDILENLHNSIISSHGSLKSSNCVVITDYGLA,Human,,P20594
+RAF,"A-Raf proto-oncogene, serine/threonine kinase",ARAF,TKL,1933,508,ARAF,KRIGTGSFGTVFRVAVKVLAFKNEMQVLRKTRVNILLFMGFAIITQWCEGSSLYHHLHVYLHAKNIIHRDLKSNNIFLIGDFGLA,Human,RAF,P10398
+Abl,"ABL proto-oncogene 2, non-receptor tyrosine kinase",ABL2,TK,1924,393,ABL2,HKLGGGQYGEVYVVAVKTLEFLKEAAVMKEIKPNLVQLLGVYIVTEYMPYGNLLDYLREYLEKKNFIHRDLAARNCLVVADFGLS,Human,,P42684
+PIKK,Serine-protein kinase ATM,ATM,Atypical,1934,94,ATM,LAGGVNLPKIIDCQLVKGRDLRQDAVMQQVFQLTICTYKVVSGVLEWCTTVPIGEFLVNVGYI--LGLGDRHVQNILIHIDLGVA,Human,ATM,Q13315
+PIKK,Serine/threonine-protein kinase ATR,ATR,Atypical,1935,95,ATR,LASLQKPKKISLKMMCKPKDLRKDCRLMEFNSLHIRTYAVICGIIEWVNTAGLRPILTKVGYI--LGLGDRHGENILFHVDFNCL,Human,ATR,Q13535
+Aur,aurora kinase C,AURKC,Other,1938,260,AurC,RPLGKGKFGNVYLVALKVLQLRREIEIQAHLQPNILRLYNYYLILEYAPRGELYKELQKYCHDKKVIHRDIKPENLLLIADFGWS,Human,,Q9UQB9
+Axl,AXL receptor tyrosine kinase,AXL,TK,1835,398,AXL,KTLGEGEFGAVMEVAVKTMDFLSEAVCMKEFDPNVMRLIGVVVILPFMKHGDLHSFLLYYLSTKRFIHRDLAARNCMLVADFGLS,Human,,P30530
+GRK,"adrenergic, beta, receptor kinase 1",GRK2,AGC,1466,11,BARK1,RIIGRGGFGEVYGYAMKCLLALNERIMLSLVSPFIVCMSYASFILDLMNGGDLHYHLSQHMHNRFVVYRDLKPANILLISDLGLA,Human,BARK,P25098
+PDHK,"[3-methyl-2-oxobutanoate dehydrogenase [lipoamide]] kinase, mitochondrial",BCKDK,Atypical,1939,89,BCKDK,,Human,BCKDK,O14874
+STE20,mitogen-activated protein kinase kinase kinase kinase 2,MAP4K2,STE,2086,1105,Map4k2,QRVGAGTYGDVYKAAVKIVSLQQEITILRECRPNVVAYIGSWICMEFCGGGSLQEIYHAHLHSQGKIHRDIKGANLLLLADFGVS,Human,KHS,Q12851
+Src,"BLK proto-oncogene, Src family tyrosine kinase",BLK,TK,1940,464,BLK,RKLGSGQFGEVWMVAIKTLAFLGEANVMKALQERLVRLYAVYIVTEYMARGCLLDFLKTYIERMNSIHRDLRAANILVIADFGLA,Human,SrcB,P51451
+RAF,"B-Raf proto-oncogene, serine/threonine kinase",BRAF,TKL,1943,509,BRAF,QRIGSGSFGTVYKVAVKMLAFKNEVGVLRKTRVNILLFMGYAIVTQWCEGSSLYHHLHIYLHAKSIIHRDLKSNNIFLIGDFGLA,Human,RAF,P15056
+Src,protein tyrosine kinase 6,PTK6,TK,2182,468,BRK,RKLGSGYFGEVFEVAIKVIMLQSEIQAMKKLRKHILALYAVYIITELMAKGSLLELLRDYLESQNYIHRDLAARNILVVGDFGLA,Human,SRM,Q13882
+Tec,Bruton tyrosine kinase,BTK,TK,1948,473,BTK,KELGTGQFGVVKYVAIKMIEFIEEAKVMMNLSEKLVQLYGVFIITEYMANGCLLNYLREYLESKQFLHRDLAARNCLVVSDFGLS,Human,,Q06187
+BUB,BUB1 mitotic checkpoint serine/threonine kinase B,BUB1B,Other,0,263,BUBR1,IELGNEDYCIKRETVIKVSINLKLKERLN---DFDHFCSCYIVWHQYINCFTLQDLLQHMLHKAEIVHGDLSPRCLILIVDFSYS,Human,,O60566
+CDK,cyclin-dependent kinase 7,CDK7,CMGC,1979,204,CDK7,DFLGEGQFATVYKVAIKKITALREIKLLQELSPNIIGLLDASLVFDFME-TDLEVIIKDYLHQHWILHRDLKPNNLLLLADFGLA,Human,CDK7,P50613
+CAMK1,calcium/calmodulin-dependent protein kinase I,CAMK1,CAMK,1952,109,CaMK1a,DVLGTGAFSEVILVAIKCISMENEIAVLHKIKPNIVALDDIYLIMQLVSGGELFDRIVEYLHDLGIVHRDLKPENLLYISDFGLS,Human,,Q14012
+CAMK2,calcium/calmodulin-dependent protein kinase II alpha,CAMK2A,CAMK,1555,113,CaMK2a,EELGKGAFSVVRRYAAKIIKLEREARICRLLKPNIVRLHDSYLIFDLVTGGELFEDIVAHCHQMGVVHRDLKPENLLLLADFGLA,Human,,Q9UQM7
+CAMK2,calcium/calmodulin-dependent protein kinase II beta,CAMK2B,CAMK,1556,114,CaMK2b,EDIGKGAFSVVRRYAAKIIKLEREARICRLLKSNIVRLHDSYLVFDLVTGGELFEDIVAHCHQMGVVHRDLKPENLLLLADFGLA,Human,,Q13554
+CAMK2,calcium/calmodulin-dependent protein kinase II gamma,CAMK2G,CAMK,0,116,CaMK2g,EELGKGAFSVVRRYAAKIIKLEREARICRLLKPNIVRLHDSYLVFDLVTGGELFEDIVAHIHQHDIVHRDLKPENLLLLADFGLA,Human,,Q13555
+CAMK1,calcium/calmodulin-dependent protein kinase IV,CAMK4,CAMK,1955,108,CaMK4,SELGRGATSIVYRYALKVLIVRTEIGVLLRLSPNIIKLKEISLVLELVTGGELFDRIVEYLHENGIVHRDLKPENLLYIADFGLS,Human,,Q16566
+CAMK-Unique,CaM kinase-like vesicle-associated,CAMKV,CAMK,0,138,VACAMKL,QVIKTEEFCEIFRHTCKKFAAKNEIGILKMVKPNILQLVDVFIFLELATGREVFDWILDYLHSLKIVHRNLKLENLVYISDFHLA,Human,,Q8NCB2
+DCAMKL,doublecortin like kinase 1,DCLK1,CAMK,2005,145,DCLK1,RTIGDGNFAVVKEYALKIIMIQNEVSILRRVKPNIVLLIEEYLVMELVKGGDLFDAITSYLHSLNIVHRDIKPENLLVLGDFGLA,Human,,O15075
+CASK,calcium/calmodulin-dependent serine protein kinase (MAGUK family),CASK,CAMK,1959,139,CASK,EVIGKGPFSVVRRFAVKIVDLKREASICHMLKPHIVELLETYMVFEFMDGADLCFEIVKYCHDNNIIHRDVKPHCVLLLGGFGVA,Human,,O14936
+CDK,cyclin-dependent kinase 1,CDK1,CMGC,1961,197,CDC2,EKIGEGTYGVVYKVAMKKITAIREISLLKELRPNIVSLQDVYLIFEFLS-MDLKKYLDSFCHSRRVLHRDLKPQNLLILADFGLA,Human,CDC2,P06493
+CDC7,cell division cycle 7,CDC7,Other,1960,267,CDC7,DKIGEGTFSSVYLIALKHLRIAAELQCLTVAGDNVMGVKYCVIAMPYLE-HESFLD--IRIHQFGIVHRDVKPSNFLYLVDFGLA,Human,,O00311
+CDK,cyclin-dependent kinase 2,CDK2,CMGC,1973,198,CDK2,EKIGEGTYGVVYKVALKKITAIREISLLKELNPNIVKLLDVYLVFEFLH-QDLKKFMDAFCHSHRVLHRDLKPQNLLILADFGLA,Human,CDC2,P24941
+CDK,cyclin-dependent kinase 3,CDK3,CMGC,1975,199,CDK3,EKIGEGTYGVVYKVALKKITAIREISLLKELKPNIVRLLDVYLVFEFLS-QDLKKYMDSFCHSHRVIHRDLKPQNLLILADFGLA,Human,CDC2,Q00526
+CDK,cyclin-dependent kinase 4,CDK4,CMGC,1976,201,CDK4,AEIGVGAYGTVYKVALKSVSTVREVALLRRLEPNVVRLMDVTLVFEHVD-QDLRTYLDKFLHANCIVHRDLKPENILVLADFGLA,Human,CDK4,P11802
+CDK,cyclin-dependent kinase 5,CDK5,CMGC,1977,203,CDK5,EKIGEGTYGTVFKVALKRVSALREICLLKELKKNIVRLHDVTLVFEFCD-QDLKKYFDSFCHSRNVLHRDLKPQNLLILADFGLA,Human,CDK5,Q00535
+CDK,cyclin-dependent kinase 6,CDK6,CMGC,1978,202,CDK6,AEIGEGAYGKVFKVALKRVSTIREVAVLRHLEPNVVRLFDVTLVFEHVD-QDLTTYLDKFLHSHRVVHRDLKPQNILVLADFGLA,Human,CDK4,Q00534
+CDK,cyclin-dependent kinase 8,CDK8,CMGC,1980,205,CDK8,CKVGRGTYGHVYKYALKQISACREIALLRELKPNVISLQKVWLLFDYAE-HDLWHIIKFYLHANWVLHRDLKPANILVIADMGFA,Human,CDK8,P49336
+PKG,"protein kinase, cGMP-dependent, type I",PRKG1,AGC,1492,42,PKG1,DTLGVGGFGRVELFAMKILHIRSEKQIMQGAHDFIVRLYRTYMLMEACLGGELWTILRDYLHSKGIIYRDLKPENLILLVDFGFA,Human,,Q13976
+PKG,"protein kinase, cGMP-dependent, type II",PRKG2,AGC,1493,43,PKG2,ATLGVGGFGRVELFAMKCIHVYSEKRILEELCPFIVKLYRTYMLLEACLGGELWSILRDYLHRLGIIYRDLKPENLILLVDFGFA,Human,,Q13237
+CDK,cyclin-dependent kinase 13,CDK13,CMGC,1966,208,CHED,GIIGEGTYGQVYKVALKKVTAIREIKILRQLTQSIINMKEIYLVFEYMD-HDLMGLLESYCHKKNFLHRDIKCSNILLLADFGLA,Human,CRK7,Q14004
+CAMKL,checkpoint kinase 1,CHEK1,CAMK,1987,121,CHK1,QTLGEGAYGEVQLVAVKIVNIKKEICINKMLNENVVKFYGHYLFLEYCSGGELFDRIEPYLHGIGITHRDIKPENLLLISDFGLA,Human,CHK1,O14757
+RAD53,checkpoint kinase 2,CHEK2,CAMK,1988,168,CHK2,KTLGSGACGEVKLVAIKIINVETEIEILKKLNPCIIKIKNFYIVLELMEGGELFDKVVGYLHENGIIHRDLKPENVLLITDFGHS,Human,,O96017
+CK1,casein kinase 1 alpha 1,CSNK1A1,CK1,1995,184,CK1a,RKIGSGSFGDIYLVAVKLEQLLYESKLYKILQVGIPHIRWYVLVMDLLG-PSLEDLFNFYVHTKNFIHRDIKPDNFLMLIDFGLA,Human,CK1-A,P48729
+CK1,casein kinase 1 delta,CSNK1D,CK1,1997,186,CK1d,RKIGSGSFGDIYLVAIKLEQLHIESKIYKMMQVGIPTIRWCVMVMELLG-PSLEDLFNFYIHSKNFIHRDVKPDNFLMIIDFGLA,Human,CK1-D,P48730
+CK1,casein kinase 1 epsilon,CSNK1E,CK1,1998,187,CK1e,RKIGSGSFGDIYLVAIKLEQLHIESKFYKMMQVGIPSIKWCVMVMELLG-PSLEDLFNFYIHSKNFIHRDVKPDNFLMIIDFGLA,Human,CK1-D,P49674
+CK1,casein kinase 1 gamma 2,CSNK1G2,CK1,2000,188,CK1g2,KKIGCGNFGELRLVAIKLEQLHLEYRFYKQLSEGVPQVYYFAMVLELLG-PSLEDLFDLYVHTKSLIYRDVKPENFLVIIDFGLA,Human,CK1-G,P78368
+CK1,casein kinase 1 gamma 3,CSNK1G3,CK1,2001,189,CK1g3,KKIGCGNFGELRLVAIKLEQLHLEYRFYKQLGDGIPQVYYFAMVLELLG-PSLEDLFDLYVHSKNLIYRDVKPENFLIIIDFGLA,Human,CK1-G,Q9Y6M4
+CK2,casein kinase 2 alpha 1,CSNK2A1,CMGC,1549,221,CK2a1,RKLGRGKYSEVFEVVVKILKIKREIKILENLRPNIITLADIALVFEHVN-NTDFKQ--LYCHSMGIMHRDVKPHNVMILIDWGLA,Human,,P68400
+CK2,casein kinase 2 alpha 2,CSNK2A2,CMGC,1550,222,CK2a2,RKLGRGKYSEVFEVVVKILKIKREVKILENLRTNIIKLIDTALVFEYIN-NTDFKQLYQYCHSKGIMHRDVKPHNVMILIDWGLA,Human,,P19784
+CLK,CDC like kinase 1,CLK1,CMGC,1990,223,CLK1,DTLGEGAFGKVVEVAVKIVAARSEIQVLEHLNFRCVQMLEWCIVFELLG-LSTYDFIKEFLHSNKLTHTDLKPENILFVVDFGSA,Human,,P49759
+CLK,CDC like kinase 2,CLK2,CMGC,1991,224,CLK2,STLGEGTFGRVVQVALKIIAARLEINVLEKINNLCVQMFDWCISFELLG-LSTFDFLKDFLHDNKLTHTDLKPENILFVVDFGSA,Human,,P49760
+CLK,CDC like kinase 3,CLK3,CMGC,1992,225,CLK3,GNLGEGTFGKVVEVALKIIAARLEINVLKKIKFLCVLMSDWCIAFELLG-KNTFEFLKEFLHENQLTHTDLKPENILFVADFGSA,Human,,P49761
+STE-Unique,mitogen-activated protein kinase kinase kinase 8,MAP3K8,STE,2083,390,COT,DFIPRGAFGKVYLMACKLIFKPSDVEIQACFRENIAELYGAHLFMEAGEGGSVLEKLESFLHSKKVIHHDIKPSNIVFLVDFGLS,Human,,P41279
+PDGFR,colony stimulating factor 1 receptor,CSF1R,TK,1806,449,FMS,KTLGAGAFGKVVEVAVKMLALMSELKIMSHLGENIVNLLGALVITEYCCYGDLLNFLRRFLASKNCIHRDVAARNVLLIGDFGLA,Human,,P07333
+Csk,c-src tyrosine kinase,CSK,TK,1994,402,CSK,QTIGKGEFGDVMLVAVKCIAFLAEASVMTQLRSNLVQLLGVYIVTEYMAKGSLVDYLRSYLEGNNFVHRDLAARNVLVVSDFGLT,Human,,P41240
+CAMKL,microtubule affinity regulating kinase 3,MARK3,CAMK,2099,126,MARK3,KTIGKGNFAKVKLVAIKIIKLFREVRIMKILNPNIVKLFEVYLIMEYASGGEVFDYLVAYCHQKRIVHRDLKAENLLLIADFGFS,Human,MARK,P27448
+RGC,"guanylate cyclase 2D, membrane (retina-specific)",GUCY2D,RGC,0,342,CYGD,SDIRSGPSQHLDSVWLKKFATKTAFSKLQELRENVALYLGLAVVSEHCTRGSLQDLLAQYLHHRGVAHGRLKSRNCIVITDHGHG,Human,,Q02846
+RGC,"guanylate cyclase 2F, retinal",GUCY2F,RGC,0,341,CYGF,SEVQSGRSPRLSFVWLKKFRASDVFEMMKDLRENINPLLGFAIVTEFCSRGSLEDILTNYLHHREFVHGRLKSRNCVVVTDYGFN,Human,,P51841
+DAPK,death-associated protein kinase 1,DAPK1,CAMK,2002,140,DAPK1,EELGSGQFAVVKKYAAKFIDIEREVSILKEIQPNVITLHEVILILELVAGGELFDFLAEYLHSLQIAHFDLKPENIMLIIDFGLA,Human,DAPK,P53355
+DAPK,death-associated protein kinase 2,DAPK2,CAMK,2003,142,DAPK2,EELGSGQFAIVKKYAAKFIEIEREVSILRQVLHNVITLHDVVLILELVSGGELFDFLAQYLHTKKIAHFDLKPENIMLLIDFGLA,Human,DAPK,Q9UIK4
+MLK,mitogen-activated protein kinase kinase kinase 12,MAP3K12,TKL,2072,498,DLK,QWVGSGAQGAVFLVAVKKVLKETDIKHLRKLKPNIITFKGVCILMEFCAQGQLYEVLRAYLHLHKIIHRDLKSPNMLIISDFGTS,Human,LZK,Q12852
+DMPK,dystrophia myotonica protein kinase,DMPK,AGC,1505,5,DMPK1,KVIGRGAFSEVAVYAMKIMCFREERDVLVNGDRWITQLHFAYLVMEYYVGGDLLTLLSKSVHRLGYVHRDIKPDNILLLADFGSC,Human,GEK,Q09013
+DMPK,CDC42 binding protein kinase gamma,CDC42BPG,AGC,1506,8,DMPK2,KVIGRGAFGEVTVFAMKMLCFREERDVLVKGDRWVTTLHYAYLVMDYYAGGDLLTLLSRSLHQLGYVHRDVKPDNVLLLADFGSC,Human,GEK,Q6DT37
+,,,,,,,,,,P78527
+DYRK,dual specificity tyrosine phosphorylation regulated kinase 1B,DYRK1B,CMGC,2010,228,DYRK1B,SLIGKGSFGQVVKVAIKIIQAQIELRLLELMNYYIVHLKRHCLVFELLS-YNLYDLLRNATPELSIIHCDLKPENILLIVDFGSS,Human,DYRK1,Q9Y463
+DYRK,dual specificity tyrosine phosphorylation regulated kinase 2,DYRK2,CMGC,2011,230,DYRK2,KVIGKGSFGQVVKVALKMVQAAEEIRILEHLRMNVIHMLENCMTFELLS-MNLYELIKKALHKNRIIHCDLKPENILLVIDFGSS,Human,DYRK2,Q92630
+DYRK,dual specificity tyrosine phosphorylation regulated kinase 4,DYRK4,CMGC,2013,231,DYRK4,ETIGKGSFGQVAKVALKIIQALMELKILEALRYNVVHMKDFCITFELLG-INLYELMKNMLSVEKIIHCDLKPENIVLVIDFGSS,Human,DYRK2,Q9NR20
+Alpha,Eukaryotic elongation factor 2 kinase,EEF2K,Atypical,2014,80,eEF2K,,Human,eEF2K,O00418
+EGFR,epidermal growth factor receptor,EGFR,TK,1797,406,EGFR,KVLGSGAFGTVYKVAIKELEILDEAYVMASVDPHVCRLLGIQLITQLMPFGCLLDYVREYLEDRRLVHRDLAARNVLVITDFGLA,Human,,P00533
+PEK,eukaryotic translation initiation factor 2 alpha kinase 2,EIF2AK2,Other,2016,310,PKR,ELIGSGGFGQVFKYVIKRVKAEREVKALAKLDVNIVHYNGCFIQMEFCDKGTLEQWIEKYIHSKKLIHRDLKPSNIFLIGDFGLV,Human,PKR,P19525
+CAMKL,microtubule affinity regulating kinase 2,MARK2,CAMK,2098,124,MARK2,KTIGKGNFAKVKLVAVKIIKLFREVRIMKVLNPNIVKLFEVYLVMEYASGGEVFDYLVAYCHQKFIVHRDLKAENLLLIADFGFS,Human,MARK,Q7KZI7
+Eph,EPH receptor A1,EPHA1,TK,1821,411,EphA1,TVIGEGEFGEVYRVAIKTLNFLREATIMGQFSPHILHLEGVMIITEFMENGALDAFLREYLSNHNYVHRDLAARNILVVSDFGLT,Human,,P21709
+Eph,EPH receptor A2,EPHA2,TK,1822,410,EphA2,KVIGAGEFGEVYKVAIKTLDFLGEAGIMGQFSHNIIRLEGVMIITEYMENGALDKFLREYLANMNYVHRDLAARNILVVSDFGLS,Human,,P29317
+Eph,EPH receptor A3,EPHA3,TK,1823,412,EphA3,KVVGAGEFGEVCSVAIKTLDFLGEASIMGQFDPNIIRLEGVMIVTEYMENGSLDSFLRKYLSDMGYVHRDLAARNILIVSDFGLS,Human,,P29320
+Eph,EPH receptor A4,EPHA4,TK,1824,413,EphA4,KVIGVGEFGEVCSVAIKTLDFLSEASIMGQFDPNIIHLEGVMIITEYMENGSLDAFLRKYLSDMSYVHRDLAARNILVVSDFGMS,Human,,P54764
+Eph,EPH receptor A5,EPHA5,TK,1825,414,EphA5,RVIGAGEFGEVCSVAIKTLDFLGEASIMGQFDPNIIHLEGVMIVTEYMENGSLDTFLKKYLSDMGYVHRDLAARNILIVSDFGLS,Human,,P54756
+Eph,EPH receptor A8,EPHA8,TK,1828,416,EphA8,KIIGSGDSGEVCYVAIKALDFLSEASIMGQFDPNIIRLEGVMIVTEYMENGSLDTFLRTYLSDLGYVHRDLAARNVLVVSDFGLS,Human,,P29322
+Eph,EPH receptor B1,EPHB1,TK,1830,417,EphB1,EVIGAGEFGEVYKVAIKTLDFLSEASIMGQFDPNIIRLEGVMIITEFMENGALDSFLRQYLAEMNYVHRDLAARNILVVSDFGLS,Human,,P54762
+Eph,EPH receptor B2,EPHB2,TK,1831,418,EphB2,QVIGAGEFGEVCSVAIKTLDFLSEASIMGQFDPNVIHLEGVMIITEFMENGSLDSFLRQYLADMNYVHRDLAARNILVVSDFGLS,Human,,P29323
+Eph,EPH receptor B3,EPHB3,TK,1832,419,EphB3,EVIGAGEFGEVCRVAIKTLDFLSEASIMGQFDPNIIRLEGVMILTEFMENCALDSFLRLYLSEMNYVHRDLAARNILVVSDFGLS,Human,,P54753
+Eph,EPH receptor B4,EPHB4,TK,1833,420,EphB4,EVIGAGEFGEVCRVAIKTLEFLSEASIMGQFEPNIIRLEGVMILTEFMENGALDSFLRLYLAEMSYVHRDLAARNILVVSDFGLS,Human,,P54760
+Eph,EPH receptor B6,EPHB6,TK,1834,421,EphB6,EVIGTGSFGEVRQVAIQALTFLGRAAVLGQFQPNILRLEGVMVLTEFMELGPLDSFLRQYLSSFAFVHRSLSAHSVLVVARLGHS,Human,,O15197
+MAPK,mitogen-activated protein kinase 3,MAPK3,CMGC,1494,240,Erk1,QYIGEGAYGMVSSVAIKKIRTLREIQILLRFRENVIGIRDIYIVQDLME-TDLYKLLKSYIHSANVLHRDLKPSNLLIICDFGLA,Human,ERK1,P27361
+MAPK,mitogen-activated protein kinase 1,MAPK1,CMGC,1495,239,Erk2,SYIGEGAYGMVCSVAIKKIRTLREIKILLRFRENIIGINDIYIVQDLME-TDLYKLLKTYIHSANVLHRDLKPSNLLLICDFGLA,Human,ERK1,P28482
+MAPK,mitogen-activated protein kinase 6,MAPK6,CMGC,2092,242,Erk3,KPLGCGGNGLVFSVAIKKIHALREIKIIRRLDDNIVKVFEIYIVQEYME-TDLANVLEQYIHSANVLHRDLKPANLFIIGDFGLA,Human,ERK3,Q16659
+MAPK,mitogen-activated protein kinase 4,MAPK4,CMGC,2091,241,Erk4,QPLGFGVNGLVLSVAVKKIHALREIKIIRRLDDNIVKVYEVYIVQEYME-TDLARLLEQYIHSANVLHRDLKPANIFIIGDFGLA,Human,ERK3,P31152
+FAK,protein tyrosine kinase 2,PTK2,TK,2180,425,FAK,RCIGEGQFGDVHQVAIKTCKFLQEALTMRQFDPHIVKLIGVWIIMELCTLGELRSFLQVYLESKRFVHRDIAARNVLVLGDFGLS,Human,,Q05397
+Fer,FER tyrosine kinase,FER,TK,2022,426,FER,ELLGKGNFGEVYKVAVKTCKFLQEAKILKQYDPNIVKLIGVYIIMELVSGGDFLTFLRRYLESKNCIHRDLAARNCLVISDFGMS,Human,,P16591
+Fer,"FES proto-oncogene, tyrosine kinase",FES,TK,2023,427,FES,EQIGRGNFGEVFSVAVKSCKFLQEARILKQYSPNIVRLIGVYIVMELVQGGDFLTFLRTYLESKCCIHRDLAARNCLVISDFGMS,Human,,P07332
+FGFR,fibroblast growth factor receptor 1,FGFR1,TK,1808,428,FGFR1,KPLGEGCFGQVVLVAVKMLDLISEMEMMKMIGKNIINLLGAYVIVEYASKGNLREYLQAYLASKKCIHRDLAARNVLVIADFGLA,Human,,P11362
+FGFR,fibroblast growth factor receptor 2,FGFR2,TK,1809,430,FGFR2,KPLGEGCFGQVVMVAVKMLDLVSEMEMMKMIGKNIINLLGAYVIVEYASKGNLREYLRAYLASQKCIHRDLAARNVLVIADFGLA,Human,,P21802
+FGFR,fibroblast growth factor receptor 3,FGFR3,TK,1810,429,FGFR3,KPLGEGCFGQVVMVAVKMLDLVSEMEMMKMIGKNIINLLGAYVLVEYAAKGNLREFLRAYLASQKCIHRDLAARNVLVIADFGLA,Human,,P22607
+FGFR,fibroblast growth factor receptor 4,FGFR4,TK,1811,431,FGFR4,KPLGEGCFGQVVRVAVKMLDLVSEMEVMKLIGKNIINLLGVYVIVECAAKGNLREFLRAYLESRKCIHRDLAARNVLVIADFGLA,Human,,P22455
+Src,"FGR proto-oncogene, Src family tyrosine kinase",FGR,TK,2024,460,FGR,RRLGTGCFGDVWLVAVKTLAFLEEAQVMKLLRDKLVQLYAVYIVTEFMCHGSLLDFLKNYMERMNYIHRDLRAANILVIADFGLA,Human,SrcA,P09769
+PDGFR,fms related tyrosine kinase 3,FLT3,TK,1807,450,FLT3,KVLGSGAFGKVMNVAVKMLALMSELKMMTQLGENIVNLLGAYLIFEYCCYGDLLNYLRSFLEFKSCVHRDLAARNVLVICDFGLA,Human,,P36888
+VEGFR,fms related tyrosine kinase 1,FLT1,TK,1812,483,FLT1,KSLGRGAFGKVVQVAVKMLALMTELKILTHIGLNVVNLLGAMVIVEYCKYGNLSNYLKSFLSSRKCIHRDLAARNILLICDFGLA,Human,,P17948
+VEGFR,fms related tyrosine kinase 4,FLT4,TK,1814,484,FLT4,RVLGYGAFGKVVEVAVKMLALMSELKILIHIGLNVVNLLGAMVIVEFCKYGNLSNFLRAFLASRKCIHRDLAARNILLICDFGLA,Human,,P35916
+PIKK,Serine/threonine-protein kinase mTOR,MTOR,Atypical,2109,97,FRAP,LQVITSKQRPRKLFLLKGHDLRQDERVMQLFGLSIQRYAVISGLIGWVPCDTLHALIRDVGYI--LGLGDRHPSNLMLHIDFGDC,Human,FRAP,P42345
+Src,"FYN proto-oncogene, Src family tyrosine kinase",FYN,TK,2026,461,FYN,KRLGNGQFGEVWMVAIKTLSFLEEAQIMKKLKDKLVQLYAVYIVTEYMNKGSLLDFLKDYIERMNYIHRDLRSANILVIADFGLA,Human,SrcA,P06241
+NAK,cyclin G associated kinase,GAK,Other,2027,279,GAK,RVLAEGGFAFVYEYALKRLAIIQEVCFMKKLSPNIVQFCSALLLTELCK-GQLVEFLKKHRQKPPIIHRDLKVENLLLLCDFGSA,Human,GAK,O14976
+GRK,G protein-coupled receptor kinase 4,GRK4,AGC,1468,13,GPRK4,RVLGKGGFGEVCAYACKKLMALNEKRILEKVQRFVVSLAYACLVLTIMNGGDLKFHIYNDLQRERIVYRDLKPENILLISDLGLA,Human,GRK,P32298
+GRK,G protein-coupled receptor kinase 5,GRK5,AGC,1469,14,GPRK5,RVLGKGGFGEVCAYACKRLMALNEKQILEKVNQFVVNLAYACLVLTIMNGGDLKFHIYNDLHRENTVYRDLKPENILLISDLGLA,Human,GRK,P34947
+GRK,G protein-coupled receptor kinase 6,GRK6,AGC,1470,15,GPRK6,RVLGKGGFGEVCAYACKKLMALNEKQILEKVNRFVVSLAYACLVLTLMNGGDLKFHIYHDLHRERIVYRDLKPENILLISDLGLA,Human,GRK,P43250
+Trbl,tribbles pseudokinase 2,TRIB2,CAMK,0,171,Trb2,LLLEPLEGDHVFRLVCKVFYQESLAPCFCLSASNINQITEIYVFFERSY-GDMHSFVRTHCHDGGLVLRDLKLRKFIFVKLESLE,Human,,Q92519
+GSK,glycogen synthase kinase 3 alpha,GSK3A,CMGC,2029,237,GSK3A,KVIGNGSFGVVYQVAIKKVFKNRELQIMRKLDCNIVRLRYFNLVLEYVP-ETVYRVARHYIHSQGVCHRDIKPQNLLVLCDFGSA,Human,,P49840
+GSK,glycogen synthase kinase 3 beta,GSK3B,CMGC,2030,238,GSK3B,KVIGNGSFGVVYQVAIKKVFKNRELQIMRKLDCNIVRLRYFNLVLDYVP-ETVYRVARHYIHSFGICHRDIKPQNLLLLCDFGSA,Human,,P49841
+Src,"HCK proto-oncogene, Src family tyrosine kinase",HCK,TK,2032,465,HCK,KKLGAGQFGEVWMVAVKTMAFLAEANVMKTLQDKLVKLHAVYIITEFMAKGSLLDFLKSFIEQRNYIHRDLRAANILVIADFGLA,Human,SrcB,P08631
+EGFR,erb-b2 receptor tyrosine kinase 2,ERBB2,TK,2019,407,ErbB2,KVLGSGAFGTVYKVAIKVLEILDEAYVMAGVGPYVSRLLGIQLVTQLMPYGCLLDHVREYLEDVRLVHRDLAARNVLVITDFGLA,Human,,P04626
+EGFR,erb-b2 receptor tyrosine kinase 3,ERBB3,TK,1798,408,ErbB3,KVLGSGVFGTVHKVCIKVIAVTDHMLAIGSLDAHIVRLLGLQLVTQYLPLGSLLDHVRQYLEEHGMVHRNLAARNVLLVADFGVA,Human,,P21860
+EGFR,erb-b2 receptor tyrosine kinase 4,ERBB4,TK,1799,409,ErbB4,KVLGSGAFGTVYKVAIKILEFMDEALIMASMDPHLVRLLGVQLVTQLMPHGCLLEYVHEYLEERRLVHRDLAARNVLVITDFGLA,Human,,Q15303
+DYRK,homeodomain interacting protein kinase 1,HIPK1,CMGC,2033,235,HIPK1,EFLGRGTFGQVAKVAIKILQGQIEVSILSRLSYNFVRSYECCLVFEMLE-QNLYDFLKQKLKSLGLIHADLKPENIMLVIDFGSA,Human,HIPK,Q86Z02
+STE20,mitogen-activated protein kinase kinase kinase kinase 1,MAP4K1,STE,2085,358,HPK1,QRLGGGTYGEVFKVALKMVTLQKEILILKTCRANIVAYHGSWICMEFCGAGSLQDIYQVYLHSQKKIHRDIKGANILILADFGIS,Human,KHS,Q92918
+RGC,guanylate cyclase 2C,GUCY2C,RGC,1750,340,HSER,DDKRRDTIQRLRQVILKDLKQKIELNKLLQIDYNLTKFYGTFGVIEYCERGSLREVLNDLHSSKTEVHGRLKSTNCVVITDFGCN,Human,,P25092
+InsR,insulin like growth factor 1 receptor,IGF1R,TK,1801,432,IGF1R,RELGQGSFGMVYEVAIKTVEFLNEASVMKEFN-HVVRLLGVLVIMELMTRGDLKSYLRSYLNANKFVHRDLAARNCMVIGDFGMT,Human,,P08069
+IKK,conserved helix-loop-helix ubiquitous kinase,CHUK,Other,1989,269,IKKa,ERLGTGGFGNVCLIAIKSCRWCHEIQIMKKLNANVVKACDVLLAMEYCSGGDLRKLLNKYLHENKIIHRDLKPENIVLIIDLGYA,Human,,O15111
+IKK,"inhibitor of kappa light polypeptide gene enhancer in B-cells, kinase beta",IKBKB,Other,2039,270,IKKb,ERLGTGGFGNVIRIAIKQCRWCLEIQIMRRLTPNVVAARDVLLAMEYCQGGDLRKYLNQYLHENRIIHRDLKPENIVLIIDLGYA,Human,,O14920
+MLK,integrin linked kinase,ILK,TKL,2041,497,ILK,TKLNENHSGELWKIVVKVLDFNEECPRLRIFSPNVLPVLGATLITHWMPYGSLYNVLHEHTLEPLIPRHALNSRSVMIISMADVK,Human,ILK,Q13418
+InsR,insulin receptor,INSR,TK,1800,433,INSR,RELGQGSFGMVYEVAVKTVEFLNEASVMKGFT-HVVRLLGVLVVMELMAHGDLKSYLRSYLNAKKFVHRDLAARNCMVIGDFGMT,Human,,P06213
+IRAK,interleukin 1 receptor associated kinase 1,IRAK1,TKL,2042,486,IRAK1,LKIGEGGFGCVYRYAVKRLSFLTEVEQLSRFRPNIVDFAGYCLVYGFLPNGSLEDRLHCHQDSPSLIHGDIKSSNVLLLGDFGLA,Human,,P51617
+IRAK,interleukin 1 receptor associated kinase 2,IRAK2,TKL,0,487,IRAK2,RKISQGTFADVYRFVFKKLFFQAELQICLRCCPNVLPVLGFSFIYPYMANGSLQDRLQGYLHGLEIIHSNVKSSNVLLLAHPMAH,Human,,O43187
+IRAK,interleukin 1 receptor associated kinase 3,IRAK3,TKL,2044,488,IRAK3,FLIGEGEIFEVYRYAVKLFRFLSELEVLLLFHPNILELAAYCLIYPYMRNGTLFDRLQCNVQPCSVICGSISSANILLLTDFAMA,Human,,Q9Y616
+IRE,endoplasmic reticulum to nucleus signaling 1,ERN1,Other,2020,273,IRE1,DVLGHGAEGTIVYVAVKRIFADREVQLLRESDPNVIRYFCTYIAIELCAA-TLQEYVEQHLHSLNIVHRDLKPHNILIISDFGLC,Human,,O75460
+InsR,insulin receptor-related receptor,INSRR,TK,1802,434,IRR,RELGQGSFGMVYEVALKTVEFLKEASVMKAFK-HVVRLLGVLVIMELMTRGDLKSHLRSYLAANKFVHRDLAARNCMVIGDFGMT,Human,,P14616
+Tec,IL2 inducible T-cell kinase,ITK,TK,2046,474,ITK,QEIGSGQFGLVHLVAIKTIDFIEEAEVMMKLSPKLVQLYGVCLVFEFMEHGCLSDYLRTYLEEACVIHRDLAARNCLVVSDFGMT,Human,,Q08881
+JakA,Janus kinase 1,JAK1,TK,2047,435,JAK1,RDLGEGHFGKVELVAVKSLDLKKEIEILRNLYENIVKYKGIKLIMEFLPSGSLKEYLPKYLGSRQYVHRDLAARNVLVIGDFGLT,Human,,P23458
+JakB,Janus kinase 2 (2nd domain),JAK2-b,TK,2048,439,JAK2-b,ESLGQGTFTKIFKVLLKVLESFFEAASMMSKLKHLVLNYGVILVQEFVKFGSLDTYLKKFLEENTLIHGNVCAKNILLTGNPPFI,Human,,O60674
+JakA,Janus kinase 3,JAK3,TK,2049,437,JAK3,SQLGKGNFGSVELVAVKQLDFQREIQILKALHDFIVKYRGVRLVMEYLPSGCLRDFLQRYLGSRRCVHRDLAARNILVIADFGLA,Human,,P52333
+MAPK,mitogen-activated protein kinase 8,MAPK8,CMGC,1496,245,JNK1,KPIGSGAQGIVCAVAIKKLRAYRELVLMKCVNKNIIGLLNVYIVMELMD-ANLCQVIQMHLHSAGIIHRDLKPSNIVVILDFGLA,Human,JNK,P45983
+MAPK,mitogen-activated protein kinase 9,MAPK9,CMGC,1497,246,JNK2,KPIGSGAQGIVCAVAVKKLRAYRELVLLKCVNKNIISLLNVYLVMELMD-ANLCQVIHMHLHSAGIIHRDLKPSNIVVILDFGLA,Human,JNK,P45984
+MAPK,mitogen-activated protein kinase 10,MAPK10,CMGC,1498,247,JNK3,KPIGSGAQGIVCAVAIKKLRAYRELVLMKCVNKNIISLLNVYLVMELMD-ANLCQVIQMHLHSAGIIHRDLKPSNIVVILDFGLA,Human,JNK,P53779
+STE20,mitogen-activated protein kinase kinase kinase kinase 5,MAP4K5,STE,2089,357,KHS1,QRVGSGTYGDVYKAAVKIILIQQEIFMVKECKCNIVAYFGSWICMEYCGGGSLQDIYHVYLHTKGKMHRDIKGANILLLADFGVA,Human,KHS,Q9Y4K4
+IKK,"inhibitor of kappa light polypeptide gene enhancer in B-cells, kinase epsilon",IKBKE,Other,2040,271,IKKe,DLLGQGATASVYKVAVKVFVQVREFEVLRKLNQNIVKLFAVVLVMEYCSSGSLLSVLESHLRENGIVHRDIKPGNIMRLTDFGAA,Human,,Q14164
+CAMKL,"NUAK family, SNF1-like kinase, 1",NUAK1,CAMK,2129,130,NuaK1,ETLGKGTYGKVKRVAIKSIHIRREIEIMSSLNPHIISIYEVVIIMEYASKGELYDYISEYCHKNGVVHRDLKLENILLIADFGLS,Human,NuaK,O60285
+MAST,microtubule associated serine/threonine kinase 3,MAST3,AGC,1512,19,MAST3,KLISNGAYGAVYLFAIKKIQVFVERDILTFAEPFVVSMFCSCMVMEYVEGGDCATLLKNYLHNYGIVHRDLKPDNLLILTDFGLS,Human,MAST,O60307
+ULK,serine/threonine kinase 36,STK36,Other,2223,327,Fused,EMIGEGSFGRVYKVALKFINLQREIEIMRGLRPNIVHMLDSVVVTDYAE-GELFQILEDYLHSHRILHRDMKPQNILLLCDFGFA,Human,Fused,Q9NRP7
+PIM,"Pim-3 proto-oncogene, serine/threonine kinase",PIM3,CAMK,2160,162,PIM3,AVLGSGGFGTVYAVAVKHVTVPLEVVLLRKVGRGVIRLLDWLLVLERPEAQDLFDFITEHCHSCGVVHRDIKDENLLVLIDFGSG,Human,,Q86V86
+PDGFR,KIT proto-oncogene receptor tyrosine kinase,KIT,TK,1805,451,KIT,KTLGAGAFGKVVEVAVKMLALMSELKVLSYLGMNIVNLLGALVITEYCCYGDLLNFLRRFLASKNCIHRDLAARNILLICDFGLA,Human,,P10721
+CDKL,cyclin dependent kinase like 2,CDKL2,CMGC,1983,218,CDKL2,GLVGEGSYGMVMKVAIKKFIAMREIKLLKQLRENLVNLLEVYLVFEFVD-HTILDDLELFCHSHNIIHRDIKPENILVLCDFGFA,Human,,Q92772
+CDKL,cyclin dependent kinase like 1,CDKL1,CMGC,1982,217,CDKL1,GKIGEGSYGVVFKVAIKKFIALREIRMLKQLKPNLVNLLEVHLVFEYCD-HTVLHELDRFCHKHNCIHRDVKPENILILCDFGFA,Human,,Q00532
+RAF,Kinase suppressor of ras 1,KSR1,TKL,0,506,KSR1,EPIGQGRWGRVHRVAIRLLLFKKEVMNYRQTRENVVLFMGAAIITSFCKGRTLHSFVRDYLHAKGIVHKDLKSKNVFYITDFGLF,Human,KSR,Q8IVT5
+Src,"LCK proto-oncogene, Src family tyrosine kinase",LCK,TK,2053,466,LCK,ERLGAGQFGEVWMVAVKSLAFLAEANLMKQLQQRLVRLYAVYIITEYMENGSLVDFLKTFIEERNYIHRDLRAANILVIADFGLA,Human,SrcB,P06239
+LISK,LIM domain kinase 2,LIMK2,TKL,2055,491,LIMK2,EVLGKGFFGQAIKMVMKELTFLTEVKVMRSLDPNVLKFIGVNLLTEYIEGGTLKDFLRSYLHSMCIIHRDLNSHNCLIVADFGLS,Human,LIMK,P53671
+CAMKL,serine/threonine kinase 11,STK11,CAMK,2212,123,LKB1,DLLGEGSYGKVKERAVKILNVKKEIQLLRRLRKNVIQLVDVYMVMEYCVCGMQEMLDSVYLHSQGIVHKDIKPGNLLLISDLGVA,Human,LKB,Q15831
+ALK,leukocyte receptor tyrosine kinase,LTK,TK,1838,397,LTK,RALGHGAFGEVYEVAIKTLDFLMEALIISKFRQNIVRCVGLLILLELMSGGDMKSFLRHYLEENHFIHRDIAARNCLLIGDFGMA,Human,,P29376
+Src,"LYN proto-oncogene, Src family tyrosine kinase",LYN,TK,2060,467,LYN,KRLGAGQFGEVWMVAVKTLAFLEEANLMKTLQDKLVRLYAVYIITEYMAKGSLLDFLKSYIERKNYIHRDLRAANVLVIADFGLA,Human,SrcB,P07948
+RCK,male germ cell associated kinase,MAK,CMGC,2061,253,MAK,RQLGDGTYGSVLMVAIKRMMNLREVKSLKKLNANVIKLKEVYFIFEYMK-ENLYQLMKDFIHKHGFFHRDMKPENLLCIADFGLA,Human,,P20794
+MAPKAPK,mitogen-activated protein kinase-activated protein kinase 2,MAPKAPK2,CAMK,2094,150,MAPKAPK2,QVLGLGINGKVLQFALKMLKARREVELHWRASPHIVRIVDVLIVMECLDGGELFSRIQDYLHSINIAHRDVKPENLLYLTDFGFA,Human,MAPKA,P49137
+MAPKAPK,mitogen-activated protein kinase-activated protein kinase 3,MAPKAPK3,CAMK,2095,148,MAPKAPK3,QVLGLGVNGKVLECALKLLKARQEVDHHWQASPHIVCILDVLIIMECMEGGELFSRIQEFLHSHNIAHRDVKPENLLYLTDFGFA,Human,MAPKA,Q16644
+MAPKAPK,mitogen-activated protein kinase-activated protein kinase 5,MAPKAPK5,CAMK,2096,149,MAPKAPK5,QKLGAGISGPVRVFALKILKARNEVRLHMMCAPNIVQIIEVLIVMEMMEGGELFHRISQHCHLLNIAHRDLKPENLLFLCDFGFA,Human,MAPKA,Q8IW41
+CAMKL,microtubule affinity regulating kinase 1,MARK1,CAMK,2097,125,MARK1,KTIGKGNFAKVKLVAVKIIKLFREVRIMKILNPNIVKLFEVYLVMEYASGGEVFDYLVAYCHQKYIVHRDLKAENLLLIADFGFS,Human,MARK,Q9P0L2
+MAST,microtubule associated serine/threonine kinase 2,MAST2,AGC,0,20,MAST2,KLISNGAYGAVFLFAMKKIQAFVERDILTFAEPFVVSMFCSCMVMEYVEGGDCATLLKNYLHNYGIVHRDLKPDNLLILTDFGLS,Human,MAST,Q6P0Q8
+STE7,mitogen-activated protein kinase kinase 1,MAP2K1,STE,2062,383,MAP2K1,SELGAGNGGVVFKMARKLIQIIRELQVLHECNPYIVGFYGASICMEHMDGGSLDQVLKKLREKHKIMHRDVKPSNILVLCDFGVS,Human,MEK1,Q02750
+STE7,mitogen-activated protein kinase kinase 2,MAP2K2,STE,2063,384,MAP2K2,SELGAGNGGVVTKMARKLIQIIRELQVLHECNPYIVGFYGASICMEHMDGGSLDQVLKELREKHQIMHRDVKPSNILVLCDFGVS,Human,MEK1,P36507
+STE7,mitogen-activated protein kinase kinase 5,MAP2K5,STE,2066,388,MAP2K5,DTLGHGNGGTVYKLAVKVIQIMSELEILYKCDSYIIGFYGASICTEFMDGGSL-DVYRKYLWSLKILHRDVKPSNMLVLCDFGVS,Human,MEK5,Q13163
+STE7,mitogen-activated protein kinase kinase 6,MAP2K6,STE,2067,386,MAP2K6,MELGRGAYGVVEKMAVKRIRLLMDLDISMRTVPFTVTFYGAWICMELMD-TSLDKFYKQLHSKLSVIHRDVKPSNVLIMCDFGIS,Human,MEK3,P52564
+STE11,"mitogen-activated protein kinase kinase kinase 1, E3 ubiquitin protein ligase",MAP3K1,STE,2069,348,MAP3K1,QQIGLGAFSSCYQMAVKQVALREEIRMMSHLNPNIIRMLGANLFIEWMAGGSVAHLLSKYLHENQIIHRDVKGANLLIIADFGAA,Human,MEKK1,Q13233
+STE11,mitogen-activated protein kinase kinase kinase 2,MAP3K2,STE,2077,351,MAP3K2,KLLGQGAFGRVYLLAVKQVALECEIQLLKNLLERIVQYYGCSIFMEYMPGGSIKDQLKAYLHSNMIVHRDIKGANILRLGDFGAS,Human,MEKK2,Q9Y2U5
+STE11,mitogen-activated protein kinase kinase kinase 3,MAP3K3,STE,2078,350,MAP3K3,KLLGQGAFGRVYLLASKQVALECEIQLLKNLQERIVQYYGCTIFMEYMPGGSVKDQLKAYLHSNMIVHRDIKGANILRLGDFGAS,Human,MEKK2,Q99759
+STE11,mitogen-activated protein kinase kinase kinase 4,MAP3K4,STE,2079,352,MAP3K4,NKIGEGQYGKVYTMAMKEIETADELKIFEGIKPNLVRYFGVYIFMEYCDEGTLEEVSRLVLHEHGIVHRDIKGANIFLLGDFGCS,Human,MEKK4,Q9Y6R4
+STE11,mitogen-activated protein kinase kinase kinase 5,MAP3K5,STE,2080,345,MAP3K5,VVLGKGTYGIVYAIAIKEIPLHEEIALHKHLKKNIVQYLGSKIFMEQVPGGSLSALLRSYLHDNQIVHRDIKGDNVLIISDFGTS,Human,ASK,Q99683
+Axl,"MER proto-oncogene, tyrosine kinase",MERTK,TK,1837,400,MER,KILGEGEFGSVMEVAVKTMEFLSEAACMKDFSPNVIRLLGVMVILPFMKYGDLHTYLLYYLSNRNFLHRDLAARNCMLVADFGLS,Human,,Q12866
+Met,"MET proto-oncogene, receptor tyrosine kinase",MET,TK,1815,446,MET,EVIGRGHFGCVYHCAVKSLQFLTEGIIMKDFSPNVLSLLGILVVLPYMKHGDLRNFIRNYLASKKFVHRDLAARNCMLVADFGLA,Human,,P08581
+STKR,anti-Mullerian hormone receptor type II,AMHR2,TKL,0,525,MISR2,QVIREGGHAVVWAVAIKAFQFQAERALYELPGDHIVRFITALLVLELHPKGSLCHYLTQGQYKPGIAHRDLSSQNVLIIGDLGLA,Human,Type2,Q16671
+STE7,mitogen-activated protein kinase kinase 7,MAP2K7,STE,2068,389,MAP2K7,GEMGSGTCGQVWKIAVKQMRILMDLDVVLKSHPYIVQCFGTFIAMELMGTCAEKLKKRMLKEKHGVIHRDVKPSNILLLCDFGIS,Human,MEK7,O14733
+MLCK,myosin light chain kinase,MYLK,CAMK,1552,153,smMLCK,ERLGSGKFGQVFRWAGKFFNIRQEISIMNCLHPKLVQCVDAVMVLEIVSGGELFERIIDYIHKQGIVHLDLKPENIMCLIDFGLA,Human,,Q15746
+MLK,mitogen-activated protein kinase kinase kinase 9,MAP3K9,TKL,2084,500,MLK1,EIIGIGGFGKVYRVAVKAANVRQEAKLFAMLKPNIIALRGVCLVMEFARGGPLNRVLSGDEAIVPIIHRDLKSSNILIITDFGLA,Human,MLK,P80192
+MLK,mitogen-activated protein kinase kinase kinase 10,MAP3K10,TKL,2070,501,MLK2,EIIGVGGFGKVYRVAVKAAQVCQEARLFGALQPNIIALRGACLVMEYARGGALSRVLAGNDAPVPIIHRDLKSINILIITDFGLA,Human,MLK,Q02779
+DYRK,dual specificity tyrosine phosphorylation regulated kinase 1A,DYRK1A,CMGC,2009,227,DYRK1A,SLIGKGSFGQVVKVAIKIIQAQIEVRLLELMNYYIVHLKRHCLVFEMLS-YNLYDLLRNATPELSIIHCDLKPENILLIVDFGSS,Human,DYRK1,Q13627
+MAPKAPK,MAP kinase interacting serine/threonine kinase 1,MKNK1,CAMK,2104,152,MNK1,ELLGEGAYAKVQGYAVKIIRVFREVETLYQCQKNILELIEFYLVFEKLQGGSILAHIQKFLHTKGIAHRDLKPENILCICDFDLG,Human,MNK,Q9BUB5
+MAPKAPK,MAP kinase interacting serine/threonine kinase 2,MKNK2,CAMK,2105,151,MNK2,DVLGEGAHARVQTYAVKIIRVFREVEMLYQCQRNVLELIEFYLVFEKMRGGSILSHIHKFLHNKGIAHRDLKPENILCICDFDLG,Human,MNK,Q9HBH9
+MOS,v-mos Moloney murine sarcoma viral oncogene homolog,MOS,Other,0,276,MOS,QRLGAGGFGSVYKVAIKQVRLASRRSFWAELNDNIVRVVAATIIMEFGGNVTLHQVIYGFLHSQSIVHLDLKPANILIISDFGCS,Human,,P00540
+STE7,mitogen-activated protein kinase kinase 3,MAP2K3,STE,2064,385,MAP2K3,SELGRGAYGVVEKMAVKRIRLLMDLDINMRTVFYTVTFYGAWICMELMD-TSLDKFYRKLHSKLSVIHRDVKPSNVLIMCDFGIS,Human,MEK3,P46734
+STE7,mitogen-activated protein kinase kinase 4,MAP2K4,STE,2065,387,MAP2K4,GEIGRGAYGSVNKMAVKRIQLLMDLDVVMRSSPYIVQFYGAWICMELMS-TSFDKFYKYLKENLKIIHRDIKPSNILLLCDFGIS,Human,MEK4,P45985
+DMPK,CDC42 binding protein kinase beta,CDC42BPB,AGC,1508,7,MRCKb,KVIGRGAFGEVAVYAMKILCFREERDVLVNGDQWITALHYAYLVMDYYVGGDLLTLLSKSIHQLHYVHRDIKPDNVLLLADFGSC,Human,GEK,Q9Y5S2
+RSK,ribosomal protein S6 kinase A5,RPS6KA5,AGC,1523,49,MSK1,KVLGTGAYGKVFLYAMKVLHTRTERQVLEHIRPFLVTLHYAHLILDYINGGELFTHLSQHLHKLGIIYRDIKLENILLLTDFGLS,Human,MSK,O75582
+RSK,ribosomal protein S6 kinase A4,RPS6KA4,AGC,1524,47,MSK2,KVLGTGAYGKVFLYAMKVLHTRTERSVLELVRPFLVTLHYAHLILDYVSGGEMFTHLYQHLHKLGIIYRDLKLENVLLLTDFGLS,Human,MSK,O75676
+STE20,serine/threonine kinase 4,STK4,STE,2225,364,MST1,EKLGEGSYGSVYKVAIKQVEIIKEISIMQQCDPHVVKYYGSWIVMEYCGAGSVSDIIRLYLHFMRKIHRDIKAGNILLLADFGVA,Human,MST,Q13043
+STE20,serine/threonine kinase 3,STK3,STE,2219,363,MST2,EKLGEGSYGSVFKVAIKQVEIIKEISIMQQCDPYVVKYYGSWIVMEYCGAGSVSDIIRLYLHFMRKIHRDIKAGNILLLADFGVA,Human,MST,Q13188
+STE20,serine/threonine kinase 24,STK24,STE,2217,380,MST3,EKIGKGSFGEVFKVAIKIIDIQQEITVLSQCDPYVTKYYGSWIIMEYLGGGSALDLLEPYLHSEKKIHRDIKAANVLLLADFGVA,Human,YSK,Q9Y6E0
+Musk,"muscle, skeletal, receptor tyrosine kinase",MUSK,TK,1847,448,MUSK,RDIGEGAFGRVFQVAVKMLDFQREAALMAEFDPNIVKLLGVCLLFEYMAYGDLNEFLRSYLSERKFVHRDLATRNCLVIADFGLS,Human,,O15146
+WEE,"protein kinase, membrane associated tyrosine/threonine 1",PKMYT1,Other,2167,334,MYT1,SRLGHGSYGEVFKYAVKRSRKLAEVGSHEKVGPCCVRLEQAYLQTELC-GPSLQQHCEAHLHSQGLVHLDVKPANIFLLGDFGLL,Human,,Q99640
+NDR,serine/threonine kinase 38,STK38,AGC,1517,24,NDR1,KVIGRGAFGEVRLYAMKILHIRAERDILVEADLWVVKMFYSYLIMEFLPGGDMMTLLMKSIHQLGFIHRDIKPDNLLLLSDFGLC,Human,,Q15208
+NEK,NIMA related kinase 1,NEK1,Other,2114,281,NEK1,QKIGEGSFGKAILYVIKEIESRREVAVLANMKPNIVQYRESYIVMDYCEGGDLFKRINAHVHDRKILHRDIKSQNIFLLGDFGIA,Human,NEK1,Q96PY6
+NEK,NIMA related kinase 2,NEK2,Other,2117,286,NEK2,YTIGTGSYGRCQKLVWKELMLVSEVNLLRELKPNIVRYYDRYIVMEYCEGGDLASVITKSDGGHTVLHRDLKPANVFLLGDFGLA,Human,NEK2,P51955
+NEK,NIMA related kinase 3,NEK3,Other,2118,282,NEK3,RMIGEGSFGRALLFAMKEINSRKEAVLLAKMKPNIVAFKESYIVMEYCDGGDLMQKIKQHIHKKRVLHRDIKSKNIFLLGDFGSA,Human,NEK1,P51956
+STE-Unique,mitogen-activated protein kinase kinase kinase 14,MAP3K14,STE,2074,391,NIK,LRLGRGSFGEVHRCAVKKVFRAEELMACAGLTPRIVPLYGANIFMELLEGGSLGQLVKEYLHSRRILHGDVKADNVLLLCDFGHA,Human,,Q99558
+MAPK,nemo-like kinase,NLK,CMGC,2125,248,NLK,RPIGYGAFGVVWSVALKKMRVFRELKMLCFFKDNVLSALDIYVVTELMQ-SDLHKIIVSYLHSAGILHRDIKPGNLLVICDFGLA,Human,nmo,Q9UBE8
+NEK,NIMA related kinase 4,NEK4,Other,2119,287,NEK4,RVVGKGSYGEVTLYVIKKLAAEQEAQLLSQLKPNIVTYKESYIVMGFCEGGDLYRKLKEYLHEKHILHRDLKTQNVFLVGDLGIA,Human,NEK4,P51957
+IRAK,interleukin 1 receptor associated kinase 4,IRAK4,TKL,2045,489,IRAK4,NKMGEGGFGVVYKVAVKKLQFDQEIKVMAKCQENLVELLGFCLVYVYMPNGSLLDRLSCFLHENHHIHRDIKSANILLISDFGLA,Human,,Q9NWZ3
+VPS15,phosphoinositide-3-kinase regulatory subunit 4,PIK3R4,Other,0,332,PIK3R4,KSLGSTRFFKVARVVVKVFSYKQELEELKIR---LNSAQNCMLFRQYVR-DNLYDRISTQAHKSGVRHGDIKTENVMVLTDFASF,Human,,Q99570
+DMPK,Rho associated coiled-coil containing protein kinase 2,ROCK2,AGC,1504,10,ROCK2,KVIGRGAFGEVQLYAMKLLFFWEERDIMAFANPWVVQLFYAYMVMEYMPGGDLVNLMSNAIHSMGLIHRDVKPDNMLLLADFGTC,Human,ROCK,O75116
+MAPK,mitogen-activated protein kinase 14,MAPK14,CMGC,1499,249,p38a,SPVGSGAYGSVCAVAVKKLRTYRELRLLKHMKENVIGLLDVYLVTHLMG-ADLNNIVKCYIHSADIIHRDLKPSNLAVILDFGLA,Human,p38,Q16539
+RSK,ribosomal protein S6 kinase B1,RPS6KB1,AGC,1525,51,p70S6K,RVLGKGGYGKVFQFAMKVLHTKAERNILEEVKPFIVDLIYAYLILEYLSGGELFMQLERHLHQKGIIYRDLKPENIMLLTDFGLC,Human,p70,P23443
+RSK,ribosomal protein S6 kinase B2,RPS6KB2,AGC,1526,52,p70S6Kb,RVLGKGGYGKVFQYAMKVLHTRAERNILESVKPFIVELAYAYLILECLSGGELFTHLERHLHSQGIIYRDLKPENIMLLTDFGLC,Human,p70,Q9UBS0
+STE20,p21 protein (Cdc42/Rac)-activated kinase 1,PAK1,STE,2133,367,PAK1,EKIGQGASGTVYTVAIKQMLIINEILVMRENKPNIVNYLDSWVVMEYLAGGSLTDVVTEFLHSNQVIHRDIKSDNILLLTDFGFC,Human,PAKA,Q13153
+STE20,p21 protein (Cdc42/Rac)-activated kinase 2,PAK2,STE,2134,368,PAK2,EKIGQGASGTVFTVAIKQILIINEILVMKELKPNIVNFLDSFVVMEYLAGGSLTDVVTEFLHANQVIHRDIKSDNVLLLTDFGFC,Human,PAKA,Q13177
+STE20,p21 protein (Cdc42/Rac)-activated kinase 3,PAK3,STE,2135,369,PAK3,EKIGQGASGTVYTVAIKQMLIINEILVMRENKPNIVNYLDSWVVMEYLAGGSLTDVVTEFLHSNQVIHRDIKSDNILLLTDFGFC,Human,PAKA,O75914
+PKC,protein kinase C eta,PRKCH,AGC,1487,39,PKCh,RVLGKGSFGKVMLYAVKVLCTMTEKRILSLARPFLTQLFCCFFVMEFVNGGDLMFHIQKFLHDKGIIYRDLKLDNVLLLADFGMC,Human,Eta,P24723
+CDK,cyclin-dependent kinase 16,CDK16,CMGC,1969,210,PCTAIRE1,DKLGEGTYATVYKVALKEITAIREVSLLKDLKANIVTLHDITLVFEYLD-KDLKQYLDDYCHRQKVLHRDLKPQNLLILADFGLA,Human,PCTAI,Q00536
+CDK,cyclin-dependent kinase 17,CDK17,CMGC,1970,211,PCTAIRE2,EKLGEGTYATVYKVALKEITAIREVSLLKDLKANIVTLHDITLVFEYLD-KDLKQYMDDYCHRRKVLHRDLKPQNLLILADFGLA,Human,PCTAI,Q00537
+CDK,cyclin-dependent kinase 18,CDK18,CMGC,1971,212,PCTAIRE3,DKLGEGTYATVFKVALKEITAIREVSLLKNLKANIVTLHDLTLVFEYLD-SDLKQYLDHYCHHRKILHRDLKPQNLLILADFGLA,Human,PCTAI,Q07002
+PDGFR,platelet derived growth factor receptor alpha,PDGFRA,TK,1803,452,PDGFRa,RVLGSGAFGKVVEVAVKMLALMSELKIMTHLGLNIVNLLGAYIITEYCFYGDLVNYLHKFLASKNCVHRDLAARNVLLICDFGLA,Human,,P16234
+PDGFR,platelet derived growth factor receptor beta,PDGFRB,TK,1804,453,PDGFRb,RTLGSGAFGQVVEVAVKMLALMSELKIMSHLGLNVVNLLGAYIITEYCRYGDLVDYLHRFLASKNCVHRDLAARNVLIICDFGLA,Human,,P09619
+PDK1,3-phosphoinositide dependent protein kinase 1,PDPK1,AGC,1519,27,PDK1,KILGEGSFSTVVLYAIKILYVTRERDVMSRLDPFFVKLYFTYFGLSYAKNGELLKYIRKYLHGKGIIHRDLKPENILLITDFGTA,Human,,O15530
+PDHK,"[Pyruvate dehydrogenase (acetyl-transferring)] kinase isozyme 1, mitochondrial",PDK1,Atypical,2915,90,PDHK1,,Human,PDHK,Q15118
+PDHK,"[Pyruvate dehydrogenase (acetyl-transferring)] kinase isozyme 2, mitochondrial",PDK2,Atypical,2142,91,PDHK2,,Human,PDHK,Q15119
+PDHK,"[Pyruvate dehydrogenase (acetyl-transferring)] kinase isozyme 3, mitochondrial",PDK3,Atypical,2143,92,PDHK3,,Human,PDHK,Q15120
+PDHK,"[Pyruvate dehydrogenase (acetyl-transferring)] kinase isozyme 4, mitochondrial",PDK4,Atypical,2144,93,PDHK4,,Human,PDHK,Q16654
+PEK,eukaryotic translation initiation factor 2 alpha kinase 3,EIF2AK3,Other,2017,309,PEK,QCLGRGGFGVVFEYAIKRIKVMREVKALAKLEPGIVRYFNAYIQMQLCRKENLKDWMNGFLHSKGLMHRDLKPSNIFFVGDFGLV,Human,PEK,Q9NZJ5
+CDK,cyclin-dependent kinase 14,CDK14,CMGC,1967,213,PFTAIRE1,EKLGEGSYATVYKVALKVITAIREASLLKGLKANIVLLHDITLVFEYVH-TDLCQYMDKYIHQRYILHRDLKPQNLLILADFGLA,Human,PFTAI,O94921
+PHK,"phosphorylase kinase, gamma 1 (muscle)",PHKG1,CAMK,2145,158,PHKg1,EILGRGVSSVVRRYAVKVIATLKEVDILRKVSPNIIQLKDTFLVFDLMKRGELFDYLTETLHKLNIVHRDLKPENILLLTDFGFS,Human,,Q16816
+PHK,"phosphorylase kinase, gamma 2 (testis)",PHKG2,CAMK,2147,159,PHKg2,DVIGRGVSSVVRRFAVKIMATRRETHILRQVAPHIITLIDSFLVFDLMRKGELFDYLTEFLHANNIVHRDLKPENILLLSDFGFS,Human,,P15735
+PIM,"Pim-1 proto-oncogene, serine/threonine kinase",PIM1,CAMK,2158,160,PIM1,PLLGSGGFGSVYSVAIKHVRVPMEVVLLKKVSSGVIRLLDWVLILERPEVQDLFDFITEHCHNCGVLHRDIKDENILILIDFGSG,Human,,P11309
+PIM,"Pim-2 proto-oncogene, serine/threonine kinase",PIM2,CAMK,2159,161,PIM2,PLLGKGGFGTVFAVAIKVITCPLEVALLWKVGPGVIRLLDWMLVLERPLAQDLFDYITEHCHSRGVVHRDIKDENILILIDFGSG,Human,,Q9P1W9
+CDK,cyclin-dependent kinase 10,CDK10,CMGC,0,200,CDK10,NRIGEGTYGIVYRVALKKVSSLREITLLLRLRPNIVELKEVFLVMGYCE-QDLASLLENYLHRNFIIHRDLKVSNLLMTADFGLA,Human,CDK10,Q15131
+CDK,cyclin-dependent kinase 9,CDK9,CMGC,1981,207,CDK9,AKIGQGTFGEVFKVALKKVTALREIKILQLLKENVVNLIEIYLVFDFCE-HDLAGLLSNYIHRNKILHRDMKAANVLILADFGLA,Human,CDK9,P50750
+CDK,cyclin-dependent kinase 11B,CDK11B,CMGC,1964,215,PITSLRE,NRIEEGTYGVVYRVALKRLTSLREINTILKAQPNIVTVREIYIVMNYVE-HDLKSLMETHLHDNWILHRDLKTSNLLLVGDFGLA,Human,PITSL,P21127
+CAMKL,maternal embryonic leucine zipper kinase,MELK,CAMK,2102,128,MELK,ETIGTGGFAKVKLVAIKIMRIKTEIEALKNLRQHICQLYHVFMVLEYCPGGELFDYIISYVHSQGYAHRDLKPENLLFLIDFGLC,Human,MELK,Q14680
+DMPK,CDC42 binding protein kinase alpha,CDC42BPA,AGC,1507,6,MRCKa,KVIGRGAFGEVAVFAMKILCFREERDVLVNGDKWITTLHYAYLVMDYYVGGDLLTLLSKSVHQLHYVHRDIKPDNILMLADFGSC,Human,GEK,Q5VT25
+PKA,protein kinase cAMP-activated catalytic subunit alpha,PRKACA,AGC,1476,28,PKACa,KTLGTGSFGRVMLYAMKILHTLNEKRILQAVNPFLVKLEFSYMVMEYVPGGEMFSHLRRYLHSLDLIYRDLKPENLLIVTDFGFA,Human,,P17612
+PKA,protein kinase cAMP-activated catalytic subunit beta,PRKACB,AGC,1477,29,PKACb,KTLGTGSFGRVMLYAMKILHTLNEKRILQAVNPFLVRLEYAYMVMEYVPGGEMFSHLRRYLHSLDLIYRDLKPENLLIVTDFGFA,Human,,P22694
+PKA,protein kinase cAMP-activated catalytic subunit gamma,PRKACG,AGC,1478,30,PKACg,RTLGMGSFGRVMLYAMKILHILNEKRILQAIDPFLVKLQFSYLVMEYVPGGEMFSRLQRYLHSLDLIHRDLKPENLLIVTDFGFA,Human,,P22612
+PKC,protein kinase C alpha,PRKCA,AGC,1482,33,PKCa,MVLGKGSFGKVMLYAIKILCTMVEKRVLALLDPFLTQLHSCYFVMEYVNGGDLMYHIQQFLHKRGIIYRDLKLDNVMLIADFGMC,Human,Alpha,P17252
+PKC,protein kinase C beta,PRKCB,AGC,1483,34,PKCb,MVLGKGSFGKVMLYAVKILCTMVEKRVLALPGPFLTQLHSCYFVMEYVNGGDLMYHIQQFLQSKGIIYRDLKLDNVMLIADFGMC,Human,Alpha,P05771
+PKC,protein kinase C delta,PRKCD,AGC,1485,36,PKCd,KVLGKGSFGKVLLFAIKALCTMVEKRVLTLAAPFLTHLICTFFVMEFLNGGDLMYHIQDFLHSKGIIYRDLKLDNVLLIADFGMC,Human,Delta,Q05655
+PKC,protein kinase C epsilon,PRKCE,AGC,1486,38,PKCe,KVLGKGSFGKVMLYAVKVLCTMTEKRILALARPYLTQLYCCFFVMEYVNGGDLMFQIQRFLHQHGVIYRDLKLDNILLLADFGMC,Human,Eta,Q02156
+PKC,protein kinase C gamma,PRKCG,AGC,1484,35,PKCg,MVLGKGSFGKVMLYAIKILCTLVEKRVLALGGHFLTQLHSTYFVMEYVTGGDLMYHIQQFLHNQGIIYRDLKLDNVMLITDFGMC,Human,Alpha,P05129
+PKC,protein kinase C iota,PRKCI,AGC,1490,40,PKCi,RVIGRGSYAKVLLYAMKVVWVQTEKHVFEQASPFLVGLHSCFFVIEYVNGGDLMFHMQRYLHERGIIYRDLKLDNVLLLTDYGMC,Human,Iota,P41743
+PKD,protein kinase D1,PRKD1,CAMK,1489,163,PKD1,EVLGSGQFGIVYGVAIKIIQLRNEVAILQNLHPGVVNLECMFVVMEKLHGDMLEMILSSHLHFKNIVHCDLKPENVLLLCDFGFA,Human,,Q15139
+PKC,protein kinase C theta,PRKCQ,AGC,1488,37,PKCt,KMLGKGSFGKVFLFAIKALCTMVEKRVLSLAWPFLTHMFCTFFVMEYLNGGDLMYHIQSFLHSKGIVYRDLKLDNILLIADFGMC,Human,Delta,Q04759
+PKC,protein kinase C zeta,PRKCZ,AGC,1491,41,PKCz,RVIGRGSYAKVLLYAMKVVWVQTEKHVFEQASPFLVGLHSCFLVIEYVNGGDLMFHMQRFLHERGIIYRDLKLDNVLLLTDYGMC,Human,Iota,Q05513
+PKA,"protein kinase, X-linked",PRKX,AGC,2175,31,PRKX,ATVGTGTFGRVHLFALKVMHVHNEKSVLKEVSPFLIRLFWTYMLMEYVPGGELFSYLRNYLHSKEIVYRDLKPENILLLTDFGFA,Human,,P51817
+DYRK,homeodomain interacting protein kinase 3,HIPK3,CMGC,2035,232,HIPK3,DFLGRGTFGQVVKVAIKILQGQIEVSILARLSYNFVRAYECCLVFEMLE-QNLYDFLKQKLKSLGLIHADLKPENIMLVIDFGSA,Human,HIPK,Q9H422
+PLK,polo like kinase 1,PLK1,Other,2168,311,PLK1,RFLGKGGFAKCFEFAGKIVKMSMEISIHRSLAQHVVGFHGFFVVLELCRRRSLLELHKRYLHRNRVIHRDLKLGNLFLIGDFGLA,Human,PLK1,P53350
+PLK,polo like kinase 3,PLK3,Other,2170,312,PLK3,RLLGKGGFARCYEYAVKVIKILNEIELHRDLQRHIVRFSHHYIFLELCSRKSLAHIWKAYLHQRGILHRDLKLGNFFIVGDFGLA,Human,PLK2,Q9H4B4
+PKN,protein kinase N1,PKN1,AGC,1520,44,PKN1,AVLGRGHFGKVLLFAIKALSLMCEKRILAAVTPFLVNLFGCCFVMEYSAGGDLMLHIHSFLHEHKIVYRDLKLDNLLLIADFGLC,Human,,Q16512
+PKN,protein kinase N2,PKN2,AGC,1521,45,PKN2,AVLGRGHFGKVLLFAIKALSLMCEKRIFETVNPFLVNLFACCFVMEYAAGGDLMMHIHTYLHEHKIVYRDLKLDNLLLIADFGLC,Human,,Q16513
+PKA,"protein kinase, Y-linked, pseudogene",PRKY,AGC,0,32,PRKY,VTMGTGTFGRVHLFALKVMHVHNEKSVLKEVSPFLIRLFWTYMLMEYVPGGELFSYLRNYLHSKEIVYRDLKPENILLLTDFGFA,Human,,O43930
+DYRK,pre-mRNA processing factor 4B,PRPF4B,CMGC,2177,236,PRP4,GYTGQGVFSNVVRVAVKIITGLKELEFLKKLNFHCLRLFRHCLVFEPLS-MNLREVLKKLLKRCNILHADIKPDNILVLCDFGSA,Human,PRP4,Q13523
+PSK,protein serine kinase H1,PSKH1,CAMK,0,166,PSKH1,ALIGRGSFSRVVRYAIKMIVCESELRVLRRVRANIIQLVEVYMVMELATGGELFDRIIAYLHALGITHRDLKPENLLYITDFGLA,Human,,P11801
+RAF,"Raf-1 proto-oncogene, serine/threonine kinase",RAF1,TKL,2184,510,RAF1,TRIGSGSFGTVYKVAVKILAFRNEVAVLRKTRVNILLFMGYAIVTQWCEGSSLYKHLHVYLHAKNIIHRDMKSNNIFLIGDFGLA,Human,RAF,P04049
+Ret,ret proto-oncogene,RET,TK,2185,454,RET,KTLGEGEFGKVVKVAVKMLDLLSEFNVLKQVNPHVIKLYGALLIVEYAKYGSLRGFLREYLAEMKLVHRDLAARNILVISDFGLS,Human,,P07949
+GRK,G protein-coupled receptor kinase 1,GRK1,AGC,1465,16,RHOK,RVLGKGGFGEVSAYACKKLGAMVEKKILMKVHRFIVSLAYACLVMTIMNGGDIRYHIYNHLHQRRIVYRDLKPENVLLISDLGLA,Human,GRK,Q15835
+RIPK,receptor interacting serine/threonine kinase 1,RIPK1,TKL,2189,511,RIPK1,AELDSGGFGKVSLMIMKTVALLEEAKMMNRLRSRVVKLLGVSLVMEYMEKGNLMHVLKAYLHGKGVIHKDLKPENILVIADLGLA,Human,,Q13546
+RIPK,receptor interacting serine/threonine kinase 2,RIPK2,TKL,2190,512,RIPK2,RYLSRGASGTVSSVAVKHLDVLREAEILHKARSYILPILGIGIVTEYMPNGSLNELLHRHNMTPPLLHHDLKTQNILLIADFGLS,Human,,O43353
+RIPK,receptor interacting serine/threonine kinase 3,RIPK3,TKL,0,513,RIPK3,ELVGKGGFGTVFRVAVKIVAISREVKAMASLDEFVLRLEGVALVTKFMENGSLSGLLQSHDQNPVLLHRDLKPSNVLLLADFGLS,Human,,Q9Y572
+DMPK,Rho associated coiled-coil containing protein kinase 1,ROCK1,AGC,1503,9,ROCK1,KVIGRGAFGEVQLYAMKLLFFWEERDIMAFANPWVVQLFYAYMVMEYMPGGDLVNLMSNAIHSMGFIHRDVKPDNMLLLADFGTC,Human,ROCK,Q13464
+Met,macrophage stimulating 1 receptor,MST1R,TK,1816,447,RON,RVIGKGHFGVVYHCAIKSLAFLREGLLMRGLNPNVLALIGIHVLLPYMCHGDLLQFIRSYLAEQKFVHRDLAARNCMLVADFGLA,Human,,Q04912
+Ror,receptor tyrosine kinase-like orphan receptor 1,ROR1,TK,0,455,ROR1,EELGECAFGKIYKVAIKTLEFQQEASLMAELHPNIVCLLGACMLFEYINQGDLHEFLIMYLSSHFFVHKDLAARNILIISDLGLS,Human,,Q01973
+Ror,receptor tyrosine kinase-like orphan receptor 2,ROR2,TK,0,456,ROR2,EELGEDRFGKVYKVAIKTLEFRHEAMLRARLQPNVVCLLGVSMIFSYCSHGDLHEFLVMYLSSHHVVHKDLATRNVLVISDLGLF,Human,,Q01974
+Sev,"ROS proto-oncogene 1 , receptor tyrosine kinase",ROS1,TK,1840,458,ROS,LLLGSGAFGEVYEVAVKTLEFLKEAHLMSKFNPNILKQLGVYIILELMEGGDLLTYLRKYLERMHFIHRDLAARNCLVIGDFGLA,Human,,P08922
+RSK,ribosomal protein S6 kinase A2,RPS6KA2,AGC,1529,53,RSK1,KVLGQGSYGKVFLYAMKVLRSKMERDILAEVNPFIVKLHYAYLILDFLRGGDLFTRLSKHLHSLGIIYRDLKPENILLITDFGLS,Human,RSK,Q15349
+RSK,ribosomal protein S6 kinase A3,RPS6KA3,AGC,1528,55,RSK2,KVLGQGSFGKVFLYAMKVLRTKMERDILVEVNPFIVKLHYAYLILDFLRGGDLFTRLSKHLHSLGIIYRDLKPENILLLTDFGLS,Human,RSK,P51812
+RSK,ribosomal protein S6 kinase A1,RPS6KA1,AGC,1527,54,RSK3,KVLGQGSFGKVFLYAMKVLRTKMERDILADVNPFVVKLHYAYLILDFLRGGDLFTRLSKHLHSLGIIYRDLKPENILLLTDFGLS,Human,RSK,Q15418
+Ryk,receptor-like tyrosine kinase,RYK,TK,0,457,RYK,DVLQEGTFGRIFHAFVKTVMMLTESCKLRGLHRNLLPITHVMVILPYMNWGNLKLFLRQYLARREVIHKDLAARNCVIITDNALS,Human,,P34925
+PLK,polo like kinase 4,PLK4,Other,2171,314,PLK4,NLLGKGSFAGVYRVAIKMIRVQNEVKIHCQLKPSILELYNYYLVLEMCHNGEMNRYLKNYLHSHGILHRDLTLSNLLLIADFGLA,Human,SAK,O00444
+MAPK,mitogen-activated protein kinase 11,MAPK11,CMGC,1500,250,p38b,RPVGSGAYGSVCSVAVKKLRTYRELRLLKHLKENVIGLLDVYLVTTLMG-ADLNNIVKCYIHSAGIIHRDLKPSNVAVILDFGLA,Human,p38,Q15759
+MAPK,mitogen-activated protein kinase 12,MAPK12,CMGC,1501,252,p38g,QPVGSGAYGAVCSVAIKKLRAYRELRLLKHMRENVIGLLDVYLVMPFMG-TDLGKLMKHYIHAAGIIHRDLKPGNLAVILDFGLA,Human,p38,P53778
+MAPK,mitogen-activated protein kinase 13,MAPK13,CMGC,1502,251,p38d,THVGSGAYGSVCSVAIKKLRAYRELLLLKHMQENVIGLLDVYLVMPFMQ-TDLQKIMGMYIHSAGVVHRDLKPGNLAVILDFGLA,Human,p38,O15264
+MAST,microtubule associated serine/threonine kinase 1,MAST1,AGC,1510,18,MAST1,KLISNGAYGAVYLFAMKKIQAFVERDILTFAEPFVVGMFCSCMVMEYVEGGDCATLLKNYLHNYGIVHRDLKPDNLLILTDFGLS,Human,MAST,Q9Y2H9
+SGK,serum/glucocorticoid regulated kinase 1,SGK1,AGC,1534,64,SGK1,KVIGKGSFGKVLLYAVKVLHIMSERNVLLKNVPFLVGLHFSYFVLDYINGGELFYHLQRYLHSLNIVYRDLKPENILLLTDFGLC,Human,,O00141
+STE20,STE20 like kinase,SLK,STE,2200,374,SLK,GELGDGAFGKVYKAAAKVIDYMVEIDILASCDPNIVKLLDAWILIEFCAGGAVDAVMLEYLHDNKIIHRDLKAGNILFLADFGVS,Human,SLK,Q9H2G2
+PLK,polo like kinase 2,PLK2,Other,2169,313,PLK2,KVLGKGGFAKCYEYAAKIIKIDKEIELHRILHKHVVQFYHYYILLEYCSRRSMAHILKAYLHEQEILHRDLKLGNFFIVGDFGLA,Human,PLK2,Q9NYY3
+MLK,mitogen-activated protein kinase kinase kinase 11,MAP3K11,TKL,2071,502,MLK3,EVIGIGGFGKVYRVAVKAASVRQEARLFAMLAPNIIALKAVCLVMEYAAGGPLSRALAGCEALVPVIHRDLKSNNILLITDFGLA,Human,MLK,Q16584
+Src,"SRC proto-oncogene, non-receptor tyrosine kinase",SRC,TK,2206,462,SRC,VKLGQGCFGEVWMVAIKTLAFLQEAQVMKKLREKLVQLYAVYIVTEYMSKGSLLDFLKGYVERMNYVHRDLRAANILVVADFGLA,Human,SrcA,P12931
+SRPK,SRSF protein kinase 1,SRPK1,CMGC,2208,256,SRPK1,RKLGWGHFSTVWLVAMKVVTALDEIRLLKSVREMVVQLLDDCMVFEVLG-HHLLKWIIKLHTKCRIIHTDIKPENILLIADLGNA,Human,,Q96SB4
+SRPK,SRSF protein kinase 2,SRPK2,CMGC,2209,257,SRPK2,RKLGWGHFSTVWLVAMKVVTALDEIKLLKCVRDMVVQLIDDCMVFEVLG-HHLLKWIIKLHSKCKIIHTDIKPENILMIADLGNA,Human,,P78362
+CDKL,cyclin dependent kinase like 5,CDKL5,CMGC,0,216,CDKL5,GVVGEGAYGVVLKVAIKKFTTLRELKMLRTLKENIVELKEAYLVFEYVE-KNMLELLEEWCHKNDIVHRDIKPENLLILCDFGFA,Human,,O76039
+STE20,TAO kinase 2,TAOK2,STE,2234,377,TAO2,REIGHGSFGAVYFVAIKKMDIIKEVRFLQKLRPNTIQYRGCWLVMEYCLGSASDLLEVHYLHSHNMIHRDVKAGNILLLGDFGSA,Human,TAO,Q9UL54
+Syk,spleen tyrosine kinase,SYK,TK,2230,470,SYK,KELGSGNFGTVKKVAVKILELLAEANVMQQLDPYIVRMIGIMLVMEMAELGPLNKYLQQYLEESNFVHRDLAARNVLLISDFGLS,Human,,P43405
+MLK,mitogen-activated protein kinase kinase kinase 7,MAP3K7,TKL,0,504,TAK1,EVVGRGAFGVVCKVAIKQIAFIVELRQLSRVNPNIVKLYGACLVMEYAEGGSLYNVLHGSMQPKALIHRDLKPPNLLLICDFGTA,Human,TAK1,O43318
+STKR,bone morphogenetic protein receptor type II,BMPR2,TKL,1794,526,BMPR2,ELIGRGRYGAVYKVAVKVFNFINEKNIYRVPLDNIARFIVGLLVMEYYPNGSLCKYLSLDHYKPAISHRDLNSRNVLVISDFGLS,Human,Type2,Q13873
+Tec,tec protein tyrosine kinase,TEC,TK,2238,475,TEC,RELGSGLFGVVRLVAIKAIDFIEEAKVMMKLTPKLVQLYGVYIVTEFMERGCLLNFLRQYLERNSFIHRDLAARNCLVVSDFGMA,Human,,P42680
+Tie,TEK receptor tyrosine kinase,TEK,TK,1842,477,TIE2,DVIGEGNFGQVLKAAIKRMDFAGELEVLCKLGPNIINLLGAYLAIEYAPHGNLLDFLRKYLSQKQFIHRDLAARNILVIADFGLS,Human,,Q02763
+LISK,testis-specific kinase 1,TESK1,TKL,2239,492,TESK1,EKIGAGFFSEVYKMVLKMNNTLREVQLMNRLRPNILRFMGVHALTEYMNGGTLEQLLSSYLHSKGVFHRDLTSKNCLVVGDFGLA,Human,TESK,Q15569
+STKR,transforming growth factor beta receptor II,TGFBR2,TKL,1795,527,TGFbR2,TLVGKGRFAEVYKVAVKIFSWKTEKDIFSDINENILQFLTAWLITAFHAKGNLQEYLTRGRPKMPIVHRDLKSSNILVLCDFGLS,Human,Type2,P37173
+Tie,tyrosine kinase with immunoglobulin like and EGF like domains 1,TIE1,TK,1841,478,TIE1,DLIGEGNFGQVIRAAIKMLDFAGELEVLCKLGPNIINLLGAYIAIEYAPYGNLLDFLRKYLSEKQFIHRDLAARNVLVIADFGLS,Human,,P35590
+MLCK,titin,TTN,CAMK,0,154,TTN,EDLGRGEFGIVHRYMAKFVLVKKEISILNIARRNILHLHESVMIFEFISGLDIFERINTFLHSHNIGHFDIRPENIIYIIEFGQA,Human,,Q8WZ42
+TLK,tousled like kinase 1,TLK1,Other,2242,323,TLK1,HLLGRGGFSEVYKAAVKIHHACREYRIHKELDPRIVKLYDYCTVLEYCEGNDLDFYLKQNEIKPPIIHYDLKPGNILLITDFGLS,Human,,Q9UKI8
+TLK,tousled like kinase 2,TLK2,Other,2243,324,TLK2,HLLGRGGFSEVYKVAVKIHHACREYRIHKELDPRIVKLYDYCTVLEYCEGNDLDFYLKQNEIKPPIIHYDLKPGNILLITDFGLS,Human,,Q86UE8
+Ack,"tyrosine kinase, non-receptor, 1",TNK1,TK,2245,395,TNK1,ELLGSGCFGVVHRVAVKSLDFLREVSVMMNLEPHVLRLHGLQMVMELAPLGSLHARLTAYLGARGLVHRDLATRNLLLVADFGLV,Human,,Q13470
+Trio,trio Rho guanine nucleotide exchange factor,TRIO,CAMK,0,177,Trio,AELGRGRFSVVKKVATKFVQVTHELGILQSLQPLLVGLLDTILVLEMADQGRLLDCVVRYLHNCRIAHLDLKPENILVLADFGDA,Human,,O75962
+Trk,"neurotrophic tyrosine kinase, receptor, type 1",NTRK1,TK,1817,480,TRKA,WELGEGAFGKVFLVAVKALDFQREAELLTMLQQHIVRFFGVLMVFEYMRHGDLNRFLRSYLAGLHFVHRDLATRNCLVIGDFGMS,Human,,P04629
+Trk,"neurotrophic tyrosine kinase, receptor, type 2",NTRK2,TK,1818,481,TRKB,RELGEGAFGKVFLVAVKTLDFHREAELLTNLQEHIVKFYGVIMVFEYMKHGDLNKFLRAYLASQHFVHRDLATRNCLVIGDFGMS,Human,,Q16620
+Trk,"neurotrophic tyrosine kinase, receptor, type 3",NTRK3,TK,1819,482,TRKC,RELGEGAFGKVFLVAVKALDFQREAELLTNLQEHIVKFYGVIMVFEYMKHGDLNKFLRAYLASQHFVHRDLATRNCLVIGDFGMS,Human,,Q16288
+PIKK,Transformation/transcription domain-associated protein,TRRAP,Atypical,2256,99,TRRAP,VQKHNTAARRLYIYLVMNDESRREERVLQLLRFFTVPRVVAMRLVEDNPVEIYKQRCAKAEFV--LHLNRLNPEMLQITIGVSGP,Human,TRRAP,Q9Y4A5
+TTK,TTK protein kinase,TTK,Other,2264,326,TTK,KQIGSGGSSKVFQYAIKYVSYRNEIAYLNKLQDKIIRLYDYYMVMECGN-IDLNSWLKKTIHQHGIVHSDLKPANFLILIDFGIA,Human,,P33981
+Tec,TXK tyrosine kinase,TXK,TK,2268,476,TXK,KEIGSGQFGVVHLVAIKAIDFIEEAKVMMKLSSKLVQLYGVYIVTEFMENGCLLNYLREYLERNGYIHRDLAARNCLVISDFGMT,Human,,P42681
+JakA,tyrosine kinase 2,TYK2,TK,2269,441,TYK2,RDLGEGHFGKVSLVAVKALGWKQEIDILRTLYEHIIKYKGCQLVMEYVPLGSLRDYLPRYLHAQHYIHRDLAARNVLLIGDFGLA,Human,,P29597
+Axl,TYRO3 protein tyrosine kinase,TYRO3,TK,1836,399,TYRO3,RMLGKGEFGSVREVAVKMLEFLREAACMKEFDPHVAKLVGVMVILPFMKHGDLHAFLLAYLSSRNFIHRDLAARNCMLVADFGLS,Human,,Q06418
+ULK,unc-51 like autophagy activating kinase 1,ULK1,Other,2271,328,ULK1,DLIGHGAFAVVFKVAVKCILLGKEIKILKELKENIVALYDFYLVMEYCNGGDLADYLHALLHSKGIIHRDLKPQNILLIADFGFA,Human,ULK,O75385
+ULK,unc-51 like autophagy activating kinase 2,ULK2,Other,2272,329,ULK2,DLVGHGAFAVVFRVAIKSILLGKEIKILKELQENIVALYDVFLVMEYCNGGDLADYLQAILHSKGIIHRDLKPQNILLIADFGFA,Human,ULK,Q8IYT8
+VRK,vaccinia related kinase 1,VRK1,CK1,2275,193,VRK1,LPIGQGGFGCIYLCVVKVEPLFTELKFYQRAALGVPKYWGSFMIMDRFG-SDLQKIYEAYIHEHEYVHGDIKASNLLLLVDYGLA,Human,,Q99986
+VRK,vaccinia related kinase 2,VRK2,CK1,2276,194,VRK2,KKIGSGGFGLIYLHVVKVEPLFSELKFYQRVALGIPLFYGSFMVMERLG-IDLQKISGQYIHENEYVHGDIKAANLLLLADYGLS,Human,,Q86Y07
+WEE,WEE1 G2 checkpoint kinase,WEE1,Other,2278,333,Wee1,EKIGSGEFGSVFKYAIKRSNALREVYAHAVLGSHVVRYFSALIQNEYCNGGSLADAISEYIHSMSLVHMDIKPSNIFIIGDLGHV,Human,,P30291
+Src,"YES proto-oncogene 1, Src family tyrosine kinase",YES1,TK,2284,463,YES,VKLGQGCFGEVWMVAIKTLAFLQEAQIMKKLRDKLVPLYAVYIVTEFMSKGSLLDFLKEYIERMNYIHRDLRAANILVIADFGLA,Human,SrcA,P07947
+STE20,serine/threonine kinase 25,STK25,STE,2218,381,YSK1,DRIGKGSFGEVYKVAIKIIDIQQEITVLSQCDPYITRYFGSWIIMEYLGGGSALDLLKPYLHSERKIHRDIKAANVLLLADFGVA,Human,YSK,O00506
+Syk,zeta chain of T cell receptor associated protein kinase 70kDa,ZAP70,TK,2285,471,ZAP70,IELGCGNFGSVRQVAIKVLEMMREAQIMHQLDPYIVRLIGVMLVMEMAGGGPLHKFLVGYLEEKNFVHRDLAARNVLLISDFGLS,Human,,P43403
+MLK,mitogen-activated protein kinase kinase kinase 13,MAP3K13,TKL,2073,499,LZK,QWLGSGAQGAVFLVAIKKVQNETDIKHLRKLKPNIIAFKGVCIIMEYCAHGQLYEVLRAYLHLHKIIHRDLKSPNVLVISDFGTS,Human,LZK,O43283
+DDR,discoidin domain receptor tyrosine kinase 1,DDR1,TK,1843,404,DDR1,EKLGEGQFGEVHLVAVKILDFLKEVKIMSRLKPNIIRLLGVCMITDYMENGDLNQFLSAYLATLNFVHRDLATRNCLVIADFGMS,Human,,Q08345
+ABC1,Uncharacterized aarF domain-containing protein kinase 1,ADCK1,Atypical,1925,72,ADCK1,TPLGTASLAQVHKVAVKVQDFLNEGRNAEKVSLKVPRIHWDERVLLMEFGQVNDRDYMEFVNG--FVHCDPHPGNVLVLLDHGLY,Human,ABC1-,Q86TW2
+VEGFR,kinase insert domain receptor,KDR,TK,1813,485,KDR,KPLGRGAFGQVIEVAVKMLALMSELKILIHIGLNVVNLLGAMVIVEFCKFGNLSTYLRSFLASRKCIHRDLAARNILLICDFGLA,Human,,P35968
+STKR,activin A receptor type IC,ACVR1C,TKL,0,522,ALK7,EIVGKGRFGEVWHVAVKIFSWFREAEIYQTVMENILGFIAAWLVSEYHEQGSLYDYLNRTQGKPAIAHRDIKSKNILVIADLGLA,Human,Type1,Q8NER5
+Aur,aurora kinase B,AURKB,Other,1937,261,AurB,RPLGKGKFGNVYLVALKVLQLRREIEIQAHLHPNILRLYNYYLILEYAPRGELYKELQKYCHGKKVIHRDIKPENLLLIADFGWS,Human,,Q96GD4
+Aur,aurora kinase A,AURKA,Other,1936,259,AurA,RPLGKGKFGNVYLLALKVLQLRREVEIQSHLRPNILRLYGYYLILEYAPLGTVYRELQKYCHSKRVIHRDIKPENLLLIADFGWS,Human,,O14965
+MAPK,mitogen-activated protein kinase 7,MAPK7,CMGC,2093,243,Erk5,ETIGNGAYGVVSSVAIKKIRTLRELKILKHFKDNIIAIKDIYVVLDLME-SDLHQIIHSYMHSAQVIHRDLKPSNLLVIGDFGMA,Human,ERK5,Q13164
+BUB,BUB1 mitotic checkpoint serine/threonine kinase,BUB1,Other,1949,262,BUB1,HLLGEGAFAQVYEFVLKVQIGTQLMERLKPSMHMFMKFYSAVLVGELYSYGTLLNAINLQVHDCEIIHGDIKPDNFILLIDLGQS,Human,,O43683
+DDR,discoidin domain receptor tyrosine kinase 2,DDR2,TK,1844,405,DDR2,EKLGEGQFGEVHLVAVKMLDFLKEIKIMSRLKPNIIHLLAVCMITEYMENGDLNQFLSRYLSSLNFVHRDLATRNCLVIADFGMS,Human,,Q16832
+CCK4,protein tyrosine kinase 7 (inactive),PTK7,TK,0,401,CCK4,TTLGKSEFGEVFLVLVKSLDFRRELEMFGKLNANVVRLLGLYMVLEYVDLGDLKQFLRIHLSNNRFVHKDLAARNCLVVSALGLS,Human,,Q13308
+LISK,LIM domain kinase 1,LIMK1,TKL,2054,490,LIMK1,EVLGKGCFGQAIKMVMKELTFLKEVKVMRCLEPNVLKFIGVNFITEYIKGGTLRGIIKSYLHSMNIIHRDLNSHNCLVVADFGLA,Human,LIMK,P53667
+Lmr,apoptosis-associated tyrosine kinase,AATK,TK,0,443,LMR1,KEIGRGWFGKVFLVVVKELQFLEEVQPYRALKSNLLQCLAQLLVMEFCPLGDLKGYLRSHLHRNNFVHSDLALRNCLLIGDYGLA,Human,,Q6ZMQ8
+Lmr,lemur tyrosine kinase 2,LMTK2,TK,0,444,LMR2,QEIGNGWFGKVLLVIVKELTFLKNGEPYYILQPNILQCVGQLLVFEFCDLGDLKAYLRSAMHKLHFLHSDLALRNCFLVGDYGIG,Human,,Q8IWU2
+Lmr,lemur tyrosine kinase 3,LMTK3,TK,0,445,LMR3,QEIGSGWFGKVILVVVKELKFISEAQPYRSLQPNVLQCLGLLLIMEFCQLGDLKRYLRAHLHSHNYVHSDLALRNCLLIGDYGLA,Human,,Q96Q04
+Eph,EPH receptor A7,EPHA7,TK,1827,415,EphA7,RVIGAGEFGEVCSVAIKTLDFLCEASIMGQFDPNVVHLEGVMIVIEFMENGALDAFLRKYLADMGYVHRDLAARNILVVSDFGLS,Human,,Q15375
+Tec,BMX non-receptor tyrosine kinase,BMX,TK,1942,472,BMX,KELGSGQFGVVQLVAVKMIEFFQEAQTMMKLSPKLVKFYGVYIVTEYISNGCLLNYLRSFLESHQFIHRDLAARNCLVVSDFGMT,Human,,P51813
+Csk,megakaryocyte-associated tyrosine kinase,MATK,TK,2101,403,CTK,AQIGEGEFGAVLQVAVKNIAFLDETAVMTKMQENLVRLLGVYIVMEHVSKGNLVNFLRTYLESKKLVHRDLAARNILVVSDFGLA,Human,,P42679
+Src,fyn-related Src family tyrosine kinase,FRK,TK,2025,459,FRK,KRLGSGQFGEVWEVAVKTLDFLREAQIMKNLRPKLIQLYAVYIITELMRHGSLQEYLQNYLESRNYIHRDLAARNVLVVADFGLA,Human,Frk,P42685
+NEK,NIMA related kinase 6,NEK6,Other,2121,288,NEK6,KKIGRGQFSEVYKVALKKVDCVKEIGLLKQLNPNIIKYLDSNIVLELADAGDLSQMIKYHMHSRRVMHRDIKPANVFILGDLGLG,Human,NEK6,Q9HC98
+NEK,NIMA related kinase 7,NEK7,Other,2122,289,NEK7,KKIGRGQFSEVYRVALKKVDCIKEIDLLKQLNPNVIKYYASNIVLELADAGDLSRMIKHHMHSRRVMHRDIKPANVFILGDLGLG,Human,NEK6,Q8TDX7
+NAK,AP2 associated kinase 1,AAK1,Other,1921,277,AAK1,EVLAEGGFAIVFLCALKRMVCKREIQIMRDLSKNIVGYIDSLILMDFCRGGQVVNLMNQHQCKTPIIHRDLKVENILLLCDFGSA,Human,BIKE,Q2M2I8
+Alpha,Transient receptor potential cation channel subfamily M member 7,TRPM7,Atypical,499,78,ChaK1,,Human,ChaK,Q96QT4
+FAK,protein tyrosine kinase 2 beta,PTK2B,TK,2181,424,PYK2,RILGEGFFGEVYEVAVKTCKFMSEAVIMKNLDPHIVKLIGIWIIMELYPYGELGHYLERYLESINCVHRDIAVRNILVLGDFGLS,Human,,Q14289
+Src,src-related kinase lacking C-terminal regulatory tyrosine and N-terminal myristylation sites,SRMS,TK,2207,469,SRM,RKLGEGYFGEVWEVAIKVIDLAKEIQTLKGLRERLIRLHAVYIVTELMRKGNLQAFLGTYLEEQRVVHRDLAARNVLVVADFGLA,Human,SRM,Q9H3Y6
+STE20,serine/threonine kinase 10,STK10,STE,2211,373,LOK,GELGDGAFGKVYKAAAKVIDYIVEIEILATCDPYIVKLLGAWIMIEFCPGGAVDAIMLEFLHSKRIIHRDLKAGNVLMLADFGVS,Human,SLK,O94804
+STE20,mitogen-activated protein kinase kinase kinase kinase 3,MAP4K3,STE,2087,356,KHS2,QRIGSGTYGDVYKAAIKVIVVQQEIIMMKDCKPNIVAYFGSWICMEFCGGGSLQDIYHVYLHSKGKMHRDIKGANILLLADFGVS,Human,KHS,Q8IVH8
+STE20,oxidative stress responsive 1,OXSR1,STE,2132,353,OSR1,EVIGSGATAVVQAVAIKRIELLKEIQAMSQCHPNIVSYYTSWLVMKLLSGGSVLDIIKHYLHKNGQIHRDVKAGNILLIADFGVS,Human,FRAY,O95747
+STE20,p21 protein (Cdc42/Rac)-activated kinase 6,PAK6,STE,2137,371,PAK6,VKIGEGSTGIVCLVAVKMMLLFNEVVIMRDYQFNVVEMYKSWVLMEFLQGGALTDIVSQYLHAQGVIHRDIKSDSILLLSDFGFC,Human,PAKB,Q9NQU5
+STE20,p21 protein (Cdc42/Rac)-activated kinase 4,PAK4,STE,2136,370,PAK4,IKIGEGSTGIVCIVAVKKMLLFNEVVIMRDYQENVVEMYNSWVVMEFLEGGALTDIVTHVLHAQGVIHRDIKSDSILLLSDFGFC,Human,PAKB,O96013
+STE20,serine/threonine protein kinase 26,STK26,STE,2287,382,MST4,ERIGKGSFGEVFKVAIKIIDIQQEITVLSQCDSYVTKYYGSWIIMEYLGGGSALDLLRAYLHSEKKIHRDIKAANVLLLADFGVA,Human,YSK,Q9P289
+STE20,serine/threonine kinase 39,STK39,STE,2224,354,STLK3,EVIGSGATAVVQAVAIKRIELLKEIQAMSQCSPNVVTYYTSWLVMKLLSGGSMLDIIKYYLHRNGQIHRDLKAGNILLIADFGVS,Human,FRAY,Q9UEW8
+STE20,STE20-related kinase adaptor alpha,STRADA,STE,0,376,STLK5,TVIGKGFEDLMTVVTVRRIFLQGELHVSKLFNPNIVPYRATWVVTSFMAYGSAKDLICTYIHHMGYVHRSVKASHILILSGLRSN,Human,STLK,Q7RTN6
+STE20,STE20-related kinase adaptor beta,STRADB,STE,0,375,STLK6,VEIGRGFDNLTSVVTIKITALQKAVILSHFFRPNITTYWTVWVISPFMAYGSASQLLRTYLHQNGCIHRSIKASHILILSGLSHL,Human,STLK,Q9C0K7
+STE20,TAO kinase 3,TAOK3,STE,2235,378,TAO3,HEIGHGSFGAVYFVAIKKMDILKEVKFLRQLKPNTIEYKGCWLVMEYCLGSASDLLEVHYLHSHALIHRDIKAGNILLLADFGSA,Human,TAO,Q9H2K8
+STE20,TAO kinase 1,TAOK1,STE,2233,379,TAO1,REIGHGSFGAVYFVAIKKMDIIKEVKFLQRIKPNSIEYKGCWLVMEYCLGSASDLLEVHYLHSHTMIHRDIKAGNILLLADFGSA,Human,TAO,Q7L7X3
+STE20,mitogen-activated protein kinase kinase kinase kinase 4,MAP4K4,STE,2088,359,HGK,EVVGNGTYGQVYKAAIKVMEIKLEINMLKKYSRNIATYYGAWLVMEFCGAGSITDLVKNHLHIHHVIHRDIKGQNVLLLVDFGVS,Human,MSN,O95819
+STE20,TRAF2 and NCK interacting kinase,TNIK,STE,2244,360,TNIK,ELVGNGTYGQVYKAAIKVMEIKQEINMLKKYSRNIATYYGAWLVMEFCGAGSVTDLIKNHLHQHKVIHRDIKGQNVLLLVDFGVS,Human,MSN,Q9UKE5
+STE20,misshapen-like kinase 1,MINK1,STE,2103,362,MINK,EVVGNGTYGQVYKAAIKVMEIKQEINMLKKYSRNIATYYGAWLVMEFCGAGSVTDLVKNHLHAHKVIHRDIKGQNVLLLVDFGVS,Human,MSN,Q8N4C8
+STE20,Nik related kinase,NRK,STE,0,361,NRK,KTIGLGTYGRIYLTAVKVMDLRTELNLLRKYSKNIVSFYGAWMVMELCAAGSVTDVVRMHLHAHRVIHRDIKGQNVLLLVDFGVS,Human,MSN,Q7Z2Y5
+NDR,large tumor suppressor kinase 1,LATS1,AGC,1515,23,LATS1,KTLGIGAFGEVCLYATKTLHVKAERDILAEADEWVVRLYYSYFVMDYIPGGDMMSLLIRSVHKMGFIHRDIKPDNILILTDFGLC,Human,,O95835
+NDR,large tumor suppressor kinase 2,LATS2,AGC,1516,26,LATS2,KTLGIGAFGEVCLYAMKTLHVKAERDILAEADEWVVKLYYSYFVMDYIPGGDMMSLLIRSVHKMGFIHRDIKPDNILILTDFGLC,Human,,Q9NRM7
+CDK,cyclin-dependent kinase 19,CDK19,CMGC,1972,206,CDK11,CKVGRGTYGHVYKYALKQISACREIALLRELKPNVIALQKVWLLFDYAE-HDLWHIIKFYLHANWVLHRDLKPANILVIADMGFA,Human,CDK8,Q9BWU1
+CAMKL,NIM1 serine/threonine protein kinase,NIM1K,CAMK,2291,129,NIM1,GEIGSGNFSQVKLVAIKILLLSREISSMEKLHPNIIRLYEVHLVMEYAGGGELFGKISTHMHENQIIHRDLKAENVFYVGDFGFS,Human,NIM1,Q8IY84
+ULK,unc-51 like kinase 3,ULK3,Other,2273,330,ULK3,ERLGSGTYATVYKVAIKCVNLLTEIEILKGIRPHIVQLKDFYLIMEFCAGGDLSRFIHTFLHERNISHLDLKPQNILLLADFGFA,Human,ULK,Q6PHR2
+NKF4,PDLIM1 interacting kinase 1 like,PDIK1L,Other,0,299,CLIK1L,REVGRGSYGVVYEVAVKKILALREFWALSSIKPNVIHLEECLQLVETSLKGEIAFDPRSFLHKNQIIHRDLKPDNILIVADFGLS,Human,,Q8N165
+TTBK,tau tubulin kinase 2,TTBK2,CK1,0,192,TTBK2,RKIGGGGFGEIYDVALKVEVLKMEVAVLKKLQDHVCRFIGCYVVMQLQG-RNLADLRRSSIHSVGFLHRDIKPSNFAMMLDFGLA,Human,,Q6IQ55
+SCY1,SCY1 like pseudokinase 1,SCYL1,Other,0,317,SCYL1,--------WALHRVSIFVYVAKAAFKRFKTLRPNILAYIDGHVVTEAV--TPLGIYLKALVNDCSLIHNNVCMAAVFVLGGLDYM,Human,,Q96KG9
+MAST,microtubule associated serine/threonine kinase like,MASTL,AGC,0,22,MASTL,KPISRGAFGKVYLYAVKVVQVQAERDALALSKPFIVHLYYSYLVMEYLIGGDVKSLLHIYLHRHGIIHRDLKPDNMLILTDFGLS,Human,MASTL,Q96GX5
+NKF2,PTEN induced putative kinase 1,PINK1,Other,0,295,PINK1,QSIGKGCSAAVYELAIKMMGSSSEAILNTMSQPNIIRVLRALPGALVDYPDVLPSRLHPHLVQQGIAHRDLKSDNILVIADFGCC,Human,,Q9BXM7
+ULK,unc-51 like kinase 4,ULK4,Other,0,331,ULK4,EEIGRGSKTVVYKVAILCTEITNWVRLTREIKKNIVTFHEWWLVVELCTGGSLKTVIAQHLHKLGILFCDISPRKILLFSNFCLA,Human,ULK,Q96C45
+TKL-Unique,mixed lineage kinase domain-like,MLKL,TKL,0,528,MLKL,ILLRENEVSTLYKVAIKVFTFNKEIKTMKKFEPNILRIFGISIVMEYCELGTLRELLDRHHSEAPELHGKIRSSNFLVLAGFELR,Human,,Q8NB16
+DCAMKL,doublecortin like kinase 3,DCLK3,CAMK,2007,146,DCLK3,RVIGDGNFAVVKEYAMKIIMVDSEILIIQSLSPNIVKLHEVYLILEYVQGGDLFDAIIEHMHDKSIVHRDLKPENLLVLADFGLA,Human,,Q9C098
+SgK493,"protein kinase domain containing, cytoplasmic",PKDCC,Other,0,319,SgK493,QYMGSGYTKAVYRVALKAVKLLKEMVLLERLRPNVLQLYGYDTLTTITELGAPVEMIQLHSPLGSVTLLDFRPRQFVLVTDLDDA,Human,,Q504Y2
+CDK,cyclin-dependent kinase 15,CDK15,CMGC,1968,214,PFTAIRE2,EKLGEGSYATVYKVALKVITAIREASLLKGLKANIVLLHDITFVFEYMH-TDLAQYMSQYIHHQHVLHRDLKPQNLLILADFGLA,Human,PFTAI,Q96Q40
+CAMK-Unique,serine/threonine kinase 33,STK33,CAMK,2221,137,STK33,RILGKGSFGIVIEWAIKKVLLEREVNILKSVKEHIIHLEQVYLVMELCEDGELKEILDRYLHNNDIVHRDLKLENIMVVTDFGLA,Human,,Q9BYT3
+Bud32,TP53 regulating kinase,TP53RK,Other,0,264,PRPK,ELVKQGAEARVFRAVIKHRRTVQEARALLRCRAGISAPVVFCLYMEEIE-GSVTVRDYIRMHDEDLIHGDLTTSNMLLLIDFGLS,Human,,Q96S44
+MAPK,mitogen-activated protein kinase 15,MAPK15,CMGC,2090,244,Erk7,RQLGQGAYGIVWKVAIKKIRTFREITLLQEFGPNIISLLDVYLVFEFMD-TDLNAVIRKFLHSGHVVHRDQKPSNVLLLCDFGLA,Human,ERK7,Q8TD08
+CDKL,cyclin dependent kinase like 4,CDKL4,CMGC,1985,220,CDKL4,AKTGEGSYGVVFKVAVKKFIALREIRMLKQLKPNLVNLIEVHLVFEYCD-HTLLNELERFCHIHNCIHRDIKPENILIICDFGFA,Human,,Q5MAI5
+SCY1,SCY1 like pseudokinase 3,SCYL3,Other,0,316,SCYL3,---------AVYPASVFVYKVNKAAKHLKTLRPCLLRFLSCHLVTERV--QPLEVALETLHDRGHLTHNNVCLSSVFVLGGMETV,Human,,Q8IZE3
+YANK,serine/threonine kinase 32C,STK32C,AGC,1539,69,YANK3,RAIGKGSFGKVCIYAMKYMNVFRELEILQEIEVFLVNLWYSFMVVDLLLGGDLRYHLQQYLRGQHIIHRDVKPDNILLLTDFNIA,Human,,Q86UX6
+NEK,NIMA related kinase 9,NEK9,Other,2124,290,NEK9,RVLGRGAFGEATLVVWKEVDALNEIVILALLQDNIIAYYNHLIELEYCNGGNLYDKILRCIHKAGILHRDIKTLNIFLLGDYGLA,Human,NEK8,Q8TD19
+TSSK,testis specific serine kinase 3,TSSK3,CAMK,0,180,TSSK3,KTIGEGTYSKVKEVAIKVIFLPRELQIVRTLDKNIIQVYEMCLVMELAEGGDVFDCVLNYCHGCGVAHRDLKCENALLLTDFGFA,Human,,Q96PN8
+CAMKL,"NUAK family, SNF1-like kinase, 2",NUAK2,CAMK,2130,131,NuaK2,ETLGKGTYGKVKKVAIKSIHIRREIEIMSSLNPHIIAIHEVVIVMEYASRGDLYDYISEYCHQNRVVHRDLKLENILLIADFGLS,Human,NuaK,Q9H093
+RSKL,ribosomal protein S6 kinase like 1,RPS6KL1,AGC,0,62,RSKL2,QLRGCRVVGVIEKFVVKSLMVSRERLTIIPHGPYMTKLLRYFLHLEHVQGGTLWSHLLSALHEQGVLCRDLHPGNLLLLTYFGQW,Human,,Q9Y6S9
+TSSK,testis specific serine kinase 2,TSSK2,CAMK,2258,179,TSSK2,INLGKGSYAKVKSVAVKIIFLPREMDILATVNGSIIKTYEIYIIMELGVQGDLLEFIKCYCHDLDIVHRDLKCENLLLLSDFGFS,Human,,Q96PF2
+SCY1,SCY1 like pseudokinase 2,SCYL2,Other,0,315,SCYL2,RHIASGGNGLAWKVAVFVFSLKRGVQQLTRLRPRLLTVQHPAFCTEPVF-ASLANVLGNLHSSVKMVHGNITPENIILIMGFDFC,Human,,Q6P3W7
+NEK,NIMA related kinase 8,NEK8,Other,2123,291,NEK8,RVVGRGAFGIVHLVIIKQIAAQNECQVLKLLNPNVIEYYENMIAMEYAPGGTLAEFIQKHVHTHLILHRDLKTQNILLIGDFGIS,Human,NEK8,Q86SG6
+GRK,"adrenergic, beta, receptor kinase 2",GRK3,AGC,1467,12,BARK2,RIIGRGGFGEVYGYAMKCLLALNERIMLSLVSPFIVCMTYACFILDLMNGGDLHYHLSQHMHNRFVVYRDLKPANILLISDLGLA,Human,BARK,P35626
+NRBP,nuclear receptor binding protein 1,NRBP1,Other,0,301,NRBP1,EEVNQRNVPGIDSVVWNEVKVRAVFDNLIQLELNIVKFHKYIFITEYMSSGSLKQFLKKHSCDPPIIHGNLTCDTIFIIGSVAPD,Human,,Q9UHY1
+PKD,protein kinase D2,PRKD2,CAMK,2173,165,PKD2,EVLGSGQFGVVYGVAVKVIQLRNEVAILQSLRPGIVNLECMFVVMEKLHGDMLEMILSSHLHFKNIVHCDLKPENVLLLCDFGFA,Human,,Q9BZL6
+YANK,serine/threonine kinase 32B,STK32B,AGC,1538,67,YANK2,RAIGKGSFGKVCIYAMKYMNVFRELQIMQGLEPFLVNLWYSFMVVDLLLGGDLRYHLQQYLQRYHIIHRDIKPDNILLITDFNIA,Human,,Q9NY57
+CAMKK,"calcium/calmodulin-dependent protein kinase kinase 2, beta",CAMKK2,Other,1957,265,CaMKK2,DEIGKGSYGVVKLYAMKVLQVYQEIAILKKLDPNVVKLVEVYMVFELVNQGPVMEVPTLYLHYQKIIHRDIKPSNLLVIADFGVS,Human,Meta,Q96RR4
+CDK,cyclin-dependent kinase 20,CDK20,CMGC,0,196,CCRK,GRIGEGAHGIVFKVALKKVQALREIKALQEMEQYVVQLKAVVLAFEFML-SDLAEVVRHFCHANNIVHRDLKPANLLIIADFGLA,Human,CCRK,Q8IZL9
+CLK,CDC like kinase 4,CLK4,CMGC,1993,226,CLK4,DTLGEGAFGKVVEVAVKIVAARSEIQVLEHLNFRCVQMLEWCIVFELLG-LSTYDFIKEFLHHNKLTHTDLKPENILFVVDFGSA,Human,,Q9HAZ1
+CDK,cyclin-dependent kinase 12,CDK12,CMGC,0,209,CRK7,GIIGEGTYGQVYKVALKKVTAIREIKILRQLIRSVVNMKEIYLVFEYMD-HDLMGLLESYCHKKNFLHRDIKCSNILLLADFGLA,Human,CRK7,Q9NYV4
+DAPK,serine/threonine kinase 17a,STK17A,CAMK,2214,144,DRAK1,RELGRGKFAVVRKFAAKFMEIIHEIAVLELAQPWVINLHEVILVLEYAAGGEIFDQCVAFLHTRDVVHLDLKPQNILLIVDFGLS,Human,DRAK,Q9UEE5
+DAPK,serine/threonine kinase 17b,STK17B,CAMK,2215,143,DRAK2,KELGRGKFAVVRQYAAKFLEILHEIAVLELAKPRVINLHEVILILEYAAGGEIFSLCLPYLHQNNIVHLDLKPQNILLIVDFGMS,Human,DRAK,O94768
+DYRK,dual specificity tyrosine phosphorylation regulated kinase 3,DYRK3,CMGC,2012,229,DYRK3,KIIGKGSFGQVARVALKMVQAAEEIRILEHLKMNVIHMLESCMAFELLS-IDLYELIKKALHKNKIIHCDLKPENILLVIDFGSS,Human,DYRK2,O43781
+PKD,protein kinase D3,PRKD3,CAMK,2174,164,PKD3,EVLGSGQFGIVYGVAIKVIQLRNEVAILQNLHPGIVNLECMFVVMEKLHGDMLEMILSSNLHFKNIVHCDLKPENVLLLCDFGFA,Human,,O94806
+PEK,eukaryotic translation initiation factor 2 alpha kinase 4,EIF2AK4,Other,2018,306,GCN2,QLLGKGAFGAVIKYAVKRIRIKGEVTLLSRLHENIVRYYNALDSVEAAAPPPILSSSVEYIHEKGMIHRDLKPVNIFLIGDFGLA,Human,GCN2,Q9P2K8
+SgK495,serine/threonine kinase 40,STK40,CAMK,0,169,SgK495,-------------------------------------------------NLQHYVIKEKALHQKNIVHRDLKLGNMVLITNFCLG,Human,,Q8N2I9
+NKF4,serine/threonine kinase 35,STK35,Other,2222,298,CLIK1,AEIGRGSYGVVYEVAVKKILALAEFWALTSLKGNKSSQLYLGYAEEPCYLWFVMEFCEGFLHKNHIVHRDLKPDNILIVADFGLS,Human,,Q8TDR2
+MLK,TNNI3 interacting kinase,TNNI3K,TKL,2247,496,HH498,EIIGSGSFGKVYKVAIKRYMFCREVSILCQLNPCVIQFVGAAIVTQYISGGSLFSLLHEHNLTQPIIHRDLNSHNILLVADFGES,Human,HH498,Q59H18
+DYRK,homeodomain interacting protein kinase 2,HIPK2,CMGC,2034,233,HIPK2,EFLGRGTFGQVVKVAIKILQGQIEVSILARLSYNFVRAYECCLVFEMLE-QNLYDFLKQKLKSLGLIHADLKPENIMLVIDFGSA,Human,HIPK,Q9H2X6
+PEK,eukaryotic translation initiation factor 2 alpha kinase 1,EIF2AK1,Other,2015,308,HRI,AILGKGGYGRVYKYAIKKIKVLREVKVLAGLQPNIVGYHTALSDQEEDREQCGVKNDESYIHNMGIVHRDLKPRNIFLIGDFGLA,Human,HRI,Q9BQI3
+RCK,intestinal cell (MAK-like) kinase,ICK,CMGC,2038,255,ICK,RQLGDGTYGSVLLIAIKKMMNLREVKSLKKLNANVVKLKEVYFIFEYMK-ENLYQLIKEFIHKHGFFHRDLKPENLLCIADFGLA,Human,,Q9UPZ9
+IRE,endoplasmic reticulum to nucleus signaling 2,ERN2,Other,0,274,IRE2,DVLGRGAGGTFVFVAVKRLLVRREVQLLQESDPNVLRYFCTYIALELCRA-SLQEYVENHLHSLHIVHRDLKPGNILILSDFGLC,Human,,Q76MJ5
+CAMKL,PAS domain containing serine/threonine kinase,PASK,CAMK,2139,132,PASK,SPLGSGAFGFVWTVVVKFIKVTLEIAILSRVEANIIKVLDIQLVMEKHGSGLDLFAFIDYLRLKDIIHRDIKDENIVILIDFGSA,Human,PASK,Q96RG2
+NDR,serine/threonine kinase 38 like,STK38L,AGC,1518,25,NDR2,KVIGRGAFGEVRLYAMKILHIRAERDILVEADAWVVKMFYSYLIMEFLPGGDMMTLLMKAIHQLGFIHRDIKPDNLLLLSDFGLC,Human,,Q9Y2H1
+CAMKL,SIK family kinase 3,SIK3,CAMK,2199,134,QSK,RTIGKGNFAVVKRVAIKIIKIFREVQIMKMLCPHIIRLYQVYLVTEYASGGEIFDHLVAFCHCRNIVHRDLKAENLLLIADFGFS,Human,QIK,Q9Y2K2
+CAMKL,hormonally up-regulated Neu-associated kinase,HUNK,CAMK,2037,122,HUNK,RKLGEGSFAKVREVAIKVINLRREGQIQQMIRPNITQLLDIYLVMELCPGGNLMHKIYEHLHRAGVVHRDLKIENLLLLIDFGLS,Human,HUNK,P57058
+STE11,mitogen-activated protein kinase kinase kinase 6,MAP3K6,STE,2081,346,MAP3K6,LVLGKGTYGVVYAIAIKEIPLHEEIALHRRLRKNIVRYLGSKIFMEEVPGGSLSSLLRSYLHDNHIVHRDIKGDNVLIISDFGTS,Human,ASK,O95382
+RCK,MOK protein kinase,MOK,CMGC,0,254,MOK,GKIGEGTFSEVMKYACKQMNNLREIQALRRLNPNILMLHEVALICELMD-MNIYELIRGHIHRNGIFHRDVKPENILILGDFGSC,Human,,Q9UQ07
+NAK,serine/threonine kinase 16,STK16,Other,2213,280,MPSK1,QKLGEGGFSYVDLYALKRIEAQREADMHRLFNPNILRLVAYWLLLPFFKRGTLWNEIERAIHAKGYAHRDLKPTNILLLMDLGSM,Human,MPSK,O75716
+SRPK,SRSF protein kinase 3,SRPK3,CMGC,2210,258,MSSK1,RKLGWGHFSTVWLVALKVVTAVDEIKLLKCVRETIVQLIDDCMVLEVLG-HQLLKWIIKLHTKCKIIHTDIKPENILLIADLGNA,Human,,Q9UPE1
+WNK,WNK lysine deficient protein kinase 1,WNK1,Other,2280,336,Wnk1,IEIGRGSFKTVYKVAWCELRFKEEAEMLKGLQPNIVRFYDSVLVTELMTSGTLKTYLKRHTRTPPIIHRDLKCDNIFIIGDLGLA,Human,,Q9H4A3
+CDKL,cyclin dependent kinase like 3,CDKL3,CMGC,1984,219,CDKL3,GKVGEGSYGTVMKVAIKIFIAMREIKFLKQFHENLVNLIEVHLVFEFID-HTVLDELQHYLHSNNIIHRDIKPENILVLCDFGFA,Human,,Q8IVW4
+STE20,p21 protein (Cdc42/Rac)-activated kinase 7,PAK5,STE,2138,372,PAK5,IKIGEGSTGIVCIVAVKKMLLFNEVVIMRDYHDNVVDMYSSWVVMEFLEGGALTDIVTHYLHNQGVIHRDIKSDSILLLSDFGFC,Human,PAKB,Q9P286
+PKN,protein kinase N3,PKN3,AGC,0,46,PKN3,AVLGRGHFGKVLLYAIKALSLYCEKRILEAVGPFLLSLLACCFVTEFVPGGDLMMQIHEFLHEKKIIYRDLKLDNLLLIADFGLC,Human,,Q6P5Z2
+CAMKL,salt inducible kinase 2,SIK2,CAMK,2198,133,QIK,GTLGKGNFAVVKLVAIKIIKIYREVQIMKMLDPHIIKLYQVYLVTEYAKNGEIFDYLANYCHGRKIVHRDLKAENLLLIADFGFG,Human,QIK,Q9H0K1
+CAMKL,microtubule affinity regulating kinase 4,MARK4,CAMK,2100,127,MARK4,RTIGKGNFAKVKLVAIKIIKLFREVRIMKGLNPNIVKLFEVYLVMEYASAGEVFDYLVSYCHQKNIVHRDLKAENLLLIADFGFS,Human,MARK,Q96L34
+SgK496,dual serine/threonine and tyrosine protein kinase,DSTYK,Other,2008,320,SgK496,QELGRGQYGVVYLCALKSVDLALEFHYMRSLPERLVDLHGSLLIMERLH-RDLYTGLKAFLHSQGLVHRDIKLKNVLLITDLGFC,Human,,Q6XUX3
+RSKL,ribosomal protein S6 kinase C1,RPS6KC1,AGC,0,61,RSKL1,-------------GANEYILLFTDQTDDLAKETSLFQRDSEHQIFEDLD-KKLALASRFALHREGIVCRDLNPNNILLLTYFSRW,Human,,Q96S38
+RSK,ribosomal protein S6 kinase A6,RPS6KA6,AGC,1530,56,RSK4,KVLGQGSFGKVFLYAMKVLRTKMERDILVEVNPFIVKLHYAYLILDFLRGGDVFTRLSKHLHQLGIVYRDLKPENILLLTDFGLS,Human,RSK,Q9UK32
+NRBP,nuclear receptor binding protein 2,NRBP2,Other,0,302,NRBP2,EQVNQGNMPGLQSVWNELHKIQTVFEQLVLVDPNIVKLHKYIFITEYVSSGSLKQFLKKHACSPPIIHGNLTSDTIFIIGSVWHR,Human,,Q9NSY0
+SgK071,serine/threonine kinase-like domain containing 1,STKLD1,Other,0,318,SgK071,YQLNPGALGVNLVHVIKQVQALEELMPLLKLRAHISVYQELCLVMEFNE-LSFQEVIEDYLHHLDIIHRNLKPSNIILLQDLSSN,Human,,Q8NE28
+SGK,serum/glucocorticoid regulated kinase 2,SGK2,AGC,1535,65,SGK2,KVIGKGNYGKVLLYAVKVLHIMAERSVLLKNVPFLVGLRYSYFVLDYVNGGELFFHLQRYLHSLNIIYRDLKPENILLLTDFGLC,Human,,Q9HBY8
+TSSK,testis specific serine kinase 6,TSSK6,CAMK,0,182,SSTK,RTIGEGSYSKVKVVAIKVVFLPRELSILRGVRPHIVHVFEFYIVMEAAA-TDLLQAVQRYLHDHHLVHRDLKCENVLLLTDFGFG,Human,,Q9BXA6
+SGK,serum/glucocorticoid regulated kinase family member 3,SGK3,AGC,1536,66,SGK3,KVIGKGSFGKVLLYAVKVLHIMAERNVLLKNVPFLVGLHYSYFVLDFVNGGELFFHLQRYLHSIKIVYRDLKPENILLLTDFGLC,Human,,Q96BR1
+TTBK,tau tubulin kinase 1,TTBK1,CK1,0,191,TTBK1,KKIGGGGFGEIYEVALKVEVLKMEVAVLKKLQDHVCRFIGCYVVMQLQG-RNLADLRRSAIHSVGFLHRDIKPSNFAMMLDFGLA,Human,,Q5TCY1
+DCAMKL,doublecortin like kinase 2,DCLK2,CAMK,2006,147,DCLK2,KVIGDGNFAVVKEFALKIILIENEVSILRRVKPNIIMLVEEFLVMELVKGGDLFDAITSYLHGLSIVHRDIKPENLLVLGDFGLA,Human,,Q8N568
+Slob,PX domain containing serine/threonine kinase like,PXK,Other,0,321,Slob,KDIGWRIRKKYFLLVLSWADFQCLIKLLPSCLPYIYRVTFALLIRMFNEKGTLKDLIYKFLHDKGFPYGHLHASNVMLLLDLE--,Human,,Q7Z7A4
+TOPK,PDZ binding kinase,PBK,Other,2140,325,PBK,QKLGFGTGVNVYLWAVKKIRLMDEAKILKSLHPNIVGYRAFCLAMEYGGEKSLNDLIEELHQEKKLLHGDIKSSNVVIICDVGVS,Human,,Q96KB5
+TK-Unique,serine/threonine/tyrosine kinase 1,STYK1,TK,0,479,SuRTK106,EQICSGSCGPIFRVILKALDFLGRIQFHQYLGKNLVQLEGCYMVLEDVAQGDLLSFLWTFLQEKHLFHGDVAARNILMLCGLGLA,Human,,Q6J9G0
+IKK,TANK-binding kinase 1,TBK1,Other,2237,272,TBK1,DILGQGATANVFRFAIKVFVQMREFEVLKKLNKNIVKLFAIVLIMEFCPCGSLYTVLEEHLRENGIVHRDIKPGNIMRLTDFGAA,Human,,Q9UHD2
+LISK,testis-specific kinase 2,TESK2,TKL,0,493,TESK2,EKIGSGFFSEVFKMALKMNNMLKEVQLMNRLSPNILRFMGVHALTEYINSGNLEQLLDSYLHFKGIFHRDLTSKNCLIVADFGLA,Human,TESK,Q96S53
+Trio,"kalirin, RhoGEF kinase",KALRN,CAMK,0,178,Trad,NEIGRGRFSIVKKVAVKFVQAAHEAALLQHLQPQYITLHDTILILELMDDGRLLDYLMNYLHNCRVAHLDIKPENLLILIDLEDA,Human,,O60229
+TSSK,testis specific serine kinase 4,TSSK4,CAMK,0,183,TSSK4,KAIGHGSYGSVYEVAVKIIFLPREIQVMKVLRKYLINFYRAYIILELAQGGDVLEWIQRYLHSKSIVHRDLKLENLLLISDFGFA,Human,,Q6SA08
+VRK,vaccinia related kinase 3,VRK3,CK1,0,195,VRK3,SFQTRDNQGILYEFSLKLDLQVNKWKKLYSTPLAIPTCMGFFLVLPSLG-RSLQSALDVFLHENEYVHGNVTAENIFVLAGYGFA,Human,,Q8IV63
+MLCK,myosin light chain kinase 3,MYLK3,CAMK,2110,156,caMLCK,EVLGGGRFGQVHRLAAKIIDVKNEINIMNQLSVNLIQLYDATLVMEYVDGGELFDRITDYLHQHYILHLDLKPENILCIIDFGLA,Human,,Q32MK0
+Trio,SPEG complex locus,SPEG,CAMK,0,175,SPEG,QEIGRGAFSYLRRFAAKFISARREARLLARLQDCVLYFHEAVIVTELCT-EELLERIARYLHQSHVLHLDVKPENLLVICDFGNA,Human,,Q15772
+CK1,casein kinase 1 alpha 1 like,CSNK1A1L,CK1,1996,185,CK1a2,RKIGSGSFGDVYLVAVKLEQLLYESKLYTILQVGIPHMHWYVLVMDLLG-PSLEDLFNFYVHTKNFLHRDIKPDNFLMLIDFGLA,Human,CK1-A,Q8N752
+RIPK,receptor interacting serine/threonine kinase 4,RIPK4,TKL,2192,514,ANKRD3,EKVGSGGFGQVYKLAIKCSELLEEAKKMEMAKRYILPVYGIGLVMEYMETGSLEKLLASHCMAPPLLHLDLKPANILLISDFGLA,Human,,P57078
+NEK,NIMA related kinase 5,NEK5,Other,2120,283,NEK5,KAIGQGAFGKAYLCVIKEIASKKEVILLEKMKPNIVAFFNSFIVMEYCDGGDLMKRINRHIHDRKILHRDIKAQNIFLLGDFGIA,Human,NEK1,Q6P3R8
+CAMK1,calcium/calmodulin dependent protein kinase ID,CAMK1D,CAMK,1953,110,CaMK1d,ETLGTGAFSEVVLFAVKCISIENEIAVLRKIKENIVALEDIYLVMQLVSGGELFDRIVEYLHRMGIVHRDLKPENLLYISDFGLS,Human,,Q8IU85
+STE11,mitogen-activated protein kinase kinase kinase 19,MAP3K19,STE,2076,349,MAP3K8,EILGKGAYGTVYCIAVKQVKLQEEVDLLKALKVNIVAYLGTSIFMEFVPGGSISSIINRYLHENCVVHRDIKGNNVMLLIDFGCA,Human,MEKK1,Q56UN5
+NEK,NIMA related kinase 11,NEK11,Other,2116,285,NEK11,QKLGSGSFGTVYLKVLKEIQANLEAQLLSKLDPAIVKFHASCIITEYCEGRDLDDKIQEYMHERRILHRDLKSKNVFLIGDFGVS,Human,NEK11,Q8NG66
+GRK,G protein-coupled receptor kinase 7,GRK7,AGC,1471,17,GPRK7,RVLGKGGFGEVCAYACKKLMALLEKEILEKVSPFIVSLAYACLVMSLMNGGDLKFHIYNHLHELGIVYRDMKPENVLLLSDLGLA,Human,GRK,Q8WTQ7
+NKF1,SH3 domain binding kinase family member 2,SBK2,Other,0,293,SgK069,RPLGQGCYGRVLLLALKQLGFLYEFCVGLSLGSAIVTAYGISFLTEPVLHGDLMAFIQPYIHARGLVYRDLKPENVLVLTDFGHT,Human,,P0C263
+DYRK,homeodomain interacting protein kinase 4,HIPK4,CMGC,2036,234,HIPK4,EVLGKGTFGEVAKVAIKILIIKNELKLLHCMRPEEAHVIRFYLVFELLE-QNLFEFQKERLKELAIIHADLKPENIMLVIDFGSA,Human,HIPK,Q8NE63
+STE20,myosin IIIB,MYO3B,STE,2113,366,MYO3B,ETIGKGTYGKVYKAAVKILEIEAEYNILQFLPPNVVKFYGMWLVLELCNGGSVTELVKGHLHNNRIIHRDVKGNNILLLVDFGVS,Human,NinaC,Q8WXR4
+WNK,WNK lysine deficient protein kinase 4,WNK4,Other,0,337,Wnk4,IEIGRGSFKTVYRVAWCELRFSEEVEMLKGLQPNIVRFYDSVLVTELMTSGTLKTYLRRHSRVPPILHRDLKCDNVFIIGDLGLA,Human,,Q96J92
+NKF1,SH3 domain binding kinase family member 3,SBK3,Other,2290,294,SgK110,RKLGSGSYGRVLLVALKLLTFLREFCVGRCVSPGLLQTLAGAFAQEYAPCGDLSGMLQEFLHSRGLVHADVKPDNVLVLGDLGLT,Human,,P0C264
+CAMKL,BR serine/threonine kinase 1,BRSK1,CAMK,1946,120,BRSK1,KTLGKGQTGLVKLVAIKIVKVEREIAILKLIEPHVLKLHDVYLVLEHVSGGELFDYLVKFCHSYSICHRDLKPENLLLIADFGMA,Human,BRSK,Q8TDC3
+Trio,"obscurin, cytoskeletal calmodulin and titin-interacting RhoGEF",OBSCN,CAMK,0,173,Obscn,EEIGRGVFGFVKRCAAKFIQAYRERDILAALSPLVTGLLDQILILELCSSEELLDRLYRYLHSHGVLHLDIKPSNILMICDFGFA,Human,,Q5VST9
+PSK,protein serine kinase H2,PSKH2,CAMK,0,167,PSKH2,ALIGTGSFSRVVRFAIKVMACVSELSVLRRVSRYIVQLMEIYMVMELATGGELFDRLIAYLHALQITHRNLKPENLLYITDFGLA,Human,,Q96QS6
+CAMKL,salt inducible kinase 1,SIK1,CAMK,2197,135,SIK,RTLGKGNFAVVKLVAIKIIKIYREVQLMKLLNPHIIKLYQVYIVTEFAKNGEMFDYLTSYCHDHHIVHRDLKTENLLLLADFGFG,Human,QIK,P57059
+RAF,kinase suppressor of ras 2,KSR2,TKL,0,507,KSR2,ELIGKGRFGQVYHVAIRLIAFKREVMAYRQTRENVVLFMGAAIITSLCKGRTLYSVVRDYLHAKGILHKDLKSKNVFYITDFGLF,Human,KSR,Q6VAB6
+RIO,Serine/threonine-protein kinase RIO3,RIOK3,Atypical,2188,102,RIOK3,GCISTGKESVVFHCAIKVFWAEKEMHNLARMQIPCPTVVLLILVMSFIGAPKLKEVKLNLYHECTLVHADLSEYNMLWLIDVSQS,Human,RIO3,O14730
+ABC1,"Atypical kinase COQ8A, mitochondrial",COQ8A,Atypical,1927,70,ADCK3,RPFAAASIGQVHLVAMKIQDYQREAACARKFRFYVPEIVDEVLTTELVSGFPLDQAEGLELFEFNFMQTDPNWSNFFYLLDFGAT,Human,ABC1-,Q8NI60
+RIO,Serine/threonine-protein kinase RIO1,RIOK1,Atypical,2186,100,RIOK1,GCISTGKEANVYHRAIKIYWAEKEMRNLIRLNIPCPEPIMLVLVMSFIGAPLLKNVQLSMYQDARLVHADLSEFNMLYIIDVSQS,Human,RIO1,Q9BRS2
+YANK,serine/threonine kinase 32A,STK32A,AGC,1537,68,YANK1,RAIGKGSFGKVCIYAMKYMNVFKELQIMQGLEPFLVNLWYSFMVVDLLLGGDLRYHLQQYLQNQRIIHRDMKPDNILLITDFNIA,Human,,Q8WU08
+CAMKL,SNF related kinase,SNRK,CAMK,2202,136,SNRK,KTLGRGHFAVVKLVAVKVIHLFQEVRCMKLVQPNIVRLYEVYLILELGDGGDMFDYIMKYCHKLHVVHRDLKPENVVFLTDFGFS,Human,SNRK,Q9NRH2
+Eph,EPH receptor A10,EPHA10,TK,0,422,EphA10,RSLGGGRFGELCCVAVHMLGFLAEALTLGQFDSHIVRLEGVMIVTEYMSHGALDGFLRRYLSEMGYVHRGLAARHVLVISGFGRG,Human,,Q5JZY3
+Other-Unique,protein-O-mannose kinase,POMK,Other,0,305,SgK196,KRVGEGAVKRVFLVALSQLDFLHGLQMLKSLQTHVVTLLGYTMLTEYHPLGSLSNLEETYLHHSPVGTRVMCDSNDLPANDLDAL,Human,,Q9H5K3
+STE20,myosin IIIA,MYO3A,STE,2112,365,MYO3A,ETIGKGTYGKVFKAAVKILEIEAEYNILKALSPNVVRFYGIWLVLELCSGGSVTDLVKGHLHNNKTIHRDVKGNNILLLVDFGVS,Human,NinaC,Q8NEV4
+WNK,WNK lysine deficient protein kinase 3,WNK3,Other,2282,338,Wnk3,IELGRGAFKTVYKVAWCELRFKEEAEMLKGLQPNIVRFYDSVLVTELMTSGTLKTYLKRHTRTPPIIHRDLKCDNIFIIGDLGLA,Human,,Q9BYP7
+NEK,NIMA related kinase 10,NEK10,Other,0,284,NEK10,DHLGSGAFGCVYKLAMKEVNIVSELTIIKEQLPNIVRYYKTYIVMELIEGAPLGEHFSSLHKEKRIVHRDLTPNNIMLVTDFGLA,Human,NEK10,Q6ZWH5
+Eph,EPH receptor A6,EPHA6,TK,1826,423,EphA6,RVIGAGEFGEVCSVAIKTLDFLREASIMGQFDPNIIRLEGVAIGVEAFCPSFLRAGFLNYLSDMGYVHRDLAARNILVVSDFGLS,Human,,Q9UF33
+CK1,casein kinase 1 gamma 1,CSNK1G1,CK1,1999,190,CK1g1,KKIGCGNFGELRLVAIKLEQLHLEYRFYKQLGEGLPQVYYFAMVLELLG-PSLEDLFDLYVHSKNLIYRDVKPENFLIIIDFGLA,Human,CK1-G,Q9HCP0
+NKF3,pseudopodium enriched atypical kinase 1,PEAK1,Other,0,296,SgK269,KPCCEAGDAVYYTYAVKICSKAKESQQYYHSLFNIQQDCGHPDDPEKDEDDMEETEEDAHLKPYHVTHCDLRLENLLLVSNFSQA,Human,,Q9H792
+NKF1,SH3 domain binding kinase 1,SBK1,Other,2193,292,SBK,RELGKGTYGKVDLMALKFVNFLREVSITNSLSPFIIKVFDVVFAQEYAPAGDLFDIIPPFMHGRQLVHRDIKPENVLLLADFGMT,Human,,Q52WX2
+Other-Unique,serine/threonine kinase 31,STK31,Other,2220,304,SgK396,EPMKELSSKRPLVILLKGYAKVIERAATYHRAEAEGDSGLLYLMVPYYPRANLNAVQANTLHKADIIHGSLHQNNVFAVGDFDFT,Human,,Q9BXU1
+RIPK,ankyrin repeat and kinase domain containing 1,ANKK1,TKL,1932,515,SgK288,RLVASGGFSQVFQYAIKCAYLIEEAAKMKKIKQHIVSIYGVGIVMEFMANGSLEKVLSTHSIKPPLLHLDLKPGNILLISDFGLS,Human,,Q8NFD2
+KIS,U2AF homology motif (UHM) kinase 1,UHMK1,Other,0,275,KIS,SRLGSGSSASVYRGALKQFGFRKERAALEQLQRNIVTLYGVCLLLELLD-VSVSELLLYFLHHEGYVHADLKPRNILWLIDFGLS,Human,,Q8TAS1
+CAMK1,pregnancy up-regulated nonubiquitous CaM kinase,PNCK,CAMK,2172,112,CaMK1b,ERLGSGAFSEVVLVALKCILVENEIAVLRRISPNIVALEDVYLAMELVTGGELFDRIMEYLHSLGIVHRDLKPENLLYVSDFGLS,Human,,Q6P2M8
+TBCK,TBC1 domain containing kinase,TBCK,Other,0,322,TBCK,-------------LPHDVCKILGRFQILKTITPRLCQYVDIVVVAEHCE-RSLEDLLREYMNKHGIVHRALSPHNILLLAKFGLY,Human,,Q8TEA7
+PIKK,Serine/threonine-protein kinase SMG1,SMG1,Atypical,2201,98,SMG1,LPTKTKPKKLLFLYLFKGLDLHLDERIMQFLSFHARHYSVTSGLIQWVDATPLFGLYKRVGYI--IGLGDRHLDNVLIHIDYNVC,Human,SMG1,Q96Q15
+MLCK,myosin light chain kinase 2,MYLK2,CAMK,1553,155,skMLCK,EALGGGKFGAVCTLAAKVIMVLLEIEVMNQLNRNLIQLYAAVLFMEYIEGGELFERIVDFMHKMRVLHLDLKPENILCIIDFGLA,Human,,Q9H1R3
+STE11,Mitogen-activated protein kinase kinase kinase 15,MAP3K15,STE,2075,347,MAP3K7,VVLGKGTYGIVYAIAIKEIPLHEEIALHKYLKRNIVQYLGSKIFMEQVPGGSLSALLRSYLHENQIVHRDIKGDNVLVISDFGTS,Human,ASK,Q6ZN16
+LRRK,leucine-rich repeat kinase 2,LRRK2,TKL,2059,495,LRRK2,ADHGDGSFGSVYRVAVKIFLLRQELVVLCHLHPSLISLLAAMLVMELASKGSLDRLLQQYLHSAMIIYRDLKPHNVLLIADYGIA,Human,,Q5S007
+Haspin,germ cell associated 2 (haspin),HASPIN,Other,2028,268,Haspin,EKIGEGVFGEVFQVAIKIIEILPEIIISKELSEGFIGLNSVVLEFEFGG-IDLEQMRTKAEASLRFEHRDLHWGNVLLIIDYTLS,Human,,Q8TF76
+Trbl,tribbles pseudokinase 3,TRIB3,CAMK,0,172,Trb3,VLLEPEEGGRAYQYTCKVYALAVLEPYARLPPKHVARPTEVYAFFTRTH-GDMHSLVRSHCHQHGLVLRDLKLCRFVFLVLENLE,Human,,Q96RU7
+DMPK,citron rho-interacting serine/threonine kinase,CIT,AGC,1509,4,CRIK,SLVGCGHFAEVQVYAMKVMFFEEERNILSRSTPWIPQLQYAYLVMEYQPGGDLLSLLNRSVHLMGYVHRDIKPENILVLVDFGSA,Human,CRIK,O14578
+CAMKK,"calcium/calmodulin-dependent protein kinase kinase 1, alpha",CAMKK1,Other,1956,266,CaMKK1,DAYLQGAYGVVRLYAMKVLRVYQEIAILKKLDVNVVKLIEVLYLFDLLRKGPVMEVPCDYLHCQKIVHRDIKPSNLLLIADFGVS,Human,Meta,Q8N5S9
+LRRK,leucine-rich repeat kinase 1,LRRK1,TKL,0,494,LRRK1,SVLGQGGSGTVIYVAVKRFEFRQEASMLHALQPCIVALIGICFALELAPLSSLNTVLSEYLHKKNIIFCDLKSDNILVLSDYGIS,Human,,Q38SD2
+NKF5,testis expressed 14,TEX14,Other,0,300,SgK307,-------------VTVKELLLIAEQEHSSKLRPYLLQLMAVRLVYERITIGTLFSVLHEYLHFQGFIHRSLSSYAVHILTNLEYM,Human,,Q8IWB6
+MAST,microtubule associated serine/threonine kinase family member 4,MAST4,AGC,0,21,MAST4,KLISNGAYGAVYFFAMKKIQAFVERDILTFAEPFVVSMYCSCMVMEYVEGGDCATLMKNYLHNYGIVHRDLKPDNLLVLTDFGLS,Human,MAST,O15021
+CAMK2,calcium/calmodulin-dependent protein kinase II delta,CAMK2D,CAMK,1558,115,CaMK2d,EELGKGAFSVVRRYAAKIIKLEREARICRLLKPNIVRLHDSYLVFDLVTGGELFEDIVAHCHLNGIVHRDLKPENLLLLADFGLA,Human,,Q13557
+NAK,BMP2 inducible kinase,BMP2K,Other,1941,278,BIKE,ESLAEGGFSTVFLCALKRMVCKREITIMKELSKNIVGYLDCLILMEYCRAGQVVNQMNKHQCKTPIIHRDLKVENILLLCDFGSA,Human,BIKE,Q9NSY1
+TSSK,testis specific serine kinase 1B,TSSK1B,CAMK,2257,181,TSSK1,INLGEGSYAKVKSVAIKIIFLPREIEILAMLNCSIIKTYEIYIVMELAVQGDLLELIKTYCHDLDVVHRDLKCDNLLLLSDFSFS,Human,,Q9BXA7
+MLCK,myosin light chain kinase family member 4,MYLK4,CAMK,2111,157,SgK085,EILGGGRFGQVHKLAAKIIEVKNEISVMNQLDANLIQLYDAVLVMEYVDGGELFDRIIDHMHQMYILHLDLKPENILCIIDFGLA,Human,,Q86YV6
+ABC1,Uncharacterized aarF domain-containing protein kinase 2,ADCK2,Atypical,1926,74,ADCK2,GSNAGVSRAQVPGVAVKVLDLRYEAQNLEHFQVKFPTPLRPREVLVETYVSSYQQAGIPMIFVDNFVHADLHPGNILVLLDAGIV,Human,ABC1-,Q7Z695
+DAPK,death-associated protein kinase 3,DAPK3,CAMK,2004,141,DAPK3,EELGSGQFAIVRKYAAKFIEIEREVNILREIRPNIITLHDIVLILELVSGGELFDFLAEYLHSKRIAHFDLKPENIMLLIDFGIA,Human,DAPK,O43293
+WEE,WEE1 homolog 2 (S. pombe),WEE2,Other,2279,335,Wee1B,EKIGVGEFGTVYKYAIKRSSALHEVYAHAVLGPHVVRYYSSIIQNEYCNGGSLQAAISEYIHNSSMVHLDIKPSNIFIIGDLGHA,Human,,P0C1S8
+Other-Unique,ribonuclease L,RNASEL,Other,0,303,RNAseL,YKIADTSEGGIYLVAVKTFRAQREVSCLQSSRSHLVTFYGSFVCVTLCEQ-TLEACLDVLHLSCGYTHQDLQPQNILILADFDKS,Human,,Q05823
+Alpha,Transient receptor potential cation channel subfamily M member 6,TRPM6,Atypical,498,79,ChaK2,,Human,ChaK,Q9BX84
+RIO,Serine/threonine-protein kinase RIO2,RIOK2,Atypical,2187,101,RIOK2,NQMGVGKESDIYIFALKLHSAMKEFAYMKALYFPVPKPIDYAVVMELINGYPLCQIHHVLANHG-LIHGDFNEFNLILMIDFPQM,Human,RIO2,Q9BVS4
+Alpha,Alpha-protein kinase 2,ALPK2,Atypical,0,77,AlphaK2,,Human,Alpha,Q86TB3
+Alpha,Alpha-protein kinase 1,ALPK1,Atypical,0,75,AlphaK1,,Human,Alpha,Q96QP1
+BRD,Bromodomain-containing protein 2,BRD2,Atypical,1944,83,BRD2,,Human,,P25440
+BRD,Bromodomain-containing protein 3,BRD3,Atypical,2725,84,BRD3,,Human,,Q15059
+BRD,Bromodomain-containing protein 4,BRD4,Atypical,1945,85,BRD4,,Human,,O60885
+BRD,Bromodomain testis-specific protein,BRDT,Atypical,2729,82,BRDT,,Human,,Q58F21
+Alpha,Alpha-protein kinase 3,ALPK3,Atypical,0,76,AlphaK3,,Human,Alpha,Q96L96
+ABC1,Uncharacterized aarF domain-containing protein kinase 5,ADCK5,Atypical,1929,73,ADCK5,QPIAAASLAQVHRVAVKVQDFENEGRNAERCAVVVPRVHWDKRVLTADFCKVNDVEAIRFYTG--FIHSDPHPGNVLVLLDHGLY,Human,ABC1-,Q3MIX3
+TIF1,Transcription intermediary factor 1-alpha,TRIM24,Atypical,2252,105,TIF1a,,Human,,O15164
+TIF1,Transcription intermediary factor 1-beta,TRIM28,Atypical,2253,106,TIF1b,,Human,,Q13263
+TIF1,E3 ubiquitin-protein ligase TRIM33,TRIM33,Atypical,2254,107,TIF1g,,Human,,Q9UPN9
+PAN3,PAN3 poly(A) specific ribonuclease subunit,PAN3,Other,0,1106,PAN3,RIQKSSNFGYITSPYCLRRCM-VLVDMWKKIQSNIVTLREVAYDFHAGGETMMSRHFNDTIHTAGLACRVMDPTKILIVNCVGVF,Human,0,Q58A45
+FAST,Fas-activated serine/threonine kinase,FASTK,Atypical,0,86,FASTK,,Human,,Q14296
+G11,Serine/threonine-protein kinase 19,STK19,Atypical,2216,87,G11,,Human,,P49842
+TAF1,Transcription initiation factor TFIID subunit 1,TAF1,Atypical,2231,103,TAF1,,Human,,P21675
+TAF1,Transcription initiation factor TFIID subunit 1-like,TAF1L,Atypical,2232,104,TAF1L,,Human,,Q8IZX4
+BCR,Breakpoint cluster region protein,BCR,Atypical,2755,81,BCR,,Human,,P11274
+,,,,,,,,,,Q12979
+,,,,,,,,,,B5MCJ9
+,,,,,,,,,,Q9Y5P4
+,,,,,,,,,,P53004
+,,,,,,,,,,Q9NRL2
+,,,,,,,,,,Q9UIG0
diff --git a/data/kinhub_pfam.csv b/data/kinhub_pfam.csv
new file mode 100644
index 0000000..69f4e49
--- /dev/null
+++ b/data/kinhub_pfam.csv
@@ -0,0 +1,1182 @@
+uniprot,protein_length,source_database,organism,in_alphafold,pfam_accession,name,source_database,type,integrated,member_databases,go_terms,start,end,dc-status,representative,model,score
+P00519,1130,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,127,202,CONTINUOUS,False,PF00017,9.3e-21
+P00519,1130,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,67,113,CONTINUOUS,False,PF00018,2e-09
+P00519,1130,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,242,492,CONTINUOUS,False,PF07714,1.4e-97
+P00519,1130,reviewed,9606,True,PF08919,F-actin binding,pfam,domain,IPR015015,,,1026,1130,CONTINUOUS,False,PF08919,3.5e-28
+Q07912,1038,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,127,384,CONTINUOUS,False,PF07714,5.9e-86
+Q07912,1038,reviewed,9606,True,PF09027,GTPase binding,pfam,domain,IPR015116,,,450,513,CONTINUOUS,True,PF09027,1.2e-25
+Q07912,1038,reviewed,9606,True,PF11555,EGFR receptor inhibitor Mig-6,pfam,family,IPR021619,,,775,837,CONTINUOUS,False,PF11555,3e-15
+Q07912,1038,reviewed,9606,True,PF14604,Variant SH3 domain,pfam,domain,IPR001452,,,395,444,CONTINUOUS,False,PF14604,1.5e-09
+Q07912,1038,reviewed,9606,True,PF22931,SAM domain-like,pfam,domain,,,,10,65,CONTINUOUS,False,PF22931,3.2e-21
+P27037,513,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,200,472,CONTINUOUS,False,PF00069,3e-29
+P27037,513,reviewed,9606,True,PF01064,Activin types I and II receptor domain,pfam,domain,IPR000472,,,55,113,CONTINUOUS,True,PF01064,0.3
+Q13705,512,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,198,471,CONTINUOUS,False,PF00069,5.1e-27
+Q13705,512,reviewed,9606,True,PF01064,Activin types I and II receptor domain,pfam,domain,IPR000472,,,53,111,CONTINUOUS,True,PF01064,0.0091
+Q96D53,544,reviewed,9606,True,PF03109,ABC1 atypical kinase-like domain,pfam,domain,IPR004147,,,179,418,CONTINUOUS,False,PF03109,6.5e-65
+Q96RU8,372,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,135,338,CONTINUOUS,False,PF00069,2e-30
+Q8IWQ3,736,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,19,269,CONTINUOUS,False,PF00069,2.3e-70
+Q8IWQ3,736,reviewed,9606,True,PF21115,BRSK1/2 UBA domain,pfam,domain,IPR048622,,,299,341,CONTINUOUS,False,PF21115,5.6e-22
+Q8IWQ3,736,reviewed,9606,True,PF21122,BRSK1/2 KA1 domain,pfam,domain,,,,523,635,CONTINUOUS,True,PF21122,6.8e-51
+Q9Y3S1,2297,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,200,453,CONTINUOUS,False,PF00069,5e-50
+Q9Y3S1,2297,reviewed,9606,True,PF12202,Oxidative-stress-responsive kinase 1 C-terminal domain,pfam,domain,IPR024678,,,474,537,CONTINUOUS,True,PF12202,3.4e-22
+P31749,480,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,151,408,CONTINUOUS,False,PF00069,4.7e-76
+P31749,480,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,7,106,CONTINUOUS,False,PF00169,1.2e-15
+P31749,480,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,429,474,CONTINUOUS,False,PF00433,3.5e-07
+P31751,481,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,154,409,CONTINUOUS,False,PF00069,2.4e-76
+P31751,481,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,6,106,CONTINUOUS,False,PF00169,8e-17
+P31751,481,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,430,475,CONTINUOUS,False,PF00433,3.4e-06
+Q9Y243,479,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,150,405,CONTINUOUS,False,PF00069,6e-76
+Q9Y243,479,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,7,105,CONTINUOUS,False,PF00169,1.3e-13
+Q9Y243,479,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,426,473,CONTINUOUS,False,PF00433,5e-07
+Q96NX5,476,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,26,277,CONTINUOUS,False,PF00069,6.2e-78
+Q9UM73,1620,reviewed,9606,True,PF00629,"MAM domain, meprin/A5/mu",pfam,domain,IPR000998,,,480,634,CONTINUOUS,False,PF00629,1.9e-19
+Q9UM73,1620,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,1116,1382,CONTINUOUS,False,PF07714,1.1e-86
+Q9UM73,1620,reviewed,9606,True,PF12810,Glycine rich protein,pfam,family,,,,733,961,CONTINUOUS,False,PF12810,3.5e-09
+P37023,503,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,204,488,CONTINUOUS,False,PF07714,4.5e-31
+P37023,503,reviewed,9606,True,PF08515,Transforming growth factor beta type I GS-motif,pfam,family,IPR003605,,,174,200,CONTINUOUS,False,PF08515,1.1e-10
+Q04771,509,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,211,493,CONTINUOUS,False,PF00069,5.2e-32
+Q04771,509,reviewed,9606,True,PF01064,Activin types I and II receptor domain,pfam,domain,IPR000472,,,33,102,CONTINUOUS,True,PF01064,3.9e-11
+Q04771,509,reviewed,9606,True,PF08515,Transforming growth factor beta type I GS-motif,pfam,family,IPR003605,,,179,206,CONTINUOUS,False,PF08515,7.1e-13
+P36894,532,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,236,519,CONTINUOUS,False,PF00069,1.1e-33
+P36894,532,reviewed,9606,True,PF01064,Activin types I and II receptor domain,pfam,domain,IPR000472,,,59,132,CONTINUOUS,True,PF01064,3.9e-10
+P36894,532,reviewed,9606,True,PF08515,Transforming growth factor beta type I GS-motif,pfam,family,IPR003605,,,205,232,CONTINUOUS,False,PF08515,2e-12
+P36896,505,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,209,491,CONTINUOUS,False,PF00069,1.9e-29
+P36896,505,reviewed,9606,True,PF01064,Activin types I and II receptor domain,pfam,domain,IPR000472,,,33,104,CONTINUOUS,True,PF01064,0.00068
+P36896,505,reviewed,9606,True,PF08515,Transforming growth factor beta type I GS-motif,pfam,family,IPR003605,,,178,205,CONTINUOUS,False,PF08515,1.3e-08
+P36897,503,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,207,489,CONTINUOUS,False,PF00069,9.1e-32
+P36897,503,reviewed,9606,True,PF01064,Activin types I and II receptor domain,pfam,domain,IPR000472,,,34,109,CONTINUOUS,True,PF01064,4.6e-11
+P36897,503,reviewed,9606,True,PF08515,Transforming growth factor beta type I GS-motif,pfam,family,IPR003605,,,176,203,CONTINUOUS,False,PF08515,5.6e-12
+O00238,502,reviewed,9606,True,PF01064,Activin types I and II receptor domain,pfam,domain,IPR000472,,,30,105,CONTINUOUS,True,PF01064,1.3e-14
+O00238,502,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,204,489,CONTINUOUS,False,PF07714,2.6e-33
+O00238,502,reviewed,9606,True,PF08515,Transforming growth factor beta type I GS-motif,pfam,family,IPR003605,,,175,202,CONTINUOUS,False,PF08515,4.1e-12
+Q13131,559,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,29,279,CONTINUOUS,False,PF00069,2.1e-73
+Q13131,559,reviewed,9606,True,PF16579,Adenylate sensor of SNF1-like protein kinase,pfam,domain,IPR032270,,,406,480,CONTINUOUS,False,PF16579,1.7e-09
+Q13131,559,reviewed,9606,True,PF21147,"AMP-activated protein kinase, alpha subunit, autoinhibitory domain",pfam,domain,IPR049020,,,299,344,CONTINUOUS,False,PF21147,1.3e-20
+P54646,552,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,16,268,CONTINUOUS,False,PF00069,1e-70
+P54646,552,reviewed,9606,True,PF16579,Adenylate sensor of SNF1-like protein kinase,pfam,domain,IPR032270,,,401,480,CONTINUOUS,False,PF16579,1.5e-10
+P54646,552,reviewed,9606,True,PF21147,"AMP-activated protein kinase, alpha subunit, autoinhibitory domain",pfam,domain,IPR049020,,,288,333,CONTINUOUS,False,PF21147,4.3e-23
+P16066,1061,reviewed,9606,True,PF00211,Adenylate and Guanylate cyclase catalytic domain,pfam,domain,IPR001054,,,867,1052,CONTINUOUS,False,PF00211,8.9e-70
+P16066,1061,reviewed,9606,True,PF01094,Receptor family ligand binding region,pfam,family,IPR001828,,,55,415,CONTINUOUS,False,PF01094,7.4e-45
+P16066,1061,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,555,799,CONTINUOUS,False,PF07714,2.3e-35
+P20594,1047,reviewed,9606,True,PF00211,Adenylate and Guanylate cyclase catalytic domain,pfam,domain,IPR001054,,,852,1037,CONTINUOUS,False,PF00211,1.1e-68
+P20594,1047,reviewed,9606,True,PF01094,Receptor family ligand binding region,pfam,family,IPR001828,,,45,397,CONTINUOUS,False,PF01094,1.2e-43
+P20594,1047,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,540,783,CONTINUOUS,False,PF07714,2.9e-36
+P10398,606,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,99,145,CONTINUOUS,False,PF00130,1.8e-08
+P10398,606,reviewed,9606,True,PF02196,Raf-like Ras-binding domain,pfam,domain,IPR003116,,,20,89,CONTINUOUS,False,PF02196,2e-18
+P10398,606,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,311,565,CONTINUOUS,False,PF07714,7.3e-56
+P42684,1182,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,173,248,CONTINUOUS,False,PF00017,2e-21
+P42684,1182,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,113,159,CONTINUOUS,False,PF00018,6.6e-09
+P42684,1182,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,288,538,CONTINUOUS,False,PF07714,7.1e-96
+P42684,1182,reviewed,9606,True,PF08919,F-actin binding,pfam,domain,IPR015015,,,1083,1182,CONTINUOUS,False,PF08919,2.9e-28
+Q13315,3056,reviewed,9606,False,PF00454,Phosphatidylinositol 3- and 4-kinase,pfam,family,IPR000403,,,2715,2961,CONTINUOUS,False,PF00454,1.5e-51
+Q13315,3056,reviewed,9606,False,PF02259,FAT domain,pfam,repeat,IPR003151,,,2097,2489,CONTINUOUS,False,PF02259,1.3e-53
+Q13315,3056,reviewed,9606,False,PF02260,FATC domain,pfam,family,IPR003152,,,3026,3055,CONTINUOUS,False,PF02260,1.2e-08
+Q13315,3056,reviewed,9606,False,PF11640,Telomere-length maintenance and DNA damage repair,pfam,domain,IPR021668,,,11,164,CONTINUOUS,False,PF11640,9.7e-21
+Q13535,2644,reviewed,9606,True,PF00454,Phosphatidylinositol 3- and 4-kinase,pfam,family,IPR000403,,,2324,2566,CONTINUOUS,False,PF00454,1.4e-61
+Q13535,2644,reviewed,9606,True,PF02259,FAT domain,pfam,repeat,IPR003151,,,1772,2092,CONTINUOUS,False,PF02259,3.1e-60
+Q13535,2644,reviewed,9606,True,PF02260,FATC domain,pfam,family,IPR003152,,,2613,2644,CONTINUOUS,False,PF02260,1.6e-10
+Q13535,2644,reviewed,9606,True,PF08064,UME (NUC010) domain,pfam,domain,IPR012993,,,1122,1222,CONTINUOUS,False,PF08064,7.3e-18
+Q9UQB9,309,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,43,293,CONTINUOUS,False,PF00069,1.8e-67
+P30530,894,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,227,322,CONTINUOUS,False,PF00041,0.0048
+P30530,894,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,537,803,CONTINUOUS,False,PF07714,3.8e-87
+P30530,894,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,41,118,CONTINUOUS,False,PF13927,0.00025
+P25098,689,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,192,453,CONTINUOUS,False,PF00069,1.1e-68
+P25098,689,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,560,650,CONTINUOUS,False,PF00169,2e-07
+P25098,689,reviewed,9606,True,PF00615,Regulator of G protein signaling domain,pfam,domain,IPR016137,,,55,174,CONTINUOUS,False,PF00615,2.3e-16
+O14874,412,reviewed,9606,True,PF02518,"Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase",pfam,domain,IPR003594,,,268,401,CONTINUOUS,False,PF02518,1.6e-09
+O14874,412,reviewed,9606,True,PF10436,Mitochondrial branched-chain alpha-ketoacid dehydrogenase kinase,pfam,family,IPR018955,,,70,222,CONTINUOUS,False,PF10436,4.2e-45
+Q12851,820,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,16,272,CONTINUOUS,False,PF00069,1.6e-58
+Q12851,820,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,498,787,CONTINUOUS,False,PF00780,6.6e-46
+P51451,505,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,124,205,CONTINUOUS,False,PF00017,3e-19
+P51451,505,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,64,110,CONTINUOUS,False,PF00018,1.3e-11
+P51451,505,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,242,489,CONTINUOUS,False,PF07714,2.9e-89
+P15056,766,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,235,281,CONTINUOUS,False,PF00130,5.8e-10
+P15056,766,reviewed,9606,True,PF02196,Raf-like Ras-binding domain,pfam,domain,IPR003116,,,157,225,CONTINUOUS,False,PF02196,1.2e-23
+P15056,766,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,457,712,CONTINUOUS,False,PF07714,1.5e-59
+Q13882,451,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,78,155,CONTINUOUS,False,PF00017,1.6e-15
+Q13882,451,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,16,63,CONTINUOUS,False,PF00018,0.0002
+Q13882,451,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,192,441,CONTINUOUS,False,PF07714,4.9e-86
+Q06187,659,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,281,362,CONTINUOUS,False,PF00017,3.7e-18
+Q06187,659,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,220,266,CONTINUOUS,False,PF00018,1.3e-13
+Q06187,659,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,5,133,CONTINUOUS,False,PF00169,3.5e-09
+Q06187,659,reviewed,9606,True,PF00779,BTK motif,pfam,conserved_site,IPR001562,,,141,167,CONTINUOUS,False,PF00779,9.2e-10
+Q06187,659,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,402,650,CONTINUOUS,False,PF07714,3.4e-94
+O60566,1050,reviewed,9606,True,PF08311,Mad3/BUB1 homology region 1,pfam,repeat,IPR013212,,,57,179,CONTINUOUS,False,PF08311,3.1e-40
+P50613,346,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,12,295,CONTINUOUS,False,PF00069,1.9e-69
+Q14012,370,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,21,276,CONTINUOUS,False,PF00069,5.5e-77
+Q9UQM7,478,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,13,271,CONTINUOUS,False,PF00069,4.4e-73
+Q9UQM7,478,reviewed,9606,True,PF08332,Calcium/calmodulin dependent protein kinase II association domain,pfam,domain,IPR013543,,,346,473,CONTINUOUS,True,PF08332,2.1e-61
+Q13554,666,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,14,272,CONTINUOUS,False,PF00069,1.6e-71
+Q13554,666,reviewed,9606,True,PF08332,Calcium/calmodulin dependent protein kinase II association domain,pfam,domain,IPR013543,,,534,661,CONTINUOUS,True,PF08332,9.4e-56
+Q13555,558,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,14,272,CONTINUOUS,False,PF00069,9.4e-73
+Q13555,558,reviewed,9606,True,PF08332,Calcium/calmodulin dependent protein kinase II association domain,pfam,domain,IPR013543,,,426,553,CONTINUOUS,True,PF08332,3e-56
+Q16566,473,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,46,300,CONTINUOUS,False,PF00069,8e-78
+Q8NCB2,501,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,34,286,CONTINUOUS,False,PF00069,2.5e-60
+O15075,740,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,390,647,CONTINUOUS,False,PF00069,2.4e-72
+O15075,740,reviewed,9606,True,PF03607,Doublecortin,pfam,family,IPR003533,,,76,137,CONTINUOUS,False,PF03607,5.9e-17
+O14936,926,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,12,276,CONTINUOUS,False,PF00069,2.1e-65
+O14936,926,reviewed,9606,True,PF00595,PDZ domain,pfam,domain,IPR001478,,,491,567,CONTINUOUS,False,PF00595,1.3e-14
+O14936,926,reviewed,9606,True,PF00625,Guanylate kinase,pfam,domain,IPR008145,,,738,911,CONTINUOUS,False,PF00625,5.1e-59
+O14936,926,reviewed,9606,True,PF02828,L27 domain,pfam,domain,IPR014775,,,347,395,CONTINUOUS,False,PF02828,3.8e-08
+O14936,926,reviewed,9606,True,PF07653,Variant SH3 domain,pfam,domain,IPR001452,,,629,674,CONTINUOUS,False,PF07653,0.00012
+P06493,297,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,287,CONTINUOUS,False,PF00069,1.7e-72
+O00311,574,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,59,207,CONTINUOUS,False,PF00069,1.8e-21
+P24941,298,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,286,CONTINUOUS,False,PF00069,6.9e-74
+Q00526,305,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,286,CONTINUOUS,False,PF00069,1.1e-73
+P11802,303,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,6,295,CONTINUOUS,True,PF00069,1.1e-59
+Q00535,292,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,286,CONTINUOUS,False,PF00069,5.5e-69
+Q00534,326,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,13,300,CONTINUOUS,False,PF00069,2.3e-63
+P49336,464,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,26,335,CONTINUOUS,False,PF00069,8e-57
+Q13976,671,reviewed,9606,True,PF00027,Cyclic nucleotide-binding domain,pfam,domain,IPR000595,,,122,203,CONTINUOUS,False,PF00027,1.1e-13
+Q13976,671,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,361,619,CONTINUOUS,False,PF00069,9.7e-69
+Q13976,671,reviewed,9606,True,PF16808,Coiled-coil N-terminus of cGMP-dependent protein kinase,pfam,coiled_coil,IPR031831,,,10,44,CONTINUOUS,False,PF16808,1.5e-11
+Q13237,762,reviewed,9606,True,PF00027,Cyclic nucleotide-binding domain,pfam,domain,IPR000595,,,187,268,CONTINUOUS,False,PF00027,5e-13
+Q13237,762,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,455,711,CONTINUOUS,False,PF00069,5.8e-68
+Q14004,1512,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,707,997,CONTINUOUS,False,PF00069,7.7e-68
+O14757,476,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,11,264,CONTINUOUS,False,PF00069,6.9e-64
+O96017,543,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,222,486,CONTINUOUS,False,PF00069,9.5e-72
+O96017,543,reviewed,9606,True,PF00498,FHA domain,pfam,family,IPR000253,,,113,191,CONTINUOUS,False,PF00498,1.8e-07
+P48729,337,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,17,236,CONTINUOUS,False,PF00069,9.7e-24
+P48730,415,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,9,228,CONTINUOUS,False,PF00069,8.2e-24
+P49674,416,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,9,228,CONTINUOUS,False,PF00069,1.8e-23
+P78368,415,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,47,262,CONTINUOUS,False,PF00069,7.1e-22
+P78368,415,reviewed,9606,True,PF12605,Casein kinase 1 gamma C terminal,pfam,family,IPR022247,,,361,385,CONTINUOUS,False,PF12605,2e-05
+Q9Y6M4,447,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,44,259,CONTINUOUS,False,PF00069,8e-23
+Q9Y6M4,447,reviewed,9606,True,PF12605,Casein kinase 1 gamma C terminal,pfam,family,IPR022247,,,328,417,CONTINUOUS,False,PF12605,8.1e-26
+P68400,391,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,39,324,CONTINUOUS,False,PF00069,7.4e-67
+P19784,350,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,40,325,CONTINUOUS,False,PF00069,6.7e-66
+P49759,484,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,161,477,CONTINUOUS,False,PF00069,6.8e-51
+P49760,499,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,163,479,CONTINUOUS,False,PF00069,3.4e-46
+P49761,490,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,156,472,CONTINUOUS,False,PF00069,1.6e-42
+P41279,467,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,145,386,CONTINUOUS,False,PF00069,6.3e-45
+P07333,972,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,212,291,CONTINUOUS,False,PF00047,1.8e-09
+P07333,972,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,582,910,CONTINUOUS,False,PF07714,2.9e-92
+P07333,972,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,409,489,CONTINUOUS,False,PF13927,0.0016
+P41240,450,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,82,156,CONTINUOUS,False,PF00017,4.2e-22
+P41240,450,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,15,62,CONTINUOUS,False,PF00018,7e-10
+P41240,450,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,195,440,CONTINUOUS,False,PF07714,1.6e-85
+P27448,753,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,56,307,CONTINUOUS,False,PF00069,2.2e-73
+P27448,753,reviewed,9606,True,PF00627,UBA/TS-N domain,pfam,domain,IPR015940,,,328,363,CONTINUOUS,False,PF00627,0.0013
+P27448,753,reviewed,9606,True,PF02149,Kinase associated domain 1,pfam,domain,IPR001772,,,710,753,CONTINUOUS,False,PF02149,2.7e-16
+Q02846,1103,reviewed,9606,True,PF00211,Adenylate and Guanylate cyclase catalytic domain,pfam,domain,IPR001054,,,872,1057,CONTINUOUS,True,PF00211,5.2e-61
+Q02846,1103,reviewed,9606,True,PF01094,Receptor family ligand binding region,pfam,family,IPR001828,,,73,394,CONTINUOUS,False,PF01094,7.1e-50
+Q02846,1103,reviewed,9606,True,PF07701,Heme NO binding associated,pfam,domain,IPR011645,,,820,865,CONTINUOUS,True,PF07701,0.01
+Q02846,1103,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,578,800,CONTINUOUS,False,PF07714,6.4e-24
+P51841,1108,reviewed,9606,True,PF00211,Adenylate and Guanylate cyclase catalytic domain,pfam,domain,IPR001054,,,876,1061,CONTINUOUS,True,PF00211,2e-62
+P51841,1108,reviewed,9606,True,PF01094,Receptor family ligand binding region,pfam,family,IPR001828,,,73,412,CONTINUOUS,False,PF01094,9.2e-78
+P51841,1108,reviewed,9606,True,PF07701,Heme NO binding associated,pfam,domain,IPR011645,,,824,869,CONTINUOUS,True,PF07701,0.041
+P51841,1108,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,595,808,CONTINUOUS,False,PF07714,1.4e-37
+P53355,1430,reviewed,9606,True,PF00023,Ankyrin repeat,pfam,repeat,IPR002110,,,511,542,CONTINUOUS,False,PF00023,0.11
+P53355,1430,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,13,275,CONTINUOUS,False,PF00069,1.9e-72
+P53355,1430,reviewed,9606,True,PF00531,Death domain,pfam,domain,IPR000488,,,1311,1392,CONTINUOUS,False,PF00531,8.2e-11
+P53355,1430,reviewed,9606,True,PF12796,Ankyrin repeats (3 copies),pfam,repeat,IPR002110,,,436,508,CONTINUOUS,True,PF12796,6.9e-12
+P53355,1430,reviewed,9606,True,PF13637,Ankyrin repeats (many copies),pfam,repeat,IPR002110,,,395,431,CONTINUOUS,False,PF13637,0.3
+Q9UIK4,370,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,23,285,CONTINUOUS,False,PF00069,1.7e-72
+Q12852,859,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,131,363,CONTINUOUS,False,PF07714,2.8e-58
+Q09013,629,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,71,339,CONTINUOUS,True,PF00069,3.5e-49
+Q09013,629,reviewed,9606,True,PF08826,DMPK coiled coil domain like,pfam,coiled_coil,IPR014930,,,470,530,CONTINUOUS,False,PF08826,2.3e-17
+Q6DT37,1551,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,71,337,CONTINUOUS,True,PF00069,1.8e-51
+Q6DT37,1551,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,879,927,CONTINUOUS,False,PF00130,7.3e-07
+Q6DT37,1551,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,357,398,CONTINUOUS,False,PF00433,0.019
+Q6DT37,1551,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,1103,1360,CONTINUOUS,False,PF00780,6.5e-56
+Q6DT37,1551,reviewed,9606,True,PF08826,DMPK coiled coil domain like,pfam,coiled_coil,IPR014930,,,744,800,CONTINUOUS,False,PF08826,6.3e-16
+P78527,4128,reviewed,9606,False,PF00454,Phosphatidylinositol 3- and 4-kinase,pfam,family,IPR000403,,,3749,4014,CONTINUOUS,False,PF00454,1.5e-64
+P78527,4128,reviewed,9606,False,PF02259,FAT domain,pfam,repeat,IPR003151,,,3024,3470,CONTINUOUS,False,PF02259,1.2e-66
+P78527,4128,reviewed,9606,False,PF02260,FATC domain,pfam,family,IPR003152,,,4098,4128,CONTINUOUS,False,PF02260,2.4e-05
+P78527,4128,reviewed,9606,False,PF08163,"DNA-dependent protein kinase catalytic subunit, CC3",pfam,repeat,IPR012582,,,1816,2202,CONTINUOUS,False,PF08163,0.0
+P78527,4128,reviewed,9606,False,PF19704,"DNA-PKcs, CC5",pfam,repeat,IPR045581,,,2213,2898,CONTINUOUS,True,PF19704,0.0
+P78527,4128,reviewed,9606,False,PF20500,"DNA-PKcs, N-terminal",pfam,repeat,IPR046804,,,52,862,CONTINUOUS,True,PF20500,0.0
+P78527,4128,reviewed,9606,False,PF20502,"DNA-dependent protein kinase catalytic subunit, CC1/2",pfam,repeat,IPR046803,,,956,1759,CONTINUOUS,True,PF20502,0.0
+Q9Y463,629,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,111,431,CONTINUOUS,False,PF00069,1.2e-45
+Q92630,601,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,222,535,CONTINUOUS,False,PF00069,1.4e-54
+Q9NR20,520,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,104,400,CONTINUOUS,False,PF00069,1.5e-50
+O00418,725,reviewed,9606,True,PF02816,Alpha-kinase family,pfam,family,IPR004166,,,139,318,CONTINUOUS,False,PF02816,3.8e-56
+P00533,1210,reviewed,9606,True,PF00757,Furin-like cysteine rich region,pfam,domain,IPR006211,,,185,338,CONTINUOUS,True,PF00757,5.7e-24
+P00533,1210,reviewed,9606,True,PF01030,Receptor L domain,pfam,repeat,IPR000494,,,57,167,CONTINUOUS,True,PF01030,2.6e-25
+P00533,1210,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,714,966,CONTINUOUS,False,PF07714,1.8e-88
+P00533,1210,reviewed,9606,True,PF14843,Growth factor receptor domain IV,pfam,domain,IPR032778,,,505,637,CONTINUOUS,True,PF14843,3.4e-44
+P00533,1210,reviewed,9606,True,PF21314,Epidermal growth factor receptor transmembrane-juxtamembrane segment,pfam,domain,IPR049328,,,646,681,CONTINUOUS,False,PF21314,1.1e-07
+P19525,551,reviewed,9606,True,PF00035,Double-stranded RNA binding motif,pfam,domain,IPR014720,,,13,75,CONTINUOUS,False,PF00035,2.8e-12
+P19525,551,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,268,534,CONTINUOUS,False,PF00069,3.9e-49
+Q7KZI7,788,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,53,304,CONTINUOUS,False,PF00069,1.6e-74
+Q7KZI7,788,reviewed,9606,True,PF00627,UBA/TS-N domain,pfam,domain,IPR015940,,,325,360,CONTINUOUS,False,PF00627,0.003
+Q7KZI7,788,reviewed,9606,True,PF02149,Kinase associated domain 1,pfam,domain,IPR001772,,,746,788,CONTINUOUS,False,PF02149,9.6e-17
+P21709,976,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,334,431,CONTINUOUS,False,PF00041,4.8e-08
+P21709,976,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,914,975,CONTINUOUS,False,PF00536,1.2e-19
+P21709,976,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,28,204,CONTINUOUS,False,PF01404,1.5e-52
+P21709,976,reviewed,9606,True,PF07699,Tyrosine-protein kinase ephrin type A/B receptor-like,pfam,domain,IPR011641,,,275,309,CONTINUOUS,False,PF07699,0.088
+P21709,976,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,626,880,CONTINUOUS,False,PF07714,1.7e-94
+P21709,976,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,548,621,CONTINUOUS,True,PF14575,1.1e-13
+P29317,976,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,331,420,CONTINUOUS,False,PF00041,1.4e-06
+P29317,976,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,904,966,CONTINUOUS,False,PF00536,3.4e-18
+P29317,976,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,29,201,CONTINUOUS,False,PF01404,9.1e-62
+P29317,976,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,614,871,CONTINUOUS,False,PF07714,1.2e-97
+P29317,976,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,538,610,CONTINUOUS,True,PF14575,4e-19
+P29320,983,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,327,421,CONTINUOUS,False,PF00041,4.4e-06
+P29320,983,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,31,202,CONTINUOUS,False,PF01404,2.9e-68
+P29320,983,reviewed,9606,True,PF07647,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,908,973,CONTINUOUS,False,PF07647,2.1e-10
+P29320,983,reviewed,9606,True,PF07699,Tyrosine-protein kinase ephrin type A/B receptor-like,pfam,domain,IPR011641,,,269,303,CONTINUOUS,False,PF07699,0.0013
+P29320,983,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,622,878,CONTINUOUS,False,PF07714,2.4e-98
+P29320,983,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,545,618,CONTINUOUS,True,PF14575,2.9e-19
+P54764,986,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,330,423,CONTINUOUS,False,PF00041,1.6e-06
+P54764,986,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,31,204,CONTINUOUS,False,PF01404,2.6e-71
+P54764,986,reviewed,9606,True,PF07647,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,909,973,CONTINUOUS,False,PF07647,2.9e-17
+P54764,986,reviewed,9606,True,PF07699,Tyrosine-protein kinase ephrin type A/B receptor-like,pfam,domain,IPR011641,,,269,306,CONTINUOUS,False,PF07699,0.1
+P54764,986,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,621,878,CONTINUOUS,False,PF07714,3.4e-95
+P54764,986,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,550,618,CONTINUOUS,True,PF14575,2e-21
+P54756,1037,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,359,449,CONTINUOUS,False,PF00041,2.5e-06
+P54756,1037,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,966,1027,CONTINUOUS,False,PF00536,1.4e-18
+P54756,1037,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,62,233,CONTINUOUS,False,PF01404,7.8e-68
+P54756,1037,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,675,932,CONTINUOUS,False,PF07714,2e-96
+P54756,1037,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,575,672,CONTINUOUS,True,PF14575,6.8e-20
+P29322,1005,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,330,421,CONTINUOUS,False,PF00041,0.00058
+P29322,1005,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,934,992,CONTINUOUS,False,PF00536,1.1e-16
+P29322,1005,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,33,204,CONTINUOUS,False,PF01404,2.9e-64
+P29322,1005,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,635,892,CONTINUOUS,False,PF07714,2.4e-91
+P29322,1005,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,543,632,CONTINUOUS,True,PF14575,5.3e-12
+P54762,984,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,326,415,CONTINUOUS,False,PF00041,0.00026
+P54762,984,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,911,973,CONTINUOUS,False,PF00536,8.4e-17
+P54762,984,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,20,196,CONTINUOUS,False,PF01404,1.7e-70
+P54762,984,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,619,878,CONTINUOUS,False,PF07714,2.8e-98
+P54762,984,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,542,616,CONTINUOUS,True,PF14575,2.9e-20
+P29323,1055,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,326,423,CONTINUOUS,False,PF00041,6.4e-07
+P29323,1055,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,911,975,CONTINUOUS,False,PF00536,1.3e-17
+P29323,1055,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,21,197,CONTINUOUS,False,PF01404,3.3e-71
+P29323,1055,reviewed,9606,True,PF07699,Tyrosine-protein kinase ephrin type A/B receptor-like,pfam,domain,IPR011641,,,268,302,CONTINUOUS,False,PF07699,0.0012
+P29323,1055,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,621,880,CONTINUOUS,False,PF07714,4.9e-97
+P29323,1055,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,544,617,CONTINUOUS,True,PF14575,2.6e-22
+P54753,998,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,341,435,CONTINUOUS,False,PF00041,1.3e-06
+P54753,998,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,924,987,CONTINUOUS,False,PF00536,3.5e-19
+P54753,998,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,40,212,CONTINUOUS,False,PF01404,5.8e-71
+P54753,998,reviewed,9606,True,PF07699,Tyrosine-protein kinase ephrin type A/B receptor-like,pfam,domain,IPR011641,,,281,316,CONTINUOUS,False,PF07699,0.0032
+P54753,998,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,633,892,CONTINUOUS,False,PF07714,4.2e-93
+P54753,998,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,560,630,CONTINUOUS,True,PF14575,2.9e-23
+P54760,987,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,325,413,CONTINUOUS,False,PF00041,0.0019
+P54760,987,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,908,969,CONTINUOUS,False,PF00536,3.6e-16
+P54760,987,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,18,197,CONTINUOUS,False,PF01404,1.3e-60
+P54760,987,reviewed,9606,True,PF07699,Tyrosine-protein kinase ephrin type A/B receptor-like,pfam,domain,IPR011641,,,261,299,CONTINUOUS,False,PF07699,0.005
+P54760,987,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,615,874,CONTINUOUS,False,PF07714,7.9e-93
+P54760,987,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,541,612,CONTINUOUS,True,PF14575,4.8e-20
+O15197,1021,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,496,576,CONTINUOUS,False,PF00041,2.3e-11
+O15197,1021,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,34,232,CONTINUOUS,False,PF01404,2.7e-50
+O15197,1021,reviewed,9606,True,PF07647,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,946,1010,CONTINUOUS,False,PF07647,2e-14
+O15197,1021,reviewed,9606,True,PF07699,Tyrosine-protein kinase ephrin type A/B receptor-like,pfam,domain,IPR011641,,,306,345,CONTINUOUS,False,PF07699,0.0031
+O15197,1021,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,670,914,CONTINUOUS,False,PF07714,1.1e-64
+O15197,1021,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,596,667,CONTINUOUS,True,PF14575,1.3e-15
+P27361,379,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,42,330,CONTINUOUS,False,PF00069,4.8e-64
+P28482,360,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,25,313,CONTINUOUS,False,PF00069,2.1e-63
+Q16659,721,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,20,316,CONTINUOUS,False,PF00069,2.1e-61
+P31152,587,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,23,312,CONTINUOUS,False,PF00069,2.2e-63
+Q05397,1052,reviewed,9606,True,PF00373,FERM central domain,pfam,domain,IPR019748,,,136,249,CONTINUOUS,False,PF00373,2.3e-09
+Q05397,1052,reviewed,9606,True,PF03623,Focal adhesion targeting region,pfam,domain,IPR005189,,,914,1045,CONTINUOUS,True,PF03623,2.5e-55
+Q05397,1052,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,422,676,CONTINUOUS,False,PF07714,1.5e-93
+Q05397,1052,reviewed,9606,True,PF18038,FERM N-terminal domain,pfam,domain,IPR041390,,,35,130,CONTINUOUS,False,PF18038,2.7e-37
+Q05397,1052,reviewed,9606,True,PF21477,"FAK1/PYK2, FERM domain C-lobe",pfam,domain,IPR049385,,,260,357,CONTINUOUS,False,PF21477,5.7e-37
+P16591,822,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,460,531,CONTINUOUS,False,PF00017,1.1e-18
+P16591,822,reviewed,9606,True,PF00611,"Fes/CIP4, and EFC/F-BAR homology domain",pfam,family,IPR001060,,,11,85,CONTINUOUS,False,PF00611,4.8e-09
+P16591,822,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,565,814,CONTINUOUS,False,PF07714,3.7e-97
+P07332,822,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,460,529,CONTINUOUS,False,PF00017,1.7e-13
+P07332,822,reviewed,9606,True,PF00611,"Fes/CIP4, and EFC/F-BAR homology domain",pfam,family,IPR001060,,,12,85,CONTINUOUS,False,PF00611,0.00018
+P07332,822,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,562,814,CONTINUOUS,False,PF07714,1.4e-92
+P11362,822,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,44,113,CONTINUOUS,False,PF00047,6e-06
+P11362,822,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,168,247,CONTINUOUS,False,PF07679,3.4e-11
+P11362,822,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,479,754,CONTINUOUS,False,PF07714,2.5e-98
+P21802,821,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,171,248,CONTINUOUS,False,PF07679,8.4e-12
+P21802,821,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,481,757,CONTINUOUS,False,PF07714,5.9e-99
+P21802,821,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,45,110,CONTINUOUS,False,PF13927,0.00022
+P22607,806,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,166,245,CONTINUOUS,False,PF07679,1.3e-12
+P22607,806,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,472,748,CONTINUOUS,False,PF07714,3e-98
+P22607,806,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,260,343,CONTINUOUS,False,PF13927,5.6e-07
+P22607,806,reviewed,9606,True,PF21165,Fibroblast growth factor receptor 3 transmembrane domain,pfam,domain,,,,373,397,CONTINUOUS,True,PF21165,4.2e-09
+P22455,802,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,161,239,CONTINUOUS,False,PF07679,1.7e-11
+P22455,802,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,468,743,CONTINUOUS,False,PF07714,3.6e-95
+P22455,802,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,256,337,CONTINUOUS,False,PF13927,4.8e-06
+P09769,529,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,144,226,CONTINUOUS,False,PF00017,7.5e-25
+P09769,529,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,83,130,CONTINUOUS,False,PF00018,1.7e-15
+P09769,529,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,263,512,CONTINUOUS,False,PF07714,1.8e-88
+P36888,993,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,259,341,CONTINUOUS,False,PF00047,1.4e-07
+P36888,993,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,610,942,CONTINUOUS,False,PF07714,1.5e-90
+P17948,1338,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,239,321,CONTINUOUS,False,PF00047,2e-05
+P17948,1338,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,350,407,CONTINUOUS,False,PF07679,9.5e-05
+P17948,1338,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,827,1154,CONTINUOUS,False,PF07714,7.6e-92
+P17948,1338,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,568,640,CONTINUOUS,False,PF13927,0.00012
+P17948,1338,reviewed,9606,True,PF17988,VEGFR-2 Transmembrane domain,pfam,domain,IPR041348,,,753,787,CONTINUOUS,True,PF17988,3.1e-14
+P17948,1338,reviewed,9606,True,PF21339,"Vascular endothelial growth factor receptor 1-like, Ig-like domain",pfam,domain,,,,143,224,CONTINUOUS,True,PF21339,3.2e-35
+P17948,1338,reviewed,9606,True,PF22854,"VEGFR1-3, N-terminal Ig-like domain",pfam,domain,,,,26,137,CONTINUOUS,True,PF22854,2.1e-05
+P17948,1338,reviewed,9606,True,PF22971,"VEGFR-1-like, immunoglobulin-like domain",pfam,domain,,,,426,556,CONTINUOUS,True,PF22971,1.7e-18
+P35916,1363,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,678,765,CONTINUOUS,True,PF07679,2.3e-11
+P35916,1363,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,845,1169,CONTINUOUS,False,PF07714,2.1e-87
+P35916,1363,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,236,314,CONTINUOUS,False,PF13927,0.00012
+P35916,1363,reviewed,9606,True,PF17988,VEGFR-2 Transmembrane domain,pfam,domain,IPR041348,,,770,804,CONTINUOUS,True,PF17988,1.6e-15
+P35916,1363,reviewed,9606,True,PF21339,"Vascular endothelial growth factor receptor 1-like, Ig-like domain",pfam,domain,,,,146,223,CONTINUOUS,True,PF21339,8e-08
+P35916,1363,reviewed,9606,True,PF22854,"VEGFR1-3, N-terminal Ig-like domain",pfam,domain,,,,23,141,CONTINUOUS,True,PF22854,3.6e-10
+P35916,1363,reviewed,9606,True,PF22971,"VEGFR-1-like, immunoglobulin-like domain",pfam,domain,,,,421,553,CONTINUOUS,True,PF22971,4.8e-12
+P42345,2549,reviewed,9606,True,PF00454,Phosphatidylinositol 3- and 4-kinase,pfam,family,IPR000403,,,2182,2430,CONTINUOUS,False,PF00454,2.4e-79
+P42345,2549,reviewed,9606,True,PF02259,FAT domain,pfam,repeat,IPR003151,,,1513,1908,CONTINUOUS,False,PF02259,1.5e-111
+P42345,2549,reviewed,9606,True,PF02260,FATC domain,pfam,family,IPR003152,,,2519,2549,CONTINUOUS,False,PF02260,2.4e-13
+P42345,2549,reviewed,9606,True,PF08771,FKBP12-rapamycin binding domain,pfam,domain,IPR009076,,,2015,2113,CONTINUOUS,False,PF08771,1.9e-40
+P42345,2549,reviewed,9606,True,PF11865,Serine/threonine-protein kinase mTOR domain,pfam,repeat,IPR024585,,,854,1024,CONTINUOUS,True,PF11865,5.6e-58
+P06241,537,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,149,231,CONTINUOUS,False,PF00017,2.3e-25
+P06241,537,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,88,135,CONTINUOUS,False,PF00018,1.1e-16
+P06241,537,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,271,520,CONTINUOUS,False,PF07714,1.3e-92
+O14976,1311,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,43,312,CONTINUOUS,False,PF00069,7.6e-45
+O14976,1311,reviewed,9606,True,PF10409,C2 domain of PTEN tumour-suppressor protein,pfam,domain,IPR014020,,,570,708,CONTINUOUS,False,PF10409,4.9e-26
+P32298,578,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,189,448,CONTINUOUS,False,PF00069,1.2e-61
+P32298,578,reviewed,9606,True,PF00615,Regulator of G protein signaling domain,pfam,domain,IPR016137,,,53,171,CONTINUOUS,False,PF00615,1.9e-21
+P34947,590,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,187,448,CONTINUOUS,False,PF00069,9.9e-62
+P34947,590,reviewed,9606,True,PF00615,Regulator of G protein signaling domain,pfam,domain,IPR016137,,,53,170,CONTINUOUS,False,PF00615,4.6e-23
+P43250,576,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,187,448,CONTINUOUS,False,PF00069,5.1e-66
+P43250,576,reviewed,9606,True,PF00615,Regulator of G protein signaling domain,pfam,domain,IPR016137,,,53,170,CONTINUOUS,False,PF00615,2.6e-20
+Q92519,343,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,75,308,CONTINUOUS,False,PF00069,5.7e-33
+P49840,483,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,119,403,CONTINUOUS,False,PF00069,9.9e-63
+P49841,420,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,56,340,CONTINUOUS,False,PF00069,1.4e-61
+P08631,526,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,144,226,CONTINUOUS,False,PF00017,2.1e-22
+P08631,526,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,84,130,CONTINUOUS,False,PF00018,9.6e-14
+P08631,526,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,262,511,CONTINUOUS,False,PF07714,2.4e-93
+P04626,1255,reviewed,9606,True,PF00757,Furin-like cysteine rich region,pfam,domain,IPR006211,,,190,343,CONTINUOUS,True,PF00757,7.6e-21
+P04626,1255,reviewed,9606,True,PF01030,Receptor L domain,pfam,repeat,IPR000494,,,52,172,CONTINUOUS,True,PF01030,1.8e-24
+P04626,1255,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,722,975,CONTINUOUS,False,PF07714,3.7e-87
+P04626,1255,reviewed,9606,True,PF14843,Growth factor receptor domain IV,pfam,domain,IPR032778,,,511,642,CONTINUOUS,True,PF14843,3.1e-39
+P04626,1255,reviewed,9606,True,PF21314,Epidermal growth factor receptor transmembrane-juxtamembrane segment,pfam,domain,IPR049328,,,654,688,CONTINUOUS,False,PF21314,6.8e-07
+P21860,1342,reviewed,9606,True,PF00757,Furin-like cysteine rich region,pfam,domain,IPR006211,,,182,332,CONTINUOUS,True,PF00757,2.2e-25
+P21860,1342,reviewed,9606,True,PF01030,Receptor L domain,pfam,repeat,IPR000494,,,56,166,CONTINUOUS,True,PF01030,2.3e-24
+P21860,1342,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,711,964,CONTINUOUS,False,PF07714,1.3e-78
+P21860,1342,reviewed,9606,True,PF14843,Growth factor receptor domain IV,pfam,domain,IPR032778,,,499,629,CONTINUOUS,False,PF14843,9.2e-46
+Q15303,1308,reviewed,9606,True,PF00757,Furin-like cysteine rich region,pfam,domain,IPR006211,,,186,335,CONTINUOUS,True,PF00757,4.1e-24
+Q15303,1308,reviewed,9606,True,PF01030,Receptor L domain,pfam,repeat,IPR000494,,,55,166,CONTINUOUS,True,PF01030,2.9e-26
+Q15303,1308,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,719,973,CONTINUOUS,False,PF07714,1.1e-92
+Q15303,1308,reviewed,9606,True,PF14843,Growth factor receptor domain IV,pfam,domain,IPR032778,,,502,633,CONTINUOUS,False,PF14843,2.7e-41
+Q15303,1308,reviewed,9606,True,PF21314,Epidermal growth factor receptor transmembrane-juxtamembrane segment,pfam,domain,IPR049328,,,653,688,CONTINUOUS,True,PF21314,6.6e-10
+Q86Z02,1210,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,190,518,CONTINUOUS,False,PF00069,3.6e-46
+Q92918,833,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,17,273,CONTINUOUS,False,PF00069,5.8e-56
+Q92918,833,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,511,793,CONTINUOUS,False,PF00780,2.6e-40
+P25092,1073,reviewed,9606,True,PF00211,Adenylate and Guanylate cyclase catalytic domain,pfam,domain,IPR001054,,,816,1001,CONTINUOUS,False,PF00211,2e-67
+P25092,1073,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,507,745,CONTINUOUS,False,PF07714,2.3e-31
+P08069,1367,reviewed,9606,True,PF00757,Furin-like cysteine rich region,pfam,domain,IPR006211,,,176,333,CONTINUOUS,True,PF00757,5.3e-37
+P08069,1367,reviewed,9606,True,PF01030,Receptor L domain,pfam,repeat,IPR000494,,,51,160,CONTINUOUS,True,PF01030,3.1e-25
+P08069,1367,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,999,1265,CONTINUOUS,False,PF07714,3.1e-92
+O15111,745,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,16,289,CONTINUOUS,False,PF00069,2.6e-50
+O15111,745,reviewed,9606,True,PF12179,I-kappa-kinase-beta NEMO binding domain,pfam,domain,IPR022007,,,707,743,CONTINUOUS,False,PF12179,5.1e-15
+O15111,745,reviewed,9606,True,PF18397,IQBAL scaffold dimerization domain,pfam,domain,IPR041185,,,386,659,CONTINUOUS,True,PF18397,0.0
+O14920,756,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,16,290,CONTINUOUS,False,PF00069,1.9e-50
+O14920,756,reviewed,9606,True,PF12179,I-kappa-kinase-beta NEMO binding domain,pfam,domain,IPR022007,,,706,742,CONTINUOUS,False,PF12179,1.5e-12
+O14920,756,reviewed,9606,True,PF18397,IQBAL scaffold dimerization domain,pfam,domain,IPR041185,,,389,663,CONTINUOUS,True,PF18397,5.9e-130
+Q13418,452,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,194,444,CONTINUOUS,False,PF07714,1.7e-34
+Q13418,452,reviewed,9606,True,PF12796,Ankyrin repeats (3 copies),pfam,repeat,IPR002110,,,8,63,CONTINUOUS,True,PF12796,0.00025
+P06213,1382,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,863,941,CONTINUOUS,False,PF00041,0.002
+P06213,1382,reviewed,9606,True,PF00757,Furin-like cysteine rich region,pfam,domain,IPR006211,,,179,340,CONTINUOUS,True,PF00757,2.9e-33
+P06213,1382,reviewed,9606,True,PF01030,Receptor L domain,pfam,repeat,IPR000494,,,52,163,CONTINUOUS,True,PF01030,2.9e-24
+P06213,1382,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,1023,1289,CONTINUOUS,False,PF07714,3e-93
+P06213,1382,reviewed,9606,True,PF17870,Insulin receptor trans-membrane segment,pfam,domain,IPR040969,,,940,987,CONTINUOUS,True,PF17870,3.8e-17
+P51617,712,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,214,514,CONTINUOUS,False,PF00069,5.5e-35
+P51617,712,reviewed,9606,True,PF00531,Death domain,pfam,domain,IPR000488,,,28,102,CONTINUOUS,False,PF00531,9.5e-09
+O43187,625,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,211,419,CONTINUOUS,False,PF00069,5e-23
+O43187,625,reviewed,9606,True,PF00531,Death domain,pfam,domain,IPR000488,,,14,93,CONTINUOUS,False,PF00531,2.3e-10
+Q9Y616,596,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,167,441,CONTINUOUS,False,PF00069,1.7e-30
+Q9Y616,596,reviewed,9606,True,PF00531,Death domain,pfam,domain,IPR000488,,,27,105,CONTINUOUS,False,PF00531,8.6e-13
+O75460,977,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,575,832,CONTINUOUS,False,PF00069,1.2e-39
+O75460,977,reviewed,9606,True,PF06479,Ribonuclease 2-5A,pfam,family,IPR010513,,,838,961,CONTINUOUS,False,PF06479,9.2e-38
+P14616,1297,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,820,905,CONTINUOUS,False,PF00041,0.05
+P14616,1297,reviewed,9606,True,PF00757,Furin-like cysteine rich region,pfam,domain,IPR006211,,,174,329,CONTINUOUS,True,PF00757,1.5e-32
+P14616,1297,reviewed,9606,True,PF01030,Receptor L domain,pfam,repeat,IPR000494,,,47,157,CONTINUOUS,True,PF01030,9e-20
+P14616,1297,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,980,1245,CONTINUOUS,False,PF07714,3.9e-88
+Q08881,620,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,239,323,CONTINUOUS,False,PF00017,4.6e-17
+Q08881,620,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,177,223,CONTINUOUS,False,PF00018,1.3e-11
+Q08881,620,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,7,109,CONTINUOUS,False,PF00169,9.8e-13
+Q08881,620,reviewed,9606,True,PF00779,BTK motif,pfam,conserved_site,IPR001562,,,119,147,CONTINUOUS,False,PF00779,9.6e-10
+Q08881,620,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,363,612,CONTINUOUS,False,PF07714,7.3e-92
+P23458,1154,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,585,844,CONTINUOUS,False,PF07714,6e-60
+P23458,1154,reviewed,9606,True,PF17887,Jak1 pleckstrin homology-like domain,pfam,domain,IPR041381,,,284,421,CONTINUOUS,False,PF17887,8.3e-54
+P23458,1154,reviewed,9606,True,PF18377,FERM F2 acyl-CoA binding protein-like domain,pfam,domain,IPR041046,,,147,277,CONTINUOUS,False,PF18377,7.6e-53
+P23458,1154,reviewed,9606,True,PF18379,FERM F1 ubiquitin-like domain,pfam,domain,IPR041155,,,38,128,CONTINUOUS,False,PF18379,1.6e-28
+P23458,1154,reviewed,9606,True,PF21990,SH2 domain,pfam,domain,IPR000980,,,438,546,CONTINUOUS,True,PF21990,5.9e-41
+O60674,1132,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,546,805,CONTINUOUS,False,PF07714,2.4e-62
+O60674,1132,reviewed,9606,True,PF17887,Jak1 pleckstrin homology-like domain,pfam,domain,IPR041381,,,302,381,CONTINUOUS,False,PF17887,1.1e-16
+O60674,1132,reviewed,9606,True,PF18377,FERM F2 acyl-CoA binding protein-like domain,pfam,domain,IPR041046,,,143,261,CONTINUOUS,False,PF18377,3.1e-41
+O60674,1132,reviewed,9606,True,PF18379,FERM F1 ubiquitin-like domain,pfam,domain,IPR041155,,,39,134,CONTINUOUS,False,PF18379,1.3e-37
+O60674,1132,reviewed,9606,True,PF21990,SH2 domain,pfam,domain,IPR000980,,,399,501,CONTINUOUS,True,PF21990,7.8e-35
+P52333,1124,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,521,777,CONTINUOUS,False,PF07714,2.1e-53
+P52333,1124,reviewed,9606,True,PF17887,Jak1 pleckstrin homology-like domain,pfam,domain,IPR041381,,,287,357,CONTINUOUS,False,PF17887,3.7e-11
+P52333,1124,reviewed,9606,True,PF18377,FERM F2 acyl-CoA binding protein-like domain,pfam,domain,IPR041046,,,126,245,CONTINUOUS,False,PF18377,1.9e-32
+P52333,1124,reviewed,9606,True,PF18379,FERM F1 ubiquitin-like domain,pfam,domain,IPR041155,,,39,114,CONTINUOUS,False,PF18379,2.5e-25
+P52333,1124,reviewed,9606,True,PF21990,SH2 domain,pfam,domain,IPR000980,,,374,477,CONTINUOUS,True,PF21990,1.5e-28
+P45983,427,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,26,321,CONTINUOUS,False,PF00069,7.1e-59
+P45984,424,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,26,321,CONTINUOUS,False,PF00069,3.8e-59
+P53779,464,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,64,359,CONTINUOUS,False,PF00069,2.1e-59
+Q9Y4K4,846,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,20,277,CONTINUOUS,False,PF00069,5.9e-59
+Q9Y4K4,846,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,522,812,CONTINUOUS,False,PF00780,1.5e-48
+Q14164,716,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,10,223,CONTINUOUS,False,PF00069,1e-42
+Q14164,716,reviewed,9606,True,PF18394,TANK-binding kinase 1 coiled-coil domain 1,pfam,coiled_coil,IPR041309,,,400,645,CONTINUOUS,False,PF18394,8.9e-80
+Q14164,716,reviewed,9606,True,PF18396,TANK binding kinase 1 ubiquitin-like domain,pfam,domain,IPR041087,,,308,392,CONTINUOUS,True,PF18396,4.9e-29
+O60285,661,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,55,306,CONTINUOUS,False,PF00069,1e-75
+O60307,1309,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,368,640,CONTINUOUS,False,PF00069,9.3e-58
+O60307,1309,reviewed,9606,True,PF08926,Domain of unknown function (DUF1908),pfam,domain,IPR015022,,,58,331,CONTINUOUS,True,PF08926,0.0
+O60307,1309,reviewed,9606,True,PF17820,PDZ domain,pfam,domain,IPR041489,,,985,1024,CONTINUOUS,False,PF17820,3.8e-07
+Q9NRP7,1315,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,254,CONTINUOUS,False,PF00069,1.5e-73
+Q9NRP7,1315,reviewed,9606,True,PF13646,HEAT repeats,pfam,repeat,,,,1156,1258,CONTINUOUS,True,PF13646,0.0013
+Q86V86,326,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,40,293,CONTINUOUS,True,PF00069,2.7e-58
+P10721,976,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,220,302,CONTINUOUS,False,PF00047,9.8e-13
+P10721,976,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,590,922,CONTINUOUS,False,PF07714,1.9e-89
+Q92772,493,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,287,CONTINUOUS,False,PF00069,1.6e-71
+Q00532,357,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,287,CONTINUOUS,False,PF00069,2.6e-78
+Q8IVT5,923,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,614,876,CONTINUOUS,False,PF07714,1.4e-42
+Q8IVT5,923,reviewed,9606,True,PF20406,Kinase suppressor RAS 1 N-terminal helical hairpin,pfam,domain,IPR046861,,,41,87,CONTINUOUS,True,PF20406,5e-14
+P06239,509,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,127,209,CONTINUOUS,False,PF00017,5.4e-22
+P06239,509,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,67,112,CONTINUOUS,False,PF00018,4.4e-10
+P06239,509,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,245,493,CONTINUOUS,False,PF07714,4.2e-93
+P53671,638,reviewed,9606,True,PF00412,LIM domain,pfam,domain,IPR001781,,,12,68,CONTINUOUS,False,PF00412,1.4e-13
+P53671,638,reviewed,9606,True,PF00595,PDZ domain,pfam,domain,IPR001478,,,153,236,CONTINUOUS,False,PF00595,3.3e-14
+P53671,638,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,334,599,CONTINUOUS,False,PF07714,3.8e-46
+Q15831,433,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,52,309,CONTINUOUS,False,PF00069,1.8e-54
+P29376,864,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,511,777,CONTINUOUS,False,PF07714,4.3e-83
+P29376,864,reviewed,9606,True,PF12810,Glycine rich protein,pfam,family,,,,116,357,CONTINUOUS,False,PF12810,1.8e-11
+P07948,512,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,129,211,CONTINUOUS,False,PF00017,1.4e-20
+P07948,512,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,69,115,CONTINUOUS,False,PF00018,2.3e-13
+P07948,512,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,247,496,CONTINUOUS,False,PF07714,1e-93
+P20794,623,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,284,CONTINUOUS,True,PF00069,4.5e-74
+P49137,400,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,67,325,CONTINUOUS,False,PF00069,6.3e-66
+Q16644,382,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,47,304,CONTINUOUS,False,PF00069,3.1e-65
+Q8IW41,473,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,25,304,CONTINUOUS,False,PF00069,3.1e-59
+Q9P0L2,795,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,60,311,CONTINUOUS,False,PF00069,1.6e-73
+Q9P0L2,795,reviewed,9606,True,PF00627,UBA/TS-N domain,pfam,domain,IPR015940,,,332,367,CONTINUOUS,False,PF00627,0.00048
+Q9P0L2,795,reviewed,9606,True,PF02149,Kinase associated domain 1,pfam,domain,IPR001772,,,753,795,CONTINUOUS,False,PF02149,3.1e-16
+Q6P0Q8,1798,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,513,785,CONTINUOUS,False,PF00069,9.4e-58
+Q6P0Q8,1798,reviewed,9606,True,PF08926,Domain of unknown function (DUF1908),pfam,domain,IPR015022,,,201,475,CONTINUOUS,True,PF08926,0.0
+Q6P0Q8,1798,reviewed,9606,True,PF17820,PDZ domain,pfam,domain,IPR041489,,,1140,1181,CONTINUOUS,False,PF17820,0.00011
+Q02750,393,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,68,361,CONTINUOUS,False,PF00069,1.5e-59
+P36507,400,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,72,369,CONTINUOUS,False,PF00069,2.6e-58
+Q13163,448,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,170,419,CONTINUOUS,False,PF00069,2.5e-61
+Q13163,448,reviewed,9606,True,PF00564,PB1 domain,pfam,domain,IPR000270,,,19,95,CONTINUOUS,False,PF00564,2e-10
+P52564,334,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,56,314,CONTINUOUS,False,PF00069,2.2e-53
+Q13233,1512,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,1245,1508,CONTINUOUS,False,PF00069,2.9e-64
+Q13233,1512,reviewed,9606,True,PF04434,SWIM zinc finger,pfam,domain,IPR007527,,,338,364,CONTINUOUS,False,PF04434,2.8
+Q13233,1512,reviewed,9606,True,PF21040,"Centrosomal protein CEP104-like, TOG domain",pfam,repeat,,,,556,812,CONTINUOUS,True,PF21040,2.1e-18
+Q9Y2U5,619,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,358,615,CONTINUOUS,False,PF00069,4e-64
+Q9Y2U5,619,reviewed,9606,True,PF00564,PB1 domain,pfam,domain,IPR000270,,,44,120,CONTINUOUS,False,PF00564,1.8e-10
+Q99759,626,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,364,621,CONTINUOUS,False,PF00069,9.5e-66
+Q99759,626,reviewed,9606,True,PF00564,PB1 domain,pfam,domain,IPR000270,,,45,120,CONTINUOUS,False,PF00564,2.3e-10
+Q9Y6R4,1608,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,1344,1601,CONTINUOUS,False,PF00069,4.2e-66
+Q9Y6R4,1608,reviewed,9606,True,PF19431,MEKK4 N-terminal,pfam,family,IPR045801,,,51,1269,CONTINUOUS,False,PF19431,0.0
+Q99683,1374,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,685,937,CONTINUOUS,False,PF00069,2.3e-61
+Q99683,1374,reviewed,9606,True,PF13281,MAP3K TRAFs-binding domain,pfam,repeat,IPR025136,,,165,545,CONTINUOUS,True,PF13281,0.0
+Q99683,1374,reviewed,9606,True,PF19039,ASK kinase PH domain,pfam,domain,IPR043969,,,556,653,CONTINUOUS,True,PF19039,6.4e-36
+Q99683,1374,reviewed,9606,True,PF20302,HisK-N-like globin domain of the ASK signalosome,pfam,domain,IPR046873,,,1042,1173,CONTINUOUS,True,PF20302,2.4e-49
+Q99683,1374,reviewed,9606,True,PF20309,Deoxyribohydrolase (DRHyd) domain of the ASK signalosome,pfam,family,IPR046872,,,115,150,CONTINUOUS,False,PF20309,3.2e-14
+Q12866,999,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,285,373,CONTINUOUS,False,PF00041,0.00037
+Q12866,999,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,107,178,CONTINUOUS,False,PF00047,8.6e-05
+Q12866,999,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,589,853,CONTINUOUS,False,PF07714,2.1e-87
+Q12866,999,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,197,266,CONTINUOUS,False,PF13927,0.00022
+P08581,1390,reviewed,9606,True,PF01403,Sema domain,pfam,repeat,IPR001627,,,317,490,CONTINUOUS,False,PF01403,7e-16
+P08581,1390,reviewed,9606,True,PF01437,Plexin repeat,pfam,family,IPR002165,,,520,561,CONTINUOUS,False,PF01437,0.0017
+P08581,1390,reviewed,9606,True,PF01833,IPT/TIG domain,pfam,domain,IPR002909,,,563,654,CONTINUOUS,False,PF01833,1.2e-11
+P08581,1390,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,1078,1336,CONTINUOUS,False,PF07714,9.2e-92
+Q16671,573,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,211,503,CONTINUOUS,False,PF00069,4e-20
+O14733,419,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,122,380,CONTINUOUS,False,PF00069,9.4e-54
+Q15746,1914,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,1333,1420,CONTINUOUS,False,PF00041,1.3e-11
+Q15746,1914,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,1464,1719,CONTINUOUS,False,PF00069,1.4e-76
+Q15746,1914,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,33,123,CONTINUOUS,True,PF07679,8.8e-19
+Q15746,1914,reviewed,9606,True,PF16620,Unstructured linker between I-set domains 2 and 3 on MYLCK,pfam,disordered,,,,267,411,CONTINUOUS,False,PF16620,6.3e-66
+P80192,1104,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,146,401,CONTINUOUS,False,PF00069,3.2e-61
+P80192,1104,reviewed,9606,True,PF14604,Variant SH3 domain,pfam,domain,IPR001452,,,59,112,CONTINUOUS,False,PF14604,1.2e-09
+Q02779,954,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,98,357,CONTINUOUS,False,PF07714,6.8e-58
+Q02779,954,reviewed,9606,True,PF14604,Variant SH3 domain,pfam,domain,IPR001452,,,23,77,CONTINUOUS,False,PF14604,1.4e-10
+Q13627,763,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,159,479,CONTINUOUS,False,PF00069,5.7e-46
+Q9BUB5,465,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,52,164,CONTINUOUS,False,PF00069,3.7e-19
+Q9HBH9,465,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,87,368,CONTINUOUS,False,PF00069,3e-62
+P00540,346,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,63,334,CONTINUOUS,False,PF00069,2.2e-37
+P46734,347,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,66,325,CONTINUOUS,False,PF00069,1e-53
+P45985,399,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,104,367,CONTINUOUS,False,PF00069,9.7e-58
+Q9Y5S2,1711,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,76,341,CONTINUOUS,False,PF00069,1.5e-53
+Q9Y5S2,1711,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,1026,1076,CONTINUOUS,False,PF00130,1.7e-08
+Q9Y5S2,1711,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,1251,1509,CONTINUOUS,False,PF00780,9.4e-69
+Q9Y5S2,1711,reviewed,9606,True,PF08826,DMPK coiled coil domain like,pfam,coiled_coil,IPR014930,,,878,939,CONTINUOUS,False,PF08826,9.6e-22
+Q9Y5S2,1711,reviewed,9606,True,PF15796,KELK-motif containing domain of MRCK Ser/Thr protein kinase,pfam,coiled_coil,IPR031597,,,528,606,CONTINUOUS,False,PF15796,2e-28
+O75582,802,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,49,318,CONTINUOUS,False,PF00069,3.6e-66
+O75582,802,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,339,377,CONTINUOUS,False,PF00433,5e-05
+O75676,772,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,33,301,CONTINUOUS,True,PF00069,7.3e-63
+O75676,772,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,322,361,CONTINUOUS,False,PF00433,0.011
+Q13043,487,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,31,281,CONTINUOUS,False,PF00069,6.8e-70
+Q13043,487,reviewed,9606,True,PF11629,C terminal SARAH domain of Mst1,pfam,family,IPR024205,,,433,480,CONTINUOUS,False,PF11629,1.9e-22
+Q13188,491,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,28,278,CONTINUOUS,False,PF00069,1.7e-68
+Q13188,491,reviewed,9606,True,PF11629,C terminal SARAH domain of Mst1,pfam,family,IPR024205,,,437,484,CONTINUOUS,False,PF11629,2.2e-22
+Q9Y6E0,443,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,36,286,CONTINUOUS,False,PF00069,1.4e-69
+Q9Y6E0,443,reviewed,9606,True,PF20929,"Programmed cell death protein 10, dimerisation domain",pfam,domain,IPR048288,,,375,429,CONTINUOUS,True,PF20929,0.97
+O15146,869,reviewed,9606,True,PF01392,Fz domain,pfam,domain,IPR020067,,,317,440,CONTINUOUS,False,PF01392,2e-09
+O15146,869,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,28,110,CONTINUOUS,False,PF07679,3.9e-11
+O15146,869,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,576,856,CONTINUOUS,False,PF07714,2e-91
+O15146,869,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,217,286,CONTINUOUS,False,PF13927,4.8e-07
+Q99640,499,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,111,357,CONTINUOUS,False,PF00069,1.8e-41
+Q15208,465,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,89,369,CONTINUOUS,False,PF00069,5.6e-56
+Q15208,465,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,401,445,CONTINUOUS,False,PF00433,0.0022
+Q96PY6,1258,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,257,CONTINUOUS,False,PF00069,1.1e-65
+P51955,445,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,8,270,CONTINUOUS,False,PF00069,5e-60
+P51956,506,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,253,CONTINUOUS,False,PF00069,2.8e-66
+Q99558,947,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,405,646,CONTINUOUS,False,PF00069,5.5e-38
+Q9UBE8,527,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,141,427,CONTINUOUS,False,PF00069,1.3e-58
+P51957,841,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,9,261,CONTINUOUS,False,PF00069,1.4e-62
+Q9NWZ3,460,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,190,453,CONTINUOUS,False,PF07714,2.7e-49
+Q99570,1358,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,27,310,CONTINUOUS,False,PF00069,2.3e-13
+Q99570,1358,reviewed,9606,True,PF00400,"WD domain, G-beta repeat",pfam,repeat,IPR001680,,,985,1021,CONTINUOUS,False,PF00400,0.00068
+Q99570,1358,reviewed,9606,True,PF22956,"VPS15-like, helical domain",pfam,repeat,,,,370,836,CONTINUOUS,True,PF22956,4e-49
+O75116,1388,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,92,354,CONTINUOUS,False,PF00069,4.7e-59
+O75116,1388,reviewed,9606,True,PF08912,Rho Binding,pfam,coiled_coil,IPR015008,,,978,1046,CONTINUOUS,False,PF08912,1.9e-21
+Q16539,360,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,24,308,CONTINUOUS,False,PF00069,6.7e-60
+P23443,525,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,91,352,CONTINUOUS,True,PF00069,2.8e-67
+P23443,525,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,373,413,CONTINUOUS,False,PF00433,1.2e-07
+Q9UBS0,482,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,67,328,CONTINUOUS,True,PF00069,1.5e-67
+Q9UBS0,482,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,349,389,CONTINUOUS,False,PF00433,7.1e-08
+Q13153,545,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,270,521,CONTINUOUS,False,PF00069,5.2e-71
+Q13153,545,reviewed,9606,True,PF00786,P21-Rho-binding domain,pfam,domain,IPR000095,,,74,132,CONTINUOUS,True,PF00786,6.1e-23
+Q13177,524,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,249,500,CONTINUOUS,False,PF00069,1.1e-70
+Q13177,524,reviewed,9606,True,PF00786,P21-Rho-binding domain,pfam,domain,IPR000095,,,73,130,CONTINUOUS,True,PF00786,4.2e-23
+O75914,559,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,283,534,CONTINUOUS,False,PF00069,1.7e-70
+O75914,559,reviewed,9606,True,PF00786,P21-Rho-binding domain,pfam,domain,IPR000095,,,69,141,CONTINUOUS,True,PF00786,4.3e-17
+P24723,683,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,356,614,CONTINUOUS,False,PF00069,1.6e-61
+P24723,683,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,172,225,CONTINUOUS,False,PF00130,3e-12
+P24723,683,reviewed,9606,True,PF00168,C2 domain,pfam,domain,IPR000008,,,10,115,CONTINUOUS,False,PF00168,1.1e-10
+P24723,683,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,635,676,CONTINUOUS,False,PF00433,5.9e-10
+Q00536,496,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,165,446,CONTINUOUS,False,PF00069,7.2e-66
+Q00537,523,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,192,473,CONTINUOUS,False,PF00069,2.1e-67
+Q07002,474,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,144,425,CONTINUOUS,False,PF00069,2.7e-64
+P16234,1089,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,223,306,CONTINUOUS,False,PF07679,0.0054
+P16234,1089,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,594,948,CONTINUOUS,False,PF07714,3.1e-91
+P09619,1106,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,40,110,CONTINUOUS,False,PF00047,1.1e-07
+P09619,1106,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,601,955,CONTINUOUS,False,PF07714,1.8e-90
+P09619,1106,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,217,294,CONTINUOUS,False,PF13927,1.6e-06
+O15530,556,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,83,330,CONTINUOUS,False,PF00069,1.6e-64
+O15530,556,reviewed,9606,True,PF14593,PH domain,pfam,domain,IPR033931,,,446,547,CONTINUOUS,False,PF14593,6.2e-41
+Q15118,436,reviewed,9606,True,PF02518,"Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase",pfam,domain,IPR003594,,,270,390,CONTINUOUS,False,PF02518,1.6e-10
+Q15118,436,reviewed,9606,True,PF10436,Mitochondrial branched-chain alpha-ketoacid dehydrogenase kinase,pfam,family,IPR018955,,,56,220,CONTINUOUS,False,PF10436,1.9e-46
+Q15119,407,reviewed,9606,True,PF02518,"Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase",pfam,domain,IPR003594,,,242,361,CONTINUOUS,False,PF02518,1.5e-09
+Q15119,407,reviewed,9606,True,PF10436,Mitochondrial branched-chain alpha-ketoacid dehydrogenase kinase,pfam,family,IPR018955,,,30,192,CONTINUOUS,False,PF10436,2.3e-49
+Q15120,406,reviewed,9606,True,PF02518,"Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase",pfam,domain,IPR003594,,,238,359,CONTINUOUS,False,PF02518,2.5e-08
+Q15120,406,reviewed,9606,True,PF10436,Mitochondrial branched-chain alpha-ketoacid dehydrogenase kinase,pfam,family,IPR018955,,,26,188,CONTINUOUS,False,PF10436,1.5e-45
+Q16654,411,reviewed,9606,True,PF02518,"Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase",pfam,domain,IPR003594,,,245,365,CONTINUOUS,False,PF02518,9e-11
+Q16654,411,reviewed,9606,True,PF10436,Mitochondrial branched-chain alpha-ketoacid dehydrogenase kinase,pfam,family,IPR018955,,,34,195,CONTINUOUS,False,PF10436,6.6e-46
+Q9NZJ5,1116,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,595,660,CONTINUOUS,False,PF00069,3.2e-07
+O94921,469,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,135,419,CONTINUOUS,False,PF00069,1.4e-62
+Q16816,387,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,20,288,CONTINUOUS,False,PF00069,4.4e-73
+P15735,406,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,25,291,CONTINUOUS,False,PF00069,1e-76
+P11309,313,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,38,290,CONTINUOUS,False,PF00069,3.2e-65
+Q9P1W9,311,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,33,286,CONTINUOUS,False,PF00069,1.2e-52
+Q15131,360,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,39,323,CONTINUOUS,False,PF00069,1.3e-60
+P50750,372,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,19,315,CONTINUOUS,False,PF00069,2.1e-64
+P21127,795,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,441,723,CONTINUOUS,False,PF00069,1e-60
+Q14680,651,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,11,263,CONTINUOUS,False,PF00069,2.6e-71
+Q14680,651,reviewed,9606,True,PF02149,Kinase associated domain 1,pfam,domain,IPR001772,,,608,651,CONTINUOUS,False,PF02149,4.7e-10
+Q14680,651,reviewed,9606,True,PF21594,"Maternal embryonic leucine zipper kinase, UBA domain",pfam,domain,IPR048637,,,282,324,CONTINUOUS,False,PF21594,4.2e-22
+Q5VT25,1732,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,77,343,CONTINUOUS,False,PF00069,2.7e-52
+Q5VT25,1732,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,1013,1063,CONTINUOUS,False,PF00130,2.9e-07
+Q5VT25,1732,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,362,404,CONTINUOUS,False,PF00433,0.0016
+Q5VT25,1732,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,1238,1494,CONTINUOUS,False,PF00780,7e-75
+Q5VT25,1732,reviewed,9606,True,PF08826,DMPK coiled coil domain like,pfam,coiled_coil,IPR014930,,,881,941,CONTINUOUS,False,PF08826,2.6e-23
+Q5VT25,1732,reviewed,9606,True,PF15796,KELK-motif containing domain of MRCK Ser/Thr protein kinase,pfam,coiled_coil,IPR031597,,,529,608,CONTINUOUS,False,PF15796,1.9e-29
+P17612,351,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,44,298,CONTINUOUS,True,PF00069,2.8e-71
+P22694,351,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,44,298,CONTINUOUS,True,PF00069,2e-71
+P22612,351,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,44,298,CONTINUOUS,True,PF00069,1.4e-69
+P17252,672,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,341,583,CONTINUOUS,False,PF00069,6.3e-63
+P17252,672,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,37,87,CONTINUOUS,False,PF00130,3.5e-13
+P17252,672,reviewed,9606,True,PF00168,C2 domain,pfam,domain,IPR000008,,,172,277,CONTINUOUS,False,PF00168,2.9e-28
+P17252,672,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,624,658,CONTINUOUS,False,PF00433,0.00045
+P05771,671,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,344,586,CONTINUOUS,False,PF00069,1.7e-58
+P05771,671,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,37,87,CONTINUOUS,False,PF00130,5.4e-13
+P05771,671,reviewed,9606,True,PF00168,C2 domain,pfam,domain,IPR000008,,,173,277,CONTINUOUS,False,PF00168,1e-25
+P05771,671,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,623,662,CONTINUOUS,False,PF00433,9.7e-10
+Q05655,676,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,352,603,CONTINUOUS,False,PF00069,2.7e-59
+Q05655,676,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,159,209,CONTINUOUS,False,PF00130,7.9e-12
+Q05655,676,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,624,665,CONTINUOUS,False,PF00433,1.4e-09
+Q05655,676,reviewed,9606,True,PF21494,"Protein kinase C delta/epsilon/eta/theta, C2 domain",pfam,domain,,,,4,112,CONTINUOUS,True,PF21494,2.1e-49
+Q02156,737,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,409,667,CONTINUOUS,False,PF00069,2.9e-63
+Q02156,737,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,170,221,CONTINUOUS,False,PF00130,2.8e-13
+Q02156,737,reviewed,9606,True,PF00168,C2 domain,pfam,domain,IPR000008,,,7,116,CONTINUOUS,False,PF00168,1.1e-08
+Q02156,737,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,689,730,CONTINUOUS,False,PF00433,1.9e-08
+P05129,697,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,353,599,CONTINUOUS,False,PF00069,7.3e-59
+P05129,697,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,36,86,CONTINUOUS,False,PF00130,1.3e-14
+P05129,697,reviewed,9606,True,PF00168,C2 domain,pfam,domain,IPR000008,,,173,277,CONTINUOUS,False,PF00168,1.7e-27
+P05129,697,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,642,675,CONTINUOUS,False,PF00433,1.2e-05
+P41743,596,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,256,521,CONTINUOUS,False,PF00069,2.2e-65
+P41743,596,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,141,192,CONTINUOUS,False,PF00130,3.6e-12
+P41743,596,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,546,584,CONTINUOUS,False,PF00433,6.3e-06
+P41743,596,reviewed,9606,True,PF00564,PB1 domain,pfam,domain,IPR000270,,,26,107,CONTINUOUS,False,PF00564,4.7e-12
+Q15139,912,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,587,839,CONTINUOUS,False,PF00069,3.6e-68
+Q15139,912,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,150,197,CONTINUOUS,False,PF00130,5.9e-12
+Q15139,912,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,423,497,CONTINUOUS,False,PF00169,6.6e-05
+Q04759,706,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,382,634,CONTINUOUS,False,PF00069,2.6e-61
+Q04759,706,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,160,210,CONTINUOUS,False,PF00130,1.7e-12
+Q04759,706,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,655,696,CONTINUOUS,False,PF00433,9.5e-09
+Q04759,706,reviewed,9606,True,PF21494,"Protein kinase C delta/epsilon/eta/theta, C2 domain",pfam,domain,,,,4,113,CONTINUOUS,True,PF21494,2e-46
+Q05513,592,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,254,516,CONTINUOUS,False,PF00069,5.9e-62
+Q05513,592,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,131,182,CONTINUOUS,False,PF00130,1.9e-12
+Q05513,592,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,540,580,CONTINUOUS,False,PF00433,2e-05
+Q05513,592,reviewed,9606,True,PF00564,PB1 domain,pfam,domain,IPR000270,,,16,97,CONTINUOUS,False,PF00564,1.7e-16
+P51817,358,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,51,303,CONTINUOUS,False,PF00069,5.7e-67
+Q9H422,1215,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,197,525,CONTINUOUS,False,PF00069,4.3e-45
+P53350,603,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,53,305,CONTINUOUS,False,PF00069,3.3e-67
+P53350,603,reviewed,9606,True,PF00659,POLO box duplicated region,pfam,family,IPR000959,,,419,476,CONTINUOUS,False,PF00659,3.3e-17
+Q9H4B4,646,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,64,314,CONTINUOUS,False,PF00069,1.4e-69
+Q9H4B4,646,reviewed,9606,True,PF00659,POLO box duplicated region,pfam,family,IPR000959,,,472,528,CONTINUOUS,False,PF00659,4.6e-11
+Q16512,942,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,617,874,CONTINUOUS,False,PF00069,2.3e-58
+Q16512,942,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,895,937,CONTINUOUS,False,PF00433,6.9e-09
+Q16512,942,reviewed,9606,True,PF02185,Hr1 repeat,pfam,family,IPR011072,,,39,98,CONTINUOUS,False,PF02185,1.1e-10
+Q16513,984,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,662,916,CONTINUOUS,False,PF00069,1.3e-62
+Q16513,984,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,937,979,CONTINUOUS,False,PF00433,1.4e-09
+Q16513,984,reviewed,9606,True,PF02185,Hr1 repeat,pfam,family,IPR011072,,,51,110,CONTINUOUS,False,PF02185,1e-10
+O43930,277,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,54,259,CONTINUOUS,False,PF00069,4.8e-62
+Q13523,1007,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,689,1003,CONTINUOUS,False,PF00069,4.8e-46
+P11801,424,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,98,355,CONTINUOUS,False,PF00069,1.4e-71
+P04049,648,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,352,605,CONTINUOUS,False,PF00069,5.3e-60
+P04049,648,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,139,185,CONTINUOUS,False,PF00130,6.3e-10
+P04049,648,reviewed,9606,True,PF02196,Raf-like Ras-binding domain,pfam,domain,IPR003116,,,57,128,CONTINUOUS,False,PF02196,9e-23
+P07949,1114,reviewed,9606,True,PF00028,Cadherin domain,pfam,domain,IPR002126,,,173,260,CONTINUOUS,False,PF00028,5.4e-09
+P07949,1114,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,725,1005,CONTINUOUS,False,PF07714,3.2e-94
+P07949,1114,reviewed,9606,True,PF17756,RET Cadherin like domain 1,pfam,domain,IPR041163,,,29,153,CONTINUOUS,True,PF17756,1.8e-43
+P07949,1114,reviewed,9606,True,PF17812,RET Cadherin like domain 3,pfam,domain,IPR040667,,,265,379,CONTINUOUS,True,PF17812,6.2e-44
+P07949,1114,reviewed,9606,True,PF17813,RET Cadherin like domain 4,pfam,domain,IPR041317,,,405,506,CONTINUOUS,True,PF17813,4.7e-43
+P07949,1114,reviewed,9606,True,PF22540,"RET, Cysteine Rich Domain",pfam,domain,,,,518,620,CONTINUOUS,True,PF22540,9.1e-32
+Q15835,563,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,194,443,CONTINUOUS,False,PF00069,1.8e-60
+Q15835,563,reviewed,9606,True,PF00615,Regulator of G protein signaling domain,pfam,domain,IPR016137,,,58,174,CONTINUOUS,False,PF00615,1.8e-16
+Q13546,671,reviewed,9606,True,PF00531,Death domain,pfam,domain,IPR000488,,,585,666,CONTINUOUS,False,PF00531,6.3e-18
+Q13546,671,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,21,284,CONTINUOUS,False,PF07714,1.2e-48
+O43353,540,reviewed,9606,True,PF00619,Caspase recruitment domain,pfam,domain,IPR001315,,,437,519,CONTINUOUS,False,PF00619,6.3e-15
+O43353,540,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,22,288,CONTINUOUS,False,PF07714,9.9e-40
+Q9Y572,518,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,22,280,CONTINUOUS,False,PF00069,7.5e-39
+Q9Y572,518,reviewed,9606,True,PF12721,RIP homotypic interaction motif,pfam,conserved_site,IPR025735,,,448,468,CONTINUOUS,False,PF12721,8.4e-06
+Q13464,1354,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,76,338,CONTINUOUS,False,PF00069,4.5e-60
+Q13464,1354,reviewed,9606,True,PF08912,Rho Binding,pfam,coiled_coil,IPR015008,,,948,1014,CONTINUOUS,False,PF08912,3.4e-19
+Q04912,1400,reviewed,9606,True,PF01403,Sema domain,pfam,repeat,IPR001627,,,338,502,CONTINUOUS,False,PF01403,4.4e-16
+Q04912,1400,reviewed,9606,True,PF01437,Plexin repeat,pfam,family,IPR002165,,,527,568,CONTINUOUS,False,PF01437,0.08
+Q04912,1400,reviewed,9606,True,PF01833,IPT/TIG domain,pfam,domain,IPR002909,,,569,661,CONTINUOUS,False,PF01833,0.75
+Q04912,1400,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,1084,1338,CONTINUOUS,False,PF07714,8.1e-88
+Q01973,937,reviewed,9606,True,PF00051,Kringle domain,pfam,domain,IPR000001,,,313,391,CONTINUOUS,False,PF00051,1.6e-19
+Q01973,937,reviewed,9606,True,PF01392,Fz domain,pfam,domain,IPR020067,,,170,288,CONTINUOUS,False,PF01392,1.6e-09
+Q01973,937,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,61,143,CONTINUOUS,False,PF07679,8.6e-14
+Q01973,937,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,474,746,CONTINUOUS,False,PF07714,2e-91
+Q01974,943,reviewed,9606,True,PF00051,Kringle domain,pfam,domain,IPR000001,,,316,394,CONTINUOUS,False,PF00051,5.2e-20
+Q01974,943,reviewed,9606,True,PF01392,Fz domain,pfam,domain,IPR020067,,,174,291,CONTINUOUS,False,PF01392,1.2e-09
+Q01974,943,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,63,150,CONTINUOUS,False,PF07679,1.6e-15
+Q01974,943,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,474,746,CONTINUOUS,False,PF07714,1.1e-86
+P08922,2347,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,204,280,CONTINUOUS,False,PF00041,7.5e-08
+P08922,2347,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,1948,2215,CONTINUOUS,False,PF07714,1.3e-91
+Q15349,733,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,59,318,CONTINUOUS,True,PF00069,6.4e-68
+Q15349,733,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,342,378,CONTINUOUS,False,PF00433,0.014
+P51812,740,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,68,327,CONTINUOUS,True,PF00069,4.9e-68
+P51812,740,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,351,387,CONTINUOUS,False,PF00433,0.0098
+Q15418,735,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,62,320,CONTINUOUS,False,PF00069,2.8e-68
+Q15418,735,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,345,381,CONTINUOUS,False,PF00433,0.056
+P34925,607,reviewed,9606,True,PF02019,WIF domain,pfam,family,IPR003306,,,66,194,CONTINUOUS,False,PF02019,2.7e-42
+P34925,607,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,330,596,CONTINUOUS,False,PF07714,5.7e-81
+O00444,970,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,13,265,CONTINUOUS,False,PF00069,7.5e-69
+O00444,970,reviewed,9606,True,PF18190,Polo-like Kinase 4 Polo Box 1,pfam,domain,IPR033699,,,592,697,CONTINUOUS,False,PF18190,3.3e-40
+O00444,970,reviewed,9606,True,PF18409,Polo-like Kinase 4 Polo Box 2,pfam,domain,IPR033698,,,699,807,CONTINUOUS,False,PF18409,1.5e-35
+Q15759,364,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,27,308,CONTINUOUS,False,PF00069,1e-57
+P53778,367,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,27,311,CONTINUOUS,False,PF00069,2.3e-62
+O15264,365,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,28,308,CONTINUOUS,False,PF00069,1.5e-64
+Q9Y2H9,1570,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,376,647,CONTINUOUS,False,PF00069,1.7e-56
+Q9Y2H9,1570,reviewed,9606,True,PF08926,Domain of unknown function (DUF1908),pfam,domain,IPR015022,,,61,336,CONTINUOUS,True,PF08926,0.0
+Q9Y2H9,1570,reviewed,9606,True,PF17820,PDZ domain,pfam,domain,IPR041489,,,1003,1046,CONTINUOUS,False,PF17820,7.6e-07
+O00141,431,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,98,355,CONTINUOUS,False,PF00069,1.1e-68
+O00141,431,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,376,423,CONTINUOUS,False,PF00433,5.2e-06
+Q9H2G2,1235,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,35,292,CONTINUOUS,False,PF00069,1.9e-65
+Q9H2G2,1235,reviewed,9606,True,PF12474,Polo kinase kinase,pfam,family,IPR022165,,,852,990,CONTINUOUS,False,PF12474,1.4e-34
+Q9NYY3,685,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,84,334,CONTINUOUS,False,PF00069,3.1e-68
+Q9NYY3,685,reviewed,9606,True,PF00659,POLO box duplicated region,pfam,family,IPR000959,,,512,566,CONTINUOUS,False,PF00659,1.5e-13
+Q16584,847,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,118,376,CONTINUOUS,False,PF07714,3.2e-60
+Q16584,847,reviewed,9606,True,PF14604,Variant SH3 domain,pfam,domain,IPR001452,,,48,100,CONTINUOUS,False,PF14604,6.7e-10
+P12931,536,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,151,233,CONTINUOUS,False,PF00017,2.2e-24
+P12931,536,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,90,137,CONTINUOUS,False,PF00018,1e-13
+P12931,536,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,271,518,CONTINUOUS,False,PF07714,9e-92
+Q96SB4,655,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,80,228,CONTINUOUS,False,PF00069,2.5e-18
+P78362,688,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,81,223,CONTINUOUS,False,PF00069,2.1e-18
+O76039,960,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,14,297,CONTINUOUS,False,PF00069,1.5e-69
+Q9UL54,1235,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,29,281,CONTINUOUS,False,PF00069,5.9e-60
+P43405,635,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,15,92,CONTINUOUS,False,PF00017,1.3e-16
+P43405,635,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,374,623,CONTINUOUS,False,PF07714,1.4e-88
+O43318,606,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,36,283,CONTINUOUS,False,PF07714,6.3e-56
+Q13873,1038,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,205,496,CONTINUOUS,False,PF00069,3.9e-28
+Q13873,1038,reviewed,9606,True,PF01064,Activin types I and II receptor domain,pfam,domain,IPR000472,,,52,126,CONTINUOUS,True,PF01064,1.1e-09
+P42680,631,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,247,330,CONTINUOUS,False,PF00017,2e-16
+P42680,631,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,185,231,CONTINUOUS,False,PF00018,2.4e-11
+P42680,631,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,6,110,CONTINUOUS,False,PF00169,1.1e-13
+P42680,631,reviewed,9606,True,PF00779,BTK motif,pfam,conserved_site,IPR001562,,,119,147,CONTINUOUS,False,PF00779,3.2e-10
+P42680,631,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,370,618,CONTINUOUS,False,PF07714,6.2e-95
+Q02763,1124,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,545,630,CONTINUOUS,False,PF00041,2.8e-06
+Q02763,1124,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,824,1091,CONTINUOUS,False,PF07714,2.2e-87
+Q02763,1124,reviewed,9606,True,PF10430,Tie-2 Ig-like domain 1,pfam,domain,IPR018941,,,24,118,CONTINUOUS,True,PF10430,8.8e-41
+Q15569,626,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,59,311,CONTINUOUS,False,PF07714,6.2e-43
+P37173,567,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,244,537,CONTINUOUS,False,PF07714,1.3e-31
+P37173,567,reviewed,9606,True,PF08917,Transforming growth factor beta receptor 2 ectodomain,pfam,domain,IPR015013,,,49,157,CONTINUOUS,True,PF08917,1.3e-41
+P35590,1138,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,458,535,CONTINUOUS,False,PF00041,9.6e-06
+P35590,1138,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,133,206,CONTINUOUS,False,PF00047,1.1e-06
+P35590,1138,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,839,1106,CONTINUOUS,False,PF07714,2.2e-86
+Q8WZ42,34350,reviewed,9606,False,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,14019,14102,CONTINUOUS,False,PF00041,7.5e-05
+Q8WZ42,34350,reviewed,9606,False,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,32178,32432,CONTINUOUS,False,PF00069,5.7e-54
+Q8WZ42,34350,reviewed,9606,False,PF02818,PPAK motif,pfam,conserved_site,IPR004168,,,10503,10529,CONTINUOUS,False,PF02818,0.14
+Q8WZ42,34350,reviewed,9606,False,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,6,97,CONTINUOUS,False,PF07679,7e-17
+Q8WZ42,34350,reviewed,9606,False,PF09042,Titin Z,pfam,domain,IPR015129,,,418,453,CONTINUOUS,True,PF09042,0.0061
+Q8WZ42,34350,reviewed,9606,False,PF18362,Tri-helix bundle domain,pfam,domain,IPR040849,,,9505,9535,CONTINUOUS,True,PF18362,2.4e-05
+Q9UKI8,766,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,458,734,CONTINUOUS,False,PF00069,1.8e-57
+Q86UE8,772,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,464,741,CONTINUOUS,False,PF00069,1.8e-58
+Q13470,666,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,119,374,CONTINUOUS,False,PF07714,6.9e-70
+Q13470,666,reviewed,9606,True,PF22931,SAM domain-like,pfam,domain,,,,10,65,CONTINUOUS,False,PF22931,3.5e-17
+O75962,3097,reviewed,9606,False,PF00018,SH3 domain,pfam,domain,IPR001452,,,1662,1713,CONTINUOUS,False,PF00018,0.00074
+O75962,3097,reviewed,9606,False,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,2796,3050,CONTINUOUS,False,PF00069,6.7e-56
+O75962,3097,reviewed,9606,False,PF00435,Spectrin repeat,pfam,domain,IPR002017,,,341,444,CONTINUOUS,False,PF00435,2.6e-06
+O75962,3097,reviewed,9606,False,PF00621,RhoGEF domain,pfam,domain,IPR000219,,,1296,1464,CONTINUOUS,False,PF00621,2.1e-32
+O75962,3097,reviewed,9606,False,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,2685,2776,CONTINUOUS,True,PF07679,1.4e-16
+O75962,3097,reviewed,9606,False,PF13716,Divergent CRAL/TRIO domain,pfam,domain,IPR001251,,,84,211,CONTINUOUS,False,PF13716,0.00017
+O75962,3097,reviewed,9606,False,PF16609,SH3-RhoGEF linking unstructured region,pfam,disordered,,,,1715,1972,CONTINUOUS,False,PF16609,0.0
+O75962,3097,reviewed,9606,False,PF22697,SOS1/NGEF-like PH domain,pfam,domain,,,,1480,1589,CONTINUOUS,False,PF22697,5.9e-27
+P04629,796,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,512,781,CONTINUOUS,False,PF07714,1.3e-90
+P04629,796,reviewed,9606,True,PF13855,Leucine rich repeat,pfam,repeat,IPR001611,,,92,150,CONTINUOUS,True,PF13855,7e-08
+P04629,796,reviewed,9606,True,PF16920,Leucine rich repeat C-terminal motif,pfam,conserved_site,IPR031635,,,151,192,CONTINUOUS,False,PF16920,9e-11
+P04629,796,reviewed,9606,True,PF18613,Tyrosine kinase receptor A trans-membrane domain,pfam,domain,IPR040665,,,417,438,CONTINUOUS,True,PF18613,0.00018
+Q16620,822,reviewed,9606,True,PF01462,Leucine rich repeat N-terminal domain,pfam,family,IPR000372,,,31,60,CONTINUOUS,False,PF01462,0.0021
+Q16620,822,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,204,283,CONTINUOUS,False,PF07679,3.2e-09
+Q16620,822,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,539,806,CONTINUOUS,False,PF07714,1e-94
+Q16620,822,reviewed,9606,True,PF13855,Leucine rich repeat,pfam,repeat,IPR001611,,,92,149,CONTINUOUS,True,PF13855,9.2e-07
+Q16620,822,reviewed,9606,True,PF16920,Leucine rich repeat C-terminal motif,pfam,conserved_site,IPR031635,,,151,195,CONTINUOUS,False,PF16920,4.6e-12
+Q16288,839,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,218,296,CONTINUOUS,False,PF00047,3.9e-13
+Q16288,839,reviewed,9606,True,PF01462,Leucine rich repeat N-terminal domain,pfam,family,IPR000372,,,31,56,CONTINUOUS,False,PF01462,0.011
+Q16288,839,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,323,391,CONTINUOUS,False,PF07679,0.00029
+Q16288,839,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,539,823,CONTINUOUS,False,PF07714,4e-88
+Q16288,839,reviewed,9606,True,PF13855,Leucine rich repeat,pfam,repeat,IPR001611,,,104,160,CONTINUOUS,True,PF13855,4.2e-10
+Q16288,839,reviewed,9606,True,PF16920,Leucine rich repeat C-terminal motif,pfam,conserved_site,IPR031635,,,163,208,CONTINUOUS,False,PF16920,7.6e-16
+Q9Y4A5,3859,reviewed,9606,False,PF00454,Phosphatidylinositol 3- and 4-kinase,pfam,family,IPR000403,,,3538,3782,CONTINUOUS,False,PF00454,1e-15
+Q9Y4A5,3859,reviewed,9606,False,PF02259,FAT domain,pfam,repeat,IPR003151,,,2851,3204,CONTINUOUS,False,PF02259,2.4e-71
+Q9Y4A5,3859,reviewed,9606,False,PF20175,Tra1 HEAT repeat central region,pfam,repeat,IPR046807,,,276,881,CONTINUOUS,True,PF20175,0.0
+Q9Y4A5,3859,reviewed,9606,False,PF20206,Tra1 HEAT repeat ring region,pfam,repeat,IPR046805,,,893,2682,CONTINUOUS,True,PF20206,0.0
+P33981,857,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,525,791,CONTINUOUS,False,PF00069,3.5e-66
+P42681,527,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,150,231,CONTINUOUS,False,PF00017,1.5e-20
+P42681,527,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,88,134,CONTINUOUS,False,PF00018,3.4e-09
+P42681,527,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,272,518,CONTINUOUS,False,PF07714,1.3e-93
+P29597,1187,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,590,866,CONTINUOUS,False,PF07714,1.8e-48
+P29597,1187,reviewed,9606,True,PF17887,Jak1 pleckstrin homology-like domain,pfam,domain,IPR041381,,,285,432,CONTINUOUS,False,PF17887,1.4e-52
+P29597,1187,reviewed,9606,True,PF18377,FERM F2 acyl-CoA binding protein-like domain,pfam,domain,IPR041046,,,142,266,CONTINUOUS,False,PF18377,2.8e-42
+P29597,1187,reviewed,9606,True,PF18379,FERM F1 ubiquitin-like domain,pfam,domain,IPR041155,,,28,124,CONTINUOUS,False,PF18379,3.2e-30
+P29597,1187,reviewed,9606,True,PF21990,SH2 domain,pfam,domain,IPR000980,,,450,553,CONTINUOUS,True,PF21990,6.9e-30
+Q06418,890,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,227,312,CONTINUOUS,False,PF00041,0.0018
+Q06418,890,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,48,124,CONTINUOUS,False,PF07679,4e-09
+Q06418,890,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,519,786,CONTINUOUS,False,PF07714,1.5e-86
+O75385,1050,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,17,278,CONTINUOUS,False,PF00069,1e-66
+O75385,1050,reviewed,9606,True,PF12063,"Atg1-like, MIT domain 1",pfam,domain,IPR022708,,,875,960,CONTINUOUS,True,PF12063,0.0038
+O75385,1050,reviewed,9606,True,PF21127,"ATG1-like, MIT domain 2",pfam,domain,IPR048941,,,972,1044,CONTINUOUS,True,PF21127,1.4e-08
+Q8IYT8,1036,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,9,271,CONTINUOUS,False,PF00069,1.6e-66
+Q8IYT8,1036,reviewed,9606,True,PF12063,"Atg1-like, MIT domain 1",pfam,domain,IPR022708,,,863,945,CONTINUOUS,True,PF12063,1.8e-06
+Q8IYT8,1036,reviewed,9606,True,PF21127,"ATG1-like, MIT domain 2",pfam,domain,IPR048941,,,956,1029,CONTINUOUS,True,PF21127,1.6e-06
+Q99986,396,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,42,274,CONTINUOUS,False,PF00069,2.9e-11
+Q86Y07,508,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,31,264,CONTINUOUS,False,PF00069,1.9e-14
+P30291,646,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,299,568,CONTINUOUS,False,PF00069,6.8e-51
+P07947,543,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,158,240,CONTINUOUS,False,PF00017,1.1e-24
+P07947,543,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,97,144,CONTINUOUS,False,PF00018,2.9e-15
+P07947,543,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,278,526,CONTINUOUS,False,PF07714,6e-91
+O00506,426,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,21,270,CONTINUOUS,False,PF00069,3.9e-68
+O00506,426,reviewed,9606,True,PF20929,"Programmed cell death protein 10, dimerisation domain",pfam,domain,IPR048288,,,357,411,CONTINUOUS,True,PF20929,0.0097
+P43403,619,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,10,87,CONTINUOUS,False,PF00017,6.1e-15
+P43403,619,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,342,592,CONTINUOUS,False,PF07714,1.5e-90
+O43283,966,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,172,405,CONTINUOUS,False,PF07714,2.2e-61
+Q08345,913,reviewed,9606,True,PF00754,F5/8 type C domain,pfam,domain,IPR000421,,,47,182,CONTINUOUS,False,PF00754,3.2e-17
+Q08345,913,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,610,905,CONTINUOUS,False,PF07714,2.4e-81
+Q08345,913,reviewed,9606,True,PF21114,"Discoidin domain-containing receptor 1/2, DS-like domain",pfam,domain,IPR048525,,,190,366,CONTINUOUS,True,PF21114,6.1e-64
+Q86TW2,530,reviewed,9606,True,PF03109,ABC1 atypical kinase-like domain,pfam,domain,IPR004147,,,125,371,CONTINUOUS,False,PF03109,1.2e-89
+P35968,1356,reviewed,9606,True,PF00047,Immunoglobulin domain,pfam,domain,IPR013151,,,234,310,CONTINUOUS,False,PF00047,0.00013
+P35968,1356,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,340,410,CONTINUOUS,False,PF07679,1.9e-08
+P35968,1356,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,834,1160,CONTINUOUS,False,PF07714,3.4e-89
+P35968,1356,reviewed,9606,True,PF13895,Immunoglobulin domain,pfam,domain,,,,551,661,CONTINUOUS,True,PF13895,0.0086
+P35968,1356,reviewed,9606,True,PF17988,VEGFR-2 Transmembrane domain,pfam,domain,IPR041348,,,759,793,CONTINUOUS,True,PF17988,2.5e-14
+P35968,1356,reviewed,9606,True,PF21339,"Vascular endothelial growth factor receptor 1-like, Ig-like domain",pfam,domain,,,,133,217,CONTINUOUS,True,PF21339,5.9e-28
+P35968,1356,reviewed,9606,True,PF22854,"VEGFR1-3, N-terminal Ig-like domain",pfam,domain,,,,21,130,CONTINUOUS,True,PF22854,1.4e-53
+P35968,1356,reviewed,9606,True,PF22971,"VEGFR-1-like, immunoglobulin-like domain",pfam,domain,,,,432,548,CONTINUOUS,False,PF22971,1.9e-13
+Q8NER5,493,reviewed,9606,True,PF01064,Activin types I and II receptor domain,pfam,domain,IPR000472,,,26,95,CONTINUOUS,True,PF01064,2.4e-09
+Q8NER5,493,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,196,480,CONTINUOUS,False,PF07714,1.6e-28
+Q8NER5,493,reviewed,9606,True,PF08515,Transforming growth factor beta type I GS-motif,pfam,family,IPR003605,,,166,193,CONTINUOUS,False,PF08515,5.2e-10
+Q96GD4,344,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,77,327,CONTINUOUS,True,PF00069,7.2e-69
+O14965,403,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,133,383,CONTINUOUS,False,PF00069,2.4e-68
+Q13164,816,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,55,347,CONTINUOUS,False,PF00069,8.5e-61
+O43683,1085,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,790,1004,CONTINUOUS,False,PF00069,1.4e-12
+O43683,1085,reviewed,9606,True,PF08311,Mad3/BUB1 homology region 1,pfam,repeat,IPR013212,,,8,126,CONTINUOUS,False,PF08311,1.3e-33
+Q16832,855,reviewed,9606,True,PF00754,F5/8 type C domain,pfam,domain,IPR000421,,,46,182,CONTINUOUS,False,PF00754,1.3e-18
+Q16832,855,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,563,846,CONTINUOUS,False,PF07714,2.3e-82
+Q16832,855,reviewed,9606,True,PF21114,"Discoidin domain-containing receptor 1/2, DS-like domain",pfam,domain,IPR048525,,,190,366,CONTINUOUS,True,PF21114,3.8e-72
+Q13308,1070,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,347,408,CONTINUOUS,False,PF07679,1.6e-05
+Q13308,1070,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,799,1061,CONTINUOUS,False,PF07714,5.4e-81
+Q13308,1070,reviewed,9606,True,PF13927,Immunoglobulin domain,pfam,domain,,,,35,104,CONTINUOUS,False,PF13927,0.00018
+P53667,647,reviewed,9606,True,PF00412,LIM domain,pfam,domain,IPR001781,,,25,79,CONTINUOUS,False,PF00412,8e-13
+P53667,647,reviewed,9606,True,PF00595,PDZ domain,pfam,domain,IPR001478,,,166,254,CONTINUOUS,False,PF00595,6.8e-11
+P53667,647,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,342,602,CONTINUOUS,False,PF07714,1.3e-51
+Q6ZMQ8,1374,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,128,392,CONTINUOUS,False,PF07714,7.7e-58
+Q8IWU2,1503,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,138,406,CONTINUOUS,False,PF07714,8.5e-52
+Q96Q04,1460,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,135,407,CONTINUOUS,False,PF07714,2.9e-58
+Q15375,998,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,333,430,CONTINUOUS,False,PF00041,3.3e-08
+Q15375,998,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,922,985,CONTINUOUS,False,PF00536,4.4e-19
+Q15375,998,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,34,205,CONTINUOUS,False,PF01404,2.6e-69
+Q15375,998,reviewed,9606,True,PF07699,Tyrosine-protein kinase ephrin type A/B receptor-like,pfam,domain,IPR011641,,,271,308,CONTINUOUS,False,PF07699,0.024
+Q15375,998,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,633,888,CONTINUOUS,False,PF07714,3.9e-96
+Q15375,998,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,560,630,CONTINUOUS,True,PF14575,3.6e-21
+P51813,675,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,296,377,CONTINUOUS,False,PF00017,2.2e-17
+P51813,675,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,7,111,CONTINUOUS,False,PF00169,4.6e-16
+P51813,675,reviewed,9606,True,PF00779,BTK motif,pfam,conserved_site,IPR001562,,,119,147,CONTINUOUS,False,PF00779,1.8e-08
+P51813,675,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,417,665,CONTINUOUS,False,PF07714,3.1e-94
+P42679,507,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,122,196,CONTINUOUS,False,PF00017,6.3e-18
+P42679,507,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,64,99,CONTINUOUS,False,PF00018,0.0033
+P42679,507,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,236,478,CONTINUOUS,False,PF07714,1.6e-84
+P42685,505,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,116,193,CONTINUOUS,False,PF00017,5.2e-22
+P42685,505,reviewed,9606,True,PF00018,SH3 domain,pfam,domain,IPR001452,,,48,88,CONTINUOUS,False,PF00018,4.6e-09
+P42685,505,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,234,486,CONTINUOUS,False,PF07714,3.2e-95
+Q9HC98,313,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,45,296,CONTINUOUS,False,PF00069,1.6e-63
+Q8TDX7,302,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,35,287,CONTINUOUS,False,PF00069,5.2e-62
+Q2M2I8,961,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,48,307,CONTINUOUS,False,PF00069,4.5e-40
+Q96QT4,1865,reviewed,9606,True,PF00520,Ion transport protein,pfam,family,IPR005821,,,860,1102,CONTINUOUS,False,PF00520,0.0005
+Q96QT4,1865,reviewed,9606,True,PF02816,Alpha-kinase family,pfam,family,IPR004166,,,1621,1816,CONTINUOUS,False,PF02816,1e-41
+Q96QT4,1865,reviewed,9606,True,PF16519,Tetramerisation domain of TRPM,pfam,domain,IPR032415,,,1194,1249,CONTINUOUS,True,PF16519,1.1e-20
+Q96QT4,1865,reviewed,9606,True,PF18139,SLOG in TRPM,pfam,family,IPR041491,,,106,371,CONTINUOUS,False,PF18139,3.2e-114
+Q14289,1009,reviewed,9606,True,PF00373,FERM central domain,pfam,domain,IPR019748,,,143,255,CONTINUOUS,False,PF00373,4e-12
+Q14289,1009,reviewed,9606,True,PF03623,Focal adhesion targeting region,pfam,domain,IPR005189,,,870,1000,CONTINUOUS,True,PF03623,5.7e-54
+Q14289,1009,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,427,679,CONTINUOUS,False,PF07714,7.4e-92
+Q14289,1009,reviewed,9606,True,PF18038,FERM N-terminal domain,pfam,domain,IPR041390,,,39,137,CONTINUOUS,False,PF18038,2.9e-44
+Q14289,1009,reviewed,9606,True,PF21477,"FAK1/PYK2, FERM domain C-lobe",pfam,domain,IPR049385,,,267,361,CONTINUOUS,False,PF21477,6.2e-33
+Q9H3Y6,488,reviewed,9606,True,PF00017,SH2 domain,pfam,domain,IPR000980,,,120,197,CONTINUOUS,False,PF00017,8e-17
+Q9H3Y6,488,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,232,480,CONTINUOUS,False,PF07714,6.7e-87
+O94804,968,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,37,294,CONTINUOUS,False,PF00069,2e-61
+O94804,968,reviewed,9606,True,PF12474,Polo kinase kinase,pfam,family,IPR022165,,,587,725,CONTINUOUS,False,PF12474,1.8e-32
+Q8IVH8,894,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,16,273,CONTINUOUS,False,PF00069,3.6e-61
+Q8IVH8,894,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,572,860,CONTINUOUS,False,PF00780,1.6e-48
+O95747,527,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,17,291,CONTINUOUS,False,PF00069,9.1e-61
+O95747,527,reviewed,9606,True,PF12202,Oxidative-stress-responsive kinase 1 C-terminal domain,pfam,domain,IPR024678,,,434,491,CONTINUOUS,True,PF12202,4.6e-20
+Q9NQU5,681,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,411,658,CONTINUOUS,False,PF00069,1.4e-64
+Q9NQU5,681,reviewed,9606,True,PF00786,P21-Rho-binding domain,pfam,domain,IPR000095,,,11,63,CONTINUOUS,True,PF00786,2.6e-14
+O96013,591,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,326,572,CONTINUOUS,False,PF00069,1.5e-64
+O96013,591,reviewed,9606,True,PF00786,P21-Rho-binding domain,pfam,domain,IPR000095,,,10,63,CONTINUOUS,True,PF00786,1.1e-14
+Q9P289,416,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,24,274,CONTINUOUS,False,PF00069,9.5e-69
+Q9P289,416,reviewed,9606,True,PF20929,"Programmed cell death protein 10, dimerisation domain",pfam,domain,IPR048288,,,353,406,CONTINUOUS,True,PF20929,0.02
+Q9UEW8,545,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,63,337,CONTINUOUS,False,PF00069,3.3e-60
+Q9UEW8,545,reviewed,9606,True,PF12202,Oxidative-stress-responsive kinase 1 C-terminal domain,pfam,domain,IPR024678,,,452,509,CONTINUOUS,True,PF12202,9e-21
+Q7RTN6,431,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,69,379,CONTINUOUS,False,PF00069,1.5e-32
+Q9C0K7,418,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,58,369,CONTINUOUS,False,PF00069,1.6e-32
+Q9H2K8,898,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,28,277,CONTINUOUS,False,PF00069,2.2e-61
+Q7L7X3,1001,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,29,280,CONTINUOUS,False,PF00069,4.8e-62
+O95819,1239,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,25,289,CONTINUOUS,True,PF00069,4e-59
+O95819,1239,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,935,1208,CONTINUOUS,False,PF00780,1.5e-57
+Q9UKE5,1360,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,26,289,CONTINUOUS,False,PF00069,6.1e-62
+Q9UKE5,1360,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,1056,1329,CONTINUOUS,False,PF00780,1.3e-59
+Q8N4C8,1332,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,25,289,CONTINUOUS,False,PF00069,3.1e-58
+Q8N4C8,1332,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,1028,1301,CONTINUOUS,False,PF00780,9.8e-59
+Q7Z2Y5,1582,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,26,313,CONTINUOUS,False,PF00069,1.4e-51
+Q7Z2Y5,1582,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,1218,1547,CONTINUOUS,False,PF00780,2e-37
+O95835,1130,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,706,854,CONTINUOUS,False,PF00069,5.6e-36
+O95835,1130,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,1030,1080,CONTINUOUS,False,PF00433,1.1
+O95835,1130,reviewed,9606,True,PF00627,UBA/TS-N domain,pfam,domain,IPR015940,,,101,138,CONTINUOUS,False,PF00627,1.6e-06
+Q9NRM7,1088,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,669,818,CONTINUOUS,False,PF00069,6.4e-36
+Q9NRM7,1088,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,993,1042,CONTINUOUS,False,PF00433,0.011
+Q9BWU1,502,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,26,335,CONTINUOUS,False,PF00069,1.1e-56
+Q8IY84,436,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,74,325,CONTINUOUS,False,PF00069,7.5e-68
+Q6PHR2,472,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,17,270,CONTINUOUS,False,PF00069,2.2e-70
+Q6PHR2,472,reviewed,9606,True,PF04212,MIT (microtubule interacting and transport) domain,pfam,domain,IPR007330,,,281,345,CONTINUOUS,False,PF04212,2.7e-15
+Q8N165,341,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,8,324,CONTINUOUS,False,PF00069,4.4e-46
+Q6IQ55,1244,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,22,241,CONTINUOUS,False,PF00069,7.8e-27
+Q96KG9,808,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,35,222,CONTINUOUS,False,PF00069,3.2e-07
+Q96GX5,879,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,37,195,CONTINUOUS,False,PF00069,1.2e-35
+Q9BXM7,581,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,268,503,CONTINUOUS,False,PF00069,3.8e-17
+Q96C45,1275,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,7,279,CONTINUOUS,False,PF00069,1.2e-45
+Q8NB16,471,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,218,466,CONTINUOUS,False,PF07714,1.7e-36
+Q8NB16,471,reviewed,9606,True,PF22215,Mixed lineage kinase domain-like N-terminal domain,pfam,domain,IPR054000,,,4,146,CONTINUOUS,True,PF22215,3.3e-56
+Q9C098,648,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,356,613,CONTINUOUS,True,PF00069,1.3e-76
+Q504Y2,493,reviewed,9606,True,PF12260,Protein-kinase domain of FAM69,pfam,family,IPR022049,,,211,369,CONTINUOUS,False,PF12260,0.0011
+Q96Q40,435,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,105,387,CONTINUOUS,False,PF00069,4e-62
+Q9BYT3,514,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,116,381,CONTINUOUS,False,PF00069,7.4e-73
+Q96S44,253,reviewed,9606,True,PF06293,Lipopolysaccharide kinase (Kdo/WaaP) family,pfam,family,,,,71,225,CONTINUOUS,False,PF06293,1.7e-09
+Q8TD08,544,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,15,304,CONTINUOUS,False,PF00069,2.9e-64
+Q5MAI5,379,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,286,CONTINUOUS,False,PF00069,5.5e-74
+Q8IZE3,742,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,44,239,CONTINUOUS,False,PF07714,0.026
+Q86UX6,486,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,94,345,CONTINUOUS,False,PF00069,1.4e-59
+Q8TD19,979,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,55,307,CONTINUOUS,False,PF00069,3.9e-58
+Q8TD19,979,reviewed,9606,True,PF00415,Regulator of chromosome condensation (RCC1) repeat,pfam,repeat,IPR000408,,,403,441,CONTINUOUS,False,PF00415,5.4e-06
+Q8TD19,979,reviewed,9606,True,PF13540,Regulator of chromosome condensation (RCC1) repeat,pfam,repeat,,,,652,680,CONTINUOUS,False,PF13540,0.0012
+Q96PN8,268,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,10,265,CONTINUOUS,False,PF00069,1.4e-63
+Q9H093,628,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,53,303,CONTINUOUS,False,PF00069,1.4e-74
+Q9Y6S9,549,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,383,539,CONTINUOUS,False,PF00069,2.9e-21
+Q9Y6S9,549,reviewed,9606,True,PF04212,MIT (microtubule interacting and transport) domain,pfam,domain,IPR007330,,,51,113,CONTINUOUS,False,PF04212,5.7e-12
+Q96PF2,358,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,15,272,CONTINUOUS,False,PF00069,1.6e-62
+Q6P3W7,929,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,42,327,CONTINUOUS,False,PF00069,2.2e-21
+Q86SG6,692,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,256,CONTINUOUS,False,PF00069,3.2e-62
+Q86SG6,692,reviewed,9606,True,PF00415,Regulator of chromosome condensation (RCC1) repeat,pfam,repeat,IPR000408,,,414,458,CONTINUOUS,False,PF00415,1.2e-07
+P35626,688,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,192,453,CONTINUOUS,False,PF00069,1e-69
+P35626,688,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,560,649,CONTINUOUS,False,PF00169,4.2e-06
+P35626,688,reviewed,9606,True,PF00615,Regulator of G protein signaling domain,pfam,domain,IPR016137,,,55,174,CONTINUOUS,False,PF00615,2.3e-19
+Q9UHY1,535,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,83,325,CONTINUOUS,False,PF00069,1.8e-20
+Q9BZL6,878,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,555,807,CONTINUOUS,False,PF00069,5.1e-67
+Q9BZL6,878,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,139,189,CONTINUOUS,False,PF00130,3.5e-11
+Q9BZL6,878,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,400,473,CONTINUOUS,False,PF00169,0.049
+Q9NY57,414,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,24,282,CONTINUOUS,False,PF00069,1.3e-60
+Q96RR4,588,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,165,446,CONTINUOUS,False,PF00069,3.4e-61
+Q8IZL9,346,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,6,288,CONTINUOUS,False,PF00069,3.3e-61
+Q9HAZ1,481,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,159,475,CONTINUOUS,False,PF00069,7.5e-50
+Q9NYV4,1490,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,729,1020,CONTINUOUS,False,PF00069,4.8e-68
+Q9UEE5,414,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,65,321,CONTINUOUS,False,PF00069,2.7e-69
+O94768,372,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,36,293,CONTINUOUS,False,PF00069,4.4e-66
+O43781,588,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,209,522,CONTINUOUS,False,PF00069,1.7e-55
+O94806,890,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,580,832,CONTINUOUS,False,PF00069,5.3e-67
+O94806,890,reviewed,9606,True,PF00130,Phorbol esters/diacylglycerol binding domain (C1 domain),pfam,domain,IPR002219,,,155,205,CONTINUOUS,False,PF00130,3.3e-12
+O94806,890,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,418,493,CONTINUOUS,False,PF00169,0.00014
+Q9P2K8,1649,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,330,539,CONTINUOUS,False,PF00069,2.2e-24
+Q9P2K8,1649,reviewed,9606,True,PF05773,RWD domain,pfam,domain,IPR006575,,,21,134,CONTINUOUS,True,PF05773,2.3e-21
+Q9P2K8,1649,reviewed,9606,True,PF12745,Anticodon binding domain of tRNAs,pfam,domain,IPR024435,,,1396,1643,CONTINUOUS,True,PF12745,1.4e-14
+Q9P2K8,1649,reviewed,9606,True,PF13393,Histidyl-tRNA synthetase,pfam,domain,IPR041715,,,1062,1381,CONTINUOUS,True,PF13393,2.8e-07
+Q8N2I9,435,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,81,326,CONTINUOUS,False,PF00069,2.3e-33
+Q8TDR2,534,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,202,522,CONTINUOUS,False,PF00069,3.6e-44
+Q59H18,835,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,463,719,CONTINUOUS,False,PF07714,1.6e-54
+Q59H18,835,reviewed,9606,True,PF12796,Ankyrin repeats (3 copies),pfam,repeat,IPR002110,,,58,128,CONTINUOUS,True,PF12796,0.00033
+Q59H18,835,reviewed,9606,True,PF13637,Ankyrin repeats (many copies),pfam,repeat,IPR002110,,,247,287,CONTINUOUS,False,PF13637,0.0029
+Q9H2X6,1198,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,199,527,CONTINUOUS,False,PF00069,4.2e-47
+Q9BQI3,630,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,168,239,CONTINUOUS,False,PF00069,1.9e-09
+Q9BQI3,630,reviewed,9606,True,PF22949,"Heme-regulated eIF-2-alpha kinase, helical domain",pfam,domain,IPR054521,,,63,141,CONTINUOUS,True,PF22949,2.1e-24
+Q9UPZ9,632,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,284,CONTINUOUS,True,PF00069,2.3e-74
+Q76MJ5,926,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,523,781,CONTINUOUS,False,PF00069,2.7e-34
+Q76MJ5,926,reviewed,9606,True,PF06479,Ribonuclease 2-5A,pfam,family,IPR010513,,,787,910,CONTINUOUS,False,PF06479,1.5e-36
+Q96RG2,1323,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,999,1251,CONTINUOUS,False,PF00069,1.4e-54
+Q96RG2,1323,reviewed,9606,True,PF13426,PAS domain,pfam,domain,IPR000014,,,133,223,CONTINUOUS,False,PF13426,6.5e-05
+Q9Y2H1,464,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,90,383,CONTINUOUS,False,PF00069,1.6e-58
+Q9Y2H1,464,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,402,443,CONTINUOUS,False,PF00433,0.00077
+Q9Y2K2,1321,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,66,317,CONTINUOUS,False,PF00069,1.8e-73
+P57058,714,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,66,320,CONTINUOUS,False,PF00069,1.5e-69
+O95382,1288,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,653,906,CONTINUOUS,False,PF00069,2.9e-58
+O95382,1288,reviewed,9606,True,PF13281,MAP3K TRAFs-binding domain,pfam,repeat,IPR025136,,,129,507,CONTINUOUS,True,PF13281,0.0
+O95382,1288,reviewed,9606,True,PF19039,ASK kinase PH domain,pfam,domain,IPR043969,,,524,618,CONTINUOUS,True,PF19039,7.5e-19
+O95382,1288,reviewed,9606,True,PF20302,HisK-N-like globin domain of the ASK signalosome,pfam,domain,IPR046873,,,993,1122,CONTINUOUS,True,PF20302,1.1e-32
+O95382,1288,reviewed,9606,True,PF20309,Deoxyribohydrolase (DRHyd) domain of the ASK signalosome,pfam,family,IPR046872,,,74,114,CONTINUOUS,False,PF20309,4.4e-06
+Q9UQ07,419,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,285,CONTINUOUS,True,PF00069,2.4e-61
+O75716,305,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,22,287,CONTINUOUS,False,PF00069,1.4e-41
+Q9UPE1,567,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,79,221,CONTINUOUS,False,PF00069,5.9e-18
+Q9H4A3,2382,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,226,479,CONTINUOUS,False,PF00069,2.9e-51
+Q9H4A3,2382,reviewed,9606,True,PF12202,Oxidative-stress-responsive kinase 1 C-terminal domain,pfam,domain,IPR024678,,,500,563,CONTINUOUS,True,PF12202,1.9e-22
+Q8IVW4,592,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,286,CONTINUOUS,False,PF00069,3.4e-70
+Q9P286,719,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,454,700,CONTINUOUS,False,PF00069,5.8e-65
+Q9P286,719,reviewed,9606,True,PF00786,P21-Rho-binding domain,pfam,domain,IPR000095,,,10,63,CONTINUOUS,True,PF00786,2.8e-15
+Q6P5Z2,889,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,562,817,CONTINUOUS,False,PF00069,1.2e-57
+Q6P5Z2,889,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,841,881,CONTINUOUS,False,PF00433,0.0036
+Q6P5Z2,889,reviewed,9606,True,PF02185,Hr1 repeat,pfam,family,IPR011072,,,21,77,CONTINUOUS,False,PF02185,1.9e-10
+Q9H0K1,926,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,20,271,CONTINUOUS,False,PF00069,6.4e-73
+Q96L34,752,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,59,310,CONTINUOUS,False,PF00069,2.1e-74
+Q96L34,752,reviewed,9606,True,PF00627,UBA/TS-N domain,pfam,domain,IPR015940,,,331,366,CONTINUOUS,False,PF00627,0.0071
+Q96L34,752,reviewed,9606,True,PF02149,Kinase associated domain 1,pfam,domain,IPR001772,,,712,752,CONTINUOUS,False,PF02149,7.4e-08
+Q6XUX3,929,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,655,898,CONTINUOUS,False,PF00069,2e-32
+Q96S38,1066,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,895,1056,CONTINUOUS,False,PF00069,3.8e-21
+Q96S38,1066,reviewed,9606,True,PF00787,PX domain,pfam,domain,IPR001683,,,43,126,CONTINUOUS,False,PF00787,5.5e-08
+Q96S38,1066,reviewed,9606,True,PF04212,MIT (microtubule interacting and transport) domain,pfam,domain,IPR007330,,,240,304,CONTINUOUS,False,PF04212,1.6e-12
+Q9UK32,745,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,73,330,CONTINUOUS,True,PF00069,3e-67
+Q9UK32,745,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,354,390,CONTINUOUS,False,PF00433,0.076
+Q9NSY0,501,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,86,305,CONTINUOUS,False,PF00069,4e-15
+Q8NE28,680,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,33,296,CONTINUOUS,False,PF00069,4.5e-30
+Q9HBY8,367,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,37,292,CONTINUOUS,False,PF00069,3.7e-66
+Q9HBY8,367,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,313,357,CONTINUOUS,False,PF00433,0.00019
+Q9BXA6,273,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,12,267,CONTINUOUS,False,PF00069,1.8e-56
+Q96BR1,496,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,164,419,CONTINUOUS,False,PF00069,1.5e-64
+Q96BR1,496,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,440,487,CONTINUOUS,False,PF00433,0.00031
+Q96BR1,496,reviewed,9606,True,PF00787,PX domain,pfam,domain,IPR001683,,,42,119,CONTINUOUS,False,PF00787,2.6e-15
+Q5TCY1,1321,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,35,272,CONTINUOUS,False,PF00069,5.4e-29
+Q8N568,766,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,394,651,CONTINUOUS,False,PF00069,5.8e-70
+Q8N568,766,reviewed,9606,True,PF03607,Doublecortin,pfam,family,IPR003533,,,91,152,CONTINUOUS,False,PF03607,4.1e-18
+Q7Z7A4,578,reviewed,9606,True,PF00787,PX domain,pfam,domain,IPR001683,,,45,121,CONTINUOUS,False,PF00787,1.4e-13
+Q7Z7A4,578,reviewed,9606,True,PF02205,WH2 motif,pfam,family,IPR003124,,,546,573,CONTINUOUS,False,PF02205,0.0044
+Q96KB5,322,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,35,316,CONTINUOUS,False,PF00069,1.1e-35
+Q6J9G0,422,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,116,378,CONTINUOUS,False,PF07714,5.7e-57
+Q9UHD2,729,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,13,229,CONTINUOUS,False,PF00069,8.5e-42
+Q9UHD2,729,reviewed,9606,True,PF18394,TANK-binding kinase 1 coiled-coil domain 1,pfam,coiled_coil,IPR041309,,,400,655,CONTINUOUS,False,PF18394,3.4e-119
+Q9UHD2,729,reviewed,9606,True,PF18396,TANK binding kinase 1 ubiquitin-like domain,pfam,domain,IPR041087,,,308,395,CONTINUOUS,True,PF18396,4.9e-34
+Q96S53,571,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,62,308,CONTINUOUS,False,PF07714,6.8e-46
+O60229,2986,reviewed,9606,False,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,2571,2659,CONTINUOUS,False,PF00041,2.3e-09
+O60229,2986,reviewed,9606,False,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,2684,2938,CONTINUOUS,True,PF00069,1.2e-56
+O60229,2986,reviewed,9606,False,PF00435,Spectrin repeat,pfam,domain,IPR002017,,,311,414,CONTINUOUS,False,PF00435,9.3e-06
+O60229,2986,reviewed,9606,False,PF00621,RhoGEF domain,pfam,domain,IPR000219,,,1285,1454,CONTINUOUS,False,PF00621,1.1e-33
+O60229,2986,reviewed,9606,False,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,2471,2565,CONTINUOUS,True,PF07679,1.2e-14
+O60229,2986,reviewed,9606,False,PF13716,Divergent CRAL/TRIO domain,pfam,domain,IPR001251,,,54,181,CONTINUOUS,False,PF13716,5.1e-05
+O60229,2986,reviewed,9606,False,PF16609,SH3-RhoGEF linking unstructured region,pfam,disordered,,,,1706,1891,CONTINUOUS,False,PF16609,1e-29
+O60229,2986,reviewed,9606,False,PF22697,SOS1/NGEF-like PH domain,pfam,domain,,,,1469,1578,CONTINUOUS,False,PF22697,4.4e-27
+Q6SA08,328,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,25,293,CONTINUOUS,False,PF00069,9.8e-61
+Q8IV63,474,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,251,403,CONTINUOUS,False,PF00069,2.2e-06
+Q8IV63,474,reviewed,9606,True,PF13240,zinc-ribbon domain,pfam,domain,IPR026870,,,4,26,CONTINUOUS,True,PF13240,0.017
+Q32MK0,819,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,518,770,CONTINUOUS,False,PF00069,2.5e-70
+Q15772,3267,reviewed,9606,False,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,1601,1854,CONTINUOUS,False,PF00069,1.6e-49
+Q15772,3267,reviewed,9606,False,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,43,125,CONTINUOUS,True,PF07679,1.4e-09
+Q15772,3267,reviewed,9606,False,PF16650,Unstructured region on SPEG complex protein,pfam,disordered,,,,812,868,CONTINUOUS,False,PF16650,5.7e-28
+Q8N752,337,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,17,236,CONTINUOUS,False,PF00069,1.5e-23
+P57078,832,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,26,277,CONTINUOUS,False,PF00069,9.2e-41
+P57078,832,reviewed,9606,True,PF12796,Ankyrin repeats (3 copies),pfam,repeat,IPR002110,,,534,613,CONTINUOUS,False,PF12796,2.5e-14
+P57078,832,reviewed,9606,True,PF13637,Ankyrin repeats (many copies),pfam,repeat,IPR002110,,,490,528,CONTINUOUS,False,PF13637,0.00099
+Q6P3R8,708,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,4,259,CONTINUOUS,False,PF00069,2e-65
+Q8IU85,385,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,23,279,CONTINUOUS,False,PF00069,1e-79
+Q56UN5,1328,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,1062,1324,CONTINUOUS,False,PF00069,4.9e-63
+Q8NG66,645,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,29,287,CONTINUOUS,False,PF00069,2.5e-59
+Q8WTQ7,553,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,192,443,CONTINUOUS,False,PF00069,1.1e-57
+Q8WTQ7,553,reviewed,9606,True,PF00615,Regulator of G protein signaling domain,pfam,domain,IPR016137,,,55,175,CONTINUOUS,False,PF00615,9.3e-11
+P0C263,348,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,62,324,CONTINUOUS,False,PF00069,2.1e-32
+Q8NE63,616,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,11,347,CONTINUOUS,True,PF00069,1e-45
+Q8WXR4,1341,reviewed,9606,True,PF00063,Myosin head (motor domain),pfam,domain,IPR001609,,,346,1046,CONTINUOUS,False,PF00063,0.0
+Q8WXR4,1341,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,28,293,CONTINUOUS,False,PF00069,5.2e-55
+Q8WXR4,1341,reviewed,9606,True,PF00612,IQ calmodulin-binding motif,pfam,conserved_site,IPR000048,,,1089,1108,CONTINUOUS,False,PF00612,0.13
+Q96J92,1243,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,179,432,CONTINUOUS,False,PF00069,7.2e-50
+Q96J92,1243,reviewed,9606,True,PF12202,Oxidative-stress-responsive kinase 1 C-terminal domain,pfam,domain,IPR024678,,,453,515,CONTINUOUS,True,PF12202,1.3e-19
+P0C264,359,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,43,295,CONTINUOUS,False,PF00069,6.5e-25
+Q8TDC3,778,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,34,284,CONTINUOUS,False,PF00069,9.4e-72
+Q8TDC3,778,reviewed,9606,True,PF21115,BRSK1/2 UBA domain,pfam,domain,IPR048622,,,316,358,CONTINUOUS,False,PF21115,1.1e-21
+Q8TDC3,778,reviewed,9606,True,PF21122,BRSK1/2 KA1 domain,pfam,domain,,,,597,715,CONTINUOUS,True,PF21122,1e-42
+Q5VST9,7968,reviewed,9606,False,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,4524,4607,CONTINUOUS,False,PF00041,3.5e-07
+Q5VST9,7968,reviewed,9606,False,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,6468,6721,CONTINUOUS,False,PF00069,9.2e-61
+Q5VST9,7968,reviewed,9606,False,PF00612,IQ calmodulin-binding motif,pfam,conserved_site,IPR000048,,,4874,4893,CONTINUOUS,False,PF00612,1.2
+Q5VST9,7968,reviewed,9606,False,PF00621,RhoGEF domain,pfam,domain,IPR000219,,,5697,5871,CONTINUOUS,False,PF00621,1.4e-15
+Q5VST9,7968,reviewed,9606,False,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,10,99,CONTINUOUS,False,PF07679,3.2e-20
+Q5VST9,7968,reviewed,9606,False,PF22697,SOS1/NGEF-like PH domain,pfam,domain,,,,5890,6000,CONTINUOUS,False,PF22697,1.3e-22
+Q96QS6,385,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,63,320,CONTINUOUS,True,PF00069,1.5e-67
+P57059,783,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,27,278,CONTINUOUS,False,PF00069,2.2e-73
+Q6VAB6,950,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,666,928,CONTINUOUS,False,PF07714,8.8e-41
+Q6VAB6,950,reviewed,9606,True,PF13543,SAM like domain present in kinase suppressor RAS 1,pfam,domain,IPR025561,,,90,152,CONTINUOUS,True,PF13543,0.076
+Q6VAB6,950,reviewed,9606,True,PF20406,Kinase suppressor RAS 1 N-terminal helical hairpin,pfam,domain,IPR046861,,,24,76,CONTINUOUS,True,PF20406,8.7e-19
+O14730,519,reviewed,9606,True,PF01163,RIO1 family,pfam,family,,,,265,460,CONTINUOUS,False,PF01163,1.2e-67
+Q8NI60,647,reviewed,9606,True,PF03109,ABC1 atypical kinase-like domain,pfam,domain,IPR004147,,,300,538,CONTINUOUS,False,PF03109,7.9e-66
+Q9BRS2,568,reviewed,9606,True,PF01163,RIO1 family,pfam,family,,,,193,380,CONTINUOUS,False,PF01163,7e-73
+Q8WU08,396,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,23,279,CONTINUOUS,False,PF00069,4.8e-63
+Q9NRH2,765,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,16,269,CONTINUOUS,False,PF00069,1.1e-73
+Q5JZY3,1008,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,339,431,CONTINUOUS,False,PF00041,0.0098
+Q5JZY3,1008,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,934,994,CONTINUOUS,False,PF00536,2.4e-11
+Q5JZY3,1008,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,37,211,CONTINUOUS,False,PF01404,1.1e-62
+Q5JZY3,1008,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,646,900,CONTINUOUS,False,PF07714,7.8e-74
+Q5JZY3,1008,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,570,642,CONTINUOUS,True,PF14575,1.3e-11
+Q9H5K3,350,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,83,195,CONTINUOUS,False,PF07714,3.4e-06
+Q8NEV4,1616,reviewed,9606,True,PF00063,Myosin head (motor domain),pfam,domain,IPR001609,,,340,1041,CONTINUOUS,False,PF00063,0.0
+Q8NEV4,1616,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,22,287,CONTINUOUS,False,PF00069,1.5e-57
+Q8NEV4,1616,reviewed,9606,True,PF00612,IQ calmodulin-binding motif,pfam,conserved_site,IPR000048,,,1084,1101,CONTINUOUS,False,PF00612,0.71
+Q9BYP7,1800,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,152,405,CONTINUOUS,False,PF00069,3.4e-53
+Q9BYP7,1800,reviewed,9606,True,PF12202,Oxidative-stress-responsive kinase 1 C-terminal domain,pfam,domain,IPR024678,,,426,489,CONTINUOUS,True,PF12202,7.6e-24
+Q6ZWH5,1172,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,519,779,CONTINUOUS,False,PF00069,2.2e-56
+Q9UF33,1036,reviewed,9606,True,PF00041,Fibronectin type III domain,pfam,domain,IPR003961,,,333,427,CONTINUOUS,False,PF00041,4.8e-05
+Q9UF33,1036,reviewed,9606,True,PF00536,SAM domain (Sterile alpha motif),pfam,domain,IPR001660,,,965,1023,CONTINUOUS,False,PF00536,3.9e-16
+Q9UF33,1036,reviewed,9606,True,PF01404,Ephrin receptor ligand binding domain,pfam,domain,IPR001090,,,35,207,CONTINUOUS,False,PF01404,4.1e-67
+Q9UF33,1036,reviewed,9606,True,PF07699,Tyrosine-protein kinase ephrin type A/B receptor-like,pfam,domain,IPR011641,,,272,312,CONTINUOUS,False,PF07699,0.063
+Q9UF33,1036,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,631,712,CONTINUOUS,False,PF07714,2.2e-14
+Q9UF33,1036,reviewed,9606,True,PF14575,Ephrin type-A receptor 2 transmembrane domain,pfam,domain,IPR027936,,,551,628,CONTINUOUS,True,PF14575,6.1e-20
+Q9HCP0,422,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,45,262,CONTINUOUS,False,PF00069,1.1e-22
+Q9HCP0,422,reviewed,9606,True,PF12605,Casein kinase 1 gamma C terminal,pfam,family,IPR022247,,,331,362,CONTINUOUS,False,PF12605,0.31
+Q9H792,1746,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,1477,1659,CONTINUOUS,False,PF00069,3.3e-08
+Q52WX2,424,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,53,310,CONTINUOUS,False,PF00069,8.2e-47
+Q9BXU1,1019,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,800,940,CONTINUOUS,False,PF00069,3e-13
+Q9BXU1,1019,reviewed,9606,True,PF00567,Tudor domain,pfam,domain,IPR002999,,,29,147,CONTINUOUS,True,PF00567,1.1e-21
+Q8NFD2,765,reviewed,9606,True,PF00023,Ankyrin repeat,pfam,repeat,IPR002110,,,494,523,CONTINUOUS,False,PF00023,0.0029
+Q8NFD2,765,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,28,281,CONTINUOUS,False,PF07714,1.7e-41
+Q8NFD2,765,reviewed,9606,True,PF12796,Ankyrin repeats (3 copies),pfam,repeat,IPR002110,,,407,489,CONTINUOUS,False,PF12796,2e-15
+Q8NFD2,765,reviewed,9606,True,PF13637,Ankyrin repeats (many copies),pfam,repeat,IPR002110,,,366,404,CONTINUOUS,False,PF13637,0.022
+Q8TAS1,419,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,24,304,CONTINUOUS,False,PF00069,1.1e-35
+Q8TAS1,419,reviewed,9606,True,PF00076,RNA recognition motif,pfam,domain,IPR000504,,,345,398,CONTINUOUS,False,PF00076,0.0027
+Q6P2M8,343,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,15,270,CONTINUOUS,False,PF00069,6.6e-74
+Q8TEA7,893,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,42,273,CONTINUOUS,False,PF00069,8.9e-35
+Q8TEA7,893,reviewed,9606,True,PF00566,Rab-GTPase-TBC domain,pfam,family,IPR000195,,,471,671,CONTINUOUS,False,PF00566,6.4e-40
+Q8TEA7,893,reviewed,9606,True,PF00581,Rhodanese-like domain,pfam,domain,IPR001763,,,789,881,CONTINUOUS,False,PF00581,1e-08
+Q96Q15,3661,reviewed,9606,False,PF00454,Phosphatidylinositol 3- and 4-kinase,pfam,family,IPR000403,,,2150,2426,CONTINUOUS,False,PF00454,8.3e-53
+Q96Q15,3661,reviewed,9606,False,PF02260,FATC domain,pfam,family,IPR003152,,,3631,3660,CONTINUOUS,False,PF02260,8.1e-09
+Q96Q15,3661,reviewed,9606,False,PF15785,Serine/threonine-protein kinase smg-1,pfam,family,IPR031559,,,631,1241,CONTINUOUS,False,PF15785,0.0
+Q96Q15,3661,reviewed,9606,False,PF17229,Serine/threonine-protein kinase SMG1 N-terminal,pfam,disordered,IPR035175,,,32,140,CONTINUOUS,False,PF17229,1.1e-41
+Q9H1R3,596,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,287,540,CONTINUOUS,False,PF00069,2.9e-67
+Q6ZN16,1313,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,657,907,CONTINUOUS,False,PF00069,1.2e-61
+Q6ZN16,1313,reviewed,9606,True,PF13281,MAP3K TRAFs-binding domain,pfam,repeat,IPR025136,,,136,514,CONTINUOUS,True,PF13281,0.0
+Q6ZN16,1313,reviewed,9606,True,PF19039,ASK kinase PH domain,pfam,domain,IPR043969,,,527,624,CONTINUOUS,True,PF19039,2.6e-38
+Q6ZN16,1313,reviewed,9606,True,PF20302,HisK-N-like globin domain of the ASK signalosome,pfam,domain,IPR046873,,,1003,1134,CONTINUOUS,True,PF20302,1.6e-47
+Q6ZN16,1313,reviewed,9606,True,PF20309,Deoxyribohydrolase (DRHyd) domain of the ASK signalosome,pfam,family,IPR046872,,,86,121,CONTINUOUS,False,PF20309,1.3e-11
+Q5S007,2527,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,1885,2129,CONTINUOUS,False,PF00069,8.7e-37
+Q5S007,2527,reviewed,9606,True,PF08477,"Ras of Complex, Roc, domain of DAPkinase",pfam,domain,,,,1336,1455,CONTINUOUS,False,PF08477,9.8e-24
+Q5S007,2527,reviewed,9606,True,PF13855,Leucine rich repeat,pfam,repeat,IPR001611,,,1012,1070,CONTINUOUS,True,PF13855,0.00056
+Q5S007,2527,reviewed,9606,True,PF16095,"C-terminal of Roc, COR, domain",pfam,family,IPR032171,,,1546,1740,CONTINUOUS,False,PF16095,1.5e-20
+Q8TF76,798,reviewed,9606,True,PF12330,Haspin like kinase domain,pfam,family,,,,413,781,CONTINUOUS,False,PF12330,2.6e-88
+Q96RU7,358,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,82,315,CONTINUOUS,False,PF00069,8.1e-23
+O14578,2027,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,98,360,CONTINUOUS,False,PF00069,1.3e-56
+O14578,2027,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,1445,1562,CONTINUOUS,False,PF00169,7.3e-06
+O14578,2027,reviewed,9606,True,PF00433,Protein kinase C terminal domain,pfam,family,IPR017892,,,379,421,CONTINUOUS,False,PF00433,0.18
+O14578,2027,reviewed,9606,True,PF00780,CNH domain,pfam,repeat,IPR001180,,,1602,1855,CONTINUOUS,False,PF00780,3.2e-59
+Q8N5S9,505,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,128,409,CONTINUOUS,False,PF00069,1.1e-58
+Q38SD2,2015,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,1245,1518,CONTINUOUS,False,PF00069,1.2e-34
+Q38SD2,2015,reviewed,9606,True,PF00560,Leucine Rich Repeat,pfam,repeat,IPR001611,,,381,399,CONTINUOUS,False,PF00560,5000.0
+Q38SD2,2015,reviewed,9606,True,PF08477,"Ras of Complex, Roc, domain of DAPkinase",pfam,domain,,,,640,760,CONTINUOUS,False,PF08477,2.6e-12
+Q38SD2,2015,reviewed,9606,True,PF16095,"C-terminal of Roc, COR, domain",pfam,family,IPR032171,,,844,1036,CONTINUOUS,False,PF16095,1.4e-20
+Q8IWB6,1497,reviewed,9606,True,PF07714,Protein tyrosine and serine/threonine kinase,pfam,domain,IPR001245,,,289,500,CONTINUOUS,False,PF07714,9.1e-22
+Q8IWB6,1497,reviewed,9606,True,PF12796,Ankyrin repeats (3 copies),pfam,repeat,IPR002110,,,27,116,CONTINUOUS,False,PF12796,6.8e-07
+O15021,2623,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,571,843,CONTINUOUS,False,PF00069,7.9e-57
+O15021,2623,reviewed,9606,True,PF08926,Domain of unknown function (DUF1908),pfam,domain,IPR015022,,,258,531,CONTINUOUS,True,PF08926,0.0
+O15021,2623,reviewed,9606,True,PF17820,PDZ domain,pfam,domain,IPR041489,,,1176,1215,CONTINUOUS,False,PF17820,6.7e-07
+Q13557,499,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,14,272,CONTINUOUS,False,PF00069,1.7e-73
+Q13557,499,reviewed,9606,True,PF08332,Calcium/calmodulin dependent protein kinase II association domain,pfam,domain,IPR013543,,,346,473,CONTINUOUS,True,PF08332,1.4e-56
+Q9NSY1,1161,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,53,311,CONTINUOUS,False,PF00069,9.9e-39
+Q9NSY1,1161,reviewed,9606,True,PF15282,BMP-2-inducible protein kinase C-terminus,pfam,family,IPR028182,,,893,1161,CONTINUOUS,False,PF15282,1.8e-122
+Q9BXA7,367,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,17,272,CONTINUOUS,False,PF00069,1.2e-61
+Q86YV6,388,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,108,361,CONTINUOUS,False,PF00069,3e-71
+Q7Z695,626,reviewed,9606,True,PF03109,ABC1 atypical kinase-like domain,pfam,domain,IPR004147,,,169,218,CONTINUOUS,False,PF03109,0.12
+O43293,454,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,13,275,CONTINUOUS,False,PF00069,3.1e-74
+P0C1S8,567,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,214,482,CONTINUOUS,False,PF00069,1.1e-44
+Q05823,741,reviewed,9606,True,PF00069,Protein kinase domain,pfam,domain,IPR000719,,,385,513,CONTINUOUS,False,PF00069,5e-10
+Q05823,741,reviewed,9606,True,PF06479,Ribonuclease 2-5A,pfam,family,IPR010513,,,592,719,CONTINUOUS,False,PF06479,8.8e-24
+Q05823,741,reviewed,9606,True,PF12796,Ankyrin repeats (3 copies),pfam,repeat,IPR002110,,,27,87,CONTINUOUS,False,PF12796,2e-07
+Q05823,741,reviewed,9606,True,PF13857,Ankyrin repeats (many copies),pfam,repeat,IPR002110,,,159,209,CONTINUOUS,True,PF13857,4.5e-05
+Q9BX84,2022,reviewed,9606,True,PF00520,Ion transport protein,pfam,family,IPR005821,,,845,1076,CONTINUOUS,False,PF00520,4.4e-05
+Q9BX84,2022,reviewed,9606,True,PF02816,Alpha-kinase family,pfam,family,IPR004166,,,1776,1972,CONTINUOUS,False,PF02816,1.7e-41
+Q9BX84,2022,reviewed,9606,True,PF16519,Tetramerisation domain of TRPM,pfam,domain,IPR032415,,,1170,1225,CONTINUOUS,True,PF16519,1.7e-20
+Q9BX84,2022,reviewed,9606,True,PF18139,SLOG in TRPM,pfam,family,IPR041491,,,109,372,CONTINUOUS,False,PF18139,3.6e-114
+Q9BVS4,552,reviewed,9606,True,PF01163,RIO1 family,pfam,family,,,,108,279,CONTINUOUS,False,PF01163,2.9e-55
+Q9BVS4,552,reviewed,9606,True,PF09202,"Rio2, N-terminal",pfam,domain,IPR015285,,,9,91,CONTINUOUS,True,PF09202,1.9e-27
+Q86TB3,2170,reviewed,9606,True,PF02816,Alpha-kinase family,pfam,family,IPR004166,,,1926,2125,CONTINUOUS,False,PF02816,2.3e-39
+Q86TB3,2170,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,16,104,CONTINUOUS,False,PF07679,5.1e-10
+Q96QP1,1244,reviewed,9606,True,PF02816,Alpha-kinase family,pfam,family,IPR004166,,,1043,1229,CONTINUOUS,False,PF02816,6.6e-41
+P25440,801,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,86,167,CONTINUOUS,False,PF00439,6.3e-17
+P25440,801,reviewed,9606,True,PF17035,Bromodomain extra-terminal - transcription regulation,pfam,domain,IPR027353,,,641,703,CONTINUOUS,False,PF17035,3.3e-23
+Q15059,726,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,46,127,CONTINUOUS,False,PF00439,2.4e-17
+Q15059,726,reviewed,9606,True,PF17035,Bromodomain extra-terminal - transcription regulation,pfam,domain,IPR027353,,,571,635,CONTINUOUS,False,PF17035,1.1e-23
+O60885,1362,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,70,151,CONTINUOUS,False,PF00439,2.7e-18
+O60885,1362,reviewed,9606,True,PF17035,Bromodomain extra-terminal - transcription regulation,pfam,domain,IPR027353,,,609,672,CONTINUOUS,False,PF17035,7.3e-24
+O60885,1362,reviewed,9606,True,PF17105,C-terminal domain of bromodomain protein 4,pfam,family,IPR031354,,,1319,1362,CONTINUOUS,False,PF17105,6.3e-20
+Q58F21,947,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,39,120,CONTINUOUS,False,PF00439,1.2e-19
+Q58F21,947,reviewed,9606,True,PF17035,Bromodomain extra-terminal - transcription regulation,pfam,domain,IPR027353,,,509,572,CONTINUOUS,False,PF17035,3.7e-22
+Q58F21,947,reviewed,9606,True,PF17105,C-terminal domain of bromodomain protein 4,pfam,family,IPR031354,,,905,947,CONTINUOUS,False,PF17105,1.5e-19
+Q96L96,1705,reviewed,9606,True,PF02816,Alpha-kinase family,pfam,family,IPR004166,,,1420,1617,CONTINUOUS,False,PF02816,4.6e-29
+Q96L96,1705,reviewed,9606,True,PF07679,Immunoglobulin I-set domain,pfam,domain,IPR013098,,,78,169,CONTINUOUS,True,PF07679,3.9e-14
+Q3MIX3,580,reviewed,9606,True,PF03109,ABC1 atypical kinase-like domain,pfam,domain,IPR004147,,,170,414,CONTINUOUS,True,PF03109,2.3e-76
+O15164,1050,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,908,988,CONTINUOUS,False,PF00439,3.6e-17
+O15164,1050,reviewed,9606,True,PF00628,PHD-finger,pfam,domain,IPR019787,,,829,870,CONTINUOUS,False,PF00628,3e-05
+O15164,1050,reviewed,9606,True,PF00643,B-box zinc finger,pfam,domain,IPR000315,,,221,257,CONTINUOUS,False,PF00643,3.6e-06
+Q13263,835,reviewed,9606,True,PF00628,PHD-finger,pfam,domain,IPR019787,,,628,669,CONTINUOUS,False,PF00628,0.00086
+Q13263,835,reviewed,9606,True,PF00643,B-box zinc finger,pfam,domain,IPR000315,,,150,194,CONTINUOUS,False,PF00643,0.0078
+Q13263,835,reviewed,9606,True,PF14634,zinc-RING finger domain,pfam,domain,IPR001841,,,64,122,CONTINUOUS,False,PF14634,0.0016
+Q9UPN9,1127,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,966,1050,CONTINUOUS,False,PF00439,1.6e-17
+Q9UPN9,1127,reviewed,9606,True,PF00628,PHD-finger,pfam,domain,IPR019787,,,890,931,CONTINUOUS,False,PF00628,0.0002
+Q9UPN9,1127,reviewed,9606,True,PF00643,B-box zinc finger,pfam,domain,IPR000315,,,274,310,CONTINUOUS,False,PF00643,3.6e-06
+Q58A45,887,reviewed,9606,True,PF18101,Pan3 Pseudokinase domain,pfam,domain,IPR041332,,,742,879,CONTINUOUS,True,PF18101,1.7e-58
+Q14296,549,reviewed,9606,True,PF06743,"FAST kinase-like protein, subdomain 1",pfam,family,IPR010622,,,278,343,CONTINUOUS,False,PF06743,1.7e-10
+Q14296,549,reviewed,9606,True,PF08368,"FAST kinase-like protein, subdomain 2",pfam,family,IPR013579,,,355,444,CONTINUOUS,False,PF08368,2.6e-13
+Q14296,549,reviewed,9606,True,PF08373,RAP domain,pfam,domain,IPR013584,,,483,536,CONTINUOUS,False,PF08373,1.6e-06
+P49842,254,reviewed,9606,True,PF10494,Serine-threonine protein kinase 19,pfam,family,IPR018865,,,53,251,CONTINUOUS,False,PF10494,1.3e-24
+P21675,1893,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,1411,1491,CONTINUOUS,False,PF00439,4.4e-15
+P21675,1893,reviewed,9606,True,PF09247,TATA box-binding protein binding,pfam,domain,IPR009067,,,26,86,CONTINUOUS,True,PF09247,1.4e-16
+P21675,1893,reviewed,9606,True,PF12157,Protein of unknown function (DUF3591),pfam,family,IPR022591,,,586,1048,CONTINUOUS,False,PF12157,0.0
+P21675,1893,reviewed,9606,True,PF15288,Zinc knuckle,pfam,domain,IPR041670,,,1282,1323,CONTINUOUS,True,PF15288,1.9e-13
+Q8IZX4,1826,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,1409,1489,CONTINUOUS,False,PF00439,7.6e-14
+Q8IZX4,1826,reviewed,9606,True,PF09247,TATA box-binding protein binding,pfam,domain,IPR009067,,,23,85,CONTINUOUS,True,PF09247,3.4e-15
+Q8IZX4,1826,reviewed,9606,True,PF12157,Protein of unknown function (DUF3591),pfam,family,IPR022591,,,584,1046,CONTINUOUS,False,PF12157,0.0
+Q8IZX4,1826,reviewed,9606,True,PF15288,Zinc knuckle,pfam,domain,IPR041670,,,1280,1321,CONTINUOUS,True,PF15288,1.2e-13
+P11274,1271,reviewed,9606,True,PF00168,C2 domain,pfam,domain,IPR000008,,,913,1007,CONTINUOUS,False,PF00168,0.00021
+P11274,1271,reviewed,9606,True,PF00620,RhoGAP domain,pfam,domain,IPR000198,,,1068,1215,CONTINUOUS,False,PF00620,3.1e-44
+P11274,1271,reviewed,9606,True,PF00621,RhoGEF domain,pfam,domain,IPR000219,,,503,689,CONTINUOUS,False,PF00621,4.6e-35
+P11274,1271,reviewed,9606,True,PF09036,Bcr-Abl oncoprotein oligomerisation domain,pfam,domain,IPR015123,,,3,75,CONTINUOUS,True,PF09036,3.6e-36
+P11274,1271,reviewed,9606,True,PF19057,PH domain,pfam,domain,,,,703,781,CONTINUOUS,False,PF19057,0.00025
+Q12979,859,reviewed,9606,True,PF00168,C2 domain,pfam,domain,IPR000008,,,506,605,CONTINUOUS,False,PF00168,0.00013
+Q12979,859,reviewed,9606,True,PF00620,RhoGAP domain,pfam,domain,IPR000198,,,661,808,CONTINUOUS,False,PF00620,1.2e-43
+Q12979,859,reviewed,9606,True,PF00621,RhoGEF domain,pfam,domain,IPR000219,,,98,282,CONTINUOUS,False,PF00621,1.9e-32
+Q12979,859,reviewed,9606,True,PF19057,PH domain,pfam,domain,,,,299,394,CONTINUOUS,False,PF19057,0.0056
+Q9Y5P4,624,reviewed,9606,True,PF00169,PH domain,pfam,domain,IPR001849,,,24,115,CONTINUOUS,False,PF00169,3.9e-13
+Q9Y5P4,624,reviewed,9606,True,PF01852,START domain,pfam,domain,IPR002913,,,415,618,CONTINUOUS,False,PF01852,2.2e-24
+P53004,296,reviewed,9606,True,PF01408,"Oxidoreductase family, NAD-binding Rossmann fold",pfam,family,IPR000683,,,9,125,CONTINUOUS,False,PF01408,1.2e-19
+P53004,296,reviewed,9606,True,PF09166,"Biliverdin reductase, catalytic",pfam,domain,IPR015249,,,133,243,CONTINUOUS,True,PF09166,1.2e-44
+Q9NRL2,1556,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,1439,1519,CONTINUOUS,False,PF00439,1.9e-16
+Q9NRL2,1556,reviewed,9606,True,PF00628,PHD-finger,pfam,domain,IPR019787,,,1151,1195,CONTINUOUS,False,PF00628,7.5e-09
+Q9NRL2,1556,reviewed,9606,True,PF02791,DDT domain,pfam,family,IPR018501,,,424,483,CONTINUOUS,False,PF02791,3.1e-08
+Q9NRL2,1556,reviewed,9606,True,PF10537,ATP-utilising chromatin assembly and remodelling N-terminal,pfam,domain,IPR013136,,,23,122,CONTINUOUS,False,PF10537,1.4e-29
+Q9NRL2,1556,reviewed,9606,True,PF15612,"WSTF, HB1, Itc1p, MBD9 motif 1",pfam,conserved_site,IPR028942,,,590,635,CONTINUOUS,False,PF15612,6.2e-09
+Q9NRL2,1556,reviewed,9606,True,PF15613,"Williams-Beuren syndrome DDT (WSD), D-TOX E motif",pfam,family,IPR028941,,,802,926,CONTINUOUS,False,PF15613,2.2e-21
+Q9UIG0,1483,reviewed,9606,True,PF00439,Bromodomain,pfam,domain,IPR001487,,,1348,1427,CONTINUOUS,False,PF00439,3.4e-18
+Q9UIG0,1483,reviewed,9606,True,PF00628,PHD-finger,pfam,domain,IPR019787,,,1187,1231,CONTINUOUS,False,PF00628,9.3e-09
+Q9UIG0,1483,reviewed,9606,True,PF10537,ATP-utilising chromatin assembly and remodelling N-terminal,pfam,domain,IPR013136,,,22,119,CONTINUOUS,False,PF10537,1.7e-21
+Q9UIG0,1483,reviewed,9606,True,PF15612,"WSTF, HB1, Itc1p, MBD9 motif 1",pfam,conserved_site,IPR028942,,,727,762,CONTINUOUS,False,PF15612,0.0034
+Q9UIG0,1483,reviewed,9606,True,PF15613,"Williams-Beuren syndrome DDT (WSD), D-TOX E motif",pfam,family,IPR028941,,,898,1025,CONTINUOUS,False,PF15613,9.9e-17
diff --git a/data/kinhub_uniprot.csv b/data/kinhub_uniprot.csv
new file mode 100644
index 0000000..6b15f1a
--- /dev/null
+++ b/data/kinhub_uniprot.csv
@@ -0,0 +1,518 @@
+uniprot_id,hgnc_name,canonical_sequence
+P00519,ABL1,MLEICLKLVGCKSKKGLSSSSSCYLEEALQRPVASDFEPQGLSEAARWNSKENLLAGPSENDPNLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVNSLEKHSWYHGPVSRNAAEYLLSSGINGSFLVRESESSPGQRSISLRYEGRVYHYRINTASDGKLYVSSESRFNTLAELVHHHSTVADGLITTLHYPAPKRNKPTVYGVSPNYDKWEMERTDITMKHKLGGGQYGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSISDEVEKELGKQGVRGAVSTLLQAPELPTKTRTSRRAAEHRDTTDVPEMPHSKGQGESDPLDHEPAVSPLLPRKERGPPEGGLNEDERLLPKDKKTNLFSALIKKKKKTAPTPPKRSSSFREMDGQPERRGAGEEEGRDISNGALAFTPLDTADPAKSPKPSNGAGVPNGALRESGGSGFRSPHLWKKSSTLTSSRLATGEEEGGGSSSKRFLRSCSASCVPHGAKDTEWRSVTLPRDLQSTGRQFDSSTFGGHKSEKPALPRKRAGENRSDQVTRGTVTPPPRLVKKNEEAADEVFKDIMESSPGSSPPNLTPKPLRRQVTVAPASGLPHKEEAGKGSALGTPAAAEPVTPTSKAGSGAPGGTSKGPAEESRVRRHKHSSESPGRDKGKLSRLKPAPPPPPAASAGKAGGKPSQSPSQEAAGEAVLGAKTKATSLVDAVNSDAAKPSQPGEGLKKPVLPATPKPQSAKPSGTPISPAPVPSTLPSASSALAGDQPSSTAFIPLISTRVSLRKTRQPPERIASGAITKGVVLDSTEALCLAISRNSEQMASHSAVLEAGKNLYTFCVSYVDSIQQMRNKFAFREAINKLENNLRELQICPATAGSGPAATQDFSKLLSSVKEISDIVQR
+Q07912,TNK2,MQPEEGTGWLLELLSEVQLQQYFLRLRDDLNVTRLSHFEYVKNEDLEKIGMGRPGQRRLWEAVKRRKALCKRKSWMSKVFSGKRLEAEFPPHHSQSTFRKTSPAPGGPAGEGPLQSLTCLIGEKDLRLLEKLGDGSFGVVRRGEWDAPSGKTVSVAVKCLKPDVLSQPEAMDDFIREVNAMHSLDHRNLIRLYGVVLTPPMKMVTELAPLGSLLDRLRKHQGHFLLGTLSRYAVQVAEGMGYLESKRFIHRDLAARNLLLATRDLVKIGDFGLMRALPQNDDHYVMQEHRKVPFAWCAPESLKTRTFSHASDTWMFGVTLWEMFTYGQEPWIGLNGSQILHKIDKEGERLPRPEDCPQDIYNVMVQCWAHKPEDRPTFVALRDFLLEAQPTDMRALQDFEEPDKLHIQMNDVITVIEGRAENYWWRGQNTRTLCVGPFPRNVVTSVAGLSAQDISQPLQNSFIHTGHGDSDPRHCWGFPDRIDELYLGNPMDPPDLLSVELSTSRPPQHLGGVKKPTYDPVSEDQDPLSSDFKRLGLRKPGLPRGLWLAKPSARVPGTKASRGSGAEVTLIDFGEEPVVPALRPCAPSLAQLAMDACSLLDETPPQSPTRALPRPLHPTPVVDWDARPLPPPPAYDDVAQDEDDFEICSINSTLVGAGVPAGPSQGQTNYAFVPEQARPPPPLEDNLFLPPQGGGKPPSSAQTAEIFQALQQECMRQLQAPAGSPAPSPSPGGDDKPQVPPRVPIPPRPTRPHVQLSPAPPGEEETSQWPGPASPPRVPPREPLSPQGSRTPSPLVPPGSSPLPPRLSSSPGKTMPTTQSFASDPKYATPQVIQAPGPRAGPCILPIVRDGKKVSSTHYYLLPERPSYLERYQRFLREAQSPEEPTPLPVPLLLPPPSTPAPAAPTATVRPMPQAALDPKANFSTNNSNPGARPPPPRATARLPQRGCPGDGPEAGRPADKIQMAMVHGVTTEECQAALQCHGWSVQRAAQYLKVEQLFGLGLRPRGECHKVLEMFDWNLEQAGCHLLGSWGPAHHKR
+P27037,ACVR2A,MGAAAKLAFAVFLISCSSGAILGRSETQECLFFNANWEKDRTNQTGVEPCYGDKDKRRHCFATWKNISGSIEIVKQGCWLDDINCYDRTDCVEKKDSPEVYFCCCEGNMCNEKFSYFPEMEVTQPTSNPVTPKPPYYNILLYSLVPLMLIAGIVICAFWVYRHHKMAYPPVLVPTQDPGPPPPSPLLGLKPLQLLEVKARGRFGCVWKAQLLNEYVAVKIFPIQDKQSWQNEYEVYSLPGMKHENILQFIGAEKRGTSVDVDLWLITAFHEKGSLSDFLKANVVSWNELCHIAETMARGLAYLHEDIPGLKDGHKPAISHRDIKSKNVLLKNNLTACIADFGLALKFEAGKSAGDTHGQVGTRRYMAPEVLEGAINFQRDAFLRIDMYAMGLVLWELASRCTAADGPVDEYMLPFEEEIGQHPSLEDMQEVVVHKKKRPVLRDYWQKHAGMAMLCETIEECWDHDAEARLSAGCVGERITQMQRLTNIITTEDIVTVVTMVTNVDFPPKESSL
+Q13705,ACVR2B,MTAPWVALALLWGSLCAGSGRGEAETRECIYYNANWELERTNQSGLERCEGEQDKRLHCYASWRNSSGTIELVKKGCWLDDFNCYDRQECVATEENPQVYFCCCEGNFCNERFTHLPEAGGPEVTYEPPPTAPTLLTVLAYSLLPIGGLSLIVLLAFWMYRHRKPPYGHVDIHEDPGPPPPSPLVGLKPLQLLEIKARGRFGCVWKAQLMNDFVAVKIFPLQDKQSWQSEREIFSTPGMKHENLLQFIAAEKRGSNLEVELWLITAFHDKGSLTDYLKGNIITWNELCHVAETMSRGLSYLHEDVPWCRGEGHKPSIAHRDFKSKNVLLKSDLTAVLADFGLAVRFEPGKPPGDTHGQVGTRRYMAPEVLEGAINFQRDAFLRIDMYAMGLVLWELVSRCKAADGPVDEYMLPFEEEIGQHPSLEELQEVVVHKKMRPTIKDHWLKHPGLAQLCVTIEECWDHDAEARLSAGCVEERVSLIRRSVNGTTSDCLVSLVTSVTNVDLPPKESSI
+Q96D53,ADCK4,MWLKVGGLLRGTGGQLGQTVGWPCGALGPGPHRWGPCGGSWAQKFYQDGPGRGLGEEDIRRAREARPRKTPRPQLSDRSRERKVPASRISRLANFGGLAVGLGLGVLAEMAKKSMPGGRLQSEGGSGLDSSPFLSEANAERIVQTLCTVRGAALKVGQMLSIQDNSFISPQLQHIFERVRQSADFMPRWQMLRVLEEELGRDWQAKVASLEEVPFAAASIGQVHQGLLRDGTEVAVKIQYPGIAQSIQSDVQNLLAVLKMSAALPAGLFAEQSLQALQQELAWECDYRREAACAQNFRQLLANDPFFRVPAVVKELCTTRVLGMELAGGVPLDQCQGLSQDLRNQICFQLLTLCLRELFEFRFMQTDPNWANFLYDASSHQVTLLDFGASREFGTEFTDHYIEVVKAAADGDRDCVLQKSRDLKFLTGFETKAFSDAHVEAVMILGEPFATQGPYDFGSGETARRIQDLIPVLLRHRLCPPPEETYALHRKLAGAFLACAHLRAHIACRDLFQDTYHRYWASRQPDAATAGSLPTKGDSWVDPS
+Q96RU8,TRIB1,MRVGPVRSAMSGASQPRGPALLFPATRGVPAKRLLDADDAAAVAAKCPRLSECSSPPDYLSPPGSPCSPQPPPAAPGAGGGSGSAPGPSRIADYLLLPLAEREHVSRALCIHTGRELRCKVFPIKHYQDKIRPYIQLPSHSNITGIVEVILGETKAYVFFEKDFGDMHSYVRSRKRLREEEAARLFKQIVSAVAHCHQSAIVLGDLKLRKFVFSTEERTQLRLESLEDTHIMKGEDDALSDKHGCPAYVSPEILNTTGTYSGKAADVWSLGVMLYTLLVGRYPFHDSDPSALFSKIRRGQFCIPEHISPKARCLIRSLLRREPSERLTAPEILLHPWFESVLEPGYIDSEIGTSDQIVPEYQEDSDISSFFC
+Q8IWQ3,BRSK2,MTSTGKDGGAQHAQYVGPYRLEKTLGKGQTGLVKLGVHCVTCQKVAIKIVNREKLSESVLMKVEREIAILKLIEHPHVLKLHDVYENKKYLYLVLEHVSGGELFDYLVKKGRLTPKEARKFFRQIISALDFCHSHSICHRDLKPENLLLDEKNNIRIADFGMASLQVGDSLLETSCGSPHYACPEVIRGEKYDGRKADVWSCGVILFALLVGALPFDDDNLRQLLEKVKRGVFHMPHFIPPDCQSLLRGMIEVDAARRLTLEHIQKHIWYIGGKNEPEPEQPIPRKVQIRSLPSLEDIDPDVLDSMHSLGCFRDRNKLLQDLLSEEENQEKMIYFLLLDRKERYPSQEDEDLPPRNEIDPPRKRVDSPMLNRHGKRRPERKSMEVLSVTDGGSPVPARRAIEMAQHGQRSRSISGASSGLSTSPLSSPRVTPHPSPRGSPLPTPKGTPVHTPKESPAGTPNPTPPSSPSVGGVPWRARLNSIKNSFLGSPRFHRRKLQVPTPEEMSNLTPESSPELAKKSWFGNFISLEKEEQIFVVIKDKPLSSIKADIVHAFLSIPSLSHSVISQTSFRAEYKATGGPAVFQKPVKFQVDITYTEGGEAQKENGIYSVTFTLLSGPSRRFKRVVETIQAQLLSTHDPPAAQHLSDTTNCMEMMTGRLSKCGSPLSNFFDVIKQLFSDEKNGQAAQAPSTPAKRSAHGPLGDSAAAGPGPGGDAEYPTGKDTAKMGPPTARREQP
+Q9Y3S1,WNK2,MDGDGGRRDVPGTLMEPGRGAGPAGMAEPRAKAARPGPQRFLRRSVVESDQEEPPGLEAAEAPGPQPPQPLQRRVLLLCKTRRLIAERARGRPAAPAPAALVAQPGAPGAPADAGPEPVGTQEPGPDPIAAAVETAPAPDGGPREEAAATVRKEDEGAAEAKPEPGRTRRDEPEEEEDDEDDLKAVATSLDGRFLKFDIELGRGSFKTVYKGLDTETWVEVAWCELQDRKLTKLERQRFKEEAEMLKGLQHPNIVRFYDFWESSAKGKRCIVLVTELMTSGTLKTYLKRFKVMKPKVLRSWCRQILKGLLFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLKRASFAKSVIGTPEFMAPEMYEEHYDESVDVYAFGMCMLEMATSEYPYSECQNAAQIYRKVTCGIKPASFEKVHDPEIKEIIGECICKNKEERYEIKDLLSHAFFAEDTGVRVELAEEDHGRKSTIALRLWVEDPKKLKGKPKDNGAIEFTFDLEKETPDEVAQEMIESGFFHESDVKIVAKSIRDRVALIQWRRERIWPALQPKEQQDVGSPDKARGPPVPLQVQVTYHAQAGQPGPPEPEEPEADQHLLPPTLPTSATSLASDSTFDSGQGSTVYSDSQSSQQSVMLGSLADAAPSPAQCVCSPPVSEGPVLPQSLPSLGAYQQPTAAPGLPVGSVPAPACPPSLQQHFPDPAMSFAPVLPPPSTPMPTGPGQPAPPGQQPPPLAQPTPLPQVLAPQPVVPLQPVPPHLPPYLAPASQVGAPAQLKPLQMPQAPLQPLAQVPPQMPPIPVVPPITPLAGIDGLPPALPDLPTATVPPVPPPQYFSPAVILPSLAAPLPPASPALPLQAVKLPHPPGAPLAMPCRTIVPNAPATIPLLAVAPPGVAALSIHSAVAQLPGQPVYPAAFPQMAPTDVPPSPHHTVQNMRATPPQPALPPQPTLPPQPVLPPQPTLPPQPVLPPQPTRPPQPVLPPQPMLPPQPVLPPQPALPVRPEPLQPHLPEQAAPAATPGSQILLGHPAPYAVDVAAQVPTVPVPPAAVLSPPLPEVLLPAAPELLPQFPSSLATVSASVQSVPTQTATLLPPANPPLPGGPGIASPCPTVQLTVEPVQEEQASQDKPPGLPQSCESYGGSDVTSGKELSDSCEGAFGGGRLEGRAARKHHRRSTRARSRQERASRPRLTILNVCNTGDKMVECQLETHNHKMVTFKFDLDGDAPDEIATYMVEHDFILQAERETFIEQMKDVMDKAEDMLSEDTDADRGSDPGTSPPHLSTCGLGTGEESRQSQANAPVYQQNVLHTGKRWFIICPVAEHPAPEAPESSPPLPLSSLPPEASQGPCRGLTLPCLPWRRAACGAVFLSLFSAESAQSKQPPDSAPYKDQLSSKEQPSFLASQQLLSQAGPSNPPGAPPAPLAPSSPPVTALPQDGAAPATSTMPEPASGTASQAGGPGTPQGLTSELETSQPLAETHEAPLAVQPLVVGLAPCTPAPEAASTRDASAPREPLPPPAPEPSPHSGTPQPALGQPAPLLPAAVGAVSLATSQLPSPPLGPTVPPQPPSALESDGEGPPPRVGFVDSTIKSLDEKLRTLLYQEHVPTSSASAGTPVEVGDRDFTLEPLRGDQPRSEVCGGDLALPPVPKEAVSGRVQLPQPLVEKSELAPTRGAVMEQGTSSSMTAESSPRSMLGYDRDGRQVASDSHVVPSVPQDVPAFVRPARVEPTDRDGGEAGESSAEPPPSDMGTVGGQASHPQTLGARALGSPRKRPEQQDVSSPAKTVGRFSVVSTQDEWTLASPHSLRYSAPPDVYLDEAPSSPDVKLAVRRAQTASSIEVGVGEPVSSDSGDEGPRARPPVQKQASLPVSGSVAGDFVKKATAFLQRPSRAGSLGPETPSRVGMKVPTISVTSFHSQSSYISSDNDSELEDADIKKELQSLREKHLKEISELQSQQKQEIEALYRRLGKPLPPNVGFFHTAPPTGRRRKTSKSKLKAGKLLNPLVRQLKVVASSTGHLADSSRGPPAKDPAQASVGLTADSTGLSGKAVQTQQPCSVRASLSSDICSGLASDGGGARGQGWTVYHPTSERVTYKSSSKPRARFLSGPVSVSIWSALKRLCLGKEHSSRSSTSSLAPGPEPGPQPALHVQAQVNNSNNKKGTFTDDLHKLVDEWTSKTVGAAQLKPTLNQLKQTQKLQDMEAQAGWAAPGEARAMTAPRAGVGMPRLPPAPGPLSTTVIPGAAPTLSVPTPDGALGTARRNQVWFGLRVPPTACCGHSTQPRGGQRVGSKTASFAASDPVRS
+P31749,AKT1,MSDVAIVKEGWLHKRGEYIKTWRPRYFLLKNDGTFIGYKERPQDVDQREAPLNNFSVAQCQLMKTERPRPNTFIIRCLQWTTVIERTFHVETPEEREEWTTAIQTVADGLKKQEEEEMDFRSGSPSDNSGAEEMEVSLAKPKHRVTMNEFEYLKLLGKGTFGKVILVKEKATGRYYAMKILKKEVIVAKDEVAHTLTENRVLQNSRHPFLTALKYSFQTHDRLCFVMEYANGGELFFHLSRERVFSEDRARFYGAEIVSALDYLHSEKNVVYRDLKLENLMLDKDGHIKITDFGLCKEGIKDGATMKTFCGTPEYLAPEVLEDNDYGRAVDWWGLGVVMYEMMCGRLPFYNQDHEKLFELILMEEIRFPRTLGPEAKSLLSGLLKKDPKQRLGGGSEDAKEIMQHRFFAGIVWQHVYEKKLSPPFKPQVTSETDTRYFDEEFTAQMITITPPDQDDSMECVDSERRPHFPQFSYSASGTA
+P31751,AKT2,MNEVSVIKEGWLHKRGEYIKTWRPRYFLLKSDGSFIGYKERPEAPDQTLPPLNNFSVAECQLMKTERPRPNTFVIRCLQWTTVIERTFHVDSPDEREEWMRAIQMVANSLKQRAPGEDPMDYKCGSPSDSSTTEEMEVAVSKARAKVTMNDFDYLKLLGKGTFGKVILVREKATGRYYAMKILRKEVIIAKDEVAHTVTESRVLQNTRHPFLTALKYAFQTHDRLCFVMEYANGGELFFHLSRERVFTEERARFYGAEIVSALEYLHSRDVVYRDIKLENLMLDKDGHIKITDFGLCKEGISDGATMKTFCGTPEYLAPEVLEDNDYGRAVDWWGLGVVMYEMMCGRLPFYNQDHERLFELILMEEIRFPRTLSPEAKSLLAGLLKKDPKQRLGGGPSDAKEVMEHRFFLSINWQDVVQKKLLPPFKPQVTSEVDTRYFDDEFTAQSITITPPDRYDSLGLLELDQRTHFPQFSYSASIRE
+Q9Y243,AKT3,MSDVTIVKEGWVQKRGEYIKNWRPRYFLLKTDGSFIGYKEKPQDVDLPYPLNNFSVAKCQLMKTERPKPNTFIIRCLQWTTVIERTFHVDTPEEREEWTEAIQAVADRLQRQEEERMNCSPTSQIDNIGEEEMDASTTHHKRKTMNDFDYLKLLGKGTFGKVILVREKASGKYYAMKILKKEVIIAKDEVAHTLTESRVLKNTRHPFLTSLKYSFQTKDRLCFVMEYVNGGELFFHLSRERVFSEDRTRFYGAEIVSALDYLHSGKIVYRDLKLENLMLDKDGHIKITDFGLCKEGITDAATMKTFCGTPEYLAPEVLEDNDYGRAVDWWGLGVVMYEMMCGRLPFYNQDHEKLFELILMEDIKFPRTLSSDAKSLLSGLLIKDPNKRLGGGPDDAKEIMRHSFFSGVNWQDVYDKKLVPPFKPQVTSETDTRYFDEEFTAQTITITPPEKYDEDGMDCMDNERRPHFPQFSYSASGRE
+Q96NX5,CAMK1G,MGRKEEDDCSSWKKQTTNIRKTFIFMEVLGSGAFSEVFLVKQRLTGKLFALKCIKKSPAFRDSSLENEIAVLKKIKHENIVTLEDIYESTTHYYLVMQLVSGGELFDRILERGVYTEKDASLVIQQVLSAVKYLHENGIVHRDLKPENLLYLTPEENSKIMITDFGLSKMEQNGIMSTACGTPGYVAPEVLAQKPYSKAVDCWSIGVITYILLCGYPPFYEETESKLFEKIKEGYYEFESPFWDDISESAKDFICHLLEKDPNERYTCEKALSHPWIDGNTALHRDIYPSVSLQIQKNFAKSKWRQAFNAAAVVHHMRKLHMNLHSPGVRPEVENRPPETQASETSRPSSPEITITEAPVLDHSVALPALTQLPCQHGRRPTAPGGRSLNCLVNGSLHISSSLVPMHQGSLAAGPCGCCSSCLNIGSKGKSSYCSEPTLLKKANKKQNFKSEVMVPVKASGSSHCRAGQTGVCLIM
+Q9UM73,ALK,MGAIGLLWLLPLLLSTAAVGSGMGTGQRAGSPAAGPPLQPREPLSYSRLQRKSLAVDFVVPSLFRVYARDLLLPPSSSELKAGRPEARGSLALDCAPLLRLLGPAPGVSWTAGSPAPAEARTLSRVLKGGSVRKLRRAKQLVLELGEEAILEGCVGPPGEAAVGLLQFNLSELFSWWIRQGEGRLRIRLMPEKKASEVGREGRLSAAIRASQPRLLFQIFGTGHSSLESPTNMPSPSPDYFTWNLTWIMKDSFPFLSHRSRYGLECSFDFPCELEYSPPLHDLRNQSWSWRRIPSEEASQMDLLDGPGAERSKEMPRGSFLLLNTSADSKHTILSPWMRSSSEHCTLAVSVHRHLQPSGRYIAQLLPHNEAAREILLMPTPGKHGWTVLQGRIGRPDNPFRVALEYISSGNRSLSAVDFFALKNCSEGTSPGSKMALQSSFTCWNGTVLQLGQACDFHQDCAQGEDESQMCRKLPVGFYCNFEDGFCGWTQGTLSPHTPQWQVRTLKDARFQDHQDHALLLSTTDVPASESATVTSATFPAPIKSSPCELRMSWLIRGVLRGNVSLVLVENKTGKEQGRMVWHVAAYEGLSLWQWMVLPLLDVSDRFWLQMVAWWGQGSRAIVAFDNISISLDCYLTISGEDKILQNTAPKSRNLFERNPNKELKPGENSPRQTPIFDPTVHWLFTTCGASGPHGPTQAQCNNAYQNSNLSVEVGSEGPLKGIQIWKVPATDTYSISGYGAAGGKGGKNTMMRSHGVSVLGIFNLEKDDMLYILVGQQGEDACPSTNQLIQKVCIGENNVIEEEIRVNRSVHEWAGGGGGGGGATYVFKMKDGVPVPLIIAAGGGGRAYGAKTDTFHPERLENNSSVLGLNGNSGAAGGGGGWNDNTSLLWAGKSLQEGATGGHSCPQAMKKWGWETRGGFGGGGGGCSSGGGGGGYIGGNAASNNDPEMDGEDGVSFISPLGILYTPALKVMEGHGEVNIKHYLNCSHCEVDECHMDPESHKVICFCDHGTVLAEDGVSCIVSPTPEPHLPLSLILSVVTSALVAALVLAFSGIMIVYRRKHQELQAMQMELQSPEYKLSKLRTSTIMTDYNPNYCFAGKTSSISDLKEVPRKNITLIRGLGHGAFGEVYEGQVSGMPNDPSPLQVAVKTLPEVCSEQDELDFLMEALIISKFNHQNIVRCIGVSLQSLPRFILLELMAGGDLKSFLRETRPRPSQPSSLAMLDLLHVARDIACGCQYLEENHFIHRDIAARNCLLTCPGPGRVAKIGDFGMARDIYRASYYRKGGCAMLPVKWMPPEAFMEGIFTSKTDTWSFGVLLWEIFSLGYMPYPSKSNQEVLEFVTSGGRMDPPKNCPGPVYRIMTQCWQHQPEDRPNFAIILERIEYCTQDPDVINTALPIEYGPLVEEEEKVPVRPKDPEGVPPLLVSQQAKREEERSPAAPPPLPTTSSGKAAKKPTAAEISVRVPRGPAVEGGHVNMAFSQSNPPSELHKVHGSRNKPTSLWNPTYGSWFTEKPTKKNNPIAKKEPHDRGNLGLEGSCTVPPNVATGRLPGASLLLEPSSLTANMKEVPLFRLRHFPCGNVNYGYQQQGLPLEAATAPGAGHYEDTILKSKNSMNQPGP
+P37023,ACVRL1,MTLGSPRKGLLMLLMALVTQGDPVKPSRGPLVTCTCESPHCKGPTCRGAWCTVVLVREEGRHPQEHRGCGNLHRELCRGRPTEFVNHYCCDSHLCNHNVSLVLEATQPPSEQPGTDGQLALILGPVLALLALVALGVLGLWHVRRRQEKQRGLHSELGESSLILKASEQGDSMLGDLLDSDCTTGSGSGLPFLVQRTVARQVALVECVGKGRYGEVWRGLWHGESVAVKIFSSRDEQSWFRETEIYNTVLLRHDNILGFIASDMTSRNSSTQLWLITHYHEHGSLYDFLQRQTLEPHLALRLAVSAACGLAHLHVEIFGTQGKPAIAHRDFKSRNVLVKSNLQCCIADLGLAVMHSQGSDYLDIGNNPRVGTKRYMAPEVLDEQIRTDCFESYKWTDIWAFGLVLWEIARRTIVNGIVEDYRPPFYDVVPNDPSFEDMKKVVCVDQQTPTIPNRLAADPVLSGLAQMMRECWYPNPSARLTALRIKKTLQKISNSPEKPKVIQ
+Q04771,ACVR1,MVDGVMILPVLIMIALPSPSMEDEKPKVNPKLYMCVCEGLSCGNEDHCEGQQCFSSLSINDGFHVYQKGCFQVYEQGKMTCKTPPSPGQAVECCQGDWCNRNITAQLPTKGKSFPGTQNFHLEVGLIILSVVFAVCLLACLLGVALRKFKRRNQERLNPRDVEYGTIEGLITTNVGDSTLADLLDHSCTSGSGSGLPFLVQRTVARQITLLECVGKGRYGEVWRGSWQGENVAVKIFSSRDEKSWFRETELYNTVMLRHENILGFIASDMTSRHSSTQLWLITHYHEMGSLYDYLQLTTLDTVSCLRIVLSIASGLAHLHIEIFGTQGKPAIAHRDLKSKNILVKKNGQCCIADLGLAVMHSQSTNQLDVGNNPRVGTKRYMAPEVLDETIQVDCFDSYKRVDIWAFGLVLWEVARRMVSNGIVEDYKPPFYDVVPNDPSFEDMRKVVCVDQQRPNIPNRWFSDPTLTSLAKLMKECWYQNPSARLTALRIKKTLTKIDNSLDKLKTDC
+P36894,BMPR1A,MPQLYIYIRLLGAYLFIISRVQGQNLDSMLHGTGMKSDSDQKKSENGVTLAPEDTLPFLKCYCSGHCPDDAINNTCITNGHCFAIIEEDDQGETTLASGCMKYEGSDFQCKDSPKAQLRRTIECCRTNLCNQYLQPTLPPVVIGPFFDGSIRWLVLLISMAVCIIAMIIFSSCFCYKHYCKSISSRRRYNRDLEQDEAFIPVGESLKDLIDQSQSSGSGSGLPLLVQRTIAKQIQMVRQVGKGRYGEVWMGKWRGEKVAVKVFFTTEEASWFRETEIYQTVLMRHENILGFIAADIKGTGSWTQLYLITDYHENGSLYDFLKCATLDTRALLKLAYSAACGLCHLHTEIYGTQGKPAIAHRDLKSKNILIKKNGSCCIADLGLAVKFNSDTNEVDVPLNTRVGTKRYMAPEVLDESLNKNHFQPYIMADIYSFGLIIWEMARRCITGGIVEEYQLPYYNMVPSDPSYEDMREVVCVKRLRPIVSNRWNSDECLRAVLKLMSECWAHNPASRLTALRIKKTLAKMVESQDVKI
+P36896,ACVR1B,MAESAGASSFFPLVVLLLAGSGGSGPRGVQALLCACTSCLQANYTCETDGACMVSIFNLDGMEHHVRTCIPKVELVPAGKPFYCLSSEDLRNTHCCYTDYCNRIDLRVPSGHLKEPEHPSMWGPVELVGIIAGPVFLLFLIIIIVFLVINYHQRVYHNRQRLDMEDPSCEMCLSKDKTLQDLVYDLSTSGSGSGLPLFVQRTVARTIVLQEIIGKGRFGEVWRGRWRGGDVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTIEGMIKLALSAASGLAHLHMEIVGTQGKPGIAHRDLKSKNILVKKNGMCAIADLGLAVRHDAVTDTIDIAPNQRVGTKRYMAPEVLDETINMKHFDSFKCADIYALGLVYWEIARRCNSGGVHEEYQLPYYDLVPSDPSIEEMRKVVCDQKLRPNIPNWWQSYEALRVMGKMMRECWYANGAARLTALRIKKTLSQLSVQEDVKI
+P36897,TGFBR1,MEAAVAAPRPRLLLLVLAAAAAAAAALLPGATALQCFCHLCTKDNFTCVTDGLCFVSVTETTDKVIHNSMCIAEIDLIPRDRPFVCAPSSKTGSVTTTYCCNQDHCNKIELPTTVKSSPGLGPVELAAVIAGPVCFVCISLMLMVYICHNRTVIHHRVPNEEDPSLDRPFISEGTTLKDLIYDMTTSGSGSGLPLLVQRTIARTIVLQESIGKGRFGEVWRGKWRGEEVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTVEGMIKLALSTASGLAHLHMEIVGTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVRHDSATDTIDIAPNHRVGTKRYMAPEVLDDSINMKHFESFKRADIYAMGLVFWEIARRCSIGGIHEDYQLPYYDLVPSDPSVEEMRKVVCEQKLRPNIPNRWQSCEALRVMAKIMRECWYANGAARLTALRIKKTLSQLSQQEGIKM
+O00238,BMPR1B,MLLRSAGKLNVGTKKEDGESTAPTPRPKVLRCKCHHHCPEDSVNNICSTDGYCFTMIEEDDSGLPVVTSGCLGLEGSDFQCRDTPIPHQRRSIECCTERNECNKDLHPTLPPLKNRDFVDGPIHHRALLISVTVCSLLLVLIILFCYFRYKRQETRPRYSIGLEQDETYIPPGESLRDLIEQSQSSGSGSGLPLLVQRTIAKQIQMVKQIGKGRYGEVWMGKWRGEKVAVKVFFTTEEASWFRETEIYQTVLMRHENILGFIAADIKGTGSWTQLYLITDYHENGSLYDYLKSTTLDAKSMLKLAYSSVSGLCHLHTEIFSTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVKFISDTNEVDIPPNTRVGTKRYMPPEVLDESLNRNHFQSYIMADMYSFGLILWEVARRCVSGGIVEEYQLPYHDLVPSDPSYEDMREIVCIKKLRPSFPNRWSSDECLRQMGKLMTECWAHNPASRLTALRVKKTLAKMSESQDIKL
+Q13131,PRKAA1,MRRLSSWRKMATAEKQKHDGRVKIGHYILGDTLGVGTFGKVKVGKHELTGHKVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGEFLRTSCGSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKICDGIFYTPQYLNPSVISLLKHMLQVDPMKRATIKDIREHEWFKQDLPKYLFPEDPSYSSTMIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRIMNEAKDFYLATSPPDSFLDDHHLTRPHPERVPFLVAETPRARHTLDELNPQKSKHQGVRKAKWHLGIRSQSRPNDIMAEVCRAIKQLDYEWKVVNPYYLRVRRKNPVTSTYSKMSLQLYQVDSRTYLLDFRSIDDEITEAKSGTATPQRSGSVSNYRSCQRSDSDAEAQGKSSEVSLTSSVTSLDSSPVDLTPRPGSHTIEFFEMCANLIKILAQ
+P54646,PRKAA2,MAEKQKHDGRVKIGHYVLGDTLGVGTFGKVKIGEHQLTGHKVAVKILNRQKIRSLDVVGKIKREIQNLKLFRHPHIIKLYQVISTPTDFFMVMEYVSGGELFDYICKHGRVEEMEARRLFQQILSAVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGEFLRTSCGSPNYAAPEVISGRLYAGPEVDIWSCGVILYALLCGTLPFDDEHVPTLFKKIRGGVFYIPEYLNRSVATLLMHMLQVDPLKRATIKDIREHEWFKQDLPSYLFPEDPSYDANVIDDEAVKEVCEKFECTESEVMNSLYSGDPQDQLAVAYHLIIDNRRIMNQASEFYLASSPPSGSFMDDSAMHIPPGLKPHPERMPPLIADSPKARCPLDALNTTKPKSLAVKKAKWHLGIRSQSKPYDIMAEVYRAMKQLDFEWKVVNAYHLRVRRKNPVTGNYVKMSLQLYLVDNRSYLLDFKSIDDEVVEQRSGSSTPQRSCSAAGLHRPRSSFDSTTAESHSLSGSLTGSLTGSTLSSVSPRLGSHTMDFFEMCASLITTLAR
+P16066,NPR1,MPGPRRPAGSRLRLLLLLLLPPLLLLLRGSHAGNLTVAVVLPLANTSYPWSWARVGPAVELALAQVKARPDLLPGWTVRTVLGSSENALGVCSDTAAPLAAVDLKWEHNPAVFLGPGCVYAAAPVGRFTAHWRVPLLTAGAPALGFGVKDEYALTTRAGPSYAKLGDFVAALHRRLGWERQALMLYAYRPGDEEHCFFLVEGLFMRVRDRLNITVDHLEFAEDDLSHYTRLLRTMPRKGRVIYICSSPDAFRTLMLLALEAGLCGEDYVFFHLDIFGQSLQGGQGPAPRRPWERGDGQDVSARQAFQAAKIITYKDPDNPEYLEFLKQLKHLAYEQFNFTMEDGLVNTIPASFHDGLLLYIQAVTETLAHGGTVTDGENITQRMWNRSFQGVTGYLKIDSSGDRETDFSLWDMDPENGAFRVVLNYNGTSQELVAVSGRKLNWPLGYPPPDIPKCGFDNEDPACNQDHLSTLEVLALVGSLSLLGILIVSFFIYRKMQLEKELASELWRVRWEDVEPSSLERHLRSAGSRLTLSGRGSNYGSLLTTEGQFQVFAKTAYYKGNLVAVKRVNRKRIELTRKVLFELKHMRDVQNEHLTRFVGACTDPPNICILTEYCPRGSLQDILENESITLDWMFRYSLTNDIVKGMLFLHNGAICSHGNLKSSNCVVDGRFVLKITDYGLESFRDLDPEQGHTVYAKKLWTAPELLRMASPPVRGSQAGDVYSFGIILQEIALRSGVFHVEGLDLSPKEIIERVTRGEQPPFRPSLALQSHLEELGLLMQRCWAEDPQERPPFQQIRLTLRKFNRENSSNILDNLLSRMEQYANNLEELVEERTQAYLEEKRKAEALLYQILPHSVAEQLKRGETVQAEAFDSVTIYFSDIVGFTALSAESTPMQVVTLLNDLYTCFDAVIDNFDVYKVETIGDAYMVVSGLPVRNGRLHACEVARMALALLDAVRSFRIRHRPQEQLRLRIGIHTGPVCAGVVGLKMPRYCLFGDTVNTASRMESNGEALKIHLSSETKAVLEEFGGFELELRGDVEMKGKGKVRTYWLLGERGSSTRG
+P20594,NPR2,MALPSLLLLVAALAGGVRPPGARNLTLAVVLPEHNLSYAWAWPRVGPAVALAVEALGRALPVDLRFVSSELEGACSEYLAPLSAVDLKLYHDPDLLLGPGCVYPAASVARFASHWRLPLLTAGAVASGFSAKNDHYRTLVRTGPSAPKLGEFVVTLHGHFNWTARAALLYLDARTDDRPHYFTIEGVFEALQGSNLSVQHQVYAREPGGPEQATHFIRANGRIVYICGPLEMLHEILLQAQRENLTNGDYVFFYLDVFGESLRAGPTRATGRPWQDNRTREQAQALREAFQTVLVITYREPPNPEYQEFQNRLLIRAREDFGVELGPSLMNLIAGCFYDGILLYAEVLNETIQEGGTREDGLRIVEKMQGRRYHGVTGLVVMDKNNDRETDFVLWAMGDLDSGDFQPAAHYSGAEKQIWWTGRPIPWVKGAPPSDNPPCAFDLDDPSCDKTPLSTLAIVALGTGITFIMFGVSSFLIFRKLMLEKELASMLWRIRWEELQFGNSERYHKGAGSRLTLSLRGSSYGSLMTAHGKYQIFANTGHFKGNVVAIKHVNKKRIELTRQVLFELKHMRDVQFNHLTRFIGACIDPPNICIVTEYCPRGSLQDILENDSINLDWMFRYSLINDLVKGMAFLHNSIISSHGSLKSSNCVVDSRFVLKITDYGLASFRSTAEPDDSHALYAKKLWTAPELLSGNPLPTTGMQKADVYSFGIILQEIALRSGPFYLEGLDLSPKEIVQKVRNGQRPYFRPSIDRTQLNEELVLLMERCWAQDPAERPDFGQIKGFIRRFNKEGGTSILDNLLLRMEQYANNLEKLVEERTQAYLEEKRKAEALLYQILPHSVAEQLKRGETVQAEAFDSVTIYFSDIVGFTALSAESTPMQVVTLLNDLYTCFDAIIDNFDVYKVETIGDAYMVVSGLPGRNGQRHAPEIARMALALLDAVSSFRIRHRPHDQLRLRIGVHTGPVCAGVVGLKMPRYCLFGDTVNTASRMESNGQALKIHVSSTTKDALDELGCFQLELRGDVEMKGKGKMRTYWLLGERKGPPGLL
+P10398,ARAF,MEPPRGPPANGAEPSRAVGTVKVYLPNKQRTVVTVRDGMSVYDSLDKALKVRGLNQDCCVVYRLIKGRKTVTAWDTAIAPLDGEELIVEVLEDVPLTMHNFVRKTFFSLAFCDFCLKFLFHGFRCQTCGYKFHQHCSSKVPTVCVDMSTNRQQFYHSVQDLSGGSRQHEAPSNRPLNELLTPQGPSPRTQHCDPEHFPFPAPANAPLQRIRSTSTPNVHMVSTTAPMDSNLIQLTGQSFSTDAAGSRGGSDGTPRGSPSPASVSSGRKSPHSKSPAEQRERKSLADDKKKVKNLGYRDSGYYWEVPPSEVQLLKRIGTGSFGTVFRGRWHGDVAVKVLKVSQPTAEQAQAFKNEMQVLRKTRHVNILLFMGFMTRPGFAIITQWCEGSSLYHHLHVADTRFDMVQLIDVARQTAQGMDYLHAKNIIHRDLKSNNIFLHEGLTVKIGDFGLATVKTRWSGAQPLEQPSGSVLWMAAEVIRMQDPNPYSFQSDVYAYGVVLYELMTGSLPYSHIGCRDQIIFMVGRGYLSPDLSKISSNCPKAMRRLLSDCLKFQREERPLFPQILATIELLQRSLPKIERSASEPSLHRTQADELPACLLSAARLVP
+P42684,ABL2,MGQQVGRVGEAPGLQQPQPRGIRGSSAARPSGRRRDPAGRTTETGFNIFTQHDHFASCVEDGFEGDKTGGSSPEALHRPYGCDVEPQALNEAIRWSSKENLLGATESDPNLFVALYDFVASGDNTLSITKGEKLRVLGYNQNGEWSEVRSKNGQGWVPSNYITPVNSLEKHSWYHGPVSRSAAEYLLSSLINGSFLVRESESSPGQLSISLRYEGRVYHYRINTTADGKVYVTAESRFSTLAELVHHHSTVADGLVTTLHYPAPKCNKPTVYGVSPIHDKWEMERTDITMKHKLGGGQYGEVYVGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTLEPPFYIVTEYMPYGNLLDYLRECNREEVTAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHVVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNTFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYDLLEKGYRMEQPEGCPPKVYELMRACWKWSPADRPSFAETHQAFETMFHDSSISEEVAEELGRAASSSSVVPYLPRLPILPSKTRTLKKQVENKENIEGAQDATENSASSLAPGFIRGAQASSGSPALPRKQRDKSPSSLLEDAKETCFTRDRKGGFFSSFMKKRNAPTPPKRSSSFREMENQPHKKYELTGNFSSVASLQHADGFSFTPAQQEANLVPPKCYGGSFAQRNLCNDDGGGGGGSGTAGGGWSGITGFFTPRLIKKTLGLRAGKPTASDDTSKPFPRSNSTSSMSSGLPEQDRMAMTLPRNCQRSKLQLERTVSTSSQPEENVDRANDMLPKKSEESAAPSRERPKAKLLPRGATALPLRTPSGDLAITEKDPPGVGVAGVAAAPKGKEKNGGARLGMAGVPEDGEQPGWPSPAKAAPVLPTTHNHKVPVLISPTLKHTPADVQLIGTDSQGNKFKLLSEHQVTSSGDKDRPRRVKPKCAPPPPPVMRLLQHPSICSDPTEEPTALTAGQSTSETQEGGKKAALGAVPISGKAGRPVMPPPQVPLPTSSISPAKMANGTAGTKVALRKTKQAAEKISADKISKEALLECADLLSSALTEPVPNSQLVDTGHQLLDYCSGYVDCIPQTRNKFAFREAVSKLELSLQELQVSSAAAGVPGTNPVLNNLLSCVQEISDVVQR
+Q13315,ATM,MSLVLNDLLICCRQLEHDRATERKKEVEKFKRLIRDPETIKHLDRHSDSKQGKYLNWDAVFRFLQKYIQKETECLRIAKPNVSASTQASRQKKMQEISSLVKYFIKCANRRAPRLKCQELLNYIMDTVKDSSNGAIYGADCSNILLKDILSVRKYWCEISQQQWLELFSVYFRLYLKPSQDVHRVLVARIIHAVTKGCCSQTDGLNSKFLDFFSKAIQCARQEKSSSGLNHILAALTIFLKTLAVNFRIRVCELGDEILPTLLYIWTQHRLNDSLKEVIIELFQLQIYIHHPKGAKTQEKGAYESTKWRSILYNLYDLLVNEISHIGSRGKYSSGFRNIAVKENLIELMADICHQVFNEDTRSLEISQSYTTTQRESSDYSVPCKRKKIELGWEVIKDHLQKSQNDFDLVPWLQIATQLISKYPASLPNCELSPLLMILSQLLPQQRHGERTPYVLRCLTEVALCQDKRSNLESSQKSDLLKLWNKIWCITFRGISSEQIQAENFGLLGAIIQGSLVEVDREFWKLFTGSACRPSCPAVCCLTLALTTSIVPGTVKMGIEQNMCEVNRSFSLKESIMKWLLFYQLEGDLENSTEVPPILHSNFPHLVLEKILVSLTMKNCKAAMNFFQSVPECEHHQKDKEELSFSEVEELFLQTTFDKMDFLTIVRECGIEKHQSSIGFSVHQNLKESLDRCLLGLSEQLLNNYSSEITNSETLVRCSRLLVGVLGCYCYMGVIAEEEAYKSELFQKAKSLMQCAGESITLFKNKTNEEFRIGSLRNMMQLCTRCLSNCTKKSPNKIASGFFLRLLTSKLMNDIADICKSLASFIKKPFDRGEVESMEDDTNGNLMEVEDQSSMNLFNDYPDSSVSDANEPGESQSTIGAINPLAEEYLSKQDLLFLDMLKFLCLCVTTAQTNTVSFRAADIRRKLLMLIDSSTLEPTKSLHLHMYLMLLKELPGEEYPLPMEDVLELLKPLSNVCSLYRRDQDVCKTILNHVLHVVKNLGQSNMDSENTRDAQGQFLTVIGAFWHLTKERKYIFSVRMALVNCLKTLLEADPYSKWAILNVMGKDFPVNEVFTQFLADNHHQVRMLAAESINRLFQDTKGDSSRLLKALPLKLQQTAFENAYLKAQEGMREMSHSAENPETLDEIYNRKSVLLTLIAVVLSCSPICEKQALFALCKSVKENGLEPHLVKKVLEKVSETFGYRRLEDFMASHLDYLVLEWLNLQDTEYNLSSFPFILLNYTNIEDFYRSCYKVLIPHLVIRSHFDEVKSIANQIQEDWKSLLTDCFPKILVNILPYFAYEGTRDSGMAQQRETATKVYDMLKSENLLGKQIDHLFISNLPEIVVELLMTLHEPANSSASQSTDLCDFSGDLDPAPNPPHFPSHVIKATFAYISNCHKTKLKSILEILSKSPDSYQKILLAICEQAAETNNVYKKHRILKIYHLFVSLLLKDIKSGLGGAWAFVLRDVIYTLIHYINQRPSCIMDVSLRSFSLCCDLLSQVCQTAVTYCKDALENHLHVIVGTLIPLVYEQVEVQKQVLDLLKYLVIDNKDNENLYITIKLLDPFPDHVVFKDLRITQQKIKYSRGPFSLLEEINHFLSVSVYDALPLTRLEGLKDLRRQLELHKDQMVDIMRASQDNPQDGIMVKLVVNLLQLSKMAINHTGEKEVLEAVGSCLGEVGPIDFSTIAIQHSKDASYTKALKLFEDKELQWTFIMLTYLNNTLVEDCVKVRSAAVTCLKNILATKTGHSFWEIYKMTTDPMLAYLQPFRTSRKKFLEVPRFDKENPFEGLDDINLWIPLSENHDIWIKTLTCAFLDSGGTKCEILQLLKPMCEVKTDFCQTVLPYLIHDILLQDTNESWRNLLSTHVQGFFTSCLRHFSQTSRSTTPANLDSESEHFFRCCLDKKSQRTMLAVVDYMRRQKRPSSGTIFNDAFWLDLNYLEVAKVAQSCAAHFTALLYAEIYADKKSMDDQEKRSLAFEEGSQSTTISSLSEKSKEETGISLQDLLLEIYRSIGEPDSLYGCGGGKMLQPITRLRTYEHEAMWGKALVTYDLETAIPSSTRQAGIIQALQNLGLCHILSVYLKGLDYENKDWCPELEELHYQAAWRNMQWDHCTSVSKEVEGTSYHESLYNALQSLRDREFSTFYESLKYARVKEVEEMCKRSLESVYSLYPTLSRLQAIGELESIGELFSRSVTHRQLSEVYIKWQKHSQLLKDSDFSFQEPIMALRTVILEILMEKEMDNSQRECIKDILTKHLVELSILARTFKNTQLPERAIFQIKQYNSVSCGVSEWQLEEAQVFWAKKEQSLALSILKQMIKKLDASCAANNPSLKLTYTECLRVCGNWLAETCLENPAVIMQTYLEKAVEVAGNYDGESSDELRNGKMKAFLSLARFSDTQYQRIENYMKSSEFENKQALLKRAKEEVGLLREHKIQTNRYTVKVQRELELDELALRALKEDRKRFLCKAVENYINCLLSGEEHDMWVFRLCSLWLENSGVSEVNGMMKRDGMKIPTYKFLPLMYQLAARMGTKMMGGLGFHEVLNNLISRISMDHPHHTLFIILALANANRDEFLTKPEVARRSRITKNVPKQSSQLDEDRTEAANRIICTIRSRRPQMVRSVEALCDAYIILANLDATQWKTQRKGINIPADQPITKLKNLEDVVVPTMEIKVDHTGEYGNLVTIQSFKAEFRLAGGVNLPKIIDCVGSDGKERRQLVKGRDDLRQDAVMQQVFQMCNTLLQRNTETRKRKLTICTYKVVPLSQRSGVLEWCTGTVPIGEFLVNNEDGAHKRYRPNDFSAFQCQKKMMEVQKKSFEEKYEVFMDVCQNFQPVFRYFCMEKFLDPAIWFEKRLAYTRSVATSSIVGYILGLGDRHVQNILINEQSAELVHIDLGVAFEQGKILPTPETVPFRLTRDIVDGMGITGVEGVFRRCCEKTMEVMRNSQETLLTIVEVLLYDPLFDWTMNPLKALYLQQRPEDETELHPTLNADDQECKRNLSDIDQSFNKVAERVLMRLQEKLKGVEEGTVLSVGGQVNLLIQQAIDPKNLSRLFPGWKAWV
+Q13535,ATR,MGEHGLELASMIPALRELGSATPEEYNTVVQKPRQILCQFIDRILTDVNVVAVELVKKTDSQPTSVMLLDFIQHIMKSSPLMFVNVSGSHEAKGSCIEFSNWIITRLLRIAATPSCHLLHKKICEVICSLLFLFKSKSPAIFGVLTKELLQLFEDLVYLHRRNVMGHAVEWPVVMSRFLSQLDEHMGYLQSAPLQLMSMQNLEFIEVTLLMVLTRIIAIVFFRRQELLLWQIGCVLLEYGSPKIKSLAISFLTELFQLGGLPAQPASTFFSSFLELLKHLVEMDTDQLKLYEEPLSKLIKTLFPFEAEAYRNIEPVYLNMLLEKLCVMFEDGVLMRLKSDLLKAALCHLLQYFLKFVPAGYESALQVRKVYVRNICKALLDVLGIEVDAEYLLGPLYAALKMESMEIIEEIQCQTQQENLSSNSDGISPKRRRLSSSLNPSKRAPKQTEEIKHVDMNQKSILWSALKQKAESLQISLEYSGLKNPVIEMLEGIAVVLQLTALCTVHCSHQNMNCRTFKDCQHKSKKKPSVVITWMSLDFYTKVLKSCRSLLESVQKLDLEATIDKVVKIYDALIYMQVNSSFEDHILEDLCGMLSLPWIYSHSDDGCLKLTTFAANLLTLSCRISDSYSPQAQSRCVFLLTLFPRRIFLEWRTAVYNWALQSSHEVIRASCVSGFFILLQQQNSCNRVPKILIDKVKDDSDIVKKEFASILGQLVCTLHGMFYLTSSLTEPFSEHGHVDLFCRNLKATSQHECSSSQLKASVCKPFLFLLKKKIPSPVKLAFIDNLHHLCKHLDFREDETDVKAVLGTLLNLMEDPDKDVRVAFSGNIKHILESLDSEDGFIKELFVLRMKEAYTHAQISRNNELKDTLILTTGDIGRAAKGDLVPFALLHLLHCLLSKSASVSGAAYTEIRALVAAKSVKLQSFFSQYKKPICQFLVESLHSSQMTALPNTPCQNADVRKQDVAHQREMALNTLSEIANVFDFPDLNRFLTRTLQVLLPDLAAKASPAASALIRTLGKQLNVNRREILINNFKYIFSHLVCSCSKDELERALHYLKNETEIELGSLLRQDFQGLHNELLLRIGEHYQQVFNGLSILASFASSDDPYQGPRDIISPELMADYLQPKLLGILAFFNMQLLSSSVGIEDKKMALNSLMSLMKLMGPKHVSSVRVKMMTTLRTGLRFKDDFPELCCRAWDCFVRCLDHACLGSLLSHVIVALLPLIHIQPKETAAIFHYLIIENRDAVQDFLHEIYFLPDHPELKKIKAVLQEYRKETSESTDLQTTLQLSMKAIQHENVDVRIHALTSLKETLYKNQEKLIKYATDSETVEPIISQLVTVLLKGCQDANSQARLLCGECLGELGAIDPGRLDFSTTETQGKDFTFVTGVEDSSFAYGLLMELTRAYLAYADNSRAQDSAAYAIQELLSIYDCREMETNGPGHQLWRRFPEHVREILEPHLNTRYKSSQKSTDWSGVKKPIYLSKLGSNFAEWSASWAGYLITKVRHDLASKIFTCCSIMMKHDFKVTIYLLPHILVYVLLGCNQEDQQEVYAEIMAVLKHDDQHTINTQDIASDLCQLSTQTVFSMLDHLTQWARHKFQALKAEKCPHSKSNRNKVDSMVSTVDYEDYQSVTRFLDLIPQDTLAVASFRSKAYTRAVMHFESFITEKKQNIQEHLGFLQKLYAAMHEPDGVAGVSAIRKAEPSLKEQILEHESLGLLRDATACYDRAIQLEPDQIIHYHGVVKSMLGLGQLSTVITQVNGVHANRSEWTDELNTYRVEAAWKLSQWDLVENYLAADGKSTTWSVRLGQLLLSAKKRDITAFYDSLKLVRAEQIVPLSAASFERGSYQRGYEYIVRLHMLCELEHSIKPLFQHSPGDSSQEDSLNWVARLEMTQNSYRAKEPILALRRALLSLNKRPDYNEMVGECWLQSARVARKAGHHQTAYNALLNAGESRLAELYVERAKWLWSKGDVHQALIVLQKGVELCFPENETPPEGKNMLIHGRAMLLVGRFMEETANFESNAIMKKYKDVTACLPEWEDGHFYLAKYYDKLMPMVTDNKMEKQGDLIRYIVLHFGRSLQYGNQFIYQSMPRMLTLWLDYGTKAYEWEKAGRSDRVQMRNDLGKINKVITEHTNYLAPYQFLTAFSQLISRICHSHDEVFVVLMEIIAKVFLAYPQQAMWMMTAVSKSSYPMRVNRCKEILNKAIHMKKSLEKFVGDATRLTDKLLELCNKPVDGSSSTLSMSTHFKMLKKLVEEATFSEILIPLQSVMIPTLPSILGTHANHASHEPFPGHWAYIAGFDDMVEILASLQKPKKISLKGSDGKFYIMMCKPKDDLRKDCRLMEFNSLINKCLRKDAESRRRELHIRTYAVIPLNDECGIIEWVNNTAGLRPILTKLYKEKGVYMTGKELRQCMLPKSAALSEKLKVFREFLLPRHPPIFHEWFLRTFPDPTSWYSSRSAYCRSTAVMSMVGYILGLGDRHGENILFDSLTGECVHVDFNCLFNKGETFEVPEIVPFRLTHNMVNGMGPMGTEGLFRRACEVTMRLMRDQREPLMSVLKTFLHDPLVEWSKPVKGHSKAPLNETGEVVNEKAKTHVLDIEQRLQGVIKTRNRVTGLPLSIEGHVHYLIQEATDENLLCQMYLGWTPYM
+Q9UQB9,AURKC,MSSPRAVVQLGKAQPAGEELATANQTAQQPSSPAMRRLTVDDFEIGRPLGKGKFGNVYLARLKESHFIVALKVLFKSQIEKEGLEHQLRREIEIQAHLQHPNILRLYNYFHDARRVYLILEYAPRGELYKELQKSEKLDEQRTATIIEELADALTYCHDKKVIHRDIKPENLLLGFRGEVKIADFGWSVHTPSLRRKTMCGTLDYLPPEMIEGRTYDEKVDLWCIGVLCYELLVGYPPFESASHSETYRRILKVDVRFPLSMPLGARDLISRLLRYQPLERLPLAQILKHPWVQAHSRRVLPPCAQMAS
+P30530,AXL,MAWRCPRMGRVPLAWCLALCGWACMAPRGTQAEESPFVGNPGNITGARGLTGTLRCQLQVQGEPPEVHWLRDGQILELADSTQTQVPLGEDEQDDWIVVSQLRITSLQLSDTGQYQCLVFLGHQTFVSQPGYVGLEGLPYFLEEPEDRTVAANTPFNLSCQAQGPPEPVDLLWLQDAVPLATAPGHGPQRSLHVPGLNKTSSFSCEAHNAKGVTTSRTATITVLPQQPRNLHLVSRQPTELEVAWTPGLSGIYPLTHCTLQAVLSDDGMGIQAGEPDPPEEPLTSQASVPPHQLRLGSLHPHTPYHIRVACTSSQGPSSWTHWLPVETPEGVPLGPPENISATRNGSQAFVHWQEPRAPLQGTLLGYRLAYQGQDTPEVLMDIGLRQEVTLELQGDGSVSNLTVCVAAYTAAGDGPWSLPVPLEAWRPGQAQPVHQLVKEPSTPAFSWPWWYVLLGAVVAAACVLILALFLVHRRKKETRYGEVFEPTVERGELVVRYRVRKSYSRRTTEATLNSLGISEELKEKLRDVMVDRHKVALGKTLGEGEFGAVMEGQLNQDDSILKVAVKTMKIAICTRSELEDFLSEAVCMKEFDHPNVMRLIGVCFQGSERESFPAPVVILPFMKHGDLHSFLLYSRLGDQPVYLPTQMLVKFMADIASGMEYLSTKRFIHRDLAARNCMLNENMSVCVADFGLSKKIYNGDYYRQGRIAKMPVKWIAIESLADRVYTSKSDVWSFGVTMWEIATRGQTPYPGVENSEIYDYLRQGNRLKQPADCLDGLYALMSRCWELNPQDRPSFTELREDLENTLKALPPAQEPDEILYVNMDEGGGYPEPPGAAGGADPPTQPDPKDSCSCLTAAEVHPAGRYVLCPSTTPSPAQPADRGSPAAPGQEDGA
+P25098,ADRBK1,MADLEAVLADVSYLMAMEKSKATPAARASKKILLPEPSIRSVMQKYLEDRGEVTFEKIFSQKLGYLLFRDFCLNHLEEARPLVEFYEEIKKYEKLETEEERVARSREIFDSYIMKELLACSHPFSKSATEHVQGHLGKKQVPPDLFQPYIEEICQNLRGDVFQKFIESDKFTRFCQWKNVELNIHLTMNDFSVHRIIGRGGFGEVYGCRKADTGKMYAMKCLDKKRIKMKQGETLALNERIMLSLVSTGDCPFIVCMSYAFHTPDKLSFILDLMNGGDLHYHLSQHGVFSEADMRFYAAEIILGLEHMHNRFVVYRDLKPANILLDEHGHVRISDLGLACDFSKKKPHASVGTHGYMAPEVLQKGVAYDSSADWFSLGCMLFKLLRGHSPFRQHKTKDKHEIDRMTLTMAVELPDSFSPELRSLLEGLLQRDVNRRLGCLGRGAQEVKESPFFRSLDWQMVFLQKYPPPLIPPRGEVNAADAFDIGSFDEEDTKGIKLLDSDQELYRNFPLTISERWQQEVAETVFDTINAETDRLEARKKAKNKQLGHEEDYALGKDCIMHGYMSKMGNPFLTQWQRRYFYLFPNRLEWRGEGEAPQSLLTMEEIQSVEETQIKERKCLLLKIRGGKQFILQCDSDPELVQWKKELRDAYREAQQLVQRVPKMKNKPRSPVVELSKVPLVQRGSANGL
+O14874,BCKDK,MILASVLRSGPGGGLPLRPLLGPALALRARSTSATDTHHVEMARERSKTVTSFYNQSAIDAAAEKPSVRLTPTMMLYAGRSQDGSHLLKSARYLQQELPVRIAHRIKGFRCLPFIIGCNPTILHVHELYIRAFQKLTDFPPIKDQADEAQYCQLVRQLLDDHKDVVTLLAEGLRESRKHIEDEKLVRYFLDKTLTSRLGIRMLATHHLALHEDKPDFVGIICTRLSPKKIIEKWVDFARRLCEHKYGNAPRVRINGHVAARFPFIPMPLDYILPELLKNAMRATMESHLDTPYNVPDVVITIANNDVDLIIRISDRGGGIAHKDLDRVMDYHFTTAEASTQDPRISPLFGHLDMHSGAQSGPMHGFGFGLPTSRAYAEYLGGSLQLQSLQGIGTDVYLRLRHIDGREESFRI
+Q12851,MAP4K2,MALLRDVSLQDPRDRFELLQRVGAGTYGDVYKARDTVTSELAAVKIVKLDPGDDISSLQQEITILRECRHPNVVAYIGSYLRNDRLWICMEFCGGGSLQEIYHATGPLEERQIAYVCREALKGLHHLHSQGKIHRDIKGANLLLTLQGDVKLADFGVSGELTASVAKRRSFIGTPYWMAPEVAAVERKGGYNELCDVWALGITAIELGELQPPLFHLHPMRALMLMSKSSFQPPKLRDKTRWTQNFHHFLKLALTKNPKKRPTAEKLLQHPFTTQQLPRALLTQLLDKASDPHLGTPSPEDCELETYDMFPDTIHSRGQHGPAERTPSEIQFHQVKFGAPRRKETDPLNEPWEEEWTLLGKEELSGSLLQSVQEALEERSLTIRSASEFQELDSPDDTMGTIKRAPFLGPLPTDPPAEEPLSSPPGTLPPPPSGPNSSPLLPTAWATMKQREDPERSSCHGLPPTPKVHMGACFSKVFNGCPLRIHAAVTWIHPVTRDQFLVVGAEEGIYTLNLHELHEDTLEKLISHRCSWLYCVNNVLLSLSGKSTHIWAHDLPGLFEQRRLQQQVPLSIPTNRLTQRIIPRRFALSTKIPDTKGCLQCRVVRNPYTGATFLLAALPTSLLLLQWYEPLQKFLLLKNFSSPLPSPAGMLEPLVLDGKELPQVCVGAEGPEGPGCRVLFHVLPLEAGLTPDILIPPEGIPGSAQQVIQVDRDTILVSFERCVRIVNMQGEPTATLAPELTFDFPIETVVCLQDSVLAFWSHGMQGRSLDTNEVTQEITDETRIFRVLGAHRDIILESIPTDNPEAHSNLYILTGHQSTY
+P51451,BLK,MGLVSSKKPDKEKPIKEKDKGQWSPLKVSAQDKDAPPLPPLVVFNHLTPPPPDEHLDEDKHFVVALYDYTAMNDRDLQMLKGEKLQVLKGTGDWWLARSLVTGREGYVPSNFVARVESLEMERWFFRSQGRKEAERQLLAPINKAGSFLIRESETNKGAFSLSVKDVTTQGELIKHYKIRCLDEGGYYISPRITFPSLQALVQHYSKKGDGLCQRLTLPCVRPAPQNPWAQDEWEIPRQSLRLVRKLGSGQFGEVWMGYYKNNMKVAIKTLKEGTMSPEAFLGEANVMKALQHERLVRLYAVVTKEPIYIVTEYMARGCLLDFLKTDEGSRLSLPRLIDMSAQIAEGMAYIERMNSIHRDLRAANILVSEALCCKIADFGLARIIDSEYTAQEGAKFPIKWTAPEAIHFGVFTIKADVWSFGVLLMEVVTYGRVPYPGMSNPEVIRNLERGYRMPRPDTCPPELYRGVIAECWRSRPEERPTFEFLQSVLEDFYTATERQYELQP
+P15056,BRAF,MAALSGGGGGGAEPGQALFNGDMEPEAGAGAGAAASSAADPAIPEEVWNIKQMIKLTQEHIEALLDKFGGEHNPPSIYLEAYEEYTSKLDALQQREQQLLESLGNGTDFSVSSSASMDTVTSSSSSSLSVLPSSLSVFQNPTDVARSNPKSPQKPIVRVFLPNKQRTVVPARCGVTVRDSLKKALMMRGLIPECCAVYRIQDGEKKPIGWDTDISWLTGEELHVEVLENVPLTTHNFVRKTFFTLAFCDFCRKLLFQGFRCQTCGYKFHQRCSTEVPLMCVNYDQLDLLFVSKFFEHHPIPQEEASLAETALTSGSSPSAPASDSIGPQILTSPSPSKSIPIPQPFRPADEDHRNQFGQRDRSSSAPNVHINTIEPVNIDDLIRDQGFRGDGGSTTGLSATPPASLPGSLTNVKALQKSPGPQRERKSSSSSEDRNRMKTLGRRDSSDDWEIPDGQITVGQRIGSGSFGTVYKGKWHGDVAVKMLNVTAPTPQQLQAFKNEVGVLRKTRHVNILLFMGYSTKPQLAIVTQWCEGSSLYHHLHIIETKFEMIKLIDIARQTAQGMDYLHAKSIIHRDLKSNNIFLHEDLTVKIGDFGLATVKSRWSGSHQFEQLSGSILWMAPEVIRMQDKNPYSFQSDVYAFGIVLYELMTGQLPYSNINNRDQIIFMVGRGYLSPDLSKVRSNCPKAMKRLMAECLKKKRDERPLFPQILASIELLARSLPKIHRSASEPSLNRAGFQTEDFSLYACASPKTPIQAGGYGAFPVH
+Q13882,PTK6,MVSRDQAHLGPKYVGLWDFKSRTDEELSFRAGDVFHVARKEEQWWWATLLDEAGGAVAQGYVPHNYLAERETVESEPWFFGCISRSEAVRRLQAEGNATGAFLIRVSEKPSADYVLSVRDTQAVRHYKIWRRAGGRLHLNEAVSFLSLPELVNYHRAQSLSHGLRLAAPCRKHEPEPLPHWDDWERPREEFTLCRKLGSGYFGEVFEGLWKDRVQVAIKVISRDNLLHQQMLQSEIQAMKKLRHKHILALYAVVSVGDPVYIITELMAKGSLLELLRDSDEKVLPVSELLDIAWQVAEGMCYLESQNYIHRDLAARNILVGENTLCKVGDFGLARLIKEDVYLSHDHNIPYKWTAPEALSRGHYSTKSDVWSFGILLHEMFSRGQVPYPGMSNHEAFLRVDAGYRMPCPLECPPSVHKLMLTCWCRDPEQRPCFKALRERLSSFTSYENPT
+Q06187,BTK,MAAVILESIFLKRSQQKKKTSPLNFKKRLFLLTVHKLSYYEYDFERGRRGSKKGSIDVEKITCVETVVPEKNPPPERQIPRRGEESSEMEQISIIERFPYPFQVVYDEGPLYVFSPTEELRKRWIHQLKNVIRYNSDLVQKYHPCFWIDGQYLCCSQTAKNAMGCQILENRNGSLKPGSSHRKTKKPLPPTPEEDQILKKPLPPEPAAAPVSTSELKKVVALYDYMPMNANDLQLRKGDEYFILEESNLPWWRARDKNGQEGYIPSNYVTEAEDSIEMYEWYSKHMTRSQAEQLLKQEGKEGGFIVRDSSKAGKYTVSVFAKSTGDPQGVIRHYVVCSTPQSQYYLAEKHLFSTIPELINYHQHNSAGLISRLKYPVSQQNKNAPSTAGLGYGSWEIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMDEES
+O60566,BUB1B,MAAVKKEGGALSEAMSLEGDEWELSKENVQPLRQGRIMSTLQGALAQESACNNTLQQQKRAFEYEIRFYTGNDPLDVWDRYISWTEQNYPQGGKESNMSTLLERAVEALQGEKRYYSDPRFLNLWLKLGRLCNEPLDMYSYLHNQGIGVSLAQFYISWAEEYEARENFRKADAIFQEGIQQKAEPLERLQSQHRQFQARVSRQTLLALEKEEEEEVFESSVPQRSTLAELKSKGKKTARAPIIRVGGALKAPSQNRGLQNPFPQQMQNNSRITVFDENADEASTAELSKPTVQPWIAPPMPRAKENELQAGPWNTGRSLEHRPRGNTASLIAVPAVLPSFTPYVEETARQPVMTPCKIEPSINHILSTRKPGKEEGDPLQRVQSHQQASEEKKEKMMYCKEKIYAGVGEFSFEEIRAEVFRKKLKEQREAELLTSAEKRAEMQKQIEEMEKKLKEIQTTQQERTGDQQEETMPTKETTKLQIASESQKIPGMTLSSSVCQVNCCARETSLAENIWQEQPHSKGPSVPFSIFDEFLLSEKKNKSPPADPPRVLAQRRPLAVLKTSESITSNEDVSPDVCDEFTGIEPLSEDAIITGFRNVTICPNPEDTCDFARAARFVSTPFHEIMSLKDLPSDPERLLPEEDLDVKTSEDQQTACGTIYSQTLSIKKLSPIIEDSREATHSSGFSGSSASVASTSSIKCLQIPEKLELTNETSENPTQSPWCSQYRRQLLKSLPELSASAELCIEDRPMPKLEIEKEIELGNEDYCIKREYLICEDYKLFWVAPRNSAELTVIKVSSQPVPWDFYINLKLKERLNEDFDHFCSCYQYQDGCIVWHQYINCFTLQDLLQHSEYITHEITVLIIYNLLTIVEMLHKAEIVHGDLSPRCLILRNRIHDPYDCNKNNQALKIVDFSYSVDLRVQLDVFTLSGFRTVQILEGQKILANCSSPYQVDLFGIADLAHLLLFKEHLQVFWDGSFWKLSQNISELKDGELWNKFFVRILNANDEATVSVLGELAAEMNGVFDTTFQSHLNKALWKVGKLTSPGALLFQ
+P50613,CDK7,MALDVKSRAKRYEKLDFLGEGQFATVYKARDKNTNQIVAIKKIKLGHRSEAKDGINRTALREIKLLQELSHPNIIGLLDAFGHKSNISLVFDFMETDLEVIIKDNSLVLTPSHIKAYMLMTLQGLEYLHQHWILHRDLKPNNLLLDENGVLKLADFGLAKSFGSPNRAYTHQVVTRWYRAPELLFGARMYGVGVDMWAVGCILAELLLRVPFLPGDSDLDQLTRIFETLGTPTEEQWPDMCSLPDYVTFKSFPGIPLHHIFSAAGDDLLDLIQGLFLFNPCARITATQALKMKYFSNRPGPTPGCQLPRPNCPVETLKEQSNPALAIKRKRTEALEQGGLPKKLIF
+Q14012,CAMK1,MLGAVEGPRWKQAEDIRDIYDFRDVLGTGAFSEVILAEDKRTQKLVAIKCIAKEALEGKEGSMENEIAVLHKIKHPNIVALDDIYESGGHLYLIMQLVSGGELFDRIVEKGFYTERDASRLIFQVLDAVKYLHDLGIVHRDLKPENLLYYSLDEDSKIMISDFGLSKMEDPGSVLSTACGTPGYVAPEVLAQKPYSKAVDCWSIGVIAYILLCGYPPFYDENDAKLFEQILKAEYEFDSPYWDDISDSAKDFIRHLMEKDPEKRFTCEQALQHPWIAGDTALDKNIHQSVSEQIKKNFAKSKWKQAFNATAVVRHMRKLQLGTSQEGQGQTASHGELLTPVAGGPAAGCCCRDCCVEPGTELSPTLPHQL
+Q9UQM7,CAMK2A,MATITCTRFTEEYQLFEELGKGAFSVVRRCVKVLAGQEYAAKIINTKKLSARDHQKLEREARICRLLKHPNIVRLHDSISEEGHHYLIFDLVTGGELFEDIVAREYYSEADASHCIQQILEAVLHCHQMGVVHRDLKPENLLLASKLKGAAVKLADFGLAIEVEGEQQAWFGFAGTPGYLSPEVLRKDPYGKPVDLWACGVILYILLVGYPPFWDEDQHRLYQQIKAGAYDFPSPEWDTVTPEAKDLINKMLTINPSKRITAAEALKHPWISHRSTVASCMHRQETVDCLKKFNARRKLKGAILTTMLATRNFSGGKSGGNKKSDGVKESSESTNTTIEDEDTKVRKQEIIKVTEQLIEAISNGDFESYTKMCDPGMTAFEPEALGNLVEGLDFHRFYFENLWSRNSKPVHTTILNPHIHLMGDESACIAYIRITQYLDAGGIPRTAQSEETRVWHRRDGKWQIVHFHRSGAPSVLPH
+Q13554,CAMK2B,MATTVTCTRFTDEYQLYEDIGKGAFSVVRRCVKLCTGHEYAAKIINTKKLSARDHQKLEREARICRLLKHSNIVRLHDSISEEGFHYLVFDLVTGGELFEDIVAREYYSEADASHCIQQILEAVLHCHQMGVVHRDLKPENLLLASKCKGAAVKLADFGLAIEVQGDQQAWFGFAGTPGYLSPEVLRKEAYGKPVDIWACGVILYILLVGYPPFWDEDQHKLYQQIKAGAYDFPSPEWDTVTPEAKNLINQMLTINPAKRITAHEALKHPWVCQRSTVASMMHRQETVECLKKFNARRKLKGAILTTMLATRNFSVGRQTTAPATMSTAASGTTMGLVEQAKSLLNKKADGVKPQTNSTKNSAAATSPKGTLPPAALEPQTTVIHNPVDGIKESSDSANTTIEDEDAKAPRVPDILSSVRRGSGAPEAEGPLPCPSPAPFSPLPAPSPRISDILNSVRRGSGTPEAEGPLSAGPPPCLSPALLGPLSSPSPRISDILNSVRRGSGTPEAEGPSPVGPPPCPSPTIPGPLPTPSRKQEIIKTTEQLIEAVNNGDFEAYAKICDPGLTSFEPEALGNLVEGMDFHRFYFENLLAKNSKPIHTTILNPHVHVIGEDAACIAYIRLTQYIDGQGRPRTSQSEETRVWHRRDGKWQNVHFHCSGAPVAPLQ
+Q13555,CAMK2G,MATTATCTRFTDDYQLFEELGKGAFSVVRRCVKKTSTQEYAAKIINTKKLSARDHQKLEREARICRLLKHPNIVRLHDSISEEGFHYLVFDLVTGGELFEDIVAREYYSEADASHCIHQILESVNHIHQHDIVHRDLKPENLLLASKCKGAAVKLADFGLAIEVQGEQQAWFGFAGTPGYLSPEVLRKDPYGKPVDIWACGVILYILLVGYPPFWDEDQHKLYQQIKAGAYDFPSPEWDTVTPEAKNLINQMLTINPAKRITADQALKHPWVCQRSTVASMMHRQETVECLRKFNARRKLKGAILTTMLVSRNFSAAKSLLNKKSDGGVKKRKSSSSVHLMPQSNNKNSLVSPAQEPAPLQTAMEPQTTVVHNATDGIKGSTESCNTTTEDEDLKGRVPEGRSSRDRTAPSAGMQPQPSLCSSAMRKQEIIKITEQLIEAINNGDFEAYTKICDPGLTSFEPEALGNLVEGMDFHKFYFENLLSKNSKPIHTTILNPHVHVIGEDAACIAYIRLTQYIDGQGRPRTSQSEETRVWHRRDGKWLNVHYHCSGAPAAPLQ
+Q16566,CAMK4,MLKVTVPSCSASSCSSVTASAAPGTASLVPDYWIDGSNRDALSDFFEVESELGRGATSIVYRCKQKGTQKPYALKVLKKTVDKKIVRTEIGVLLRLSHPNIIKLKEIFETPTEISLVLELVTGGELFDRIVEKGYYSERDAADAVKQILEAVAYLHENGIVHRDLKPENLLYATPAPDAPLKIADFGLSKIVEHQVLMKTVCGTPGYCAPEILRGCAYGPEVDMWSVGIITYILLCGFEPFYDERGDQFMFRRILNCEYYFISPWWDEVSLNAKDLVRKLIVLDPKKRLTTFQALQHPWVTGKAANFVHMDTAQKKLQEFNARRKLKAAVKAVVASSRLGSASSSHGSIQESHKASRDPSPIQDGNEDMKAIPEGEKIQGDGAQAAVKGAQAELMKVQALEKVKGADINAEEAPKMVPKAVEDGIKVADLELEEGLAEEKLKTVEEAAAPREGQGSSAVGFEVPQQDVILPEY
+Q8NCB2,CAMKV,MPFGCVTLGDKKNYNQPSEVTDRYDLGQVIKTEEFCEIFRAKDKTTGKLHTCKKFQKRDGRKVRKAAKNEIGILKMVKHPNILQLVDVFVTRKEYFIFLELATGREVFDWILDQGYYSERDTSNVVRQVLEAVAYLHSLKIVHRNLKLENLVYYNRLKNSKIVISDFHLAKLENGLIKEPCGTPEYLAPEVVGRQRYGRPVDCWAIGVIMYILLSGNPPFYEEVEEDDYENHDKNLFRKILAGDYEFDSPYWDDISQAAKDLVTRLMEVEQDQRITAEEAISHEWISGNAASDKNIKDGVCAQIEKNFARAKWKKAVRVTTLMKRLRAPEQSSTAAAQSASATDTATPGAAGGATAAAASGATSAPEGDAARAAKSDNVAPADRSATPATDGSATPATDGSVTPATDGSITPATDGSVTPATDRSATPATDGRATPATEESTVPTTQSSAMLATKAAATPEPAMAQPDSTAPEGATGQAPPSSKGEEAAGYAQESQREEAS
+O15075,DCLK1,MSFGRDMELEHFDERDKAQRYSRGSRVNGLPSPTHSAHCSFYRTRTLQTLSSEKKAKKVRFYRNGDRYFKGIVYAISPDRFRSFEALLADLTRTLSDNVNLPQGVRTIYTIDGLKKISSLDQLVEGESYVCGSIEPFKKLEYTKNVNPNWSVNVKTTSASRAVSSLATAKGSPSEVRENKDFIRPKLVTIIRSGVKPRKAVRILLNKKTAHSFEQVLTDITDAIKLDSGVVKRLYTLDGKQVMCLQDFFGDDDIFIACGPEKFRYQDDFLLDESECRVVKSTSYTKIASSSRRSTTKSPGPSRRSKSPASTSSVNGTPGSQLSTPRSGKSPSPSPTSPGSLRKQRSSQHGGSSTSLASTKVCSSMDENDGPGEEVSEEGFQIPATITERYKVGRTIGDGNFAVVKECVERSTAREYALKIIKKSKCRGKEHMIQNEVSILRRVKHPNIVLLIEEMDVPTELYLVMELVKGGDLFDAITSTNKYTERDASGMLYNLASAIKYLHSLNIVHRDIKPENLLVYEHQDGSKSLKLGDFGLATIVDGPLYTVCGTPTYVAPEIIAETGYGLKVDIWAAGVITYILLCGFPPFRGSGDDQEVLFDQILMGQVDFPSPYWDNVSDSAKELITMMLLVDVDQRFSAVQVLEHPWVNDDGLPENEHQLSVAGKIKKHFNTGPKPNSTAAGVSVIATTALDKERQVFRRRRNQDVRSRYKAQPAPPELNSESEDYSPSSSETVRSPNSPF
+O14936,CASK,MADDDVLFEDVYELCEVIGKGPFSVVRRCINRETGQQFAVKIVDVAKFTSSPGLSTEDLKREASICHMLKHPHIVELLETYSSDGMLYMVFEFMDGADLCFEIVKRADAGFVYSEAVASHYMRQILEALRYCHDNNIIHRDVKPHCVLLASKENSAPVKLGGFGVAIQLGESGLVAGGRVGTPHFMAPEVVKREPYGKPVDVWGCGVILFILLSGCLPFYGTKERLFEGIIKGKYKMNPRQWSHISESAKDLVRRMLMLDPAERITVYEALNHPWLKERDRYAYKIHLPETVEQLRKFNARRKLKGAVLAAVSSHKFNSFYGDPPEELPDFSEDPTSSGLLAAERAVSQVLDSLEEIHALTDCSEKDLDFLHSVFQDQHLHTLLDLYDKINTKSSPQIRNPPSDAVQRAKEVLEEISCYPENNDAKELKRILTQPHFMALLQTHDVVAHEVYSDEALRVTPPPTSPYLNGDSPESANGDMDMENVTRVRLVQFQKNTDEPMGITLKMNELNHCIVARIMHGGMIHRQGTLHVGDEIREINGISVANQTVEQLQKMLREMRGSITFKIVPSYRTQSSSCERDSPSTSRQSPANGHSSTNNSVSDLPSTTQPKGRQIYVRAQFEYDPAKDDLIPCKEAGIRFRVGDIIQIISKDDHNWWQGKLENSKNGTAGLIPSPELQEWRVACIAMEKTKQEQQASCTWFGKKKKQYKDKYLAKHNAVFDQLDLVTYEEVVKLPAFKRKTLVLLGAHGVGRRHIKNTLITKHPDRFAYPIPHTTRPPKKDEENGKNYYFVSHDQMMQDISNNEYLEYGSHEDAMYGTKLETIRKIHEQGLIAILDVEPQALKVLRTAEFAPFVVFIAAPTITPGLNEDESLQRLQKESDILQRTYAHYFDLTIINNEIDETIRHLEEAVELVCTAPQWVPVSWVY
+P06493,CDK1,MEDYTKIEKIGEGTYGVVYKGRHKTTGQVVAMKKIRLESEEEGVPSTAIREISLLKELRHPNIVSLQDVLMQDSRLYLIFEFLSMDLKKYLDSIPPGQYMDSSLVKSYLYQILQGIVFCHSRRVLHRDLKPQNLLIDDKGTIKLADFGLARAFGIPIRVYTHEVVTLWYRSPEVLLGSARYSTPVDIWSIGTIFAELATKKPLFHGDSEIDQLFRIFRALGTPNNEVWPEVESLQDYKNTFPKWKPGSLASHVKNLDENGLDLLSKMLIYDPAKRISGKMALNHPYFNDLDNQIKKM
+O00311,CDC7,MEASLGIQMDEPMAFSPQRDRFQAEGSLKKNEQNFKLAGVKKDIEKLYEAVPQLSNVFKIEDKIGEGTFSSVYLATAQLQVGPEEKIALKHLIPTSHPIRIAAELQCLTVAGGQDNVMGVKYCFRKNDHVVIAMPYLEHESFLDILNSLSFQEVREYMLNLFKALKRIHQFGIVHRDVKPSNFLYNRRLKKYALVDFGLAQGTHDTKIELLKFVQSEAQQERCSQNKSHIITGNKIPLSGPVPKELDQQSTTKASVKRPYTNAQIQIKQGKDGKEGSVGLSVQRSVFGERNFNIHSSISHESPAVKLMKQSKTVDVLSRKLATKKKAISTKVMNSAVMRKTASSCPASLTCDCYATDKVCSICLSRRQQVAPRAGTPGFRAPEVLTKCPNQTTAIDMWSAGVIFLSLLSGRYPFYKASDDLTALAQIMTIRGSRETIQAAKTFGKSILCSKEVPAQDLRKLCERLRGMDSSTPKLTSDIQGHASHQPAISEKTDHKASCLVQTPPGQYSGNSFKKGDSNSCEHCFDEYNTNLEGWNEVPDEAYDLLDKLLDLNPASRITAEEALLHPFFKDMSL
+P24941,CDK2,MENFQKVEKIGEGTYGVVYKARNKLTGEVVALKKIRLDTETEGVPSTAIREISLLKELNHPNIVKLLDVIHTENKLYLVFEFLHQDLKKFMDASALTGIPLPLIKSYLFQLLQGLAFCHSHRVLHRDLKPQNLLINTEGAIKLADFGLARAFGVPVRTYTHEVVTLWYRAPEILLGCKYYSTAVDIWSLGCIFAEMVTRRALFPGDSEIDQLFRIFRTLGTPDEVVWPGVTSMPDYKPSFPKWARQDFSKVVPPLDEDGRSLLSQMLHYDPNKRISAKAALAHPFFQDVTKPVPHLRL
+Q00526,CDK3,MDMFQKVEKIGEGTYGVVYKAKNRETGQLVALKKIRLDLEMEGVPSTAIREISLLKELKHPNIVRLLDVVHNERKLYLVFEFLSQDLKKYMDSTPGSELPLHLIKSYLFQLLQGVSFCHSHRVIHRDLKPQNLLINELGAIKLADFGLARAFGVPLRTYTHEVVTLWYRAPEILLGSKFYTTAVDIWSIGCIFAEMVTRKALFPGDSEIDQLFRIFRMLGTPSEDTWPGVTQLPDYKGSFPKWTRKGLEEIVPNLEPEGRDLLMQLLQYDPSQRITAKTALAHPYFSSPEPSPAARQYVLQRFRH
+P11802,CDK4,MATSRYEPVAEIGVGAYGTVYKARDPHSGHFVALKSVRVPNGGGGGGGLPISTVREVALLRRLEAFEHPNVVRLMDVCATSRTDREIKVTLVFEHVDQDLRTYLDKAPPPGLPAETIKDLMRQFLRGLDFLHANCIVHRDLKPENILVTSGGTVKLADFGLARIYSYQMALTPVVVTLWYRAPEVLLQSTYATPVDMWSVGCIFAEMFRRKPLFCGNSEADQLGKIFDLIGLPPEDDWPRDVSLPRGAFPPRGPRPVQSVVPEMEESGAQLLLEMLTFNPHKRISAFRALQHSYLHKDEGNPE
+Q00535,CDK5,MQKYEKLEKIGEGTYGTVFKAKNRETHEIVALKRVRLDDDDEGVPSSALREICLLKELKHKNIVRLHDVLHSDKKLTLVFEFCDQDLKKYFDSCNGDLDPEIVKSFLFQLLKGLGFCHSRNVLHRDLKPQNLLINRNGELKLADFGLARAFGIPVRCYSAEVVTLWYRPPDVLFGAKLYSTSIDMWSAGCIFAELANAGRPLFPGNDVDDQLKRIFRLLGTPTEEQWPSMTKLPDYKPYPMYPATTSLVNVVPKLNATGRDLLQNLLKCNPVQRISAEEALQHPYFSDFCPP
+Q00534,CDK6,MEKDGLCRADQQYECVAEIGEGAYGKVFKARDLKNGGRFVALKRVRVQTGEEGMPLSTIREVAVLRHLETFEHPNVVRLFDVCTVSRTDRETKLTLVFEHVDQDLTTYLDKVPEPGVPTETIKDMMFQLLRGLDFLHSHRVVHRDLKPQNILVTSSGQIKLADFGLARIYSFQMALTSVVVTLWYRAPEVLLQSSYATPVDLWSVGCIFAEMFRRKPLFRGSSDVDQLGKILDVIGLPGEEDWPRDVALPRQAFHSKSAQPIEKFVTDIDELGKDLLLKCLTFNPAKRISAYSALSHPYFQDLERCKENLDSHLPPSQNTSELNTA
+P49336,CDK8,MDYDFKVKLSSERERVEDLFEYEGCKVGRGTYGHVYKAKRKDGKDDKDYALKQIEGTGISMSACREIALLRELKHPNVISLQKVFLSHADRKVWLLFDYAEHDLWHIIKFHRASKANKKPVQLPRGMVKSLLYQILDGIHYLHANWVLHRDLKPANILVMGEGPERGRVKIADMGFARLFNSPLKPLADLDPVVVTFWYRAPELLLGARHYTKAIDIWAIGCIFAELLTSEPIFHCRQEDIKTSNPYHHDQLDRIFNVMGFPADKDWEDIKKMPEHSTLMKDFRRNTYTNCSLIKYMEKHKVKPDSKAFHLLQKLLTMDPIKRITSEQAMQDPYFLEDPLPTSDVFAGCQIPYPKREFLTEEEPDDKGDKKNQQQQQGNNHTNGTGHPGNQDSSHTQGPPLKKVRVVPPTTTSGGLIMTSDYQRSNPHAAYPNPGPSTSQPQSSMGYSATSQQPPQYSHQTHRY
+Q13976,PRKG1,MSELEEDFAKILMLKEERIKELEKRLSEKEEEIQELKRKLHKCQSVLPVPSTHIGPRTTRAQGISAEPQTYRSFHDLRQAFRKFTKSERSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGTVNVTREDSPSEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIGGLDDVSNKAYEDAEAKAKYEAEAAFFANLKLSDFNIIDTLGVGGFGRVELVQLKSEESKTFAMKILKKRHIVDTRQQEHIRSEKQIMQGAHSDFIVRLYRTFKDSKYLYMLMEACLGGELWTILRDRGSFEDSTTRFYTACVVEAFAYLHSKGIIYRDLKPENLILDHRGYAKLVDFGFAKKIGFGKKTWTFCGTPEYVAPEIILNKGHDISADYWSLGILMYELLTGSPPFSGPDPMKTYNIILRGIDMIEFPKKIAKNAANLIKKLCRDNPSERLGNLKNGVKDIQKHKWFEGFNWEGLRKGTLTPPIIPSVASPTDTSNFDSFPEDNDEPPPDDNSGWDIDF
+Q13237,PRKG2,MGNGSVKPKHSKHPDGHSGNLTTDALRNKVTELERELRRKDAEIQEREYHLKELREQLSKQTVAIAELTEELQNKCIQLNKLQDVVHMQGGSPLQASPDKVPLEVHRKTSGLVSLHSRRGAKAGVSAEPTTRTYDLNKPPEFSFEKARVRKDSSEKKLITDALNKNQFLKRLDPQQIKDMVECMYGRNYQQGSYIIKQGEPGNHIFVLAEGRLEVFQGEKLLSSIPMWTTFGELAILYNCTRTASVKAITNVKTWALDREVFQNIMRRTAQARDEQYRNFLRSVSLLKNLPEDKLTKIIDCLEVEYYDKGDYIIREGEEGSTFFILAKGKVKVTQSTEGHDQPQLIKTLQKGEYFGEKALISDDVRSANIIAEENDVACLVIDRETFNQTVGTFEELQKYLEGYVANLNRDDEKRHAKRSMSNWKLSKALSLEMIQLKEKVARFSSSSPFQNLEIIATLGVGGFGRVELVKVKNENVAFAMKCIRKKHIVDTKQQEHVYSEKRILEELCSPFIVKLYRTFKDNKYVYMLLEACLGGELWSILRDRGSFDEPTSKFCVACVTEAFDYLHRLGIIYRDLKPENLILDAEGYLKLVDFGFAKKIGSGQKTWTFCGTPEYVAPEVILNKGHDFSVDFWSLGILVYELLTGNPPFSGVDQMMTYNLILKGIEKMDFPRKITRRPEDLIRRLCRQNPTERLGNLKNGINDIKKHRWLNGFNWEGLKARSLPSPLQRELKGPIDHSYFDKYPPEKGMPPDELSGWDKDF
+Q14004,CDK13,MPSSSDTALGGGGGLSWAEKKLEERRKRRRFLSPQQPPLLLPLLQPQLLQPPPPPPPLLFLAAPGTAAAAAAAAAASSSCFSPGPPLEVKRLARGKRRAGGRQKRRRGPRAGQEAEKRRVFSLPQPQQDGGGGASSGGGVTPLVEYEDVSSQSEQGLLLGGASAATAATAAGGTGGSGGSPASSSGTQRRGEGSERRPRRDRRSSSGRSKERHREHRRRDGQRGGSEASKSRSRHSHSGEERAEVAKSGSSSSSGGRRKSASATSSSSSSRKDRDSKAHRSRTKSSKEPPSAYKEPPKAYREDKTEPKAYRRRRSLSPLGGRDDSPVSHRASQSLRSRKSPSPAGGGSSPYSRRLPRSPSPYSRRRSPSYSRHSSYERGGDVSPSPYSSSSWRRSRSPYSPVLRRSGKSRSRSPYSSRHSRSRSRHRLSRSRSRHSSISPSTLTLKSSLAAELNKNKKARAAEAARAAEAAKAAEATKAAEAAAKAAKASNTSTPTKGNTETSASASQTNHVKDVKKIKIEHAPSPSSGGTLKNDKAKTKPPLQVTKVENNLIVDKATKKAVIVGKESKSAATKEESVSLKEKTKPLTPSIGAKEKEQHVALVTSTLPPLPLPPMLPEDKEADSLRGNISVKAVKKEVEKKLRCLLADLPLPPELPGGDDLSKSPEEKKTATQLHSKRRPKICGPRYGETKEKDIDWGKRCVDKFDIIGIIGEGTYGQVYKARDKDTGEMVALKKVRLDNEKEGFPITAIREIKILRQLTHQSIINMKEIVTDKEDALDFKKDKGAFYLVFEYMDHDLMGLLESGLVHFNENHIKSFMRQLMEGLDYCHKKNFLHRDIKCSNILLNNRGQIKLADFGLARLYSSEESRPYTNKVITLWYRPPELLLGEERYTPAIDVWSCGCILGELFTKKPIFQANQELAQLELISRICGSPCPAVWPDVIKLPYFNTMKPKKQYRRKLREEFVFIPAAALDLFDYMLALDPSKRCTAEQALQCEFLRDVEPSKMPPPDLPLWQDCHELWSKKRRRQKQMGMTDDVSTIKAPRKDLSLGLDDSRTNTPQGVLPSSQLKSQGSSNVAPVKTGPGQHLNHSELAILLNLLQSKTSVNMADFVQVLNIKVNSETQQQLNKINLPAGILATGEKQTDPSTPQQESSKPLGGIQPSSQTIQPKVETDAAQAAVQSAFAVLLTQLIKAQQSKQKDVLLEERENGSGHEASLQLRPPPEPSTPVSGQDDLIQHQDMRILELTPEPDRPRILPPDQRPPEPPEPPPVTEEDLDYRTENQHVPTTSSSLTDPHAGVKAALLQLLAQHQPQDDPKREGGIDYQAGDTYVSTSDYKDNFGSSSFSSAPYVSNDGLGSSSAPPLERRSFIGNSDIQSLDNYSTASSHSGGPPQPSAFSESFPSSVAGYGDIYLNAGPMLFSGDKDHRFEYSHGPIAVLANSSDPSTGPESTHPLPAKMHNYNYGGNLQENPSGPSLMHGQTWTSPAQGPGYSQGYRGHISTSTGRGRGRGLPY
+O14757,CHEK1,MAVPFVEDWDLVQTLGEGAYGEVQLAVNRVTEEAVAVKIVDMKRAVDCPENIKKEICINKMLNHENVVKFYGHRREGNIQYLFLEYCSGGELFDRIEPDIGMPEPDAQRFFHQLMAGVVYLHGIGITHRDIKPENLLLDERDNLKISDFGLATVFRYNNRERLLNKMCGTLPYVAPELLKRREFHAEPVDVWSCGIVLTAMLAGELPWDQPSDSCQEYSDWKEKKTYLNPWKKIDSAPLALLHKILVENPSARITIPDIKKDRWYNKPLKKGAKRPRVTSGGVSESPSGFSKHIQSNLDFSPVNSASSEENVKYSSSQPEPRTGLSLWDTSPSYIDKLVQGISFSQPTCPDHMLLNSQLLGTPGSSQNPWQRLVKRMTRFFTKLDADKSYQCLKETCEKLGYQWKKSCMNQVTISTTDRRNNKLIFKVNLLEMDDKILVDFRLSKGDGLEFKRHFLKIKGKLIDIVSSQKIWLPAT
+O96017,CHEK2,MSRESDVEAQQSHGSSACSQPHGSVTQSQGSSSQSQGISSSSTSTMPNSSQSSHSSSGTLSSLETVSTQELYSIPEDQEPEDQEPEEPTPAPWARLWALQDGFANLECVNDNYWFGRDKSCEYCFDEPLLKRTDKYRTYSKKHFRIFREVGPKNSYIAYIEDHSGNGTFVNTELVGKGKRRPLNNNSEIALSLSRNKVFVFFDLTVDDQSVYPKALRDEYIMSKTLGSGACGEVKLAFERKTCKKVAIKIISKRKFAIGSAREADPALNVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFGHSKILGETSLMRTLCGTPTYLAPEVLVSVGTAGYNRAVDCWSLGVILFICLSGYPPFSEHRTQVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSEENESTALPQVLAQPSTSRKRPREGEAEGAETTKRPAVCAAVL
+P48729,CSNK1A1,MASSSGSKAEFIVGGKYKLVRKIGSGSFGDIYLAINITNGEEVAVKLESQKARHPQLLYESKLYKILQGGVGIPHIRWYGQEKDYNVLVMDLLGPSLEDLFNFCSRRFTMKTVLMLADQMISRIEYVHTKNFIHRDIKPDNFLMGIGRHCNKLFLIDFGLAKKYRDNRTRQHIPYREDKNLTGTARYASINAHLGIEQSRRDDMESLGYVLMYFNRTSLPWQGLKAATKKQKYEKISEKKMSTPVEVLCKGFPAEFAMYLNYCRGLRFEEAPDYMYLRQLFRILFRTLNHQYDYTFDWTMLKQKAAQQAASSSGQGQQAQTPTGKQTDKTKSNMKGF
+P48730,CSNK1D,MELRVGNRYRLGRKIGSGSFGDIYLGTDIAAGEEVAIKLECVKTKHPQLHIESKIYKMMQGGVGIPTIRWCGAEGDYNVMVMELLGPSLEDLFNFCSRKFSLKTVLLLADQMISRIEYIHSKNFIHRDVKPDNFLMGLGKKGNLVYIIDFGLAKKYRDARTHQHIPYRENKNLTGTARYASINTHLGIEQSRRDDLESLGYVLMYFNLGSLPWQGLKAATKRQKYERISEKKMSTPIEVLCKGYPSEFATYLNFCRSLRFDDKPDYSYLRQLFRNLFHRQGFSYDYVFDWNMLKFGASRAADDAERERRDREERLRHSRNPATRGLPSTASGRLRGTQEVAPPTPLTPTSHTANTSPRPVSGMERERKVSMRLHRGAPVNISSSDLTGRQDTSRMSTSQIPGRVASSGLQSVVHR
+P49674,CSNK1E,MELRVGNKYRLGRKIGSGSFGDIYLGANIASGEEVAIKLECVKTKHPQLHIESKFYKMMQGGVGIPSIKWCGAEGDYNVMVMELLGPSLEDLFNFCSRKFSLKTVLLLADQMISRIEYIHSKNFIHRDVKPDNFLMGLGKKGNLVYIIDFGLAKKYRDARTHQHIPYRENKNLTGTARYASINTHLGIEQSRRDDLESLGYVLMYFNLGSLPWQGLKAATKRQKYERISEKKMSTPIEVLCKGYPSEFSTYLNFCRSLRFDDKPDYSYLRQLFRNLFHRQGFSYDYVFDWNMLKFGAARNPEDVDRERREHEREERMGQLRGSATRALPPGPPTGATANRLRSAAEPVASTPASRIQPAGNTSPRAISRVDRERKVSMRLHRGAPANVSSSDLTGRQEVSRIPASQTSVPFDHLGK
+P78368,CSNK1G2,MDFDKKGGKGETEEGRRMSKAGGGRSSHGIRSSGTSSGVLMVGPNFRVGKKIGCGNFGELRLGKNLYTNEYVAIKLEPIKSRAPQLHLEYRFYKQLSATEGVPQVYYFGPCGKYNAMVLELLGPSLEDLFDLCDRTFTLKTVLMIAIQLITRMEYVHTKSLIYRDVKPENFLVGRPGTKRQHAIHIIDFGLAKEYIDPETKKHIPYREHKSLTGTARYMSINTHLGKEQSRRDDLEALGHMFMYFLRGSLPWQGLKADTLKERYQKIGDTKRATPIEVLCENFPEEMATYLRYVRRLDFFEKPDYDYLRKLFTDLFDRSGFVFDYEYDWAGKPLPTPIGTVHTDLPSQPQLRDKTQPHSKNQALNSTNGELNADDPTAGHSNAPITAPAEVEVADETKCCCFFKRRKRKSLQRHK
+Q9Y6M4,CSNK1G3,MENKKKDKDKSDDRMARPSGRSGHNTRGTGSSSSGVLMVGPNFRVGKKIGCGNFGELRLGKNLYTNEYVAIKLEPMKSRAPQLHLEYRFYKQLGSGDGIPQVYYFGPCGKYNAMVLELLGPSLEDLFDLCDRTFSLKTVLMIAIQLISRMEYVHSKNLIYRDVKPENFLIGRPGNKTQQVIHIIDFGLAKEYIDPETKKHIPYREHKSLTGTARYMSINTHLGKEQSRRDDLEALGHMFMYFLRGSLPWQGLKADTLKERYQKIGDTKRATPIEVLCENFPEMATYLRYVRRLDFFEKPDYDYLRKLFTDLFDRKGYMFDYEYDWIGKQLPTPVGAVQQDPALSSNREAHQHRDKMQQSKNQSADHRAAWDSQQANPHHLRAHLAADRHGGSVQVVSSTNGELNTDDPTAGRSNAPITAPTEVEVMDETKCCCFFKRRKRKTIQRHK
+P68400,CSNK2A1,MSGPVPSRARVYTDVNTHRPREYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTVVKDQARMGSSSMPGGSTPVSSANMMSGISSVPTPSPLGPLAGSPVIAAANPLGMPVPAAAGAQQ
+P19784,CSNK2A2,MPGPAAGSRARVYAEVNSLRSREYWDYEAHVPSWGNQDDYQLVRKLGRGKYSEVFEAINITNNERVVVKILKPVKKKKIKREVKILENLRGGTNIIKLIDTVKDPVSKTPALVFEYINNTDFKQLYQILTDFDIRFYMYELLKALDYCHSKGIMHRDVKPHNVMIDHQQKKLRLIDWGLAEFYHPAQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRREPFFHGQDNYDQLVRIAKVLGTEELYGYLKKYHIDLDPHFNDILGQHSRKRWENFIHSENRHLVSPEALDLLDKLLRYDHQQRLTAKEAMEHPYFYPVVKEQSQPCADNAVLSSGLTAAR
+P49759,CLK1,MRHSKRTYCPDWDDKDWDYGKWRSSSSHKRRKRSHSSAQENKRCKYNHSKMCDSHYLESRSINEKDYHSRRYIDEYRNDYTQGCEPGHRQRDHESRYQNHSSKSSGRSGRSSYKSKHRIHHSTSHRRSHGKSHRRKRTRSVEDDEEGHLICQSGDVLSARYEIVDTLGEGAFGKVVECIDHKAGGRHVAVKIVKNVDRYCEAARSEIQVLEHLNTTDPNSTFRCVQMLEWFEHHGHICIVFELLGLSTYDFIKENGFLPFRLDHIRKMAYQICKSVNFLHSNKLTHTDLKPENILFVQSDYTEAYNPKIKRDERTLINPDIKVVDFGSATYDDEHHSTLVSTRHYRAPEVILALGWSQPCDVWSIGCILIEYYLGFTVFPTHDSKEHLAMMERILGPLPKHMIQKTRKRKYFHHDRLDWDEHSSAGRYVSRRCKPLKEFMLSQDVEHERLFDLIQKMLEYDPAKRITLREALKHPFFDLLKKSI
+P49760,CLK2,MPHPRRYHSSERGSRGSYREHYRSRKHKRRRSRSWSSSSDRTRRRRREDSYHVRSRSSYDDRSSDRRVYDRRYCGSYRRNDYSRDRGDAYYDTDYRHSYEYQRENSSYRSQRSSRRKHRRRRRRSRTFSRSSSQHSSRRAKSVEDDAEGHLIYHVGDWLQERYEIVSTLGEGTFGRVVQCVDHRRGGARVALKIIKNVEKYKEAARLEINVLEKINEKDPDNKNLCVQMFDWFDYHGHMCISFELLGLSTFDFLKDNNYLPYPIHQVRHMAFQLCQAVKFLHDNKLTHTDLKPENILFVNSDYELTYNLEKKRDERSVKSTAVRVVDFGSATFDHEHHSTIVSTRHYRAPEVILELGWSQPCDVWSIGCIIFEYYVGFTLFQTHDNREHLAMMERILGPIPSRMIRKTRKQKYFYRGRLDWDENTSAGRYVRENCKPLRRYLTSEAEEHHQLFDLIESMLEYEPAKRLTLGEALQHPFFARLRAEPPNKLWDSSRDISR
+P49761,CLK3,MHHCKRYRSPEPDPYLSYRWKRRRSYSREHEGRLRYPSRREPPPRRSRSRSHDRLPYQRRYRERRDSDTYRCEERSPSFGEDYYGPSRSRHRRRSRERGPYRTRKHAHHCHKRRTRSCSSASSRSQQSSKRSSRSVEDDKEGHLVCRIGDWLQERYEIVGNLGEGTFGKVVECLDHARGKSQVALKIIRNVGKYREAARLEINVLKKIKEKDKENKFLCVLMSDWFNFHGHMCIAFELLGKNTFEFLKENNFQPYPLPHVRHMAYQLCHALRFLHENQLTHTDLKPENILFVNSEFETLYNEHKSCEEKSVKNTSIRVADFGSATFDHEHHTTIVATRHYRPPEVILELGWAQPCDVWSIGCILFEYYRGFTLFQTHENREHLVMMEKILGPIPSHMIHRTRKQKYFYKGGLVWDENSSDGRYVKENCKPLKSYMLQDSLEHVQLFDLMRRMLEFDPAQRITLAEALLHPFFAGLTPEERSFHTSRNPSR
+P41279,MAP3K8,MEYMSTGSDNKEEIDLLIKHLNVSDVIDIMENLYASEEPAVYEPSLMTMCQDSNQNDERSKSLLLSGQEVPWLSSVRYGTVEDLLAFANHISNTAKHFYGQRPQESGILLNMVITPQNGRYQIDSDVLLIPWKLTYRNIGSDFIPRGAFGKVYLAQDIKTKKRMACKLIPVDQFKPSDVEIQACFRHENIAELYGAVLWGETVHLFMEAGEGGSVLEKLESCGPMREFEIIWVTKHVLKGLDFLHSKKVIHHDIKPSNIVFMSTKAVLVDFGLSVQMTEDVYFPKDLRGTEIYMSPEVILCRGHSTKADIYSLGATLIHMQTGTPPWVKRYPRSAYPSYLYIIHKQAPPLEDIADDCSPGMRELIEASLERNPNHRPRAADLLKHEALNPPREDQPRCQSLDSALLERKRLLSRKELELPENIADSSCTGSTEESEMLKRQRSLYIDLGALAGYFNLVRGPPTLEYG
+P07333,CSF1R,MGPGVLLLLLVATAWHGQGIPVIEPSVPELVVKPGATVTLRCVGNGSVEWDGPPSPHWTLYSDGSSSILSTNNATFQNTGTYRCTEPGDPLGGSAAIHLYVKDPARPWNVLAQEVVVFEDQDALLPCLLTDPVLEAGVSLVRVRGRPLMRHTNYSFSPWHGFTIHRAKFIQSQDYQCSALMGGRKVMSISIRLKVQKVIPGPPALTLVPAELVRIRGEAAQIVCSASSVDVNFDVFLQHNNTKLAIPQQSDFHNNRYQKVLTLNLDQVDFQHAGNYSCVASNVQGKHSTSMFFRVVESAYLNLSSEQNLIQEVTVGEGLNLKVMVEAYPGLQGFNWTYLGPFSDHQPEPKLANATTKDTYRHTFTLSLPRLKPSEAGRYSFLARNPGGWRALTFELTLRYPPEVSVIWTFINGSGTLLCAASGYPQPNVTWLQCSGHTDRCDEAQVLQVWDDPYPEVLSQEPFHKVTVQSLLTVETLEHNQTYECRAHNSVGSGSWAFIPISAGAHTHPPDEFLFTPVVVACMSIMALLLLLLLLLLYKYKQKPKYQVRWKIIESYEGNSYTFIDPTQLPYNEKWEFPRNNLQFGKTLGAGAFGKVVEATAFGLGKEDAVLKVAVKMLKSTAHADEKEALMSELKIMSHLGQHENIVNLLGACTHGGPVLVITEYCCYGDLLNFLRRKAEAMLGPSLSPGQDPEGGVDYKNIHLEKKYVRRDSGFSSQGVDTYVEMRPVSTSSNDSFSEQDLDKEDGRPLELRDLLHFSSQVAQGMAFLASKNCIHRDVAARNVLLTNGHVAKIGDFGLARDIMNDSNYIVKGNARLPVKWMAPESIFDCVYTVQSDVWSYGILLWEIFSLGLNPYPGILVNSKFYKLVKDGYQMAQPAFAPKNIYSIMQACWALEPTHRPTFQQICSFLQEQAQEDRRERDYTNLPSSSRSGGSGSSSSELEEESSSEHLTCCEQGDIAQPLLQPNNYQFC
+P41240,CSK,MSAIQAAWPSGTECIAKYNFHGTAEQDLPFCKGDVLTIVAVTKDPNWYKAKNKVGREGIIPANYVQKREGVKAGTKLSLMPWFHGKITREQAERLLYPPETGLFLVRESTNYPGDYTLCVSCDGKVEHYRIMYHASKLSIDEEVYFENLMQLVEHYTSDADGLCTRLIKPKVMEGTVAAQDEFYRSGWALNMKELKLLQTIGKGEFGDVMLGDYRGNKVAVKCIKNDATAQAFLAEASVMTQLRHSNLVQLLGVIVEEKGGLYIVTEYMAKGSLVDYLRSRGRSVLGGDCLLKFSLDVCEAMEYLEGNNFVHRDLAARNVLVSEDNVAKVSDFGLTKEASSTQDTGKLPVKWTAPEALREKKFSTKSDVWSFGILLWEIYSFGRVPYPRIPLKDVVPRVEKGYKMDAPDGCPPAVYEVMKNCWHLDAAMRPSFLQLREQLEHIKTHELHL
+P27448,MARK3,MSTRTPLPTVNERDTENHTSHGDGRQEVTSRTSRSGARCRNSIASCADEQPHIGNYRLLKTIGKGNFAKVKLARHILTGREVAIKIIDKTQLNPTSLQKLFREVRIMKILNHPNIVKLFEVIETEKTLYLIMEYASGGEVFDYLVAHGRMKEKEARSKFRQIVSAVQYCHQKRIVHRDLKAENLLLDADMNIKIADFGFSNEFTVGGKLDTFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKRFLVLNPIKRGTLEQIMKDRWINAGHEEDELKPFVEPELDISDQKRIDIMVGMGYSQEEIQESLSKMKYDEITATYLLLGRKSSELDASDSSSSSNLSLAKVRPSSDLNNSTGQSPHHKVQRSVSSSQKQRRYSDHAGPAIPSVVAYPKRSQTSTADSDLKEDGISSRKSSGSAVGGKGIAPASPMLGNASNPNKADIPERKKSSTVPSSNTASGGMTRRNTYVCSERTTADRHSVIQNGKENSTIPDQRTPVASTHSISSAATPDRIRFPRGTASRSTFHGQPRERRTATYNGPPASPSLSHEATPLSQTRSRGSTNLFSKLTSKLTRRNMSFRFIKRLPTEYERNGRYEGSSRNVSAEQKDENKEAKPRSLRFTWSMKTTSSMDPGDMMREIRKVLDANNCDYEQRERFLLFCVHGDGHAENLVQWEMEVCKLPRLSLNGVRFKRISGTSIAFKNIASKIANELKL
+Q02846,GUCY2D,MTACARRAGGLPDPGLCGPAWWAPSLPRLPRALPRLPLLLLLLLLQPPALSAVFTVGVLGPWACDPIFSRARPDLAARLAAARLNRDPGLAGGPRFEVALLPEPCRTPGSLGAVSSALARVSGLVGPVNPAACRPAELLAEEAGIALVPWGCPWTQAEGTTAPAVTPAADALYALLRAFGWARVALVTAPQDLWVEAGRSLSTALRARGLPVASVTSMEPLDLSGAREALRKVRDGPRVTAVIMVMHSVLLGGEEQRYLLEAAEELGLTDGSLVFLPFDTIHYALSPGPEALAALANSSQLRRAHDAVLTLTRHCPSEGSVLDSLRRAQERRELPSDLNLQQVSPLFGTIYDAVFLLARGVAEARAAAGGRWVSGAAVARHIRDAQVPGFCGDLGGDEEPPFVLLDTDAAGDRLFATYMLDPARGSFLSAGTRMHFPRGGSAPGPDPSCWFDPNNICGGGLEPGLVFLGFLLVVGMGLAGAFLAHYVRHRLLHMQMVSGPNKIILTVDDITFLHPHGGTSRKVAQGSRSSLGARSMSDIRSGPSQHLDSPNIGVYEGDRVWLKKFPGDQHIAIRPATKTAFSKLQELRHENVALYLGLFLARGAEGPAALWEGNLAVVSEHCTRGSLQDLLAQREIKLDWMFKSSLLLDLIKGIRYLHHRGVAHGRLKSRNCIVDGRFVLKITDHGHGRLLEAQKVLPEPPRAEDQLWTAPELLRDPALERRGTLAGDVFSLAIIMQEVVCRSAPYAMLELTPEEVVQRVRSPPPLCRPLVSMDQAPVECILLMKQCWAEQPELRPSMDHTFDLFKNINKGRKTNIIDSMLRMLEQYSSNLEDLIRERTEELELEKQKTDRLLTQMLPPSVAEALKTGTPVEPEYFEQVTLYFSDIVGFTTISAMSEPIEVVDLLNDLYTLFDAIIGSHDVYKVETIGDAYMVASGLPQRNGQRHAAEIANMSLDILSAVGTFRMRHMPEVPVRIRIGLHSGPCVAGVVGLTMPRYCLFGDTVNTASRMESTGLPYRIHVNLSTVGILRALDSGYQVELRGRTELKGKGAEDTFWLVGRRGFNKPIPKPPDLQPGSSNHGISLQEIPPERRRKLEKARPGQFS
+P51841,GUCY2F,MFLGLGRFSRLVLWFAAFRKLLGHHGLASAKFLWCLCLLSVMSLPQQVWTLPYKIGVVGPWACDSLFSKALPEVAARLAIERINRDPSFDLSYSFEYVILNEDCQTSRALSSFISHHQMASGFIGPTNPGYCEAASLLGNSWDKGIFSWACVNYELDNKISYPTFSRTLPSPIRVLVTVMKYFQWAHAGVISSDEDIWVHTANRVASALRSHGLPVGVVLTTGQDSQSMRKALQRIHQADRIRIIIMCMHSALIGGETQMHLLECAHDLKMTDGTYVFVPYDALLYSLPYKHTPYRVLRNNPKLREAYDAVLTITVESQEKTFYQAFTEAAARGEIPEKLEFDQVSPLFGTIYNSIYFIAQAMNNAMKENGQAGAASLVQHSRNMQFHGFNQLMRTDSNGNGISEYVILDTNLKEWELHSTYTVDMEMELLRFGGTPIHFPGGRPPRADAKCWFAEGKICHGGIDPAFAMMVCLTLLIALLSINGFAYFIRRRINKIQLIKGPNRILLTLEDVTFINPHFGSKRGSRASVSFQITSEVQSGRSPRLSFSSGSLTPATYENSNIAIYEGDWVWLKKFSLGDFGDLKSIKSRASDVFEMMKDLRHENINPLLGFFYDSGMFAIVTEFCSRGSLEDILTNQDVKLDWMFKSSLLLDLIKGMKYLHHREFVHGRLKSRNCVVDGRFVLKVTDYGFNDILEMLRLSEEESSMEELLWTAPELLRAPRGSRLGSFAGDVYSFAIIMQEVMVRGTPFCMMDLPAQEIINRLKKPPPVYRPVVPPEHAPPECLQLMKQCWAEAAEQRPTFDEIFNQFKTFNKGKKTNIIDSMLRMLEQYSSNLEDLIRERTEELEIEKQKTEKLLTQMLPPSVAESLKKGCTVEPEGFDLVTLYFSDIVGFTTISAMSEPIEVVDLLNDLYTLFDAIIGSHDVYKVETIGDAYMVASGLPKRNGSRHAAEIANMSLDILSSVGTFKMRHMPEVPVRIRIGLHSGPVVAGVVGLTMPRYCLFGDTVNTASRMESTGLPYRIHVSLSTVTILQNLSEGYEVELRGRTELKGKGTEETFWLIGKKGFMKPLPVPPPVDKDGQVGHGLQPVEIAAFQRRKAERQLVRNKP
+P53355,DAPK1,MTVFRQENVDDYYDTGEELGSGQFAVVKKCREKSTGLQYAAKFIKKRRTKSSRRGVSREDIEREVSILKEIQHPNVITLHEVYENKTDVILILELVAGGELFDFLAEKESLTEEEATEFLKQILNGVYYLHSLQIAHFDLKPENIMLLDRNVPKPRIKIIDFGLAHKIDFGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGDTKQETLANVSAVNYEFEDEYFSNTSALAKDFIRRLLVKDPKKRMTIQDSLQHPWIKPKDTQQALSRKASAVNMEKFKKFAARKKWKQSVRLISLCQRLSRSFLSRSNMSVARSDDTLDEEDSFVMKAIIHAINDDNVPGLQHLLGSLSNYDVNQPNKHGTPPLLIAAGCGNIQILQLLIKRGSRIDVQDKGGSNAVYWAARHGHVDTLKFLSENKCPLDVKDKSGEMALHVAARYGHADVAQLLCSFGSNPNIQDKEEETPLHCAAWHGYYSVAKALCEAGCNVNIKNREGETPLLTASARGYHDIVECLAEHGADLNACDKDGHIALHLAVRRCQMEVIKTLLSQGCFVDYQDRHGNTPLHVACKDGNMPIVVALCEANCNLDISNKYGRTPLHLAANNGILDVVRYLCLMGASVEALTTDGKTAEDLARSEQHEHVAGLLARLRKDTHRGLFIQQLRPTQNLQPRIKLKLFGHSGSGKTTLVESLKCGLLRSFFRRRRPRLSSTNSSRFPPSPLASKPTVSVSINNLYPGCENVSVRSRSMMFEPGLTKGMLEVFVAPTHHPHCSADDQSTKAIDIQNAYLNGVGDFSVWEFSGNPVYFCCYDYFAANDPTSIHVVVFSLEEPYEIQLNQVIFWLSFLKSLVPVEEPIAFGGKLKNPLQVVLVATHADIMNVPRPAGGEFGYDKDTSLLKEIRNRFGNDLHISNKLFVLDAGASGSKDMKVLRNHLQEIRSQIVSVCPPMTHLCEKIISTLPSWRKLNGPNQLMSLQQFVYDVQDQLNPLASEEDLRRIAQQLHSTGEINIMQSETVQDVLLLDPRWLCTNVLGKLLSVETPRALHHYRGRYTVEDIQRLVPDSDVEELLQILDAMDICARDLSSGTMVDVPALIKTDNLHRSWADEEDEVMVYGGVRIVPVEHLTPFPCGIFHKVQVNLCRWIHQQSTEGDADIRLWVNGCKLANRGAELLVLLVNHGQGIEVQVRGLETEKIKCCLLLDSVCSTIENVMATTLPGLLTVKHYLSPQQLREHHEPVMIYQPRDFFRAQTLKETSLTNTMGGYKESFSSIMCFGCHDVYSQASLGMDIHASDLNLLTRRKLSRLLDPPDPLGKDWCLLAMNLGLPDLVAKYNTSNGAPKDFLPSPLHALLREWTTYPESTVGTLMSKLRELGRRDAADFLLKASSVFKINLDGNGQEAYASSCNSGTSYNSISSVVSR
+Q9UIK4,DAPK2,MFQASMRSPNMEPFKQQKVEDFYDIGEELGSGQFAIVKKCREKSTGLEYAAKFIKKRQSRASRRGVSREEIEREVSILRQVLHHNVITLHDVYENRTDVVLILELVSGGELFDFLAQKESLSEEEATSFIKQILDGVNYLHTKKIAHFDLKPENIMLLDKNIPIPHIKLIDFGLAHEIEDGVEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGDTKQETLANITAVSYDFDEEFFSQTSELAKDFIRKLLVKETRKRLTIQEALRHPWITPVDNQQAMVRRESVVNLENFRKQYVRRRWKLSFSIVSLCNHLTRSLMKKVHLRPDEDLRNCESDTEEDIARRKALHPRRRSSTS
+Q12852,MAP3K12,MACLHETRTPSPSFGGFVSTLSEASMRKLDPDTSDCTPEKDLTPTHVLQLHEQDAGGPGGAAGSPESRASRVRADEVRLQCQSGSGFLEGLFGCLRPVWTMIGKAYSTEHKQQQEDLWEVPFEEILDLQWVGSGAQGAVFLGRFHGEEVAVKKVRDLKETDIKHLRKLKHPNIITFKGVCTQAPCYCILMEFCAQGQLYEVLRAGRPVTPSLLVDWSMGIAGGMNYLHLHKIIHRDLKSPNMLITYDDVVKISDFGTSKELSDKSTKMSFAGTVAWMAPEVIRNEPVSEKVDIWSFGVVLWELLTGEIPYKDVDSSAIIWGVGSNSLHLPVPSSCPDGFKILLRQCWNSKPRNRPSFRQILLHLDIASADVLSTPQETYFKSQAEWREEVKLHFEKIKSEGTCLHRLEEELVMRRREELRHALDIREHYERKLERANNLYMELNALMLQLELKERELLRREQALERRCPGLLKPHPSRGLLHGNTMEKLIKKRNVPQKLSPHSKRPDILKTESLLPKLDAALSGVGLPGCPKGPPSPGRSRRGKTRHRKASAKGSCGDLPGLRTAVPPHEPGGPGSPGGLGGGPSAWEACPPALRGLHHDLLLRKMSSSSPDLLSAALGSRGRGATGGAGDPGSPPPARGDTPPSEGSAPGSTSPDSPGGAKGEPPPPVGPGEGVGLLGTGREGTSGRGGSRAGSQHLTPAALLYRAAVTRSQKRGISSEEEEGEVDSEVELTSSQRWPQSLNMRQSLSTFSSENPSDGEEGTASEPSPSGTPEVGSTNTDERPDERSDDMCSQGSEIPLDPPPSEVIPGPEPSSLPIPHQELLRERGPPNSEDSDCDSTELDNSNSVDALRPPASLPP
+Q09013,DMPK,MSAEVRLRRLQQLVLDPGFLGLEPLLDLLLGVHQELGASELAQDKYVADFLQWAEPIVVRLKEVRLQRDDFEILKVIGRGAFSEVAVVKMKQTGQVYAMKIMNKWDMLKRGEVSCFREERDVLVNGDRRWITQLHFAFQDENYLYLVMEYYVGGDLLTLLSKFGERIPAEMARFYLAEIVMAIDSVHRLGYVHRDIKPDNILLDRCGHIRLADFGSCLKLRADGTVRSLVAVGTPDYLSPEILQAVGGGPGTGSYGPECDWWALGVFAYEMFYGQTPFYADSTAETYGKIVHYKEHLSLPLVDEGVPEEARDFIQRLLCPPETRLGRGGAGDFRTHPFFFGLDWDGLRDSVPPFTPDFEGATDTCNFDLVEDGLTAMVSGGGETLSDIREGAPLGVHLPFVGYSYSCMALRDSEVPGPTPMELEAEQLLEPHVQAPSLEPSVSPQDETAEVAVPAAVPAAEAEAEVTLRELQEALEEEVLTRQSLSREMEAIRTDNQNFASQLREAEARNRDLEAHVRQLQERMELLQAEGATAVTGVPSPRATDPPSHLDGPPAVAVGQCPLVGPGPMHRRHLLLPARVPRPGLSEALSLLLFAVVLSRAAALGCIGLVAHAGQLTAVWRRPGAARAP
+Q6DT37,CDC42BPG,MERRLRALEQLARGEAGGCPGLDGLLDLLLALHHELSSGPLRRERSVAQFLSWASPFVSKVKELRLQRDDFEILKVIGRGAFGEVTVVRQRDTGQIFAMKMLHKWEMLKRAETACFREERDVLVKGDSRWVTTLHYAFQDEEYLYLVMDYYAGGDLLTLLSRFEDRLPPELAQFYLAEMVLAIHSLHQLGYVHRDVKPDNVLLDVNGHIRLADFGSCLRLNTNGMVDSSVAVGTPDYISPEILQAMEEGKGHYGPQCDWWSLGVCAYELLFGETPFYAESLVETYGKIMNHEDHLQFPPDVPDVPASAQDLIRQLLCRQEERLGRGGLDDFRNHPFFEGVDWERLASSTAPYIPELRGPMDTSNFDVDDDTLNHPGTLPPPSHGAFSGHHLPFVGFTYTSGSHSPESSSEAWAALERKLQCLEQEKVELSRKHQEALHAPTDHRELEQLRKEVQTLRDRLPEMLRDKASLSQTDGPPAGSPGQDSDLRQELDRLHRELAEGRAGLQAQEQELCRAQGQQEELLQRLQEAQEREAATASQTRALSSQLEEARAAQRELEAQVSSLSRQVTQLQGQWEQRLEESSQAKTIHTASETNGMGPPEGGPQEAQLRKEVAALREQLEQAHSHRPSGKEEALCQLQEENRRLSREQERLEAELAQEQESKQRLEGERRETESNWEAQLADILSWVNDEKVSRGYLQALATKMAEELESLRNVGTQTLPARPLDHQWKARRLQKMEASARLELQSALEAEIRAKQGLQERLTQVQEAQLQAERRLQEAEKQSQALQQELAMLREELRARGPVDTKPSNSLIPFLSFRSSEKDSAKDPGISGEATRHGGEPDLRPEGRRSLRMGAVFPRAPTANTASTEGLPAKPGSHTLRPRSFPSPTKCLRCTSLMLGLGRQGLGCDACGYFCHTTCAPQAPPCPVPPDLLRTALGVHPETGTGTAYEGFLSVPRPSGVRRGWQRVFAALSDSRLLLFDAPDLRLSPPSGALLQVLDLRDPQFSATPVLASDVIHAQSRDLPRIFRVTTSQLAVPPTTCTVLLLAESEGERERWLQVLGELQRLLLDARPRPRPVYTLKEAYDNGLPLLPHTLCAAILDQDRLALGTEEGLFVIHLRSNDIFQVGECRRVQQLTLSPSAGLLVVLCGRGPSVRLFALAELENIEVAGAKIPESRGCQVLAAGSILQARTPVLCVAVKRQVLCYQLGPGPGPWQRRIRELQAPATVQSLGLLGDRLCVGAAGGFALYPLLNEAAPLALGAGLVPEELPPSRGGLGEALGAVELSLSEFLLLFTTAGIYVDGAGRKSRGHELLWPAAPMGWGYAAPYLTVFSENSIDVFDVRRAEWVQTVPLKKVRPLNPEGSLFLYGTEKVRLTYLRNQLAEKDEFDIPDLTDNSRRQLFRTKSKRRFFFRVSEEQQKQQRREMLKDPFVRSKLISPPTNFNHLVHVGPANGRPGARDKSPAPEEKGRVARGSGPQRPHSFSEALRRPASMGSEGLGGDADPMKRKPWTSLSSESVSCPQGSLSPATSLMQVSERPRSLPLSPELESSP
+P78527,PRKDC,MAGSGAGVRCSLLRLQETLSAADRCGAALAGHQLIRGLGQECVLSSSPAVLALQTSLVFSRDFGLLVFVRKSLNSIEFRECREEILKFLCIFLEKMGQKIAPYSVEIKNTCTSVYTKDRAAKCKIPALDLLIKLLQTFRSSRLMDEFKIGELFSKFYGELALKKKIPDTVLEKVYELLGLLGEVHPSEMINNAENLFRAFLGELKTQMTSAVREPKLPVLAGCLKGLSSLLCNFTKSMEEDPQTSREIFNFVLKAIRPQIDLKRYAVPSAGLRLFALHASQFSTCLLDNYVSLFEVLLKWCAHTNVELKKAALSALESFLKQVSNMVAKNAEMHKNKLQYFMEQFYGIIRNVDSNNKELSIAIRGYGLFAGPCKVINAKDVDFMYVELIQRCKQMFLTQTDTGDDRVYQMPSFLQSVASVLLYLDTVPEVYTPVLEHLVVMQIDSFPQYSPKMQLVCCRAIVKVFLALAAKGPVLRNCISTVVHQGLIRICSKPVVLPKGPESESEDHRASGEVRTGKWKVPTYKDYVDLFRHLLSSDQMMDSILADEAFFSVNSSSESLNHLLYDEFVKSVLKIVEKLDLTLEIQTVGEQENGDEAPGVWMIPTSDPAANLHPAKPKDFSAFINLVEFCREILPEKQAEFFEPWVYSFSYELILQSTRLPLISGFYKLLSITVRNAKKIKYFEGVSPKSLKHSPEDPEKYSCFALFVKFGKEVAVKMKQYKDELLASCLTFLLSLPHNIIELDVRAYVPALQMAFKLGLSYTPLAEVGLNALEEWSIYIDRHVMQPYYKDILPCLDGYLKTSALSDETKNNWEVSALSRAAQKGFNKVVLKHLKKTKNLSSNEAISLEEIRIRVVQMLGSLGGQINKNLLTVTSSDEMMKSYVAWDREKRLSFAVPFREMKPVIFLDVFLPRVTELALTASDRQTKVAACELLHSMVMFMLGKATQMPEGGQGAPPMYQLYKRTFPVLLRLACDVDQVTRQLYEPLVMQLIHWFTNNKKFESQDTVALLEAILDGIVDPVDSTLRDFCGRCIREFLKWSIKQITPQQQEKSPVNTKSLFKRLYSLALHPNAFKRLGASLAFNNIYREFREEESLVEQFVFEALVIYMESLALAHADEKSLGTIQQCCDAIDHLCRIIEKKHVSLNKAKKRRLPRGFPPSASLCLLDLVKWLLAHCGRPQTECRHKSIELFYKFVPLLPGNRSPNLWLKDVLKEEGVSFLINTFEGGGCGQPSGILAQPTLLYLRGPFSLQATLCWLDLLLAALECYNTFIGERTVGALQVLGTEAQSSLLKAVAFFLESIAMHDIIAAEKCFGTGAAGNRTSPQEGERYNYSKCTVVVRIMEFTTTLLNTSPEGWKLLKKDLCNTHLMRVLVQTLCEPASIGFNIGDVQVMAHLPDVCVNLMKALKMSPYKDILETHLREKITAQSIEELCAVNLYGPDAQVDRSRLAAVVSACKQLHRAGLLHNILPSQSTDLHHSVGTELLSLVYKGIAPGDERQCLPSLDLSCKQLASGLLELAFAFGGLCERLVSLLLNPAVLSTASLGSSQGSVIHFSHGEYFYSLFSETINTELLKNLDLAVLELMQSSVDNTKMVSAVLNGMLDQSFRERANQKHQGLKLATTILQHWKKCDSWWAKDSPLETKMAVLALLAKILQIDSSVSFNTSHGSFPEVFTTYISLLADTKLDLHLKGQAVTLLPFFTSLTGGSLEELRRVLEQLIVAHFPMQSREFPPGTPRFNNYVDCMKKFLDALELSQSPMLLELMTEVLCREQQHVMEELFQSSFRRIARRGSCVTQVGLLESVYEMFRKDDPRLSFTRQSFVDRSLLTLLWHCSLDALREFFSTIVVDAIDVLKSRFTKLNESTFDTQITKKMGYYKILDVMYSRLPKDDVHAKESKINQVFHGSCITEGNELTKTLIKLCYDAFTENMAGENQLLERRRLYHCAAYNCAISVICCVFNELKFYQGFLFSEKPEKNLLIFENLIDLKRRYNFPVEVEVPMERKKKYIEIRKEAREAANGDSDGPSYMSSLSYLADSTLSEEMSQFDFSTGVQSYSYSSQDPRPATGRFRRREQRDPTVHDDVLELEMDELNRHECMAPLTALVKHMHRSLGPPQGEEDSVPRDLPSWMKFLHGKLGNPIVPLNIRLFLAKLVINTEEVFRPYAKHWLSPLLQLAASENNGGEGIHYMVVEIVATILSWTGLATPTGVPKDEVLANRLLNFLMKHVFHPKRAVFRHNLEIIKTLVECWKDCLSIPYRLIFEKFSGKDPNSKDNSVGIQLLGIVMANDLPPYDPQCGIQSSEYFQALVNNMSFVRYKEVYAAAAEVLGLILRYVMERKNILEESLCELVAKQLKQHQNTMEDKFIVCLNKVTKSFPPLADRFMNAVFFLLPKFHGVLKTLCLEVVLCRVEGMTELYFQLKSKDFVQVMRHRDDERQKVCLDIIYKMMPKLKPVELRELLNPVVEFVSHPSTTCREQMYNILMWIHDNYRDPESETDNDSQEIFKLAKDVLIQGLIDENPGLQLIIRNFWSHETRLPSNTLDRLLALNSLYSPKIEVHFLSLATNFLLEMTSMSPDYPNPMFEHPLSECEFQEYTIDSDWRFRSTVLTPMFVETQASQGTLQTRTQEGSLSARWPVAGQIRATQQQHDFTLTQTADGRSSFDWLTGSSTDPLVDHTSPSSDSLLFAHKRSERLQRAPLKSVGPDFGKKRLGLPGDEVDNKVKGAAGRTDLLRLRRRFMRDQEKLSLMYARKGVAEQKREKEIKSELKMKQDAQVVLYRSYRHGDLPDIQIKHSSLITPLQAVAQRDPIIAKQLFSSLFSGILKEMDKFKTLSEKNNITQKLLQDFNRFLNTTFSFFPPFVSCIQDISCQHAALLSLDPAAVSAGCLASLQQPVGIRLLEEALLRLLPAELPAKRVRGKARLPPDVLRWVELAKLYRSIGEYDVLRGIFTSEIGTKQITQSALLAEARSDYSEAAKQYDEALNKQDWVDGEPTEAEKDFWELASLDCYNHLAEWKSLEYCSTASIDSENPPDLNKIWSEPFYQETYLPYMIRSKLKLLLQGEADQSLLTFIDKAMHGELQKAILELHYSQELSLLYLLQDDVDRAKYYIQNGIQSFMQNYSSIDVLLHQSRLTKLQSVQALTEIQEFISFISKQGNLSSQVPLKRLLNTWTNRYPDAKMDPMNIWDDIITNRCFFLSKIEEKLTPLPEDNSMNVDQDGDPSDRMEVQEQEEDISSLIRSCKFSMKMKMIDSARKQNNFSLAMKLLKELHKESKTRDDWLVSWVQSYCRLSHCRSRSQGCSEQVLTVLKTVSLLDENNVSSYLSKNILAFRDQNILLGTTYRIIANALSSEPACLAEIEEDKARRILELSGSSSEDSEKVIAGLYQRAFQHLSEAVQAAEEEAQPPSWSCGPAAGVIDAYMTLADFCDQQLRKEEENASVIDSAELQAYPALVVEKMLKALKLNSNEARLKFPRLLQIIERYPEETLSLMTKEISSVPCWQFISWISHMVALLDKDQAVAVQHSVEEITDNYPQAIVYPFIISSESYSFKDTSTGHKNKEFVARIKSKLDQGGVIQDFINALDQLSNPELLFKDWSNDVRAELAKTPVNKKNIEKMYERMYAALGDPKAPGLGAFRRKFIQTFGKEFDKHFGKGGSKLLRMKLSDFNDITNMLLLKMNKDSKPPGNLKECSPWMSDFKVEFLRNELEIPGQYDGRGKPLPEYHVRIAGFDERVTVMASLRRPKRIIIRGHDEREHPFLVKGGEDLRQDQRVEQLFQVMNGILAQDSACSQRALQLRTYSVVPMTSRLGLIEWLENTVTLKDLLLNTMSQEEKAAYLSDPRAPPCEYKDWLTKMSGKHDVGAYMLMYKGANRTETVTSFRKRESKVPADLLKRAFVRMSTSPEAFLALRSHFASSHALICISHWILGIGDRHLNNFMVAMETGGVIGIDFGHAFGSATQFLPVPELMPFRLTRQFINLMLPMKETGLMYSIMVHALRAFRSDPGLLTNTMDVFVKEPSFDWKNFEQKMLKKGGSWIQEINVAEKNWYPRQKICYAKRKLAGANPAVITCDELLLGHEKAPAFRDYVAVARGSKDHNIRAQEPESGLSEETQVKCLMDQATDPNILGRTWEGWEPWM
+Q9Y463,DYRK1B,MAVPPGHGPFSGFPGPQEHTQVLPDVRLLPRRLPLAFRDATSAPLRKLSVDLIKTYKHINEVYYAKKKRRAQQAPPQDSSNKKEKKVLNHGYDDDNHDYIVRSGERWLERYEIDSLIGKGSFGQVVKAYDHQTQELVAIKIIKNKKAFLNQAQIELRLLELMNQHDTEMKYYIVHLKRHFMFRNHLCLVFELLSYNLYDLLRNTHFRGVSLNLTRKLAQQLCTALLFLATPELSIIHCDLKPENILLCNPKRSAIKIVDFGSSCQLGQRIYQYIQSRFYRSPEVLLGTPYDLAIDMWSLGCILVEMHTGEPLFSGSNEVDQMNRIVEVLGIPPAAMLDQAPKARKYFERLPGGGWTLRRTKELRKDYQGPGTRRLQEVLGVQTGGPGGRRAGEPGHSPADYLRFQDLVLRMLEYEPAARISPLGALQHGFFRRTADEATNTGPAGSSASTSPAPLDTCPSSSTASSISSSGGSSGSSSDNRTYRYSNRYCGGPGPPITDCEMNSPQVPPSQPLRPWAGGDVPHKTHQAPASASSLPGTGAQLPPQPRYLGRPPSPTSPPPPELMDVSLVGGPADCSPPHPAPAPQHPAASALRTRMTGGRPPLPPPDDPATLGPHLGLRGVPQSTAASS
+Q92630,DYRK2,MLTRKPSAAAPAAYPTGRGGDSAVRQLQASPGLGAGATRSGVGTGPPSPIALPPLRASNAAAAAHTIGGSKHTMNDHLHVGSHAHGQIQVQQLFEDNSNKRTVLTTQPNGLTTVGKTGLPVVPERQLDSIHRRQGSSTSLKSMEGMGKVKATPMTPEQAMKQYMQKLTAFEHHEIFSYPEIYFLGLNAKKRQGMTGGPNNGGYDDDQGSYVQVPHDHVAYRYEVLKVIGKGSFGQVVKAYDHKVHQHVALKMVRNEKRFHRQAAEEIRILEHLRKQDKDNTMNVIHMLENFTFRNHICMTFELLSMNLYELIKKNKFQGFSLPLVRKFAHSILQCLDALHKNRIIHCDLKPENILLKQQGRSGIKVIDFGSSCYEHQRVYTYIQSRFYRAPEVILGARYGMPIDMWSLGCILAELLTGYPLLPGEDEGDQLACMIELLGMPSQKLLDASKRAKNFVSSKGYPRYCTVTTLSDGSVVLNGGRSRRGKLRGPPESREWGNALKGCDDPLFLDFLKQCLEWDPAVRMTPGQALRHPWLRRRLPKPPTGEKTSVKRITESTGAITSISKLPPPSSSASKLRTNLAQMTDANGNIQQRTVLPKLVS
+Q9NR20,DYRK4,MPASELKASEIPFHPSIKTQDPKAEEKSPKKQKVTLTAAEALKLFKNQLSPYEQSEILGYAELWFLGLEAKKLDTAPEKFSKTSFDDEHGFYLKVLHDHIAYRYEVLETIGKGSFGQVAKCLDHKNNELVALKIIRNKKRFHQQALMELKILEALRKKDKDNTYNVVHMKDFFYFRNHFCITFELLGINLYELMKNNNFQGFSLSIVRRFTLSVLKCLQMLSVEKIIHCDLKPENIVLYQKGQASVKVIDFGSSCYEHQKVYTYIQSRFYRSPEVILGHPYDVAIDMWSLGCITAELYTGYPLFPGENEVEQLACIMEVLGLPPAGFIQTASRRQTFFDSKGFPKNITNNRGKKRYPDSKDLTMVLKTYDTSFLDFLRRCLVWEPSLRMTPDQALKHAWIHQSRNLKPQPRPQTLRKSNSFFPSETRKDKVQGCHHSSRKADEITKETTEKTKDSPTKHVQHSGDQQDCLQHGADTVQLPQLVDAPKKSEAAVGAEVSMTSPGQSKNFSLKNTNVLPPIV
+O00418,EEF2K,MADEDLIFRLEGVDGGQSPRAGHDGDSDGDSDDEEGYFICPITDDPSSNQNVNSKVNKYYSNLTKSERYSSSGSPANSFHFKEAWKHAIQKAKHMPDPWAEFHLEDIATERATRHRYNAVTGEWLDDEVLIKMASQPFGRGAMRECFRTKKLSNFLHAQQWKGASNYVAKRYIEPVDRDVYFEDVRLQMEAKLWGEEYNRHKPPKQVDIMQMCIIELKDRPGKPLFHLEHYIEGKYIKYNSNSGFVRDDNIRLTPQAFSHFTFERSGHQLIVVDIQGVGDLYTDPQIHTETGTDFGDGNLGVRGMALFFYSHACNRICESMGLAPFDLSPRERDAVNQNTKLLQSAKTILRGTEEKCGSPQVRTLSGSRPPLLRPLSENSGDENMSDVTFDSLPSSPSSATPHSQKLDHLHWPVFSDLDNMASRDHDHLDNHRESENSGDSGYPSEKRGELDDPEPREHGHSYSNRKYESDEDSLGSSGRVCVEKWNLLNSSRLHLPRASAVALEVQRLNALDLEKKIGKSILGKVHLAMVRYHEGGRFCEKGEEWDQESAVFHLEHAANLGELEAIVGLGLMYSQLPHHILADVSLKETEENKTKGFDYLLKAAEAGDRQSMILVARAFDSGQNLSPDRCQDWLEALHWYNTALEMTDCDEGGEYDGMQDEPRYMMLAREAEMLFTGGYGLEKDPQRSGDLYTQAAEAAMEAMKGRLANQYYQKAEEAWAQMEE
+P00533,EGFR,MRPSGTAGAALLALLAALCPASRALEEKKVCQGTSNKLTQLGTFEDHFLSLQRMFNNCEVVLGNLEITYVQRNYDLSFLKTIQEVAGYVLIALNTVERIPLENLQIIRGNMYYENSYALAVLSNYDANKTGLKELPMRNLQEILHGAVRFSNNPALCNVESIQWRDIVSSDFLSNMSMDFQNHLGSCQKCDPSCPNGSCWGAGEENCQKLTKIICAQQCSGRCRGKSPSDCCHNQCAAGCTGPRESDCLVCRKFRDEATCKDTCPPLMLYNPTTYQMDVNPEGKYSFGATCVKKCPRNYVVTDHGSCVRACGADSYEMEEDGVRKCKKCEGPCRKVCNGIGIGEFKDSLSINATNIKHFKNCTSISGDLHILPVAFRGDSFTHTPPLDPQELDILKTVKEITGFLLIQAWPENRTDLHAFENLEIIRGRTKQHGQFSLAVVSLNITSLGLRSLKEISDGDVIISGNKNLCYANTINWKKLFGTSGQKTKIISNRGENSCKATGQVCHALCSPEGCWGPEPRDCVSCRNVSRGRECVDKCNLLEGEPREFVENSECIQCHPECLPQAMNITCTGRGPDNCIQCAHYIDGPHCVKTCPAGVMGENNTLVWKYADAGHVCHLCHPNCTYGCTGPGLEGCPTNGPKIPSIATGMVGALLLLLVVALGIGLFMRRRHIVRKRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGSGAFGTVYKGLWIPEGEKVKIPVAIKELREATSPKANKEILDEAYVMASVDNPHVCRLLGICLTSTVQLITQLMPFGCLLDYVREHKDNIGSQYLLNWCVQIAKGMNYLEDRRLVHRDLAARNVLVKTPQHVKITDFGLAKLLGAEEKEYHAEGGKVPIKWMALESILHRIYTHQSDVWSYGVTVWELMTFGSKPYDGIPASEISSILEKGERLPQPPICTIDVYMIMVKCWMIDADSRPKFRELIIEFSKMARDPQRYLVIQGDERMHLPSPTDSNFYRALMDEEDMDDVVDADEYLIPQQGFFSSPSTSRTPLLSSLSATSNNSTVACIDRNGLQSCPIKEDSFLQRYSSDPTGALTEDSIDDTFLPVPEYINQSVPKRPAGSVQNPVYHNQPLNPAPSRDPHYQDPHSTAVGNPEYLNTVQPTCVNSTFDSPAHWAQKGSHQISLDNPDYQQDFFPKEAKPNGIFKGSTAENAEYLRVAPQSSEFIGA
+P19525,EIF2AK2,MAGDLSAGFFMEELNTYRQKQGVVLKYQELPNSGPPHDRRFTFQVIIDGREFPEGEGRSKKEAKNAAAKLAVEILNKEKKAVSPLLLTTTNSSEGLSMGNYIGLINRIAQKKRLTVNYEQCASGVHGPEGFHYKCKMGQKEYSIGTGSTKQEAKQLAAKLAYLQILSEETSVKSDYLSSGSFATTCESQSNSLVTSTLASESSSEGDFSADTSEINSNSDSLNSSSLLMNGLRNNQRKAKRSLAPRFDLPDMKETKYTVDKRFGMDFKEIELIGSGGFGQVFKAKHRIDGKTYVIKRVKYNNEKAEREVKALAKLDHVNIVHYNGCWDGFDYDPETSDDSLESSDYDPENSKNSSRSKTKCLFIQMEFCDKGTLEQWIEKRRGEKLDKVLALELFEQITKGVDYIHSKKLIHRDLKPSNIFLVDTKQVKIGDFGLVTSLKNDGKRTRSKGTLRYMSPEQISSQDYGKEVDLYALGLILAELLHVCDTAFETSKFFTDLRDGIISDIFDKKEKTLLQKLLSKKPEDRPNTSEILRTLTVWKKSPEKNERHTC
+Q7KZI7,MARK2,MSSARTPLPTLNERDTEQPTLGHLDSKPSSKSNMIRGRNSATSADEQPHIGNYRLLKTIGKGNFAKVKLARHILTGKEVAVKIIDKTQLNSSSLQKLFREVRIMKVLNHPNIVKLFEVIETEKTLYLVMEYASGGEVFDYLVAHGRMKEKEARAKFRQIVSAVQYCHQKFIVHRDLKAENLLLDADMNIKIADFGFSNEFTFGNKLDTFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKKFLILNPSKRGTLEQIMKDRWMNVGHEDDELKPYVEPLPDYKDPRRTELMVSMGYTREEIQDSLVGQRYNEVMATYLLLGYKSSELEGDTITLKPRPSADLTNSSAPSPSHKVQRSVSANPKQRRFSDQAAGPAIPTSNSYSKKTQSNNAENKRPEEDRESGRKASSTAKVPASPLPGLERKKTTPTPSTNSVLSTSTNRSRNSPLLERASLGQASIQNGKDSLTMPGSRASTASASAAVSAARPRQHQKSMSASVHPNKASGLPPTESNCEVPRPSTAPQRVPVASPSAHNISSSGGAPDRTNFPRGVSSRSTFHAGQLRQVRDQQNLPYGVTPASPSGHSQGRRGASGSIFSKFTSKFVRRNLSFRFARRNLNEPESKDRVETLRPHVVGSGGNDKEKEEFREAKPRSLRFTWSMKTTSSMEPNEMMREIRKVLDANSCQSELHEKYMLLCMHGTPGHEDFVQWEMEVCKLPRLSLNGVRFKRISGTSMAFKNIASKIANELKL
+P21709,EPHA1,MERRWPLGLGLVLLLCAPLPPGARAKEVTLMDTSKAQGELGWLLDPPKDGWSEQQQILNGTPLYMYQDCPMQGRRDTDHWLRSNWIYRGEEASRVHVELQFTVRDCKSFPGGAGPLGCKETFNLLYMESDQDVGIQLRRPLFQKVTTVAADQSFTIRDLVSGSVKLNVERCSLGRLTRRGLYLAFHNPGACVALVSVRVFYQRCPETLNGLAQFPDTLPGPAGLVEVAGTCLPHARASPRPSGAPRMHCSPDGEWLVPVGRCHCEPGYEEGGSGEACVACPSGSYRMDMDTPHCLTCPQQSTAESEGATICTCESGHYRAPGEGPQVACTGPPSAPRNLSFSASGTQLSLRWEPPADTGGRQDVRYSVRCSQCQGTAQDGGPCQPCGVGVHFSPGARGLTTPAVHVNGLEPYANYTFNVEAQNGVSGLGSSGHASTSVSISMGHAESLSGLSLRLVKKEPRQLELTWAGSRPRSPGANLTYELHVLNQDEERYQMVLEPRVLLTELQPDTTYIVRVRMLTPLGPGPFSPDHEFRTSPPVSRGLTGGEIVAVIFGLLLGAALLLGILVFRSRRAQRQRQQRQRDRATDVDREDKLWLKPYVDLQAYEDPAQGALDFTRELDPAWLMVDTVIGEGEFGEVYRGTLRLPSQDCKTVAIKTLKDTSPGGQWWNFLREATIMGQFSHPHILHLEGVVTKRKPIMIITEFMENGALDAFLREREDQLVPGQLVAMLQGIASGMNYLSNHNYVHRDLAARNILVNQNLCCKVSDFGLTRLLDDFDGTYETQGGKIPIRWTAPEAIAHRIFTTASDVWSFGIVMWEVLSFGDKPYGEMSNQEVMKSIEDGYRLPPPVDCPAPLYELMKNCWAYDRARRPHFQKLQAHLEQLLANPHSLRTIANFDPRMTLRLPSLSGSDGIPYRTVSEWLESIRMKRYILHFHSAGLDTMECVLELTAEDLTQMGITLPGHQKRILCSIQGFKD
+P29317,EPHA2,MELQAARACFALLWGCALAAAAAAQGKEVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSSDFEARHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKKCPELLQGLAHFPETIAGSDAPSLATVAGTCVDHAVVPPGGEEPRMHCAVDGEWLVPIGQCLCQAGYEKVEDACQACSPGFFKFEASESPCLECPEHTLPSPEGATSCECEEGFFRAPQDPASMPCTRPPSAPHYLTAVGMGAKVELRWTPPQDSGGREDIVYSVTCEQCWPESGECGPCEASVRYSEPPHGLTRTSVTVSDLEPHMNYTFTVEARNGVSGLVTSRSFRTASVSINQTEPPKVRLEGRSTTSLSVSWSIPPPQQSRVWKYEVTYRKKGDSNSYNVRRTEGFSVTLDDLAPDTTYLVQVQALTQEGQGAGSKVHEFQTLSPEGSGNLAVIGGVAVGVVLLLVLAGVGFFIHRRRKNQRARQSPEDVYFSKSEQLKPLKTYVDPHTYEDPNQAVLKFTTEIHPSCVTRQKVIGAGEFGEVYKGMLKTSSGKKEVPVAIKTLKAGYTEKQRVDFLGEAGIMGQFSHHNIIRLEGVISKYKPMMIITEYMENGALDKFLREKDGEFSVLQLVGMLRGIAAGMKYLANMNYVHRDLAARNILVNSNLVCKVSDFGLSRVLEDDPEATYTTSGGKIPIRWTAPEAISYRKFTSASDVWSFGIVMWEVMTYGERPYWELSNHEVMKAINDGFRLPTPMDCPSAIYQLMMQCWQQERARRPKFADIVSILDKLIRAPDSLKTLADFDPRVSIRLPSTSGSEGVPFRTVSEWLESIKMQQYTEHFMAAGYTAIEKVVQMTNDDIKRIGVRLPGHQKRIAYSLLGLKDQVNTVGIPI
+P29320,EPHA3,MDCQLSILLLLSCSVLDSFGELIPQPSNEVNLLDSKTIQGELGWISYPSHGWEEISGVDEHYTPIRTYQVCNVMDHSQNNWLRTNWVPRNSAQKIYVELKFTLRDCNSIPLVLGTCKETFNLYYMESDDDHGVKFREHQFTKIDTIAADESFTQMDLGDRILKLNTEIREVGPVNKKGFYLAFQDVGACVALVSVRVYFKKCPFTVKNLAMFPDTVPMDSQSLVEVRGSCVNNSKEEDPPRMYCSTEGEWLVPIGKCSCNAGYEERGFMCQACRPGFYKALDGNMKCAKCPPHSSTQEDGSMNCRCENNYFRADKDPPSMACTRPPSSPRNVISNINETSVILDWSWPLDTGGRKDVTFNIICKKCGWNIKQCEPCSPNVRFLPRQFGLTNTTVTVTDLLAHTNYTFEIDAVNGVSELSSPPRQFAAVSITTNQAAPSPVLTIKKDRTSRNSISLSWQEPEHPNGIILDYEVKYYEKQEQETSYTILRARGTNVTISSLKPDTIYVFQIRARTAAGYGTNSRKFEFETSPDSFSISGESSQVVMIAISAAVAIILLTVVIYVLIGRFCGYKSKHGADEKRLHFGNGHLKLPGLRTYVDPHTYEDPTQAVHEFAKELDATNISIDKVVGAGEFGEVCSGRLKLPSKKEISVAIKTLKVGYTEKQRRDFLGEASIMGQFDHPNIIRLEGVVTKSKPVMIVTEYMENGSLDSFLRKHDAQFTVIQLVGMLRGIASGMKYLSDMGYVHRDLAARNILINSNLVCKVSDFGLSRVLEDDPEAAYTTRGGKIPIRWTSPEAIAYRKFTSASDVWSYGIVLWEVMSYGERPYWEMSNQDVIKAVDEGYRLPPPMDCPAALYQLMLDCWQKDRNNRPKFEQIVSILDKLIRNPGSLKIITSAAARPSNLLLDQSNVDITTFRTTGDWLNGVWTAHCKEIFTGVEYSSCDTIAKISTDDMKKVGVTVVGPQKKIISSIKALETQSKNGPVPV
+P54764,EPHA4,MAGIFYFALFSCLFGICDAVTGSRVYPANEVTLLDSRSVQGELGWIASPLEGGWEEVSIMDEKNTPIRTYQVCNVMEPSQNNWLRTDWITREGAQRVYIEIKFTLRDCNSLPGVMGTCKETFNLYYYESDNDKERFIRENQFVKIDTIAADESFTQVDIGDRIMKLNTEIRDVGPLSKKGFYLAFQDVGACIALVSVRVFYKKCPLTVRNLAQFPDTITGADTSSLVEVRGSCVNNSEEKDVPKMYCGADGEWLVPIGNCLCNAGHEERSGECQACKIGYYKALSTDATCAKCPPHSYSVWEGATSCTCDRGFFRADNDAASMPCTRPPSAPLNLISNVNETSVNLEWSSPQNTGGRQDISYNVVCKKCGAGDPSKCRPCGSGVHYTPQQNGLKTTKVSITDLLAHTNYTFEIWAVNGVSKYNPNPDQSVSVTVTTNQAAPSSIALVQAKEVTRYSVALAWLEPDRPNGVILEYEVKYYEKDQNERSYRIVRTAARNTDIKGLNPLTSYVFHVRARTAAGYGDFSEPLEVTTNTVPSRIIGDGANSTVLLVSVSGSVVLVVILIAAFVISRRRSKYSKAKQEADEEKHLNQGVRTYVDPFTYEDPNQAVREFAKEIDASCIKIEKVIGVGEFGEVCSGRLKVPGKREICVAIKTLKAGYTDKQRRDFLSEASIMGQFDHPNIIHLEGVVTKCKPVMIITEYMENGSLDAFLRKNDGRFTVIQLVGMLRGIGSGMKYLSDMSYVHRDLAARNILVNSNLVCKVSDFGMSRVLEDDPEAAYTTRGGKIPIRWTAPEAIAYRKFTSASDVWSYGIVMWEVMSYGERPYWDMSNQDVIKAIEEGYRLPPPMDCPIALHQLMLDCWQKERSDRPKFGQIVNMLDKLIRNPNSLKRTGTESSRPNTALLDPSSPEFSAVVSVGDWLQAIKMDRYKDNFTAAGYTTLEAVVHVNQEDLARIGITAITHQNKILSSVQAMRTQMQQMHGRMVPV
+P54756,EPHA5,MRGSGPRGAGRRRPPSGGGDTPITPASLAGCYSAPRRAPLWTCLLLCAALRTLLASPSNEVNLLDSRTVMGDLGWIAFPKNGWEEIGEVDENYAPIHTYQVCKVMEQNQNNWLLTSWISNEGASRIFIELKFTLRDCNSLPGGLGTCKETFNMYYFESDDQNGRNIKENQYIKIDTIAADESFTELDLGDRVMKLNTEVRDVGPLSKKGFYLAFQDVGACIALVSVRVYYKKCPSVVRHLAVFPDTITGADSSQLLEVSGSCVNHSVTDEPPKMHCSAEGEWLVPIGKCMCKAGYEEKNGTCQVCRPGFFKASPHIQSCGKCPPHSYTHEEASTSCVCEKDYFRRESDPPTMACTRPPSAPRNAISNVNETSVFLEWIPPADTGGRKDVSYYIACKKCNSHAGVCEECGGHVRYLPRQSGLKNTSVMMVDLLAHTNYTFEIEAVNGVSDLSPGARQYVSVNVTTNQAAPSPVTNVKKGKIAKNSISLSWQEPDRPNGIILEYEIKYFEKDQETSYTIIKSKETTITAEGLKPASVYVFQIRARTAAGYGVFSRRFEFETTPVFAASSDQSQIPVIAVSVTVGVILLAVVIGVLLSGSCCECGCGRASSLCAVAHPSLIWRCGYSKAKQDPEEEKMHFHNGHIKLPGVRTYIDPHTYEDPNQAVHEFAKEIEASCITIERVIGAGEFGEVCSGRLKLPGKRELPVAIKTLKVGYTEKQRRDFLGEASIMGQFDHPNIIHLEGVVTKSKPVMIVTEYMENGSLDTFLKKNDGQFTVIQLVGMLRGISAGMKYLSDMGYVHRDLAARNILINSNLVCKVSDFGLSRVLEDDPEAAYTTRGGKIPIRWTAPEAIAFRKFTSASDVWSYGIVMWEVVSYGERPYWEMTNQDVIKAVEEGYRLPSPMDCPAALYQLMLDCWQKERNSRPKFDEIVNMLDKLIRNPSSLKTLVNASCRVSNLLAEHSPLGSGAYRSVGEWLEAIKMGRYTEIFMENGYSSMDAVAQVTLEDLRRLGVTLVGHQKKIMNSLQEMKVQLVNGMVPL
+P29322,EPHA8,MAPARGRLPPALWVVTAAAAAATCVSAARGEVNLLDTSTIHGDWGWLTYPAHGWDSINEVDESFQPIHTYQVCNVMSPNQNNWLRTSWVPRDGARRVYAEIKFTLRDCNSMPGVLGTCKETFNLYYLESDRDLGASTQESQFLKIDTIAADESFTGADLGVRRLKLNTEVRSVGPLSKRGFYLAFQDIGACLAILSLRIYYKKCPAMVRNLAAFSEAVTGADSSSLVEVRGQCVRHSEERDTPKMYCSAEGEWLVPIGKCVCSAGYEERRDACVACELGFYKSAPGDQLCARCPPHSHSAAPAAQACHCDLSYYRAALDPPSSACTRPPSAPVNLISSVNGTSVTLEWAPPLDPGGRSDITYNAVCRRCPWALSRCEACGSGTRFVPQQTSLVQASLLVANLLAHMNYSFWIEAVNGVSDLSPEPRRAAVVNITTNQAAPSQVVVIRQERAGQTSVSLLWQEPEQPNGIILEYEIKYYEKDKEMQSYSTLKAVTTRATVSGLKPGTRYVFQVRARTSAGCGRFSQAMEVETGKPRPRYDTRTIVWICLTLITGLVVLLLLLICKKRHCGYSKAFQDSDEEKMHYQNGQAPPPVFLPLHHPPGKLPEPQFYAEPHTYEEPGRAGRSFTREIEASRIHIEKIIGSGDSGEVCYGRLRVPGQRDVPVAIKALKAGYTERQRRDFLSEASIMGQFDHPNIIRLEGVVTRGRLAMIVTEYMENGSLDTFLRTHDGQFTIMQLVGMLRGVGAGMRYLSDLGYVHRDLAARNVLVDSNLVCKVSDFGLSRVLEDDPDAAYTTTGGKIPIRWTAPEAIAFRTFSSASDVWSFGVVMWEVLAYGERPYWNMTNRDVISSVEEGYRLPAPMGCPHALHQLMLDCWHKDRAQRPRFSQIVSVLDALIRSPESLRATATVSRCPPPAFVRSCFDLRGGSGGGGGLTVGDWLDSIRMGRYRDHFAAGGYSSLGMVLRMNAQDVRALGITLMGHQKKILGSIQTMRAQLTSTQGPRRHL
+P54762,EPHB1,MALDYLLLLLLASAVAAMEETLMDTRTATAELGWTANPASGWEEVSGYDENLNTIRTYQVCNVFEPNQNNWLLTTFINRRGAHRIYTEMRFTVRDCSSLPNVPGSCKETFNLYYYETDSVIATKKSAFWSEAPYLKVDTIAADESFSQVDFGGRLMKVNTEVRSFGPLTRNGFYLAFQDYGACMSLLSVRVFFKKCPSIVQNFAVFPETMTGAESTSLVIARGTCIPNAEEVDVPIKLYCNGDGEWMVPIGRCTCKPGYEPENSVACKACPAGTFKASQEAEGCSHCPSNSRSPAEASPICTCRTGYYRADFDPPEVACTSVPSGPRNVISIVNETSIILEWHPPRETGGRDDVTYNIICKKCRADRRSCSRCDDNVEFVPRQLGLTECRVSISSLWAHTPYTFDIQAINGVSSKSPFPPQHVSVNITTNQAAPSTVPIMHQVSATMRSITLSWPQPEQPNGIILDYEIRYYEKEHNEFNSSMARSQTNTARIDGLRPGMVYVVQVRARTVAGYGKFSGKMCFQTLTDDDYKSELREQLPLIAGSAAAGVVFVVSLVAISIVCSRKRAYSKEAVYSDKLQHYSTGRGSPGMKIYIDPFTYEDPNEAVREFAKEIDVSFVKIEEVIGAGEFGEVYKGRLKLPGKREIYVAIKTLKAGYSEKQRRDFLSEASIMGQFDHPNIIRLEGVVTKSRPVMIITEFMENGALDSFLRQNDGQFTVIQLVGMLRGIAAGMKYLAEMNYVHRDLAARNILVNSNLVCKVSDFGLSRYLQDDTSDPTYTSSLGGKIPVRWTAPEAIAYRKFTSASDVWSYGIVMWEVMSFGERPYWDMSNQDVINAIEQDYRLPPPMDCPAALHQLMLDCWQKDRNSRPRFAEIVNTLDKMIRNPASLKTVATITAVPSQPLLDRSIPDFTAFTTVDDWLSAIKMVQYRDSFLTAGFTSLQLVTQMTSEDLLRIGITLAGHQKKILNSIHSMRVQISQSPTAMA
+P29323,EPHB2,MALRRLGAALLLLPLLAAVEETLMDSTTATAELGWMVHPPSGWEEVSGYDENMNTIRTYQVCNVFESSQNNWLRTKFIRRRGAHRIHVEMKFSVRDCSSIPSVPGSCKETFNLYYYEADFDSATKTFPNWMENPWVKVDTIAADESFSQVDLGGRVMKINTEVRSFGPVSRSGFYLAFQDYGGCMSLIAVRVFYRKCPRIIQNGAIFQETLSGAESTSLVAARGSCIANAEEVDVPIKLYCNGDGEWLVPIGRCMCKAGFEAVENGTVCRGCPSGTFKANQGDEACTHCPINSRTTSEGATNCVCRNGYYRADLDPLDMPCTTIPSAPQAVISSVNETSLMLEWTPPRDSGGREDLVYNIICKSCGSGRGACTRCGDNVQYAPRQLGLTEPRIYISDLLAHTQYTFEIQAVNGVTDQSPFSPQFASVNITTNQAAPSAVSIMHQVSRTVDSITLSWSQPDQPNGVILDYELQYYEKELSEYNATAIKSPTNTVTVQGLKAGAIYVFQVRARTVAGYGRYSGKMYFQTMTEAEYQTSIQEKLPLIIGSSAAGLVFLIAVVVIAIVCNRRGFERADSEYTDKLQHYTSGHMTPGMKIYIDPFTYEDPNEAVREFAKEIDISCVKIEQVIGAGEFGEVCSGHLKLPGKREIFVAIKTLKSGYTEKQRRDFLSEASIMGQFDHPNVIHLEGVVTKSTPVMIITEFMENGSLDSFLRQNDGQFTVIQLVGMLRGIAAGMKYLADMNYVHRDLAARNILVNSNLVCKVSDFGLSRFLEDDTSDPTYTSALGGKIPIRWTAPEAIQYRKFTSASDVWSYGIVMWEVMSYGERPYWDMTNQDVINAIEQDYRLPPPMDCPSALHQLMLDCWQKDRNHRPKFGQIVNTLDKMIRNPNSLKAMAPLSSGINLPLLDRTIPDYTSFNTVDEWLEAIKMGQYKESFANAGFTSFDVVSQMMMEDILRVGVTLAGHQKKILNSIQVMRAQMNQIQSVEGQPLARRPRATGRTKRCQPRDVTKKTCNSNDGKKKGMGKKKTDPGRGREIQGIFFKEDSHKESNDCSCGG
+P54753,EPHB3,MARARPPPPPSPPPGLLPLLPPLLLLPLLLLPAGCRALEETLMDTKWVTSELAWTSHPESGWEEVSGYDEAMNPIRTYQVCNVRESSQNNWLRTGFIWRRDVQRVYVELKFTVRDCNSIPNIPGSCKETFNLFYYEADSDVASASSPFWMENPYVKVDTIAPDESFSRLDAGRVNTKVRSFGPLSKAGFYLAFQDQGACMSLISVRAFYKKCASTTAGFALFPETLTGAEPTSLVIAPGTCIPNAVEVSVPLKLYCNGDGEWMVPVGACTCATGHEPAAKESQCRPCPPGSYKAKQGEGPCLPCPPNSRTTSPAASICTCHNNFYRADSDSADSACTTVPSPPRGVISNVNETSLILEWSEPRDLGGRDDLLYNVICKKCHGAGGASACSRCDDNVEFVPRQLGLTERRVHISHLLAHTRYTFEVQAVNGVSGKSPLPPRYAAVNITTNQAAPSEVPTLRLHSSSGSSLTLSWAPPERPNGVILDYEMKYFEKSEGIASTVTSQMNSVQLDGLRPDARYVVQVRARTVAGYGQYSRPAEFETTSERGSGAQQLQEQLPLIVGSATAGLVFVVAVVVIAIVCLRKQRHGSDSEYTEKLQQYIAPGMKVYIDPFTYEDPNEAVREFAKEIDVSCVKIEEVIGAGEFGEVCRGRLKQPGRREVFVAIKTLKVGYTERQRRDFLSEASIMGQFDHPNIIRLEGVVTKSRPVMILTEFMENCALDSFLRLNDGQFTVIQLVGMLRGIAAGMKYLSEMNYVHRDLAARNILVNSNLVCKVSDFGLSRFLEDDPSDPTYTSSLGGKIPIRWTAPEAIAYRKFTSASDVWSYGIVMWEVMSYGERPYWDMSNQDVINAVEQDYRLPPPMDCPTALHQLMLDCWVRDRNLRPKFSQIVNTLDKLIRNAASLKVIASAQSGMSQPLLDRTVPDYTTFTTVGDWLDAIKMGRYKESFVSAGFASFDLVAQMTAEDLLRIGVTLAGHQKKILSSIQDMRLQMNQTLPVQV
+P54760,EPHB4,MELRVLLCWASLAAALEETLLNTKLETADLKWVTFPQVDGQWEELSGLDEEQHSVRTYEVCDVQRAPGQAHWLRTGWVPRRGAVHVYATLRFTMLECLSLPRAGRSCKETFTVFYYESDADTATALTPAWMENPYIKVDTVAAEHLTRKRPGAEATGKVNVKTLRLGPLSKAGFYLAFQDQGACMALLSLHLFYKKCAQLTVNLTRFPETVPRELVVPVAGSCVVDAVPAPGPSPSLYCREDGQWAEQPVTGCSCAPGFEAAEGNTKCRACAQGTFKPLSGEGSCQPCPANSHSNTIGSAVCQCRVGYFRARTDPRGAPCTTPPSAPRSVVSRLNGSSLHLEWSAPLESGGREDLTYALRCRECRPGGSCAPCGGDLTFDPGPRDLVEPWVVVRGLRPDFTYTFEVTALNGVSSLATGPVPFEPVNVTTDREVPPAVSDIRVTRSSPSSLSLAWAVPRAPSGAVLDYEVKYHEKGAEGPSSVRFLKTSENRAELRGLKRGASYLVQVRARSEAGYGPFGQEHHSQTQLDESEGWREQLALIAGTAVVGVVLVLVVIVVAVLCLRKQSNGREAEYSDKHGQYLIGHGTKVYIDPFTYEDPNEAVREFAKEIDVSYVKIEEVIGAGEFGEVCRGRLKAPGKKESCVAIKTLKGGYTERQRREFLSEASIMGQFEHPNIIRLEGVVTNSMPVMILTEFMENGALDSFLRLNDGQFTVIQLVGMLRGIASGMRYLAEMSYVHRDLAARNILVNSNLVCKVSDFGLSRFLEENSSDPTYTSSLGGKIPIRWTAPEAIAFRKFTSASDAWSYGIVMWEVMSFGERPYWDMSNQDVINAIEQDYRLPPPPDCPTSLHQLMLDCWQKDRNARPRFPQVVSALDKMIRNPASLKIVARENGGASHPLLDQRQPHYSAFGSVGEWLRAIKMGRYEESFAAAGFGSFELVSQISAEDLLRIGVTLAGHQKKILASVQHMKSQAKPGTPGGTGGPAPQY
+O15197,EPHB6,MATEGAAQLGNRVAGMVCSLWVLLLVSSVLALEEVLLDTTGETSEIGWLTYPPGGWDEVSVLDDQRRLTRTFEACHVAGAPPGTGQDNWLQTHFVERRGAQRAHIRLHFSVRACSSLGVSGGTCRETFTLYYRQAEEPDSPDSVSSWHLKRWTKVDTIAADESFPSSSSSSSSSSSAAWAVGPHGAGQRAGLQLNVKERSFGPLTQRGFYVAFQDTGACLALVAVRLFSYTCPAVLRSFASFPETQASGAGGASLVAAVGTCVAHAEPEEDGVGGQAGGSPPRLHCNGEGKWMVAVGGCRCQPGYQPARGDKACQACPRGLYKSSAGNAPCSPCPARSHAPNPAAPVCPCLEGFYRASSDPPEAPCTGPPSAPQELWFEVQGSALMLHWRLPRELGGRGDLLFNVVCKECEGRQEPASGGGGTCHRCRDEVHFDPRQRGLTESRVLVGGLRAHVPYILEVQAVNGVSELSPDPPQAAAINVSTSHEVPSAVPVVHQVSRASNSITVSWPQPDQTNGNILDYQLRYYDQAEDESHSFTLTSETNTATVTQLSPGHIYGFQVRARTAAGHGPYGGKVYFQTLPQGELSSQLPERLSLVIGSILGALAFLLLAAITVLAVVFQRKRRGTGYTEQLQQYSSPGLGVKYYIDPSTYEDPCQAIRELAREVDPAYIKIEEVIGTGSFGEVRQGRLQPRGRREQTVAIQALWAGGAESLQMTFLGRAAVLGQFQHPNILRLEGVVTKSRPLMVLTEFMELGPLDSFLRQREGQFSSLQLVAMQRGVAAAMQYLSSFAFVHRSLSAHSVLVNSHLVCKVARLGHSPQGPSCLLRWAAPEVIAHGKHTTSSDVWSFGILMWEVMSYGERPYWDMSEQEVLNAIEQEFRLPPPPGCPPGLHLLMLDTWQKDRARRPHFDQLVAAFDKMIRKPDTLQAGGDPGERPSQALLTPVALDFPCLDSPQAWLSAIGLECYQDNFSKFGLCTFSDVAQLSLEDLPALGITLAGHQKKLLHHIQLLQQHLRQQGSVEV
+P27361,MAPK3,MAAAAAQGGGGGEPRRTEGVGPGVPGEVEMVKGQPFDVGPRYTQLQYIGEGAYGMVSSAYDHVRKTRVAIKKISPFEHQTYCQRTLREIQILLRFRHENVIGIRDILRASTLEAMRDVYIVQDLMETDLYKLLKSQQLSNDHICYFLYQILRGLKYIHSANVLHRDLKPSNLLINTTCDLKICDFGLARIADPEHDHTGFLTEYVATRWYRAPEIMLNSKGYTKSIDIWSVGCILAEMLSNRPIFPGKHYLDQLNHILGILGSPSQEDLNCIINMKARNYLQSLPSKTKVAWAKLFPKSDSKALDLLDRMLTFNPNKRITVEEALAHPYLEQYYDPTDEPVAEEPFTFAMELDDLPKERLKELIFQETARFQPGVLEAP
+P28482,MAPK1,MAAAAAAGAGPEMVRGQVFDVGPRYTNLSYIGEGAYGMVCSAYDNVNKVRVAIKKISPFEHQTYCQRTLREIKILLRFRHENIIGINDIIRAPTIEQMKDVYIVQDLMETDLYKLLKTQHLSNDHICYFLYQILRGLKYIHSANVLHRDLKPSNLLLNTTCDLKICDFGLARVADPDHDHTGFLTEYVATRWYRAPEIMLNSKGYTKSIDIWSVGCILAEMLSNRPIFPGKHYLDQLNHILGILGSPSQEDLNCIINLKARNYLLSLPHKNKVPWNRLFPNADSKALDLLDKMLTFNPHKRIEVEQALAHPYLEQYYDPSDEPIAEAPFKFDMELDDLPKEKLKELIFEETARFQPGYRS
+Q16659,MAPK6,MAEKFESLMNIHGFDLGSRYMDLKPLGCGGNGLVFSAVDNDCDKRVAIKKIVLTDPQSVKHALREIKIIRRLDHDNIVKVFEILGPSGSQLTDDVGSLTELNSVYIVQEYMETDLANVLEQGPLLEEHARLFMYQLLRGLKYIHSANVLHRDLKPANLFINTEDLVLKIGDFGLARIMDPHYSHKGHLSEGLVTKWYRSPRLLLSPNNYTKAIDMWAAGCIFAEMLTGKTLFAGAHELEQMQLILESIPVVHEEDRQELLSVIPVYIRNDMTEPHKPLTQLLPGISREALDFLEQILTFSPMDRLTAEEALSHPYMSIYSFPMDEPISSHPFHIEDEVDDILLMDETHSHIYNWERYHDCQFSEHDWPVHNNFDIDEVQLDPRALSDVTDEEEVQVDPRKYLDGDREKYLEDPAFDTNYSTEPCWQYSDHHENKYCDLECSHTCNYKTRSSSYLDNLVWRESEVNHYYEPKLIIDLSNWKEQSKEKSDKKGKSKCERNGLVKAQIALEEASQQLAGKEREKNQGFDFDSFIAGTIQLSSQHEPTDVVDKLNDLNSSVSQLELKSLISKSVSQEKQEKGMANLAQLEALYQSSWDSQFVSGGEDCFFINQFCEVRKDEQVEKENTYTSYLDKFFSRKEDTEMLETEPVEDGKLGERGHEEGFLNNSGEFLFNKQLESIGIPQFHSPVGSPLKSIQATLTPSAMKSSPQIPHQTYSSILKHLN
+P31152,MAPK4,MAEKGDCIASVYGYDLGGRFVDFQPLGFGVNGLVLSAVDSRACRKVAVKKIALSDARSMKHALREIKIIRRLDHDNIVKVYEVLGPKGTDLQGELFKFSVAYIVQEYMETDLARLLEQGTLAEEHAKLFMYQLLRGLKYIHSANVLHRDLKPANIFISTEDLVLKIGDFGLARIVDQHYSHKGYLSEGLVTKWYRSPRLLLSPNNYTKAIDMWAAGCILAEMLTGRMLFAGAHELEQMQLILETIPVIREEDKDELLRVMPSFVSSTWEVKRPLRKLLPEVNSEAIDFLEKILTFNPMDRLTAEMGLQHPYMSPYSCPEDEPTSQHPFRIEDEIDDIVLMAANQSQLSNWDTCSSRYPVSLSSDLEWRPDRCQDASEVQRDPRAGSAPLAEDVQVDPRKDSHSSSERFLEQSHSSMERAFEADYGRSCDYKVGSPSYLDKLLWRDNKPHHYSEPKLILDLSHWKQAAGAPPTATGLADTGAREDEPASLFLEIAQWVKSTQGGPEHASPPADDPERRLSASPPGRPAPVDGGASPQFDLDVFISRALKLCTKPEDLPDNKLGDLNGACIPEHPGDLVQTEAFSKERW
+Q05397,PTK2,MAAAYLDPNLNHTPNSSTKTHLGTGMERSPGAMERVLKVFHYFESNSEPTTWASIIRHGDATDVRGIIQKIVDSHKVKHVACYGFRLSHLRSEEVHWLHVDMGVSSVREKYELAHPPEEWKYELRIRYLPKGFLNQFTEDKPTLNFFYQQVKSDYMLEIADQVDQEIALKLGCLEIRRSYWEMRGNALEKKSNYEVLEKDVGLKRFFPKSLLDSVKAKTLRKLIQQTFRQFANLNREESILKFFEILSPVYRFDKECFKCALGSSWIISVELAIGPEEGISYLTDKGCNPTHLADFTQVQTIQYSNSEDKDRKGMLQLKIAGAPEPLTVTAPSLTIAENMADLIDGYCRLVNGTSQSFIIRPQKEGERALPSIPKLANSEKQGMRTHAVSVSETDDYAEIIDEEDTYTMPSTRDYEIQRERIELGRCIGEGQFGDVHQGIYMSPENPALAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKYSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDSTYYKASKGKLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKAQQEERMRMESRRQATVSWDSGGSDEAPPKPSRPGYPSPRSSEGFYPSPQHMVQTNHYQVSGYPGSHGITAMAGSIYPGQASLLDQTDSWNHRPQEIAMWQPNVEDSTVLDLRGIGQVLPTHLMEERLIRQQQEMEEDQRWLEKEERFLKPDVRLSRGSIDREDGSLQGPIGNQHIYQPVGKPDPAAPPKKPPRPGAPGHLGSLASLSSPADSYNEGVKLQPQEISPPPTANLDRSNDKVYENVTGLVKAVIEMSSKIQPAPPEEYVPMVKEVGLALRTLLATVDETIPLLPASTHREIEMAQKLLNSDLGELINKMKLAQQYVMTSLQQEYKKQMLTAAHALAVDAKNLLDVIDQARLKMLGQTRPH
+P16591,FER,MGFGSDLKNSHEAVLKLQDWELRLLETVKKFMALRIKSDKEYASTLQNLCNQVDKESTVQMNYVSNVSKSWLLMIQQTEQLSRIMKTHAEDLNSGPLHRLTMMIKDKQQVKKSYIGVHQQIEAEMIKVTKTELEKLKCSYRQLIKEMNSAKEKYKEALAKGKETEKAKERYDKATMKLHMLHNQYVLALKGAQLHQNQYYDITLPLLLDSLQKMQEEMIKALKGIFDEYSQITSLVTEEIVNVHKEIQMSVEQIDPSTEYNNFIDVHRTTAAKEQEIEFDTSLLEENENLQANEIMWNNLTAESLQVMLKTLAEELMQTQQMLLNKEEAVLELEKRIEESSETCEKKSDIVLLLSQKQALEELKQSVQQLRCTEAKFSAQKELLEQKVQENDGKEPPPVVNYEEDARSVTSMERKERLSKFESIRHSIAGIIRSPKSALGSSALSDMISISEKPLAEQDWYHGAIPRIEAQELLKKQGDFLVRESHGKPGEYVLSVYSDGQRRHFIIQYVDNMYRFEGTGFSNIPQLIDHHYTTKQVITKKSGVVLLNPIPKDKKWILSHEDVILGELLGKGNFGEVYKGTLKDKTSVAVKTCKEDLPQELKIKFLQEAKILKQYDHPNIVKLIGVCTQRQPVYIIMELVSGGDFLTFLRRKKDELKLKQLVKFSLDAAAGMLYLESKNCIHRDLAARNCLVGENNVLKISDFGMSRQEDGGVYSSSGLKQIPIKWTAPEALNYGRYSSESDVWSFGILLWETFSLGVCPYPGMTNQQAREQVERGYRMSAPQHCPEDISKIMMKCWDYKPENRPKFSELQKELTIIKRKLT
+P07332,FES,MGFSSELCSPQGHGVLQQMQEAELRLLEGMRKWMAQRVKSDREYAGLLHHMSLQDSGGQSRAISPDSPISQSWAEITSQTEGLSRLLRQHAEDLNSGPLSKLSLLIRERQQLRKTYSEQWQQLQQELTKTHSQDIEKLKSQYRALARDSAQAKRKYQEASKDKDRDKAKDKYVRSLWKLFAHHNRYVLGVRAAQLHHQHHHQLLLPGLLRSLQDLHEEMACILKEILQEYLEISSLVQDEVVAIHREMAAAAARIQPEAEYQGFLRQYGSAPDVPPCVTFDESLLEEGEPLEPGELQLNELTVESVQHTLTSVTDELAVATEMVFRRQEMVTQLQQELRNEEENTHPRERVQLLGKRQVLQEALQGLQVALCSQAKLQAQQELLQTKLEHLGPGEPPPVLLLQDDRHSTSSSEQEREGGRTPTLEILKSHISGIFRPKFSLPPPLQLIPEVQKPLHEQLWYHGAIPRAEVAELLVHSGDFLVRESQGKQEYVLSVLWDGLPRHFIIQSLDNLYRLEGEGFPSIPLLIDHLLSTQQPLTKKSGVVLHRAVPKDKWVLNHEDLVLGEQIGRGNFGEVFSGRLRADNTLVAVKSCRETLPPDLKAKFLQEARILKQYSHPNIVRLIGVCTQKQPIYIVMELVQGGDFLTFLRTEGARLRVKTLLQMVGDAAAGMEYLESKCCIHRDLAARNCLVTEKNVLKISDFGMSREEADGVYAASGGLRQVPVKWTAPEALNYGRYSSESDVWSFGILLWETFSLGASPYPNLSNQQTREFVEKGGRLPCPELCPDAVFRLMEQCWAYEPGQRPSFSTIYQELQSIRKRHR
+P11362,FGFR1,MWSWKCLLFWAVLVTATLCTARPSPTLPEQAQPWGAPVEVESFLVHPGDLLQLRCRLRDDVQSINWLRDGVQLAESNRTRITGEEVEVQDSVPADSGLYACVTSSPSGSDTTYFSVNVSDALPSSEDDDDDDDSSSEEKETDNTKPNRMPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPNPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHIEVNGSKIGPDNLPYVQILKTAGVNTTDKEMEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVLEALEERPAVMTSPLYLEIIIYCTGAFLISCMVGSVIVYKMKSGTKKSDFHSQMAVHKLAKSIPLRRQVTVSADSSASMNSGVLLVRPSRLSSSGTPMLAGVSEYELPEDPRWELPRDRLVLGKPLGEGCFGQVVLAEAIGLDKDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQARRPPGLEYCYNPSHNPEEQLSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFGLARDIHHIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTSNQEYLDLSMPLDQYSPSFPDTRSSTCSSGEDSVFSHEPLPEEPCLPRHPAQLANGGLKRR
+P21802,FGFR2,MVSWGRFICLVVVTMATLSLARPSFSLVEDTTLEPEEPPTKYQISQPEVYVAAPGESLEVRCLLKDAAVISWTKDGVHLGPNNRTVLIGEYLQIKGATPRDSGLYACTASRTVDSETWYFMVNVTDAISSGDDEDDTDGAEDFVSENSNNKRAPYWTNTEKMEKRLHAVPAANTVKFRCPAGGNPMPTMRWLKNGKEFKQEHRIGGYKVRNQHWSLIMESVVPSDKGNYTCVVENEYGSINHTYHLDVVERSPHRPILQAGLPANASTVVGGDVEFVCKVYSDAQPHIQWIKHVEKNGSKYGPDGLPYLKVLKAAGVNTTDKEIEVLYIRNVTFEDAGEYTCLAGNSIGISFHSAWLTVLPAPGREKEITASPDYLEIAIYCIGVFLIACMVVTVILCRMKNTTKKPDFSSQPAVHKLTKRIPLRRQVTVSAESSSSMNSNTPLVRITTRLSSTADTPMLAGVSEYELPEDPKWEFPRDKLTLGKPLGEGCFGQVVMAEAVGIDKDKPKEAVTVAVKMLKDDATEKDLSDLVSEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLRARRPPGMEYSYDINRVPEEQMTFKDLVSCTYQLARGMEYLASQKCIHRDLAARNVLVTENNVMKIADFGLARDINNIDYYKKTTNGRLPVKWMAPEALFDRVYTHQSDVWSFGVLMWEIFTLGGSPYPGIPVEELFKLLKEGHRMDKPANCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRILTLTTNEEYLDLSQPLEQYSPSYPDTRSSCSSGDDSVFSPDPMPYEPCLPQYPHINGSVKT
+P22607,FGFR3,MGAPACALALCVAVAIVAGASSESLGTEQRVVGRAAEVPGPEPGQQEQLVFGSGDAVELSCPPPGGGPMGPTVWVKDGTGLVPSERVLVGPQRLQVLNASHEDSGAYSCRQRLTQRVLCHFSVRVTDAPSSGDDEDGEDEAEDTGVDTGAPYWTRPERMDKKLLAVPAANTVRFRCPAAGNPTPSISWLKNGREFRGEHRIGGIKLRHQQWSLVMESVVPSDRGNYTCVVENKFGSIRQTYTLDVLERSPHRPILQAGLPANQTAVLGSDVEFHCKVYSDAQPHIQWLKHVEVNGSKVGPDGTPYVTVLKTAGANTTDKELEVLSLHNVTFEDAGEYTCLAGNSIGFSHHSAWLVVLPAEEELVEADEAGSVYAGILSYGVGFFLFILVVAAVTLCRLRSPPKKGLGSPTVHKISRFPLKRQVSLESNASMSSNTPLVRIARLSSGEGPTLANVSELELPADPKWELSRARLTLGKPLGEGCFGQVVMAEAIGIDKDRAAKPVTVAVKMLKDDATDKDLSDLVSEMEMMKMIGKHKNIINLLGACTQGGPLYVLVEYAAKGNLREFLRARRPPGLDYSFDTCKPPEEQLTFKDLVSCAYQVARGMEYLASQKCIHRDLAARNVLVTEDNVMKIADFGLARDVHNLDYYKKTTNGRLPVKWMAPEALFDRVYTHQSDVWSFGVLLWEIFTLGGSPYPGIPVEELFKLLKEGHRMDKPANCTHDLYMIMRECWHAAPSQRPTFKQLVEDLDRVLTVTSTDEYLDLSAPFEQYSPGGQDTPSSSSSGDDSVFAHDLLPPAPPSSGGSRT
+P22455,FGFR4,MRLLLALLGVLLSVPGPPVLSLEASEEVELEPCLAPSLEQQEQELTVALGQPVRLCCGRAERGGHWYKEGSRLAPAGRVRGWRGRLEIASFLPEDAGRYLCLARGSMIVLQNLTLITGDSLTSSNDDEDPKSHRDPSNRHSYPQQAPYWTHPQRMEKKLHAVPAGNTVKFRCPAAGNPTPTIRWLKDGQAFHGENRIGGIRLRHQHWSLVMESVVPSDRGTYTCLVENAVGSIRYNYLLDVLERSPHRPILQAGLPANTTAVVGSDVELLCKVYSDAQPHIQWLKHIVINGSSFGADGFPYVQVLKTADINSSEVEVLYLRNVSAEDAGEYTCLAGNSIGLSYQSAWLTVLPEEDPTWTAAAPEARYTDIILYASGSLALAVLLLLAGLYRGQALHGRHPRPPATVQKLSRFPLARQFSLESGSSGKSSSSLVRGVRLSSSGPALLAGLVSLDLPLDPLWEFPRDRLVLGKPLGEGCFGQVVRAEAFGMDPARPDQASTVAVKMLKDNASDKDLADLVSEMEVMKLIGRHKNIINLLGVCTQEGPLYVIVECAAKGNLREFLRARRPPGPDLSPDGPRSSEGPLSFPVLVSCAYQVARGMQYLESRKCIHRDLAARNVLVTEDNVMKIADFGLARGVHHIDYYKKTSNGRLPVKWMAPEALFDRVYTHQSDVWSFGILLWEIFTLGGSPYPGIPVEELFSLLREGHRMDRPPHCPPELYGLMRECWHAAPSQRPTFKQLVEALDKVLLAVSEEYLDLRLTFGPYSPSGGDASSTCSSSDSVFSHDPLPLGSSSFPFGSGVQT
+P09769,FGR,MGCVFCKKLEPVATAKEDAGLEGDFRSYGAADHYGPDPTKARPASSFAHIPNYSNFSSQAINPGFLDSGTIRGVSGIGVTLFIALYDYEARTEDDLTFTKGEKFHILNNTEGDWWEARSLSSGKTGCIPSNYVAPVDSIQAEEWYFGKIGRKDAERQLLSPGNPQGAFLIRESETTKGAYSLSIRDWDQTRGDHVKHYKIRKLDMGGYYITTRVQFNSVQELVQHYMEVNDGLCNLLIAPCTIMKPQTLGLAKDAWEISRSSITLERRLGTGCFGDVWLGTWNGSTKVAVKTLKPGTMSPKAFLEEAQVMKLLRHDKLVQLYAVVSEEPIYIVTEFMCHGSLLDFLKNPEGQDLRLPQLVDMAAQVAEGMAYMERMNYIHRDLRAANILVGERLACKIADFGLARLIKDDEYNPCQGSKFPIKWTAPEAALFGRFTIKSDVWSFGILLTELITKGRIPYPGMNKREVLEQVEQGYHMPCPPGCPASLYEAMEQTWRLDPEERPTFEYLQSFLEDYFTSAEPQYQPGDQT
+P36888,FLT3,MPALARDGGQLPLLVVFSAMIFGTITNQDLPVIKCVLINHKNNDSSVGKSSSYPMVSESPEDLGCALRPQSSGTVYEAAAVEVDVSASITLQVLVDAPGNISCLWVFKHSSLNCQPHFDLQNRGVVSMVILKMTETQAGEYLLFIQSEATNYTILFTVSIRNTLLYTLRRPYFRKMENQDALVCISESVPEPIVEWVLCDSQGESCKEESPAVVKKEEKVLHELFGTDIRCCARNELGRECTRLFTIDLNQTPQTTLPQLFLKVGEPLWIRCKAVHVNHGFGLTWELENKALEEGNYFEMSTYSTNRTMIRILFAFVSSVARNDTGYYTCSSSKHPSQSALVTIVEKGFINATNSSEDYEIDQYEEFCFSVRFKAYPQIRCTWTFSRKSFPCEQKGLDNGYSISKFCNHKHQPGEYIFHAENDDAQFTKMFTLNIRRKPQVLAEASASQASCFSDGYPLPSWTWKKCSDKSPNCTEEITEGVWNRKANRKVFGQWVSSSTLNMSEAIKGFLVKCCAYNSLGTSCETILLNSPGPFPFIQDNISFYATIGVCLLFIVVLTLLICHKYKKQFRYESQLQMVQVTGSSDNEYFYVDFREYEYDLKWEFPRENLEFGKVLGSGAFGKVMNATAYGISKTGVSIQVAVKMLKEKADSSEREALMSELKMMTQLGSHENIVNLLGACTLSGPIYLIFEYCCYGDLLNYLRSKREKFHRTWTEIFKEHNFSFYPTFQSHPNSSMPGSREVQIHPDSDQISGLHGNSFHSEDEIEYENQKRLEEEEDLNVLTFEDLLCFAYQVAKGMEFLEFKSCVHRDLAARNVLVTHGKVVKICDFGLARDIMSDSNYVVRGNARLPVKWMAPESLFEGIYTIKSDVWSYGILLWEIFSLGVNPYPGIPVDANFYKLIQNGFKMDQPFYATEEIYIIMQSCWAFDSRKRPSFPNLTSFLGCQLADAEEAMYQNVDGRVSECPHTYQNRRPFSREMDLGLLSPQAQVEDS
+P17948,FLT1,MVSYWDTGVLLCALLSCLLLTGSSSGSKLKDPELSLKGTQHIMQAGQTLHLQCRGEAAHKWSLPEMVSKESERLSITKSACGRNGKQFCSTLTLNTAQANHTGFYSCKYLAVPTSKKKETESAIYIFISDTGRPFVEMYSEIPEIIHMTEGRELVIPCRVTSPNITVTLKKFPLDTLIPDGKRIIWDSRKGFIISNATYKEIGLLTCEATVNGHLYKTNYLTHRQTNTIIDVQISTPRPVKLLRGHTLVLNCTATTPLNTRVQMTWSYPDEKNKRASVRRRIDQSNSHANIFYSVLTIDKMQNKDKGLYTCRVRSGPSFKSVNTSVHIYDKAFITVKHRKQQVLETVAGKRSYRLSMKVKAFPSPEVVWLKDGLPATEKSARYLTRGYSLIIKDVTEEDAGNYTILLSIKQSNVFKNLTATLIVNVKPQIYEKAVSSFPDPALYPLGSRQILTCTAYGIPQPTIKWFWHPCNHNHSEARCDFCSNNEESFILDADSNMGNRIESITQRMAIIEGKNKMASTLVVADSRISGIYICIASNKVGTVGRNISFYITDVPNGFHVNLEKMPTEGEDLKLSCTVNKFLYRDVTWILLRTVNNRTMHYSISKQKMAITKEHSITLNLTIMNVSLQDSGTYACRARNVYTGEEILQKKEITIRDQEAPYLLRNLSDHTVAISSSTTLDCHANGVPEPQITWFKNNHKIQQEPGIILGPGSSTLFIERVTEEDEGVYHCKATNQKGSVESSAYLTVQGTSDKSNLELITLTCTCVAATLFWLLLTLFIRKMKRSSSEIKTDYLSIIMDPDEVPLDEQCERLPYDASKWEFARERLKLGKSLGRGAFGKVVQASAFGIKKSPTCRTVAVKMLKEGATASEYKALMTELKILTHIGHHLNVVNLLGACTKQGGPLMVIVEYCKYGNLSNYLKSKRDLFFLNKDAALHMEPKKEKMEPGLEQGKKPRLDSVTSSESFASSGFQEDKSLSDVEEEEDSDGFYKEPITMEDLISYSFQVARGMEFLSSRKCIHRDLAARNILLSENNVVKICDFGLARDIYKNPDYVRKGDTRLPLKWMAPESIFDKIYSTKSDVWSYGVLLWEIFSLGGSPYPGVQMDEDFCSRLREGMRMRAPEYSTPEIYQIMLDCWHRDPKERPRFAELVEKLGDLLQANVQQDGKDYIPINAILTGNSGFTYSTPAFSEDFFKESISAPKFNSGSSDDVRYVNAFKFMSLERIKTFEELLPNATSMFDDYQGDSSTLLASPMLKRFTWTDSKPKASLKIDLRVTSKSKESGLSDVSRPSFCHSSCGHVSEGKRRFTYDHAELERKIACCSPPPDYNSVVLYSTPPI
+P35916,FLT4,MQRGAALCLRLWLCLGLLDGLVSGYSMTPPTLNITEESHVIDTGDSLSISCRGQHPLEWAWPGAQEAPATGDKDSEDTGVVRDCEGTDARPYCKVLLLHEVHANDTGSYVCYYKYIKARIEGTTAASSYVFVRDFEQPFINKPDTLLVNRKDAMWVPCLVSIPGLNVTLRSQSSVLWPDGQEVVWDDRRGMLVSTPLLHDALYLQCETTWGDQDFLSNPFLVHITGNELYDIQLLPRKSLELLVGEKLVLNCTVWAEFNSGVTFDWDYPGKQAERGKWVPERRSQQTHTELSSILTIHNVSQHDLGSYVCKANNGIQRFRESTEVIVHENPFISVEWLKGPILEATAGDELVKLPVKLAAYPPPEFQWYKDGKALSGRHSPHALVLKEVTEASTGTYTLALWNSAAGLRRNISLELVVNVPPQIHEKEASSPSIYSRHSRQALTCTAYGVPLPLSIQWHWRPWTPCKMFAQRSLRRRQQQDLMPQCRDWRAVTTQDAVNPIESLDTWTEFVEGKNKTVSKLVIQNANVSAMYKCVVSNKVGQDERLIYFYVTTIPDGFTIESKPSEELLEGQPVLLSCQADSYKYEHLRWYRLNLSTLHDAHGNPLLLDCKNVHLFATPLAASLEEVAPGARHATLSLSIPRVAPEHEGHYVCEVQDRRSHDKHCHKKYLSVQALEAPRLTQNLTDLLVNVSDSLEMQCLVAGAHAPSIVWYKDERLLEEKSGVDLADSNQKLSIQRVREEDAGRYLCSVCNAKGCVNSSASVAVEGSEDKGSMEIVILVGTGVIAVFFWVLLLLIFCNMRRPAHADIKTGYLSIIMDPGEVPLEEQCEYLSYDASQWEFPRERLHLGRVLGYGAFGKVVEASAFGIHKGSSCDTVAVKMLKEGATASEHRALMSELKILIHIGNHLNVVNLLGACTKPQGPLMVIVEFCKYGNLSNFLRAKRDAFSPCAEKSPEQRGRFRAMVELARLDRRRPGSSDRVLFARFSKTEGGARRASPDQEAEDLWLSPLTMEDLVCYSFQVARGMEFLASRKCIHRDLAARNILLSESDVVKICDFGLARDIYKDPDYVRKGSARLPLKWMAPESIFDKVYTTQSDVWSFGVLLWEIFSLGASPYPGVQINEEFCQRLRDGTRMRAPELATPAIRRIMLNCWSGDPKARPAFSELVEILGDLLQGRGLQEEEEVCMAPRSSQSSEEGSFSQVSTMALHIAQADAEDSPPSLQRHSLAARYYNWVSFPGCLARGAETRGSSRMKTFEEFPMTPTTYKGSVDNQTDSGMVLASEEFEQIESRHRQESGFSCKGPGQNVAVTRAHPDSQGRRRRPERGARGGQVFYNSEYGELSEPSEEDHCSPSARVTFFTDNSY
+P42345,MTOR,MLGTGPAAATTAATTSSNVSVLQQFASGLKSRNEETRAKAAKELQHYVTMELREMSQEESTRFYDQLNHHIFELVSSSDANERKGGILAIASLIGVEGGNATRIGRFANYLRNLLPSNDPVVMEMASKAIGRLAMAGDTFTAEYVEFEVKRALEWLGADRNEGRRHAAVLVLRELAISVPTFFFQQVQPFFDNIFVAVWDPKQAIREGAVAALRACLILTTQREPKEMQKPQWYRHTFEEAEKGFDETLAKEKGMNRDDRIHGALLILNELVRISSMEGERLREEMEEITQQQLVHDKYCKDLMGFGTKPRHITPFTSFQAVQPQQSNALVGLLGYSSHQGLMGFGTSPSPAKSTLVESRCCRDLMEEKFDQVCQWVLKCRNSKNSLIQMTILNLLPRLAAFRPSAFTDTQYLQDTMNHVLSCVKKEKERTAAFQALGLLSVAVRSEFKVYLPRVLDIIRAALPPKDFAHKRQKAMQVDATVFTCISMLARAMGPGIQQDIKELLEPMLAVGLSPALTAVLYDLSRQIPQLKKDIQDGLLKMLSLVLMHKPLRHPGMPKGLAHQLASPGLTTLPEASDVGSITLALRTLGSFEFEGHSLTQFVRHCADHFLNSEHKEIRMEAARTCSRLLTPSIHLISGHAHVVSQTAVQVVADVLSKLLVVGITDPDPDIRYCVLASLDERFDAHLAQAENLQALFVALNDQVFEIRELAICTVGRLSSMNPAFVMPFLRKMLIQILTELEHSGIGRIKEQSARMLGHLVSNAPRLIRPYMEPILKALILKLKDPDPDPNPGVINNVLATIGELAQVSGLEMRKWVDELFIIIMDMLQDSSLLAKRQVALWTLGQLVASTGYVVEPYRKYPTLLEVLLNFLKTEQNQGTRREAIRVLGLLGALDPYKHKVNIGMIDQSRDASAVSLSESKSSQDSSDYSTSEMLVNMGNLPLDEFYPAVSMVALMRIFRDQSLSHHHTMVVQAITFIFKSLGLKCVQFLPQVMPTFLNVIRVCDGAIREFLFQQLGMLVSFVKSHIRPYMDEIVTLMREFWVMNTSIQSTIILLIEQIVVALGGEFKLYLPQLIPHMLRVFMHDNSPGRIVSIKLLAAIQLFGANLDDYLHLLLPPIVKLFDAPEAPLPSRKAALETVDRLTESLDFTDYASRIIHPIVRTLDQSPELRSTAMDTLSSLVFQLGKKYQIFIPMVNKVLVRHRINHQRYDVLICRIVKGYTLADEEEDPLIYQHRMLRSGQGDALASGPVETGPMKKLHVSTINLQKAWGAARRVSKDDWLEWLRRLSLELLKDSSSPSLRSCWALAQAYNPMARDLFNAAFVSCWSELNEDQQDELIRSIELALTSQDIAEVTQTLLNLAEFMEHSDKGPLPLRDDNGIVLLGERAAKCRAYAKALHYKELEFQKGPTPAILESLISINNKLQQPEAAAGVLEYAMKHFGELEIQATWYEKLHEWEDALVAYDKKMDTNKDDPELMLGRMRCLEALGEWGQLHQQCCEKWTLVNDETQAKMARMAAAAAWGLGQWDSMEEYTCMIPRDTHDGAFYRAVLALHQDLFSLAQQCIDKARDLLDAELTAMAGESYSRAYGAMVSCHMLSELEEVIQYKLVPERREIIRQIWWERLQGCQRIVEDWQKILMVRSLVVSPHEDMRTWLKYASLCGKSGRLALAHKTLVLLLGVDPSRQLDHPLPTVHPQVTYAYMKNMWKSARKIDAFQHMQHFVQTMQQQAQHAIATEDQQHKQELHKLMARCFLKLGEWQLNLQGINESTIPKVLQYYSAATEHDRSWYKAWHAWAVMNFEAVLHYKHQNQARDEKKKLRHASGANITNATTAATTAATATTTASTEGSNSESEAESTENSPTPSPLQKKVTEDLSKTLLMYTVPAVQGFFRSISLSRGNNLQDTLRVLTLWFDYGHWPDVNEALVEGVKAIQIDTWLQVIPQLIARIDTPRPLVGRLIHQLLTDIGRYHPQALIYPLTVASKSTTTARHNAANKILKNMCEHSNTLVQQAMMVSEELIRVAILWHEMWHEGLEEASRLYFGERNVKGMFEVLEPLHAMMERGPQTLKETSFNQAYGRDLMEAQEWCRKYMKSGNVKDLTQAWDLYYHVFRRISKQLPQLTSLELQYVSPKLLMCRDLELAVPGTYDPNQPIIRIQSIAPSLQVITSKQRPRKLTLMGSNGHEFVFLLKGHEDLRQDERVMQLFGLVNTLLANDPTSLRKNLSIQRYAVIPLSTNSGLIGWVPHCDTLHALIRDYREKKKILLNIEHRIMLRMAPDYDHLTLMQKVEVFEHAVNNTAGDDLAKLLWLKSPSSEVWFDRRTNYTRSLAVMSMVGYILGLGDRHPSNLMLDRLSGKILHIDFGDCFEVAMTREKFPEKIPFRLTRMLTNAMEVTGLDGNYRITCHTVMEVLREHKDSVMAVLEAFVYDPLLNWRLMDTNTKGNKRSRTRTDSYSAGQSVEILDGVELGEPAHKKTGTTVPESIHSFIGDGLVKPEALNKKAIQIINRVRDKLTGRDFSHDDTLDVPTQVELLIKQATSHENLCQCYIGWCPFW
+P06241,FYN,MGCVQCKDKEATKLTEERDGSLNQSSGYRYGTDPTPQHYPSFGVTSIPNYNNFHAAGGQGLTVFGGVNSSSHTGTLRTRGGTGVTLFVALYDYEARTEDDLSFHKGEKFQILNSSEGDWWEARSLTTGETGYIPSNYVAPVDSIQAEEWYFGKLGRKDAERQLLSFGNPRGTFLIRESETTKGAYSLSIRDWDDMKGDHVKHYKIRKLDNGGYYITTRAQFETLQQLVQHYSERAAGLCCRLVVPCHKGMPRLTDLSVKTKDVWEIPRESLQLIKRLGNGQFGEVWMGTWNGNTKVAIKTLKPGTMSPESFLEEAQIMKKLKHDKLVQLYAVVSEEPIYIVTEYMNKGSLLDFLKDGEGRALKLPNLVDMAAQVAAGMAYIERMNYIHRDLRSANILVGNGLICKIADFGLARLIEDNEYTARQGAKFPIKWTAPEAALYGRFTIKSDVWSFGILLTELVTKGRVPYPGMNNREVLEQVERGYRMPCPQDCPISLHELMIHCWKKDPEERPTFEYLQSFLEDYFTATEPQYQPGENL
+O14976,GAK,MSLLQSALDFLAGPGSLGGASGRDQSDFVGQTVELGELRLRVRRVLAEGGFAFVYEAQDVGSGREYALKRLLSNEEEKNRAIIQEVCFMKKLSGHPNIVQFCSAASIGKEESDTGQAEFLLLTELCKGQLVEFLKKMESRGPLSCDTVLKIFYQTCRAVQHMHRQKPPIIHRDLKVENLLLSNQGTIKLCDFGSATTISHYPDYSWSAQRRALVEEEITRNTTPMYRTPEIIDLYSNFPIGEKQDIWALGCILYLLCFRQHPFEDGAKLRIVNGKYSIPPHDTQYTVFHSLIRAMLQVNPEERLSIAEVVHQLQEIAAARNVNPKSPITELLEQNGGYGSATLSRGPPPPVGPAGSGYSGGLALAEYDQPYGGFLDILRGGTERLFTNLKDTSSKVIQSVANYAKGDLDISYITSRIAVMSFPAEGVESALKNNIEDVRLFLDSKHPGHYAVYNLSPRTYRPSRFHNRVSECGWAARRAPHLHTLYNICRNMHAWLRQDHKNVCVVHCMDGRAASAVAVCSFLCFCRLFSTAEAAVYMFSMKRCPPGIWPSHKRYIEYMCDMVAEEPITPHSKPILVRAVVMTPVPLFSKQRSGCRPFCEVYVGDERVASTSQEYDKMRDFKIEDGKAVIPLGVTVQGDVLIVIYHARSTLGGRLQAKMASMKMFQIQFHTGFVPRNATTVKFAKYDLDACDIQEKYPDLFQVNLEVEVEPRDRPSREAPPWENSSMRGLNPKILFSSREEQQDILSKFGKPELPRQPGSTAQYDAGAGSPEAEPTDSDSPPSSSADASRFLHTLDWQEEKEAETGAENASSKESESALMEDRDESEVSDEGGSPISSEGQEPRADPEPPGLAAGLVQQDLVFEVETPAVLPEPVPQEDGVDLLGLHSEVGAGPAVPPQACKAPSSNTDLLSCLLGPPEAASQGPPEDLLSEDPLLLASPAPPLSVQSTPRGGPPAAADPFGPLLPSSGNNSQPCSNPDLFGEFLNSDSVTVPPSFPSAHSAPPPSCSADFLHLGDLPGEPSKMTASSSNPDLLGGWAAWTETAASAVAPTPATEGPLFSPGGQPAPCGSQASWTKSQNPDPFADLGDLSSGLQGSPAGFPPGGFIPKTATTPKGSSSWQTSRPPAQGASWPPQAKPPPKACTQPRPNYASNFSVIGAREERGVRAPSFAQKPKVSENDFEDLLSNQGFSSRSDKKGPKTIAEMRKQDLAKDTDPLKLKLLDWIEGKERNIRALLSTLHTVLWDGESRWTPVGMADLVAPEQVKKHYRRAVLAVHPDKAAGQPYEQHAKMIFMELNDAWSEFENQGSRPLF
+P32298,GRK4,MELENIVANSLLLKARQGGYGKKSGRSKKWKEILTLPPVSQCSELRHSIEKDYSSLCDKQPIGRRLFRQFCDTKPTLKRHIEFLDAVAEYEVADDEDRSDCGLSILDRFFNDKLAAPLPEIPPDVVTECRLGLKEENPSKKAFEECTRVAHNYLRGEPFEEYQESSYFSQFLQWKWLERQPVTKNTFRHYRVLGKGGFGEVCACQVRATGKMYACKKLQKKRIKKRKGEAMALNEKRILEKVQSRFVVSLAYAYETKDALCLVLTIMNGGDLKFHIYNLGNPGFDEQRAVFYAAELCCGLEDLQRERIVYRDLKPENILLDDRGHIRISDLGLATEIPEGQRVRGRVGTVGYMAPEVVNNEKYTFSPDWWGLGCLIYEMIQGHSPFKKYKEKVKWEEVDQRIKNDTEEYSEKFSEDAKSICRMLLTKNPSKRLGCRGEGAAGVKQHPVFKDINFRRLEANMLEPPFCPDPHAVYCKDVLDIEQFSVVKGIYLDTADEDFYARFATGCVSIPWQNEMIESGCFKDINKSESEEALPLDLDKNIHTPVSRPNRGFFYRLFRRGGCLTMVPSEKEVEPKQC
+P34947,GRK5,MELENIVANTVLLKAREGGGGKRKGKSKKWKEILKFPHISQCEDLRRTIDRDYCSLCDKQPIGRLLFRQFCETRPGLECYIQFLDSVAEYEVTPDEKLGEKGKEIMTKYLTPKSPVFIAQVGQDLVSQTEEKLLQKPCKELFSACAQSVHEYLRGEPFHEYLDSMFFDRFLQWKWLERQPVTKNTFRQYRVLGKGGFGEVCACQVRATGKMYACKRLEKKRIKKRKGESMALNEKQILEKVNSQFVVNLAYAYETKDALCLVLTIMNGGDLKFHIYNMGNPGFEEERALFYAAEILCGLEDLHRENTVYRDLKPENILLDDYGHIRISDLGLAVKIPEGDLIRGRVGTVGYMAPEVLNNQRYGLSPDYWGLGCLIYEMIEGQSPFRGRKEKVKREEVDRRVLETEEVYSHKFSEEAKSICKMLLTKDAKQRLGCQEEGAAEVKRHPFFRNMNFKRLEAGMLDPPFVPDPRAVYCKDVLDIEQFSTVKGVNLDHTDDDFYSKFSTGSVSIPWQNEMIETECFKELNVFGPNGTLPPDLNRNHPPEPPKKGLLQRLFKRQHQNNSKSSPSSKTSFNHHINSNHVSSNSTGSS
+P43250,GRK6,MELENIVANTVLLKAREGGGGNRKGKSKKWRQMLQFPHISQCEELRLSLERDYHSLCERQPIGRLLFREFCATRPELSRCVAFLDGVAEYEVTPDDKRKACGRQLTQNFLSHTGPDLIPEVPRQLVTNCTQRLEQGPCKDLFQELTRLTHEYLSVAPFADYLDSIYFNRFLQWKWLERQPVTKNTFRQYRVLGKGGFGEVCACQVRATGKMYACKKLEKKRIKKRKGEAMALNEKQILEKVNSRFVVSLAYAYETKDALCLVLTLMNGGDLKFHIYHMGQAGFPEARAVFYAAEICCGLEDLHRERIVYRDLKPENILLDDHGHIRISDLGLAVHVPEGQTIKGRVGTVGYMAPEVVKNERYTFSPDWWALGCLLYEMIAGQSPFQQRKKKIKREEVERLVKEVPEEYSERFSPQARSLCSQLLCKDPAERLGCRGGSAREVKEHPLFKKLNFKRLGAGMLEPPFKPDPQAIYCKDVLDIEQFSTVKGVELEPTDQDFYQKFATGSVPIPWQNEMVETECFQELNVFGLDGSVPPDLDWKGQPPAPPKKGLLQRLFSRQDCCGNCSDSEEELPTRL
+Q92519,TRIB2,MNIHRSTPITIARYGRSRNKTQDFEELSSIRSAEPSQSFSPNLGSPSPPETPNLSHCVSCIGKYLLLEPLEGDHVFRAVHLHSGEELVCKVFDISCYQESLAPCFCLSAHSNINQITEIILGETKAYVFFERSYGDMHSFVRTCKKLREEEAARLFYQIASAVAHCHDGGLVLRDLKLRKFIFKDEERTRVKLESLEDAYILRGDDDSLSDKHGCPAYVSPEILNTSGSYSGKAADVWSLGVMLYTMLVGRYPFHDIEPSSLFSKIRRGQFNIPETLSPKAKCLIRSILRREPSERLTSQEILDHPWFSTDFSVSNSAYGAKEVSDQLVPDVNMEENLDPFFN
+P49840,GSK3A,MSGGGPSGGGPGGSGRARTSSFAEPGGGGGGGGGGPGGSASGPGGTGGGKASVGAMGGGVGASSSGGGPGGSGGGGSGGPGAGTSFPPPGVKLGRDSGKVTTVVATLGQGPERSQEVAYTDIKVIGNGSFGVVYQARLAETRELVAIKKVLQDKRFKNRELQIMRKLDHCNIVRLRYFFYSSGEKKDELYLNLVLEYVPETVYRVARHFTKAKLTIPILYVKVYMYQLFRSLAYIHSQGVCHRDIKPQNLLVDPDTAVLKLCDFGSAKQLVRGEPNVSYICSRYYRAPELIFGATDYTSSIDVWSAGCVLAELLLGQPIFPGDSGVDQLVEIIKVLGTPTREQIREMNPNYTEFKFPQIKAHPWTKVFKSRTPPEAIALCSSLLEYTPSSRLSPLEACAHSFFDELRCLGTQLPNNRPLPPLFNFSAGELSIQPSLNAILIPPHLRSPAGTTTLTPSSQALTETPTSSDWQSTDATPTLTNSS
+P49841,GSK3B,MSGRPRTTSFAESCKPVQQPSAFGSMKVSRDKDGSKVTTVVATPGQGPDRPQEVSYTDTKVIGNGSFGVVYQAKLCDSGELVAIKKVLQDKRFKNRELQIMRKLDHCNIVRLRYFFYSSGEKKDEVYLNLVLDYVPETVYRVARHYSRAKQTLPVIYVKLYMYQLFRSLAYIHSFGICHRDIKPQNLLLDPDTAVLKLCDFGSAKQLVRGEPNVSYICSRYYRAPELIFGATDYTSSIDVWSAGCVLAELLLGQPIFPGDSGVDQLVEIIKVLGTPTREQIREMNPNYTEFKFPQIKAHPWTKVFRPRTPPEAIALCSRLLEYTPTARLTPLEACAHSFFDELRDPNVKLPNGRDTPALFNFTTQELSSNPPLATILIPPHARIQAAASTPTNATAASDANTGDRGQTNNAASASASNST
+P08631,HCK,MGGRSSCEDPGCPRDEERAPRMGCMKSKFLQVGGNTFSKTETSASPHCPVYVPDPTSTIKPGPNSHNSNTPGIREAGSEDIIVVALYDYEAIHHEDLSFQKGDQMVVLEESGEWWKARSLATRKEGYIPSNYVARVDSLETEEWFFKGISRKDAERQLLAPGNMLGSFMIRDSETTKGSYSLSVRDYDPRQGDTVKHYKIRTLDNGGFYISPRSTFSTLQELVDHYKKGNDGLCQKLSVPCMSSKPQKPWEKDAWEIPRESLKLEKKLGAGQFGEVWMATYNKHTKVAVKTMKPGSMSVEAFLAEANVMKTLQHDKLVKLHAVVTKEPIYIITEFMAKGSLLDFLKSDEGSKQPLPKLIDFSAQIAEGMAFIEQRNYIHRDLRAANILVSASLVCKIADFGLARVIEDNEYTAREGAKFPIKWTAPEAINFGSFTIKSDVWSFGILLMEIVTYGRIPYPGMSNPEVIRALERGYRMPRPENCPEELYNIMMRCWKNRPEERPTFEYIQSVLDDFYTATESQYQQQP
+P04626,ERBB2,MELAALCRWGLLLALLPPGAASTQVCTGTDMKLRLPASPETHLDMLRHLYQGCQVVQGNLELTYLPTNASLSFLQDIQEVQGYVLIAHNQVRQVPLQRLRIVRGTQLFEDNYALAVLDNGDPLNNTTPVTGASPGGLRELQLRSLTEILKGGVLIQRNPQLCYQDTILWKDIFHKNNQLALTLIDTNRSRACHPCSPMCKGSRCWGESSEDCQSLTRTVCAGGCARCKGPLPTDCCHEQCAAGCTGPKHSDCLACLHFNHSGICELHCPALVTYNTDTFESMPNPEGRYTFGASCVTACPYNYLSTDVGSCTLVCPLHNQEVTAEDGTQRCEKCSKPCARVCYGLGMEHLREVRAVTSANIQEFAGCKKIFGSLAFLPESFDGDPASNTAPLQPEQLQVFETLEEITGYLYISAWPDSLPDLSVFQNLQVIRGRILHNGAYSLTLQGLGISWLGLRSLRELGSGLALIHHNTHLCFVHTVPWDQLFRNPHQALLHTANRPEDECVGEGLACHQLCARGHCWGPGPTQCVNCSQFLRGQECVEECRVLQGLPREYVNARHCLPCHPECQPQNGSVTCFGPEADQCVACAHYKDPPFCVARCPSGVKPDLSYMPIWKFPDEEGACQPCPINCTHSCVDLDDKGCPAEQRASPLTSIISAVVGILLVVVLGVVFGILIKRRQQKIRKYTMRRLLQETELVEPLTPSGAMPNQAQMRILKETELRKVKVLGSGAFGTVYKGIWIPDGENVKIPVAIKVLRENTSPKANKEILDEAYVMAGVGSPYVSRLLGICLTSTVQLVTQLMPYGCLLDHVRENRGRLGSQDLLNWCMQIAKGMSYLEDVRLVHRDLAARNVLVKSPNHVKITDFGLARLLDIDETEYHADGGKVPIKWMALESILRRRFTHQSDVWSYGVTVWELMTFGAKPYDGIPAREIPDLLEKGERLPQPPICTIDVYMIMVKCWMIDSECRPRFRELVSEFSRMARDPQRFVVIQNEDLGPASPLDSTFYRSLLEDDDMGDLVDAEEYLVPQQGFFCPDPAPGAGGMVHHRHRSSSTRSGGGDLTLGLEPSEEEAPRSPLAPSEGAGSDVFDGDLGMGAAKGLQSLPTHDPSPLQRYSEDPTVPLPSETDGYVAPLTCSPQPEYVNQPDVRPQPPSPREGPLPAARPAGATLERPKTLSPGKNGVVKDVFAFGGAVENPEYLTPQGGAAPQPHPPPAFSPAFDNLYYWDQDPPERGAPPSTFKGTPTAENPEYLGLDVPV
+P21860,ERBB3,MRANDALQVLGLLFSLARGSEVGNSQAVCPGTLNGLSVTGDAENQYQTLYKLYERCEVVMGNLEIVLTGHNADLSFLQWIREVTGYVLVAMNEFSTLPLPNLRVVRGTQVYDGKFAIFVMLNYNTNSSHALRQLRLTQLTEILSGGVYIEKNDKLCHMDTIDWRDIVRDRDAEIVVKDNGRSCPPCHEVCKGRCWGPGSEDCQTLTKTICAPQCNGHCFGPNPNQCCHDECAGGCSGPQDTDCFACRHFNDSGACVPRCPQPLVYNKLTFQLEPNPHTKYQYGGVCVASCPHNFVVDQTSCVRACPPDKMEVDKNGLKMCEPCGGLCPKACEGTGSGSRFQTVDSSNIDGFVNCTKILGNLDFLITGLNGDPWHKIPALDPEKLNVFRTVREITGYLNIQSWPPHMHNFSVFSNLTTIGGRSLYNRGFSLLIMKNLNVTSLGFRSLKEISAGRIYISANRQLCYHHSLNWTKVLRGPTEERLDIKHNRPRRDCVAEGKVCDPLCSSGGCWGPGPGQCLSCRNYSRGGVCVTHCNFLNGEPREFAHEAECFSCHPECQPMEGTATCNGSGSDTCAQCAHFRDGPHCVSSCPHGVLGAKGPIYKYPDVQNECRPCHENCTQGCKGPELQDCLGQTLVLIGKTHLTMALTVIAGLVVIFMMLGGTFLYWRGRRIQNKRAMRRYLERGESIEPLDPSEKANKVLARIFKETELRKLKVLGSGVFGTVHKGVWIPEGESIKIPVCIKVIEDKSGRQSFQAVTDHMLAIGSLDHAHIVRLLGLCPGSSLQLVTQYLPLGSLLDHVRQHRGALGPQLLLNWGVQIAKGMYYLEEHGMVHRNLAARNVLLKSPSQVQVADFGVADLLPPDDKQLLYSEAKTPIKWMALESIHFGKYTHQSDVWSYGVTVWELMTFGAEPYAGLRLAEVPDLLEKGERLAQPQICTIDVYMVMVKCWMIDENIRPTFKELANEFTRMARDPPRYLVIKRESGPGIAPGPEPHGLTNKKLEEVELEPELDLDLDLEAEEDNLATTTLGSALSLPVGTLNRPRGSQSLLSPSSGYMPMNQGNLGESCQESAVSGSSERCPRPVSLHPMPRGCLASESSEGHVTGSEAELQEKVSMCRSRSRSRSPRPRGDSAYHSQRHSLLTPVTPLSPPGLEEEDVNGYVMPDTHLKGTPSSREGTLSSVGLSSVLGTEEEDEDEEYEYMNRRRRHSPPHPPRPSSLEELGYEYMDVGSDLSASLGSTQSCPLHPVPIMPTAGTTPDEDYEYMNRQRDGGGPGGDYAAMGACPASEQGYEEMRAFQGPGHQAPHVHYARLKTLRSLEATDSAFDNPDYWHSRLFPKANAQRT
+Q15303,ERBB4,MKPATGLWVWVSLLVAAGTVQPSDSQSVCAGTENKLSSLSDLEQQYRALRKYYENCEVVMGNLEITSIEHNRDLSFLRSVREVTGYVLVALNQFRYLPLENLRIIRGTKLYEDRYALAIFLNYRKDGNFGLQELGLKNLTEILNGGVYVDQNKFLCYADTIHWQDIVRNPWPSNLTLVSTNGSSGCGRCHKSCTGRCWGPTENHCQTLTRTVCAEQCDGRCYGPYVSDCCHRECAGGCSGPKDTDCFACMNFNDSGACVTQCPQTFVYNPTTFQLEHNFNAKYTYGAFCVKKCPHNFVVDSSSCVRACPSSKMEVEENGIKMCKPCTDICPKACDGIGTGSLMSAQTVDSSNIDKFINCTKINGNLIFLVTGIHGDPYNAIEAIDPEKLNVFRTVREITGFLNIQSWPPNMTDFSVFSNLVTIGGRVLYSGLSLLILKQQGITSLQFQSLKEISAGNIYITDNSNLCYYHTINWTTLFSTINQRIVIRDNRKAENCTAEGMVCNHLCSSDGCWGPGPDQCLSCRRFSRGRICIESCNLYDGEFREFENGSICVECDPQCEKMEDGLLTCHGPGPDNCTKCSHFKDGPNCVEKCPDGLQGANSFIFKYADPDRECHPCHPNCTQGCNGPTSHDCIYYPWTGHSTLPQHARTPLIAAGVIGGLFILVIVGLTFAVYVRRKSIKKKRALRRFLETELVEPLTPSGTAPNQAQLRILKETELKRVKVLGSGAFGTVYKGIWVPEGETVKIPVAIKILNETTGPKANVEFMDEALIMASMDHPHLVRLLGVCLSPTIQLVTQLMPHGCLLEYVHEHKDNIGSQLLLNWCVQIAKGMMYLEERRLVHRDLAARNVLVKSPNHVKITDFGLARLLEGDEKEYNADGGKMPIKWMALECIHYRKFTHQSDVWSYGVTIWELMTFGGKPYDGIPTREIPDLLEKGERLPQPPICTIDVYMVMVKCWMIDADSRPKFKELAAEFSRMARDPQRYLVIQGDDRMKLPSPNDSKFFQNLLDEEDLEDMMDAEEYLVPQAFNIPPPIYTSRARIDSNRSEIGHSPPPAYTPMSGNQFVYRDGGFAAEQGVSVPYRAPTSTIPEAPVAQGATAEIFDDSCCNGTLRKPVAPHVQEDSSTQRYSADPTVFAPERSPRGELDEEGYMTPMRDKPKQEYLNPVEENPFVSRRKNGDLQALDNPEYHNASNGPPKAEDEYVNEPLYLNTFANTLGKAEYLKNNILSMPEKAKKAFDNPDYWNHSLPPRSTLQHPDYLQEYSTKYFYKQNGRIRPIVAENPEYLSEFSLKPGTVLPPPPYRHRNTVV
+Q86Z02,HIPK1,MASQLQVFSPPSVSSSAFCSAKKLKIEPSGWDVSGQSSNDKYYTHSKTLPATQGQANSSHQVANFNIPAYDQGLLLPAPAVEHIVVTAADSSGSAATSTFQSSQTLTHRSNVSLLEPYQKCGLKRKSEEVDSNGSVQIIEEHPPLMLQNRTVVGAAATTTTVTTKSSSSSGEGDYQLVQHEILCSMTNSYEVLEFLGRGTFGQVAKCWKRSTKEIVAIKILKNHPSYARQGQIEVSILSRLSSENADEYNFVRSYECFQHKNHTCLVFEMLEQNLYDFLKQNKFSPLPLKYIRPILQQVATALMKLKSLGLIHADLKPENIMLVDPVRQPYRVKVIDFGSASHVSKAVCSTYLQSRYYRAPEIILGLPFCEAIDMWSLGCVIAELFLGWPLYPGASEYDQIRYISQTQGLPAEYLLSAGTKTTRFFNRDPNLGYPLWRLKTPEEHELETGIKSKEARKYIFNCLDDMAQVNMSTDLEGTDMLAEKADRREYIDLLKKMLTIDADKRITPLKTLNHQFVTMTHLLDFPHSNHVKSCFQNMEICKRRVHMYDTVSQIKSPFTTHVAPNTSTNLTMSFSNQLNTVHNQASVLASSSTAAAATLSLANSDVSLLNYQSALYPSSAAPVPGVAQQGVSLQPGTTQICTQTDPFQQTFIVCPPAFQTGLQATTKHSGFPVRMDNAVPIVPQAPAAQPLQIQSGVLTQGSCTPLMVATLHPQVATITPQYAVPFTLSCAAGRPALVEQTAAVLQAWPGGTQQILLPSTWQQLPGVALHNSVQPTAMIPEAMGSGQQLADWRNAHSHGNQYSTIMQQPSLLTNHVTLATAQPLNVGVAHVVRQQQSSSLPSKKNKQSAPVSSKSSLDVLPSQVYSLVGSSPLRTTSSYNSLVPVQDQHQPIIIPDTPSPPVSVITIRSDTDEEEDNKYKPSSSGLKPRSNVISYVTVNDSPDSDSSLSSPYSTDTLSALRGNSGSVLEGPGRVVADGTGTRTIIVPPLKTQLGDCTVATQASGLLSNKTKPVASVSGQSSGCCITPTGYRAQRGGTSAAQPLNLSQNQQSSAAPTSQERSSNPAPRRQQAFVAPLSQAPYTFQHGSPLHSTGHPHLAPAPAHLPSQAHLYTYAAPTSAAALGSTSSIAHLFSPQGSSRHAAAYTTHPSTLVHQVPVSVGPSLLTSASVAPAQYQHQFATQSYIGSSRGSTIYTGYPLSPTKISQYSYL
+Q92918,MAP4K1,MDVVDPDIFNRDPRDHYDLLQRLGGGTYGEVFKARDKVSGDLVALKMVKMEPDDDVSTLQKEILILKTCRHANIVAYHGSYLWLQKLWICMEFCGAGSLQDIYQVTGSLSELQISYVCREVLQGLAYLHSQKKIHRDIKGANILINDAGEVRLADFGISAQIGATLARRLSFIGTPYWMAPEVAAVALKGGYNELCDIWSLGITAIELAELQPPLFDVHPLRVLFLMTKSGYQPPRLKEKGKWSAAFHNFIKVTLTKSPKKRPSATKMLSHQLVSQPGLNRGLILDLLDKLKNPGKGPSIGDIEDEEPELPPAIPRRIRSTHRSSSLGIPDADCCRRHMEFRKLRGMETRPPANTARLQPPRDLRSSSPRKQLSESSDDDYDDVDIPTPAEDTPPPLPPKPKFRSPSDEGPGSMGDDGQLSPGVLVRCASGPPPNSPRPGPPPSTSSPHLTAHSEPSLWNPPSRELDKPPLLPPKKEKMKRKGCALLVKLFNGCPLRIHSTAAWTHPSTKDQHLLLGAEEGIFILNRNDQEATLEMLFPSRTTWVYSINNVLMSLSGKTPHLYSHSILGLLERKETRAGNPIAHISPHRLLARKNMVSTKIQDTKGCRACCVAEGASSGGPFLCGALETSVVLLQWYQPMNKFLLVRQVLFPLPTPLSVFALLTGPGSELPAVCIGVSPGRPGKSVLFHTVRFGALSCWLGEMSTEHRGPVQVTQVEEDMVMVLMDGSVKLVTPEGSPVRGLRTPEIPMTEAVEAVAMVGGQLQAFWKHGVQVWALGSDQLLQELRDPTLTFRLLGSPRLECSGTISPHCNLLLPGSSNSPASASRVAGITGL
+P25092,GUCY2C,MKTLLLDLALWSLLFQPGWLSFSSQVSQNCHNGSYEISVLMMGNSAFAEPLKNLEDAVNEGLEIVRGRLQNAGLNVTVNATFMYSDGLIHNSGDCRSSTCEGLDLLRKISNAQRMGCVLIGPSCTYSTFQMYLDTELSYPMISAGSFGLSCDYKETLTRLMSPARKLMYFLVNFWKTNDLPFKTYSWSTSYVYKNGTETEDCFWYLNALEASVSYFSHELGFKVVLRQDKEFQDILMDHNRKSNVIIMCGGPEFLYKLKGDRAVAEDIVIILVDLFNDQYFEDNVTAPDYMKNVLVLTLSPGNSLLNSSFSRNLSPTKRDFALAYLNGILLFGHMLKIFLENGENITTPKFAHAFRNLTFEGYDGPVTLDDWGDVDSTMVLLYTSVDTKKYKVLLTYDTHVNKTYPVDMSPTFTWKNSKLPNDITGRGPQILMIAVFTLTGAVVLLLLVALLMLRKYRKDYELRQKKWSHIPPENIFPLETNETNHVSLKIDDDKRRDTIQRLRQCKYDKKRVILKDLKHNDGNFTEKQKIELNKLLQIDYYNLTKFYGTVKLDTMIFGVIEYCERGSLREVLNDTISYPDGTFMDWEFKISVLYDIAKGMSYLHSSKTEVHGRLKSTNCVVDSRMVVKITDFGCNSILPPKKDLWTAPEHLRQANISQKGDVYSYGIIAQEIILRKETFYTLSCRDRNEKIFRVENSNGMKPFRPDLFLETAEEKELEVYLLVKNCWEEDPEKRPDFKKIETTLAKIFGLFHDQKNESYMDTLIRRLQLYSRNLEHLVEERTQLYKAERDRADRLNFMLLPRLVVKSLKEKGFVEPELYEEVTIYFSDIVGFTTICKYSTPMEVVDMLNDIYKSFDHIVDHHDVYKVETIGDAYMVASGLPKRNGNRHAIDIAKMALEILSFMGTFELEHLPGLPIWIRIGVHSGPCAAGVVGIKMPRYCLFGDTVNTASRMESTGLPLRIHVSGSTIAILKRTECQFLYEVRGETYLKGRGNETTYWLTGMKDQKFNLPTPPTVENQQRLQAEFSDMIANSLQKRQAAGIRSQKPRRVASYKKGTLEYLQLNTTDKESTYF
+P08069,IGF1R,MKSGSGGGSPTSLWGLLFLSAALSLWPTSGEICGPGIDIRNDYQQLKRLENCTVIEGYLHILLISKAEDYRSYRFPKLTVITEYLLLFRVAGLESLGDLFPNLTVIRGWKLFYNYALVIFEMTNLKDIGLYNLRNITRGAIRIEKNADLCYLSTVDWSLILDAVSNNYIVGNKPPKECGDLCPGTMEEKPMCEKTTINNEYNYRCWTTNRCQKMCPSTCGKRACTENNECCHPECLGSCSAPDNDTACVACRHYYYAGVCVPACPPNTYRFEGWRCVDRDFCANILSAESSDSEGFVIHDGECMQECPSGFIRNGSQSMYCIPCEGPCPKVCEEEKKTKTIDSVTSAQMLQGCTIFKGNLLINIRRGNNIASELENFMGLIEVVTGYVKIRHSHALVSLSFLKNLRLILGEEQLEGNYSFYVLDNQNLQQLWDWDHRNLTIKAGKMYFAFNPKLCVSEIYRMEEVTGTKGRQSKGDINTRNNGERASCESDVLHFTSTTTSKNRIIITWHRYRPPDYRDLISFTVYYKEAPFKNVTEYDGQDACGSNSWNMVDVDLPPNKDVEPGILLHGLKPWTQYAVYVKAVTLTMVENDHIRGAKSEILYIRTNASVPSIPLDVLSASNSSSQLIVKWNPPSLPNGNLSYYIVRWQRQPQDGYLYRHNYCSKDKIPIRKYADGTIDIEEVTENPKTEVCGGEKGPCCACPKTEAEKQAEKEEAEYRKVFENFLHNSIFVPRPERKRRDVMQVANTTMSSRSRNTTAADTYNITDPEELETEYPFFESRVDNKERTVISNLRPFTLYRIDIHSCNHEAEKLGCSASNFVFARTMPAEGADDIPGPVTWEPRPENSIFLKWPEPENPNGLILMYEIKYGSQVEDQRECVSRQEYRKYGGAKLNRLNPGNYTARIQATSLSGNGSWTDPVFFYVQAKTGYENFIHLIIALPVAVLLIVGGLVIMLYVFHRKRNNSRLGNGVLYASVNPEYFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPEMENNPVLAPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEENKLPEPEELDLEPENMESVPLDPSASSSSLPLPDRHSGHKAENGPGPGVLVLRASFDERQPYAHMNGGRKNERALPLPQSSTC
+O15111,CHUK,MERPPGLRPGAGGPWEMRERLGTGGFGNVCLYQHRELDLKIAIKSCRLELSTKNRERWCHEIQIMKKLNHANVVKACDVPEELNILIHDVPLLAMEYCSGGDLRKLLNKPENCCGLKESQILSLLSDIGSGIRYLHENKIIHRDLKPENIVLQDVGGKIIHKIIDLGYAKDVDQGSLCTSFVGTLQYLAPELFENKPYTATVDYWSFGTMVFECIAGYRPFLHHLQPFTWHEKIKKKDPKCIFACEEMSGEVRFSSHLPQPNSLCSLVVEPMENWLQLMLNWDPQQRGGPVDLTLKQPRCFVLMDHILNLKIVHILNMTSAKIISFLLPPDESLHSLQSRIERETGINTGSQELLSETGISLDPRKPASQCVLDGVRGCDSYMVYLFDKSKTVYEGPFASRSLSDCVNYIVQDSKIQLPIIQLRKVWAEAVHYVSGLKEDYSRLFQGQRAAMLSLLRYNANLTKMKNTLISASQQLKAKLEFFHKSIQLDLERYSEQMTYGISSEKMLKAWKEMEEKAIHYAEVGVIGYLEDQIMSLHAEIMELQKSPYGRRQGDLMESLEQRAIDLYKQLKHRPSDHSYSDSTEMVKIIVHTVQSQDRVLKELFGHLSKLLGCKQKIIDLLPKVEVALSNIKEADNTVMFMQGKRQKEIWHLLKIACTQSSARSLVGSSLEGAVTPQTSAWLPPTSAEHDHSLSCVVTPQDGETSAQMIEENLNCLGHLSTIIHEANEEQGNSMMNLDWSWLTE
+O14920,IKBKB,MSWSPSLTTQTCGAWEMKERLGTGGFGNVIRWHNQETGEQIAIKQCRQELSPRNRERWCLEIQIMRRLTHPNVVAARDVPEGMQNLAPNDLPLLAMEYCQGGDLRKYLNQFENCCGLREGAILTLLSDIASALRYLHENRIIHRDLKPENIVLQQGEQRLIHKIIDLGYAKELDQGSLCTSFVGTLQYLAPELLEQQKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHSKVRQKSEVDIVVSEDLNGTVKFSSSLPYPNNLNSVLAERLEKWLQLMLMWHPRQRGTDPTYGPNGCFKALDDILNLKLVHILNMVTGTIHTYPVTEDESLQSLKARIQQDTGIPEEDQELLQEAGLALIPDKPATQCISDGKLNEGHTLDMDLVFLFDNSKITYETQISPRPQPESVSCILQEPKRNLAFFQLRKVWGQVWHSIQTLKEDCNRLQQGQRAAMMNLLRNNSCLSKMKNSMASMSQQLKAKLDFFKTSIQIDLEKYSEQTEFGITSDKLLLAWREMEQAVELCGRENEVKLLVERMMALQTDIVDLQRSPMGRKQGGTLDDLEEQARELYRRLREKPRDQRTEGDSQEMVRLLLQAIQSFEKKVRVIYTQLSKTVVCKQKALELLPKVEEVVSLMNEDEKTVVRLQEKRQKELWNLLKIACSKVRGPVSGSPDSMNASRLSQPGQLMSQPSTASNSLPEPAKKSEELVAEAHNLCTLLENAIQDTVREQDQSFTALDWSWLQTEEEEHSCLEQAS
+Q13418,ILK,MDDIFTQCREGNAVAVRLWLDNTENDLNQGDDHGFSPLHWACREGRSAVVEMLIMRGARINVMNRGDDTPLHLAASHGHRDIVQKLLQYKADINAVNEHGNVPLHYACFWGQDQVAEDLVANGALVSICNKYGEMPVDKAKAPLRELLRERAEKMGQNLNRIPYKDTFWKGTTRTRPRNGTLNKHSGIDFKQLNFLTKLNENHSGELWKGRWQGNDIVVKVLKVRDWSTRKSRDFNEECPRLRIFSHPNVLPVLGACQSPPAPHPTLITHWMPYGSLYNVLHEGTNFVVDQSQAVKFALDMARGMAFLHTLEPLIPRHALNSRSVMIDEDMTARISMADVKFSFQCPGRMYAPAWVAPEALQKKPEDTNRRSADMWSFAVLLWELVTREVPFADLSNMEIGMKVALEGLRPTIPPGISPHVCKLMKICMNEDPAKRPKFDMIVPILEKMQDK
+P06213,INSR,MATGGRRGAAAAPLLVAVAALLLGAAGHLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDDNEECGDICPGTAKGKTNCPATVINGQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKNSRRQGCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCLGPCPKVCHLLEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVTEFDGQDACGSNSWTVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVFWERQAEDSELFELDYCLKGLKLPSRTWSPPFESEDSQKHNQSEYEDSAGECCSCPKTDSQILKELEESSFRKTFEDYLHNVVFVPRKTSSGTGAEDPRPSRKRRSLGDVGNVTVAVPTVAAFPNTSSTSVPTSPEEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDTPEERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRIRATSLAGNGSWTEPTYFYVTDYLDVPSNIAKIIIGPLIFVFLFSVVIGSIYLFLRKRQPDGPLGPLYASSNPEYLSASDVFPCSVYVPDEWEVSREKITLLRELGQGSFGMVYEGNARDIIKGEAETRVAVKTVNESASLRERIEFLNEASVMKGFTCHHVVRLLGVVSKGQPTLVVMELMAHGDLKSYLRSLRPEAENNPGRPPPTLQEMIQMAAEIADGMAYLNAKKFVHRDLAARNCMVAHDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMAPESLKDGVFTTSSDMWSFGVVLWEITSLAEQPYQGLSNEQVLKFVMDGGYLDQPDNCPERVTDLMRMCWQFNPKMRPTFLEIVNLLKDDLHPSFPEVSFFHSEENKAPESEELEMEFEDMENVPLDRSSHCQREEAGGRDGGSSLGFKRSYEEHIPYTHMNGGKKNGRILTLPRSNPS
+P51617,IRAK1,MAGGPGPGEPAAPGAQHFLYEVPPWVMCRFYKVMDALEPADWCQFAALIVRDQTELRLCERSGQRTASVLWPWINRNARVADLVHILTHLQLLRARDIITAWHPPAPLPSPGTTAPRPSSIPAPAEAEAWSPRKLPSSASTFLSPAFPGSQTHSGPELGLVPSPASLWPPPPSPAPSSTKPGPESSVSLLQGARPFPFCWPLCEISRGTHNFSEELKIGEGGFGCVYRAVMRNTVYAVKRLKENADLEWTAVKQSFLTEVEQLSRFRHPNIVDFAGYCAQNGFYCLVYGFLPNGSLEDRLHCQTQACPPLSWPQRLDILLGTARAIQFLHQDSPSLIHGDIKSSNVLLDERLTPKLGDFGLARFSRFAGSSPSQSSMVARTQTVRGTLAYLPEEYIKTGRLAVDTDTFSFGVVVLETLAGQRAVKTHGARTKYLKDLVEEEAEEAGVALRSTQSTLQAGLAADAWAAPIAMQIYKKHLDPRPGPCPPELGLGLGQLACCCLHRRAKRRPPMTQVYERLEKLQAVVAGVPGHSEAASCIPPSPQENSYVSSTGRAHSGAAPWQPLAAPSGASAQAAEQLQRGPNQPVESDESLGGLSAALRSWHLTPSCPLDPAPLREAGCPQGDTAGESSWGSGPGSRPTAVEGLALGSSASSSSEPPQIIINPARQKMVQKLALYEDGALDSLQLLSSSSLPGLGLEQDRQGPEESDEFQS
+O43187,IRAK2,MACYIYQLPSWVLDDLCRNMDALSEWDWMEFASYVITDLTQLRKIKSMERVQGVSITRELLWWWGMRQATVQQLVDLLCRLELYRAAQIILNWKPAPEIRCPIPAFPDSVKPEKPLAASVRKAEDEQEEGQPVRMATFPGPGSSPARAHQPAFLQPPEEDAPHSLRSDLPTSSDSKDFSTSIPKQEKLLSLAGDSLFWSEADVVQATDDFNQNRKISQGTFADVYRGHRHGKPFVFKKLRETACSSPGSIERFFQAELQICLRCCHPNVLPVLGFCAARQFHSFIYPYMANGSLQDRLQGQGGSDPLPWPQRVSICSGLLCAVEYLHGLEIIHSNVKSSNVLLDQNLTPKLAHPMAHLCPVNKRSKYTMMKTHLLRTSAAYLPEDFIRVGQLTKRVDIFSCGIVLAEVLTGIPAMDNNRSPVYLKDLLLSDIPSSTASLCSRKTGVENVMAKEICQKYLEKGAGRLPEDCAEALATAACLCLRRRNTSLQEVCGSVAAVEERLRGRETLLPWSGLSEGTGSSSNTPEETDDVDNSSLDASSSMSVAPWAGAATPLLPTENGEGRLRVIVGREADSSSEACVGLEPPQDVTETSWQIEINEAKRKLMENILLYKEEKVDSIELFGP
+Q9Y616,IRAK3,MAGNCGARGALSAHTLLFDLPPALLGELCAVLDSCDGALGWRGLAERLSSSWLDVRHIEKYVDQGKSGTRELLWSWAQKNKTIGDLLQVLQEMGHRRAIHLITNYGAVLSPSEKSYQEGGFPNILFKETANVTVDNVLIPEHNEKGILLKSSISFQNIIEGTRNFHKDFLIGEGEIFEVYRVEIQNLTYAVKLFKQEKKMQCKKHWKRFLSELEVLLLFHHPNILELAAYFTETEKFCLIYPYMRNGTLFDRLQCVGDTAPLPWHIRIGILIGISKAIHYLHNVQPCSVICGSISSANILLDDQFQPKLTDFAMAHFRSHLEHQSCTINMTSSSSKHLWYMPEEYIRQGKLSIKTDVYSFGIVIMEVLTGCRVVLDDPKHIQLRDLLRELMEKRGLDSCLSFLDKKVPPCPRNFSAKLFCLAGRCAATRAKLRPSMDEVLNTLESTQASLYFAEDPPTSLKSFRCPSPLFLENVPSIPVEDDESQNNNLLPSDEGLRIDRMTQKTPFECSQSEVMFLSLDKKPESKRNEEACNMPSSSCEESWFPKYIVPSQDLRPYKVNIDPSSEAPGHSCRSRPVESSCSSKFSWDEYEQYKKE
+O75460,ERN1,MPARRLLLLLTLLLPGLGIFGSTSTVTLPETLLFVSTLDGSLHAVSKRTGSIKWTLKEDPVLQVPTHVEEPAFLPDPNDGSLYTLGSKNNEGLTKLPFTIPELVQASPCRSSDGILYMGKKQDIWYVIDLLTGEKQQTLSSAFADSLCPSTSLLYLGRTEYTITMYDTKTRELRWNATYFDYAASLPEDDVDYKMSHFVSNGDGLVVTVDSESGDVLWIQNYASPVVAFYVWQREGLRKVMHINVAVETLRYLTFMSGEVGRITKWKYPFPKETEAKSKLTPTLYVGKYSTSLYASPSMVHEGVAVVPRGSTLPLLEGPQTDGVTIGDKGECVITPSTDVKFDPGLKSKNKLNYLRNYWLLIGHHETPLSASTKMLERFPNNLPKHRENVIPADSEKKSFEEVINLVDQTSENAPTTVSRDVEEKPAHAPARPEAPVDSMLKDMATIILSTFLLIGWVAFIITYPLSMHQQQQLQHQQFQKELEKIQLLQQQQQQLPFHPPGDTAQDGELLDTSGPYSESSGTSSPSTSPRASNHSLCSGSSASKAGSSPSLEQDDGDEETSVVIVGKISFCPKDVLGHGAEGTIVYRGMFDNRDVAVKRILPECFSFADREVQLLRESDEHPNVIRYFCTEKDRQFQYIAIELCAATLQEYVEQKDFAHLGLEPITLLQQTTSGLAHLHSLNIVHRDLKPHNILISMPNAHGKIKAMISDFGLCKKLAVGRHSFSRRSGVPGTEGWIAPEMLSEDCKENPTYTVDIFSAGCVFYYVISEGSHPFGKSLQRQANILLGACSLDCLHPEKHEDVIARELIEKMIAMDPQKRPSAKHVLKHPFFWSLEKQLQFFQDVSDRIEKESLDGPIVKQLERGGRAVVKMDWRENITVPLQTDLRKFRTYKGGSVRDLLRAMRNKKHHYRELPAEVRETLGSLPDDFVCYFTSRFPHLLAHTYRAMELCSHERLFQPYYFHEPPEPQPPVTPDAL
+P14616,INSRR,MAVPSLWPWGACLPVIFLSLGFGLDTVEVCPSLDIRSEVAELRQLENCSVVEGHLQILLMFTATGEDFRGLSFPRLTQVTDYLLLFRVYGLESLRDLFPNLAVIRGTRLFLGYALVIFEMPHLRDVALPALGAVLRGAVRVEKNQELCHLSTIDWGLLQPAPGANHIVGNKLGEECADVCPGVLGAAGEPCAKTTFSGHTDYRCWTSSHCQRVCPCPHGMACTARGECCHTECLGGCSQPEDPRACVACRHLYFQGACLWACPPGTYQYESWRCVTAERCASLHSVPGRASTFGIHQGSCLAQCPSGFTRNSSSIFCHKCEGLCPKECKVGTKTIDSIQAAQDLVGCTHVEGSLILNLRQGYNLEPQLQHSLGLVETITGFLKIKHSFALVSLGFFKNLKLIRGDAMVDGNYTLYVLDNQNLQQLGSWVAAGLTIPVGKIYFAFNPRLCLEHIYRLEEVTGTRGRQNKAEINPRTNGDRAACQTRTLRFVSNVTEADRILLRWERYEPLEARDLLSFIVYYKESPFQNATEHVGPDACGTQSWNLLDVELPLSRTQEPGVTLASLKPWTQYAVFVRAITLTTEEDSPHQGAQSPIVYLRTLPAAPTVPQDVISTSNSSSHLLVRWKPPTQRNGNLTYYLVLWQRLAEDGDLYLNDYCHRGLRLPTSNNDPRFDGEDGDPEAEMESDCCPCQHPPPGQVLPPLEAQEASFQKKFENFLHNAITIPISPWKVTSINKSPQRDSGRHRRAAGPLRLGGNSSDFEIQEDKVPRERAVLSGLRHFTEYRIDIHACNHAAHTVGCSAATFVFARTMPHREADGIPGKVAWEASSKNSVLLRWLEPPDPNGLILKYEIKYRRLGEEATVLCVSRLRYAKFGGVHLALLPPGNYSARVRATSLAGNGSWTDSVAFYILGPEEEDAGGLHVLLTATPVGLTLLIVLAALGFFYGKKRNRTLYASVNPEYFSASDMYVPDEWEVPREQISIIRELGQGSFGMVYEGLARGLEAGEESTPVALKTVNELASPRECIEFLKEASVMKAFKCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSHLRSLRPEAENNPGLPQPALGEMIQMAGEIADGMAYLAANKFVHRDLAARNCMVSQDFTVKIGDFGMTRDVYETDYYRKGGKGLLPVRWMAPESLKDGIFTTHSDVWSFGVVLWEIVTLAEQPYQGLSNEQVLKFVMDGGVLEELEGCPLQLQELMSRCWQPNPRLRPSFTHILDSIQEELRPSFRLLSFYYSPECRGARGSLPTTDAEPDSSPTPRDCSPQNGGPGH
+Q08881,ITK,MNNFILLEEQLIKKSQQKRRTSPSNFKVRFFVLTKASLAYFEDRHGKKRTLKGSIELSRIKCVEIVKSDISIPCHYKYPFQVVHDNYLLYVFAPDRESRQRWVLALKEETRNNNSLVPKYHPNFWMDGKWRCCSQLEKLATGCAQYDPTKNASKKPLPPTPEDNRRPLWEPEETVVIALYDYQTNDPQELALRRNEEYCLLDSSEIHWWRVQDRNGHEGYVPSSYLVEKSPNNLETYEWYNKSISRDKAEKLLLDTGKEGAFMVRDSRTAGTYTVSVFTKAVVSENNPCIKHYHIKETNDNPKRYYVAEKYVFDSIPLLINYHQHNGGGLVTRLRYPVCFGRQKAPVTAGLRYGKWVIDPSELTFVQEIGSGQFGLVHLGYWLNKDKVAIKTIREGAMSEEDFIEEAEVMMKLSHPKLVQLYGVCLEQAPICLVFEFMEHGCLSDYLRTQRGLFAAETLLGMCLDVCEGMAYLEEACVIHRDLAARNCLVGENQVIKVSDFGMTRFVLDDQYTSSTGTKFPVKWASPEVFSFSRYSSKSDVWSFGVLMWEVFSEGKIPYENRSNSEVVEDISTGFRLYKPRLASTHVYQIMNHCWKERPEDRPAFSRLLRQLAEIAESGL
+P23458,JAK1,MQYLNIKEDCNAMAFCAKMRSSKKTEVNLEAPEPGVEVIFYLSDREPLRLGSGEYTAEELCIRAAQACRISPLCHNLFALYDENTKLWYAPNRTITVDDKMSLRLHYRMRFYFTNWHGTNDNEQSVWRHSPKKQKNGYEKKKIPDATPLLDASSLEYLFAQGQYDLVKCLAPIRDPKTEQDGHDIENECLGMAVLAISHYAMMKKMQLPELPKDISYKRYIPETLNKSIRQRNLLTRMRINNVFKDFLKEFNNKTICDSSVSTHDLKVKYLATLETLTKHYGAEIFETSMLLISSENEMNWFHSNDGGNVLYYEVMVTGNLGIQWRHKPNVVSVEKEKNKLKRKKLENKHKKDEEKNKIREEWNNFSYFPEITHIVIKESVVSINKQDNKKMELKLSSHEEALSFVSLVDGYFRLTADAHHYLCTDVAPPLIVHNIQNGCHGPICTEYAINKLRQEGSEEGMYVLRWSCTDFDNILMTVTCFEKSEQVQGAQKQFKNFQIEVQKGRYSLHGSDRSFPSLGDLMSHLKKQILRTDNISFMLKRCCQPKPREISNLLVATKKAQEWQPVYPMSQLSFDRILKKDLVQGEHLGRGTRTHIYSGTLMDYKDDEGTSEEKKIKVILKVLDPSHRDISLAFFEAASMMRQVSHKHIVYLYGVCVRDVENIMVEEFVEGGPLDLFMHRKSDVLTTPWKFKVAKQLASALSYLEDKDLVHGNVCTKNLLLAREGIDSECGPFIKLSDPGIPITVLSRQECIERIPWIAPECVEDSKNLSVAADKWSFGTTLWEICYNGEIPLKDKTLIEKERFYESRCRPVTPSCKELADLMTRCMNYDPNQRPFFRAIMRDINKLEEQNPDIVSEKKPATEVDPTHFEKRFLKRIRDLGEGHFGKVELCRYDPEGDNTGEQVAVKSLKPESGGNHIADLKKEIEILRNLYHENIVKYKGICTEDGGNGIKLIMEFLPSGSLKEYLPKNKNKINLKQQLKYAVQICKGMDYLGSRQYVHRDLAARNVLVESEHQVKIGDFGLTKAIETDKEYYTVKDDRDSPVFWYAPECLMQSKFYIASDVWSFGVTLHELLTYCDSDSSPMALFLKMIGPTHGQMTVTRLVNTLKEGKRLPCPPNCPDEVYQLMRKCWEFQPSNRTSFQNLIEGFEALLK
+O60674,JAK2,MGMACLTMTEMEGTSTSSIYQNGDISGNANSMKQIDPVLQVYLYHSLGKSEADYLTFPSGEYVAEEICIAASKACGITPVYHNMFALMSETERIWYPPNHVFHIDESTRHNVLYRIRFYFPRWYCSGSNRAYRHGISRGAEAPLLDDFVMSYLFAQWRHDFVHGWIKVPVTHETQEECLGMAVLDMMRIAKENDQTPLAIYNSISYKTFLPKCIRAKIQDYHILTRKRIRYRFRRFIQQFSQCKATARNLKLKYLINLETLQSAFYTEKFEVKEPGSGPSGEEIFATIIITGNGGIQWSRGKHKESETLTEQDLQLYCDFPNIIDVSIKQANQEGSNESRVVTIHKQDGKNLEIELSSLREALSFVSLIDGYYRLTADAHHYLCKEVAPPAVLENIQSNCHGPISMDFAISKLKKAGNQTGLYVLRCSPKDFNKYFLTFAVERENVIEYKHCLITKNENEEYNLSGTKKNFSSLKDLLNCYQMETVRSDNIIFQFTKCCPPKPKDKSNLLVFRTNGVSDVPTSPTLQRPTHMNQMVFHKIRNEDLIFNESLGQGTFTKIFKGVRREVGDYGQLHETEVLLKVLDKAHRNYSESFFEAASMMSKLSHKHLVLNYGVCVCGDENILVQEFVKFGSLDTYLKKNKNCINILWKLEVAKQLAWAMHFLEENTLIHGNVCAKNILLIREEDRKTGNPPFIKLSDPGISITVLPKDILQERIPWVPPECIENPKNLNLATDKWSFGTTLWEICSGGDKPLSALDSQRKLQFYEDRHQLPAPKWAELANLINNCMDYEPDFRPSFRAIIRDLNSLFTPDYELLTENDMLPNMRIGALGFSGAFEDRDPTQFEERHLKFLQQLGKGNFGSVEMCRYDPLQDNTGEVVAVKKLQHSTEEHLRDFEREIEILKSLQHDNIVKYKGVCYSAGRRNLKLIMEYLPYGSLRDYLQKHKERIDHIKLLQYTSQICKGMEYLGTKRYIHRDLATRNILVENENRVKIGDFGLTKVLPQDKEYYKVKEPGESPIFWYAPESLTESKFSVASDVWSFGVVLYELFTYIEKSKSPPAEFMRMIGNDKQGQMIVFHLIELLKNNGRLPRPDGCPDEIYMIMTECWNNNVNQRPSFRDLALRVDQIRDNMAG
+P52333,JAK3,MAPPSEETPLIPQRSCSLLSTEAGALHVLLPARGPGPPQRLSFSFGDHLAEDLCVQAAKASGILPVYHSLFALATEDLSCWFPPSHIFSVEDASTQVLLYRIRFYFPNWFGLEKCHRFGLRKDLASAILDLPVLEHLFAQHRSDLVSGRLPVGLSLKEQGECLSLAVLDLARMAREQAQRPGELLKTVSYKACLPPSLRDLIQGLSFVTRRRIRRTVRRALRRVAACQADRHSLMAKYIMDLERLDPAGAAETFHVGLPGALGGHDGLGLLRVAGDGGIAWTQGEQEVLQPFCDFPEIVDISIKQAPRVGPAGEHRLVTVTRTDNQILEAEFPGLPEALSFVALVDGYFRLTTDSQHFFCKEVAPPRLLEEVAEQCHGPITLDFAINKLKTGGSRPGSYVLRRSPQDFDSFLLTVCVQNPLGPDYKGCLIRRSPTGTFLLVGLSRPHSSLRELLATCWDGGLHVDGVAVTLTSCCIPRPKEKSNLIVVQRGHSPPTSSLVQPQSQYQLSQMTFHKIPADSLEWHENLGHGSFTKIYRGCRHEVVDGEARKTEVLLKVMDAKHKNCMESFLEAASLMSQVSYRHLVLLHGVCMAGDSTMVQEFVHLGAIDMYLRKRGHLVPASWKLQVVKQLAYALNYLEDKGLPHGNVSARKVLLAREGADGSPPFIKLSDPGVSPAVLSLEMLTDRIPWVAPECLREAQTLSLEADKWGFGATVWEVFSGVTMPISALDPAKKLQFYEDRQQLPAPKWTELALLIQQCMAYEPVQRPSFRAVIRDLNSLISSDYELLSDPTPGALAPRDGLWNGAQLYACQDPTIFEERHLKYISQLGKGNFGSVELCRYDPLGDNTGALVAVKQLQHSGPDQQRDFQREIQILKALHSDFIVKYRGVSYGPGRQSLRLVMEYLPSGCLRDFLQRHRARLDASRLLLYSSQICKGMEYLGSRRCVHRDLAARNILVESEAHVKIADFGLAKLLPLDKDYYVVREPGQSPIFWYAPESLSDNIFSRQSDVWSFGVVLYELFTYCDKSCSPSAEFLRMMGCERDVPALCRLLELLEEGQRLPAPPACPAEVHELMKLCWAPSPQDRPSFSALGPQLDMLWSGSRGCETHAFTAHPEGKHHSLSFS
+P45983,MAPK8,MSRSKRDNNFYSVEIGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAILERNVAIKKLSRPFQNQTHAKRAYRELVLMKCVNHKNIIGLLNVFTPQKSLEEFQDVYIVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTAGTSFMMTPYVVTRYYRAPEVILGMGYKENVDLWSVGCIMGEMVCHKILFPGRDYIDQWNKVIEQLGTPCPEFMKKLQPTVRTYVENRPKYAGYSFEKLFPDVLFPADSEHNKLKASQARDLLSKMLVIDASKRISVDEALQHPYINVWYDPSEAEAPPPKIPDKQLDEREHTIEEWKELIYKEVMDLEERTKNGVIRGQPSPLGAAVINGSQHPSSSSSVNDVSSMSTDPTLASDTDSSLEAAAGPLGCCR
+P45984,MAPK9,MSDSKCDSQFYSVQVADSTFTVLKRYQQLKPIGSGAQGIVCAAFDTVLGINVAVKKLSRPFQNQTHAKRAYRELVLLKCVNHKNIISLLNVFTPQKTLEEFQDVYLVMELMDANLCQVIHMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTACTNFMMTPYVVTRYYRAPEVILGMGYKENVDIWSVGCIMGELVKGCVIFQGTDHIDQWNKVIEQLGTPSAEFMKKLQPTVRNYVENRPKYPGIKFEELFPDWIFPSESERDKIKTSQARDLLSKMLVIDPDKRISVDEALRHPYITVWYDPAEAEAPPPQIYDAQLEEREHAIEEWKELIYKEVMDWEERSKNGVVKDQPSDAAVSSNATPSQSSSINDISSMSTEQTLASDTDSSLDASTGPLEGCR
+P53779,MAPK10,MSLHFLYYCSEPTLDVKIAFCQGFDKQVDVSYIAKHYNMSKSKVDNQFYSVEVGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAVLDRNVAIKKLSRPFQNQTHAKRAYRELVLMKCVNHKNIISLLNVFTPQKTLEEFQDVYLVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTAGTSFMMTPYVVTRYYRAPEVILGMGYKENVDIWSVGCIMGEMVRHKILFPGRDYIDQWNKVIEQLGTPCPEFMKKLQPTVRNYVENRPKYAGLTFPKLFPDSLFPADSEHNKLKASQARDLLSKMLVIDPAKRISVDDALQHPYINVWYDPAEVEAPPPQIYDKQLDEREHTIEEWKELIYKEVMNSEEKTKNGVVKGQPSPSGAAVNSSESLPPSSSVNDISSMSTDQTLASDTDSSLEASAGPLGCCR
+Q9Y4K4,MAP4K5,MEAPLRPAADILRRNPQQDYELVQRVGSGTYGDVYKARNVHTGELAAVKIIKLEPGDDFSLIQQEIFMVKECKHCNIVAYFGSYLSREKLWICMEYCGGGSLQDIYHVTGPLSELQIAYVCRETLQGLAYLHTKGKMHRDIKGANILLTDHGDVKLADFGVAAKITATIAKRKSFIGTPYWMAPEVAAVEKNGGYNQLCDIWAVGITAIELGELQPPMFDLHPMRALFLMSKSNFQPPKLKDKTKWSSTFHNFVKIALTKNPKKRPTAERLLTHTFVAQPGLSRALAVELLDKVNNPDNHAHYTEADDDDFEPHAIIRHTIRSTNRNARAERTASEINFDKLQFEPPLRKETEARDEMGLSSDPNFMLQWNPFVDGANTGKSTSKRAIPPPLPPKPRISSYPEDNFPDEEKASTIKHCPDSESRAPQILRRQSSPSCGPVAETSSIGNGDGISKLMSENTEGSAQAPQLPRKKDKRDFPKPAINGLPPTPKVLMGACFSKVFDGCPLKINCATSWIHPDTKDQYIIFGTEDGIYTLNLNELHEATMEQLFPRKCTWLYVINNTLMSLSEGKTFQLYSHNLIALFEHAKKPGLAAHIQTHRFPDRILPRKFALTTKIPDTKGCHKCCIVRNPYTGHKYLCGALQSGIVLLQWYEPMQKFMLIKHFDFPLPSPLNVFEMLVIPEQEYPMVCVAISKGTESNQVVQFETINLNSASSWFTEIGAGSQQLDSIHVTQLERDTVLVCLDKFVKIVNLQGKLKSSKKLASELSFDFRIESVVCLQDSVLAFWKHGMQGKSFKSDEVTQEISDETRVFRLLGSDRVVVLESRPTENPTAHSNLYILAGHENSY
+Q14164,IKBKE,MQSTANYLWHTDDLLGQGATASVYKARNKKSGELVAVKVFNTTSYLRPREVQVREFEVLRKLNHQNIVKLFAVEETGGSRQKVLVMEYCSSGSLLSVLESPENAFGLPEDEFLVVLRCVVAGMNHLRENGIVHRDIKPGNIMRLVGEEGQSIYKLTDFGAARELDDDEKFVSVYGTEEYLHPDMYERAVLRKPQQKAFGVTVDLWSIGVTLYHAATGSLPFIPFGGPRRNKEIMYRITTEKPAGAIAGAQRRENGPLEWSYTLPITCQLSLGLQSQLVPILANILEVEQAKCWGFDQFFAETSDILQRVVVHVFSLSQAVLHHIYIHAHNTIAIFQEAVHKQTSVAPRHQEYLFEGHLCVLEPSVSAQHIAHTTASSPLTLFSTAIPKGLAFRDPALDVPKFVPKVDLQADYNTAKGVLGAGYQALRLARALLDGQELMFRGLHWVMEVLQATCRRTLEVARTSLLYLSSSLGTERFSSVAGTPEIQELKAAAELRSRLRTLAEVLSRCSQNITETQESLSSLNRELVKSRDQVHEDRSIQQIQCCLDKMNFIYKQFKKSRMRPGLGYNEEQIHKLDKVNFSHLAKRLLQVFQEECVQKYQASLVTHGKRMRVVHETRNHLRLVGCSVAACNTEAQGVQESLSKLLEELSHQLLQDRAKGAQASPPPIAPYPSPTRKDLLLHMQELCEGMKLLASDLLDNNRIIERLNRVPAPPDV
+O60285,NUAK1,MEGAAAPVAGDRPDLGLGAPGSPREAVAGATAALEPRKPHGVKRHHHKHNLKHRYELQETLGKGTYGKVKRATERFSGRVVAIKSIRKDKIKDEQDMVHIRREIEIMSSLNHPHIISIYEVFENKDKIVIIMEYASKGELYDYISERRRLSERETRHFFRQIVSAVHYCHKNGVVHRDLKLENILLDDNCNIKIADFGLSNLYQKDKFLQTFCGSPLYASPEIVNGRPYRGPEVDSWALGVLLYTLVYGTMPFDGFDHKNLIRQISSGEYREPTQPSDARGLIRWMLMVNPDRRATIEDIANHWWVNWGYKSSVCDCDALHDSESPLLARIIDWHHRSTGLQADTEAKMKGLAKPTTSEVMLERQRSLKKSKKENDFAQSGQDAVPESPSKLSSKRPKGILKKRSNSEHRSHSTGFIEGVVGPALPSTFKMEQDLCRTGVLLPSSPEAEVPGKLSPKQSATMPKKGILKKTQQRESGYYSSPERSESSELLDSNDVMGSSIPSPSPPDPARVTSHSLSCRRKGILKHSSKYSAGTMDPALVSPEMPTLESLSEPGVPAEGLSRSYSRPSSVISDDSVLSSDSFDLLDLQENRPARQRIRSCVSAENFLQIQDFEGLQNRPRPQYLKRYRNRLADSSFSLLTDMDDVTQVYKQALEICSKLN
+O60307,MAST3,MDESSLLRRRGLQKELSLPRRGRGCRSGNRKSLVVGTPSPTLSRPLSPLSVPTAGSSPLDSPRNFSAASALNFPFARRADGRRWSLASLPSSGYGTNTPSSTLSSSSSSRERLHQLPFQPTPDELHFLSKHFRSSENVLDEEGGRSPRLRPRSRSLSPGRATGTFDNEIVMMNHVYRERFPKATAQMEGRLQEFLTAYAPGARLALADGVLGFIHHQIVELARDCLAKSGENLVTSRYFLEMQEKLERLLQDAHERSDSEEVSFIVQLVRKLLIIISRPARLLECLEFDPEEFYHLLEAAEGHAREGQGIKTDLPQYIIGQLGLAKDPLEEMVPLSHLEEEQPPAPESPESRALVGQSRRKPCESDFETIKLISNGAYGAVYLVRHRDTRQRFAIKKINKQNLILRNQIQQVFVERDILTFAENPFVVSMFCSFETRRHLCMVMEYVEGGDCATLLKNMGPLPVDMARLYFAETVLALEYLHNYGIVHRDLKPDNLLITSLGHIKLTDFGLSKIGLMSMATNLYEGHIEKDAREFIDKQVCGTPEYIAPEVIFRQGYGKPVDWWAMGVVLYEFLVGCVPFFGDTPEELFGQVVSDEIMWPEGDEALPADAQDLITRLLRQSPLDRLGTGGTHEVKQHPFFLALDWAGLLRHKAEFVPQLEAEDDTSYFDTRSERYRHLGSEDDETNDEESSTEIPQFSSCSHRFSKVYSSSEFLAVQPTPTFAERSFSEDREEGWERSEVDYGRRLSADIRLRSWTSSGSSCQSSSSQPERGPSPSLLNTISLDTMPKFAFSSEDEGVGPGPAGPKRPVFILGEPDPPPAATPVMPKPSSLSADTAALSHARLRSNSIGARHSTPRPLDAGRGRRLGGPRDPAPEKSRASSSGGSGGGSGGRVPKSASVSALSLIITADDGSGGPLMSPLSPRSLSSNPSSRDSSPSRDPSPVCGSLRPPIVIHSSGKKYGFSLRAIRVYMGDSDVYTVHHVVWSVEDGSPAQEAGLRAGDLITHINGESVLGLVHMDVVELLLKSGNKISLRTTALENTSIKVGPARKNVAKGRMARRSKRSRRRETQDRRKSLFKKISKQTSVLHTSRSFSSGLHHSLSSSESLPGSPTHSLSPSPTTPCRSPAPDVPADTTASPPSASPSSSSPASPAAAGHTRPSSLHGLAAKLGPPRPKTGRRKSTSSIPPSPLACPPISAPPPRSPSPLPGHPPAPARSPRLRRGQSADKLGTGERLDGEAGRRTRGPEAELVVMRRLHLSERRDSFKKQEAVQEVSFDEPQEEATGLPTSVPQIAVEGEEAVPVALGPTGRD
+Q9NRP7,STK36,MEKYHVLEMIGEGSFGRVYKGRRKYSAQVVALKFIPKLGRSEKELRNLQREIEIMRGLRHPNIVHMLDSFETDKEVVVVTDYAEGELFQILEDDGKLPEDQVQAIAAQLVSALYYLHSHRILHRDMKPQNILLAKGGGIKLCDFGFARAMSTNTMVLTSIKGTPLYMSPELVEERPYDHTADLWSVGCILYELAVGTPPFYATSIFQLVSLILKDPVRWPSTISPCFKNFLQGLLTKDPRQRLSWPDLLYHPFIAGHVTIITEPAGPDLGTPFTSRLPPELQVLKDEQAHRLAPKGNQSRILTQAYKRMAEEAMQKKHQNTGPALEQEDKTSKVAPGTAPLPRLGATPQESSLLAGILASELKSSWAKSGTGEVPSAPRENRTTPDCERAFPEERPEVLGQRSTDVVDLENEEPDSDNEWQHLLETTEPVPIQLKAPLTLLCNPDFCQRIQSQLHEAGGQILKGILEGASHILPAFRVLSSLLSSCSDSVALYSFCREAGLPGLLLSLLRHSQESNSLQQQSWYGTFLQDLMAVIQAYFACTFNLERSQTSDSLQVFQEAANLFLDLLGKLLAQPDDSEQTLRRDSLMCFTVLCEAMDGNSRAISKAFYSSLLTTQQVVLDGLLHGLTVPQLPVHTPQGAPQVSQPLREQSEDIPGAISSALAAICTAPVGLPDCWDAKEQVCWHLANQLTEDSSQLRPSLISGLQHPILCLHLLKVLYSCCLVSEGLCRLLGQEPLALESLFMLIQGKVKVVDWEESTEVTLYFLSLLVFRLQNLPCGMEKLGSDVATLFTHSHVVSLVSAAACLLGQLGQQGVTFDLQPMEWMAAATHALSAPAEVRLTPPGSCGFYDGLLILLLQLLTEQGKASLIRDMSSSEMWTVLWHRFSMVLRLPEEASAQEGELSLSSPPSPEPDWTLISPQGMAALLSLAMATFTQEPQLCLSCLSQHGSILMSILKHLLCPSFLNQLRQAPHGSEFLPVVVLSVCQLLCFPFALDMDADLLIGVLADLRDSEVAAHLLQVCCYHLPLMQVELPISLLTRLALMDPTSLNQFVNTVSASPRTIVSFLSVALLSDQPLLTSDLLSLLAHTARVLSPSHLSFIQELLAGSDESYRPLRSLLGHPENSVRAHTYRLLGHLLQHSMALRGALQSQSGLLSLLLLGLGDKDPVVRCSASFAVGNAAYQAGPLGPALAAAVPSMTQLLGDPQAGIRRNVASALGNLGPEGLGEELLQCEVPQRLLEMACGDPQPNVKEAALIALRSLQQEPGIHQVLVSLGASEKLSLLSLGNQSLPHSSPRPASAKHCRKLIHLLRPAHSM
+Q86V86,PIM3,MLLSKFGSLAHLCGPGGVDHLPVKILQPAKADKESFEKAYQVGAVLGSGGFGTVYAGSRIADGLPVAVKHVVKERVTEWGSLGGATVPLEVVLLRKVGAAGGARGVIRLLDWFERPDGFLLVLERPEPAQDLFDFITERGALDEPLARRFFAQVLAAVRHCHSCGVVHRDIKDENLLVDLRSGELKLIDFGSGALLKDTVYTDFDGTRVYSPPEWIRYHRYHGRSATVWSLGVLLYDMVCGDIPFEQDEEILRGRLLFRRRVSPECQQLIRWCLSLRPSERPSLDQIAAHPWMLGADGGVPESCDLRLCTLDPDDVASTTSSSESL
+P10721,KIT,MRGARGAWDFLCVLLLLLRVQTGSSQPSVSPGEPSPPSIHPGKSDLIVRVGDEIRLLCTDPGFVKWTFEILDETNENKQNEWITEKAEATNTGKYTCTNKHGLSNSIYVFVRDPAKLFLVDRSLYGKEDNDTLVRCPLTDPEVTNYSLKGCQGKPLPKDLRFIPDPKAGIMIKSVKRAYHRLCLHCSVDQEGKSVLSEKFILKVRPAFKAVPVVSVSKASYLLREGEEFTVTCTIKDVSSSVYSTWKRENSQTKLQEKYNSWHHGDFNYERQATLTISSARVNDSGVFMCYANNTFGSANVTTTLEVVDKGFINIFPMINTTVFVNDGENVDLIVEYEAFPKPEHQQWIYMNRTFTDKWEDYPKSENESNIRYVSELHLTRLKGTEGGTYTFLVSNSDVNAAIAFNVYVNTKPEILTYDRLVNGMLQCVAAGFPEPTIDWYFCPGTEQRCSASVLPVDVQTLNSSGPPFGKLVVQSSIDSSAFKHNGTVECKAYNDVGKTSAYFNFAFKGNNKEQIHPHTLFTPLLIGFVIVAGMMCIIVMILTYKYLQKPMYEVQWKVVEEINGNNYVYIDPTQLPYDHKWEFPRNRLSFGKTLGAGAFGKVVEATAYGLIKSDAAMTVAVKMLKPSAHLTEREALMSELKVLSYLGNHMNIVNLLGACTIGGPTLVITEYCCYGDLLNFLRRKRDSFICSKQEDHAEAALYKNLLHSKESSCSDSTNEYMDMKPGVSYVVPTKADKRRSVRIGSYIERDVTPAIMEDDELALDLEDLLSFSYQVAKGMAFLASKNCIHRDLAARNILLTHGRITKICDFGLARDIKNDSNYVVKGNARLPVKWMAPESIFNCVYTFESDVWSYGIFLWELFSLGSSPYPGMPVDSKFYKMIKEGFRMLSPEHAPAEMYDIMKTCWDADPLKRPTFKQIVQLIEKQISESTNHIYSNLANCSPNRQKPVVDHSVRINSVGSTASSSQPLLVHDDV
+Q92772,CDKL2,MEKYENLGLVGEGSYGMVMKCRNKDTGRIVAIKKFLESDDDKMVKKIAMREIKLLKQLRHENLVNLLEVCKKKKRWYLVFEFVDHTILDDLELFPNGLDYQVVQKYLFQIINGIGFCHSHNIIHRDIKPENILVSQSGVVKLCDFGFARTLAAPGEVYTDYVATRWYRAPELLVGDVKYGKAVDVWAIGCLVTEMFMGEPLFPGDSDIDQLYHIMMCLGNLIPRHQELFNKNPVFAGVRLPEIKEREPLERRYPKLSEVVIDLAKKCLHIDPDKRPFCAELLHHDFFQMDGFAERFSQELQLKVQKDARNVSLSKKSQNRKKEKEKDDSLVEERKTLVVQDTNADPKIKDYKLFKIKGSKIDGEKAEKGNRASNASCLHDSRTSHNKIVPSTSLKDCSNVSVDHTRNPSVAIPPLTHNLSAVAPSINSGMGTETIPIQGYRVDEKTKKCSIPFVKPNRHSPSGIYNINVTTLVSGPPLSDDSGADLPQMEHQH
+Q00532,CDKL1,MEKYEKIGKIGEGSYGVVFKCRNRDTGQIVAIKKFLESEDDPVIKKIALREIRMLKQLKHPNLVNLLEVFRRKRRLHLVFEYCDHTVLHELDRYQRGVPEHLVKSITWQTLQAVNFCHKHNCIHRDVKPENILITKHSVIKLCDFGFARLLTGPSDYYTDYVATRWYRSPELLVGDTQYGPPVDVWAIGCVFAELLSGVPLWPGKSDVDQLYLIRKTLGDLIPRHQQVFSTNQYFSGVKIPDPEDMEPLELKFPNISYPALGLLKGCLHMDPTQRLTCEQLLHHPYFENIREIEDLAKEHNKPTRKTLRKSRKHHCFTETSKLQYLPQLTGSSILPALDNKKYYCDTKKLNYRFPNI
+Q8IVT5,KSR1,MDRAALRAAAMGEKKEGGGGGDAAAAEGGAGAAASRALQQCGQLQKLIDISIGSLRGLRTKCAVSNDLTQQEIRTLEAKLVRYICKQRQCKLSVAPGERTPELNSYPRFSDWLYTFNVRPEVVQEIPRDLTLDALLEMNEAKVKETLRRCGASGDECGRLQYALTCLRKVTGLGGEHKEDSSWSSLDARRESGSGPSTDTLSAASLPWPPGSSQLGRAGNSAQGPRSISVSALPASDSPTPSFSEGLSDTCIPLHASGRLTPRALHSFITPPTTPQLRRHTKLKPPRTPPPPSRKVFQLLPSFPTLTRSKSHESQLGNRIDDVSSMRFDLSHGSPQMVRRDIGLSVTHRFSTKSWLSQVCHVCQKSMIFGVKCKHCRLKCHNKCTKEAPACRISFLPLTRLRRTESVPSDINNPVDRAAEPHFGTLPKALTKKEHPPAMNHLDSSSNPSSTTSSTPSSPAPFPTSSNPSSATTPPNPSPGQRDSRFNFPAAYFIHHRQQFIFPVPSAGHCWKCLLIAESLKENAFNISAFAHAAPLPEAADGTRLDDQPKADVLEAHEAEAEEPEAGKSEAEDDEDEVDDLPSSRRPWRGPISRKASQTSVYLQEWDIPFEQVELGEPIGQGRWGRVHRGRWHGEVAIRLLEMDGHNQDHLKLFKKEVMNYRQTRHENVVLFMGACMNPPHLAIITSFCKGRTLHSFVRDPKTSLDINKTRQIAQEIIKGMGYLHAKGIVHKDLKSKNVFYDNGKVVITDFGLFGISGVVREGRRENQLKLSHDWLCYLAPEIVREMTPGKDEDQLPFSKAADVYAFGTVWYELQARDWPLKNQAAEASIWQIGSGEGMKRVLTSVSLGKEVSEILSACWAFDLQERPSFSLLMDMLEKLPKLNRRLSHPGHFWKSADINSSKVVPRFERFGLGVLESSNPKM
+P06239,LCK,MGCGCSSHPEDDWMENIDVCENCHYPIVPLDGKGTLLIRNGSEVRDPLVTYEGSNPPASPLQDNLVIALHSYEPSHDGDLGFEKGEQLRILEQSGEWWKAQSLTTGQEGFIPFNFVAKANSLEPEPWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSRPCQTQKPQKPWWEDEWEVPRETLKLVERLGAGQFGEVWMGYYNGHTKVAVKSLKQGSMSPDAFLAEANLMKQLQHQRLVRLYAVVTQEPIYIITEYMENGSLVDFLKTPSGIKLTINKLLDMAAQIAEGMAFIEERNYIHRDLRAANILVSDTLSCKIADFGLARLIEDNEYTAREGAKFPIKWTAPEAINYGTFTIKSDVWSFGILLTEIVTHGRIPYPGMTNPEVIQNLERGYRMVRPDNCPEELYQLMRLCWKERPEDRPTFDYLRSVLEDFFTATEGQYQPQP
+P53671,LIMK2,MSALAGEDVWRCPGCGDHIAPSQIWYRTVNETWHGSCFRCSECQDSLTNWYYEKDGKLYCPKDYWGKFGEFCHGCSLLMTGPFMVAGEFKYHPECFACMSCKVIIEDGDAYALVQHATLYCGKCHNEVVLAPMFERLSTESVQEQLPYSVTLISMPATTEGRRGFSVSVESACSNYATTVQVKEVNRMHISPNNRNAIHPGDRILEINGTPVRTLRVEEVEDAISQTSQTLQLLIEHDPVSQRLDQLRLEARLAPHMQNAGHPHALSTLDTKENLEGTLRRRSLRRSNSISKSPGPSSPKEPLLFSRDISRSESLRCSSSYSQQIFRPCDLIHGEVLGKGFFGQAIKVTHKATGKVMVMKELIRCDEETQKTFLTEVKVMRSLDHPNVLKFIGVLYKDKKLNLLTEYIEGGTLKDFLRSMDPFPWQQKVRFAKGIASGMAYLHSMCIIHRDLNSHNCLIKLDKTVVVADFGLSRLIVEERKRAPMEKATTKKRTLRKNDRKKRYTVVGNPYWMAPEMLNGKSYDETVDIFSFGIVLCEIIGQVYADPDCLPRTLDFGLNVKLFWEKFVPTDCPPAFFPLAAICCRLEPESRPAFSKLEDSFEALSLYLGELGIPLPAELEELDHTVSMQYGLTRDSPP
+Q15831,STK11,MEVVDPQQLGMFTEGELMSVGMDTFIHRIDSTEVIYQPRRKRAKLIGKYLMGDLLGEGSYGKVKEVLDSETLCRRAVKILKKKKLRRIPNGEANVKKEIQLLRRLRHKNVIQLVDVLYNEEKQKMYMVMEYCVCGMQEMLDSVPEKRFPVCQAHGYFCQLIDGLEYLHSQGIVHKDIKPGNLLLTTGGTLKISDLGVAEALHPFAADDTCRTSQGSPAFQPPEIANGLDTFSGFKVDIWSAGVTLYNITTGLYPFEGDNIYKLFENIGKGSYAIPGDCGPPLSDLLKGMLEYEPAKRFSIRQIRQHSWFRKKHPPAEAPVPIPPSPDTKDRWRSMTVVPYLEDLHGADEDEDLFDIEDDIIYTQDFTVPGQVPEEEASHNGQRRGLPKAVCMNGTEAAQLSTKSRAEGRAPNPARKACSASSKIRRLSACKQQ
+P29376,LTK,MGCWGQLLVWFGAAGAILCSSPGSQETFLRSSPLPLASPSPRDPKVSAPPSILEPASPLNSPGTEGSWLFSTCGASGRHGPTQTQCDGAYAGTSVVVTVGAAGQLRGVQLWRVPGPGQYLISAYGAAGGKGAKNHLSRAHGVFVSAIFSLGLGESLYILVGQQGEDACPGGSPESQLVCLGESRAVEEHAAMDGSEGVPGSRRWAGGGGGGGGATYVFRVRAGELEPLLVAAGGGGRAYLRPRDRGRTQASPEKLENRSEAPGSGGRGGAAGGGGGWTSRAPSPQAGRSLQEGAEGGQGCSEAWATLGWAAAGGFGGGGGACTAGGGGGGYRGGDASETDNLWADGEDGVSFIHPSSELFLQPLAVTENHGEVEIRRHLNCSHCPLRDCQWQAELQLAECLCPEGMELAVDNVTCMDLHKPPGPLVLMVAVVATSTLSLLMVCGVLILVKQKKWQGLQEMRLPSPELELSKLRTSAIRTAPNPYYCQVGLGPAQSWPLPPGVTEVSPANVTLLRALGHGAFGEVYEGLVIGLPGDSSPLQVAIKTLPELCSPQDELDFLMEALIISKFRHQNIVRCVGLSLRATPRLILLELMSGGDMKSFLRHSRPHLGQPSPLVMRDLLQLAQDIAQGCHYLEENHFIHRDIAARNCLLSCAGPSRVAKIGDFGMARDIYRASYYRRGDRALLPVKWMPPEAFLEGIFTSKTDSWSFGVLLWEIFSLGYMPYPGRTNQEVLDFVVGGGRMDPPRGCPGPVYRIMTQCWQHEPELRPSFASILERLQYCTQDPDVLNSLLPMELGPTPEEEGTSGLGNRSLECLRPPQPQELSPEKLKSWGGSPLGPWLSSGLKPLKSRGLQPQNLWNPTYRS
+P07948,LYN,MGCIKSKGKDSLSDDGVDLKTQPVRNTERTIYVRDPTSNKQQRPVPESQLLPGQRFQTKDPEEQGDIVVALYPYDGIHPDDLSFKKGEKMKVLEEHGEWWKAKSLLTKKEGFIPSNYVAKLNTLETEEWFFKDITRKDAERQLLAPGNSAGAFLIRESETLKGSFSLSVRDFDPVHGDVIKHYKIRSLDNGGYYISPRITFPCISDMIKHYQKQADGLCRRLEKACISPKPQKPWDKDAWEIPRESIKLVKRLGAGQFGEVWMGYYNNSTKVAVKTLKPGTMSVQAFLEEANLMKTLQHDKLVRLYAVVTREEPIYIITEYMAKGSLLDFLKSDEGGKVLLPKLIDFSAQIAEGMAYIERKNYIHRDLRAANVLVSESLMCKIADFGLARVIEDNEYTAREGAKFPIKWTAPEAINFGCFTIKSDVWSFGILLYEIVTYGKIPYPGRTNADVMTALSQGYRMPRVENCPDELYDIMKMCWKEKAEERPTFDYLQSVLDDFYTATEGQYQQQP
+P20794,MAK,MNRYTTMRQLGDGTYGSVLMGKSNESGELVAIKRMKRKFYSWDECMNLREVKSLKKLNHANVIKLKEVIRENDHLYFIFEYMKENLYQLMKDRNKLFPESVIRNIMYQILQGLAFIHKHGFFHRDMKPENLLCMGPELVKIADFGLARELRSQPPYTDYVSTRWYRAPEVLLRSSVYSSPIDVWAVGSIMAELYMLRPLFPGTSEVDEIFKICQVLGTPKKSDWPEGYQLASSMNFRFPQCVPINLKTLIPNASNEAIQLMTEMLNWDPKKRPTASQALKHPYFQVGQVLGPSSNHLESKQSLNKQLQPLESKPSLVEVEPKPLPDIIDQVVGQPQPKTSQQPLQPIQPPQNLSVQQPPKQQSQEKPPQTLFPSIVKNMPTKPNGTLSHKSGRRRWGQTIFKSGDSWEELEDYDFGASHSKKPSMGVFKEKRKKDSPFRLPEPVPSGSNHSTGENKSLPAVTSLKSDSELSTAPTSKQYYLKQSRYLPGVNPKKVSLIASGKEINPHTWSNQLFPKSLGPVGAELAFKRSNAGNLGSYATYNQSGYIPSFLKKEVQSAGQRIHLAPLNATASEYTWNTKTGRGQFSGRTYNPTAKNLNIVNRAQPIPSVHGRTDWVAKYGGHR
+P49137,MAPKAPK2,MLSNSQGQSPPVPFPAPAPPPQPPTPALPHPPAQPPPPPPQQFPQFHVKSGLQIKKNAIIDDYKVTSQVLGLGINGKVLQIFNKRTQEKFALKMLQDCPKARREVELHWRASQCPHIVRIVDVYENLYAGRKCLLIVMECLDGGELFSRIQDRGDQAFTEREASEIMKSIGEAIQYLHSINIAHRDVKPENLLYTSKRPNAILKLTDFGFAKETTSHNSLTTPCYTPYYVAPEVLGPEKYDKSCDMWSLGVIMYILLCGYPPFYSNHGLAISPGMKTRIRMGQYEFPNPEWSEVSEEVKMLIRNLLKTEPTQRMTITEFMNHPWIMQSTKVPQTPLHTSRVLKEDKERWEDVKEEMTSALATMRVDYEQIKIKKIEDASNPLLLKRRKKARALEAAALAH
+Q16644,MAPKAPK3,MDGETAEEQGGPVPPPVAPGGPGLGGAPGGRREPKKYAVTDDYQLSKQVLGLGVNGKVLECFHRRTGQKCALKLLYDSPKARQEVDHHWQASGGPHIVCILDVYENMHHGKRCLLIIMECMEGGELFSRIQERGDQAFTEREAAEIMRDIGTAIQFLHSHNIAHRDVKPENLLYTSKEKDAVLKLTDFGFAKETTQNALQTPCYTPYYVAPEVLGPEKYDKSCDMWSLGVIMYILLCGFPPFYSNTGQAISPGMKRRIRLGQYGFPNPEWSEVSEDAKQLIRLLLKTDPTERLTITQFMNHPWINQSMVVPQTPLHTARVLQEDKDHWDEVKEEMTSALATMRVDYDQVKIKDLKTSNNRLLNKRRKKQAGSSSASQGCNNQ
+Q8IW41,MAPKAPK5,MSEESDMDKAIKETSILEEYSINWTQKLGAGISGPVRVCVKKSTQERFALKILLDRPKARNEVRLHMMCATHPNIVQIIEVFANSVQFPHESSPRARLLIVMEMMEGGELFHRISQHRHFTEKQASQVTKQIALALRHCHLLNIAHRDLKPENLLFKDNSLDAPVKLCDFGFAKIDQGDLMTPQFTPYYVAPQVLEAQRRHQKEKSGIIPTSPTPYTYNKSCDLWSLGVIIYVMLCGYPPFYSKHHSRTIPKDMRRKIMTGSFEFPEEEWSQISEMAKDVVRKLLKVKPEERLTIEGVLDHPWLNSTEALDNVLPSAQLMMDKAVVAGIQQAHAEQLANMRIQDLKVSLKPLHSVNNPILRKRKLLGTKPKDSVYIHDHENGAEDSNVALEKLRDVIAQCILPQAGKGENEDEKLNEVMQEAWKYNRECKLLRDTLQSFSWNGRGFTDKVDRLKLAEIVKQVIEEQTTSHESQ
+Q9P0L2,MARK1,MSARTPLPTVNERDTENHTSVDGYTEPHIQPTKSSSRQNIPRCRNSITSATDEQPHIGNYRLQKTIGKGNFAKVKLARHVLTGREVAVKIIDKTQLNPTSLQKLFREVRIMKILNHPNIVKLFEVIETEKTLYLVMEYASGGEVFDYLVAHGRMKEKEARAKFRQIVSAVQYCHQKYIVHRDLKAENLLLDGDMNIKIADFGFSNEFTVGNKLDTFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKKLLVLNPIKRGSLEQIMKDRWMNVGHEEEELKPYTEPDPDFNDTKRIDIMVTMGFARDEINDALINQKYDEVMATYILLGRKPPEFEGGESLSSGNLCQRSRPSSDLNNSTLQSPAHLKVQRSISANQKQRRFSDHAGPSIPPAVSYTKRPQANSVESEQKEEWDKDVARKLGSTTVGSKSEMTASPLVGPERKKSSTIPSNNVYSGGSMARRNTYVCERTTDRYVALQNGKDSSLTEMSVSSISSAGSSVASAVPSARPRHQKSMSTSGHPIKVTLPTIKDGSEAYRPGTTQRVPAASPSAHSISTATPDRTRFPRGSSSRSTFHGEQLRERRSVAYNGPPASPSHETGAFAHARRGTSTGIISKITSKFVRRDPSEGEASGRTDTSRSTSGEPKERDKEEGKDSKPRSLRFTWSMKTTSSMDPNDMMREIRKVLDANNCDYEQKERFLLFCVHGDARQDSLVQWEMEVCKLPRLSLNGVRFKRISGTSIAFKNIASKIANELKL
+Q6P0Q8,MAST2,MKRSRCRDRPQPPPPDRREDGVQRAAELSQSLPPRRRAPPGRQRLEERTGPAGPEGKEQDVVTGVSPLLFRKLSNPDIFSSTGKVKLQRQLSQDDCKLWRGNLASSLSGKQLLPLSSSVHSSVGQVTWQSSGEASNLVRMRNQSLGQSAPSLTAGLKELSLPRRGSFCRTSNRKSLIVTSSTSPTLPRPHSPLHGHTGNSPLDSPRNFSPNAPAHFSFVPARRTDGRRWSLASLPSSGYGTNTPSSTVSSSCSSQEKLHQLPFQPTADELHFLTKHFSTESVPDEEGRQSPAMRPRSRSLSPGRSPVSFDSEIIMMNHVYKERFPKATAQMEERLAEFISSNTPDSVLPLADGALSFIHHQVIEMARDCLDKSRSGLITSQYFYELQDNLEKLLQDAHERSESSEVAFVMQLVKKLMIIIARPARLLECLEFDPEEFYHLLEAAEGHAKEGQGIKCDIPRYIVSQLGLTRDPLEEMAQLSSCDSPDTPETDDSIEGHGASLPSKKTPSEEDFETIKLISNGAYGAVFLVRHKSTRQRFAMKKINKQNLILRNQIQQAFVERDILTFAENPFVVSMFCSFDTKRHLCMVMEYVEGGDCATLLKNIGALPVDMVRLYFAETVLALEYLHNYGIVHRDLKPDNLLITSMGHIKLTDFGLSKIGLMSLTTNLYEGHIEKDAREFLDKQVCGTPEYIAPEVILRQGYGKPVDWWAMGIILYEFLVGCVPFFGDTPEELFGQVISDEIVWPEGDEALPPDAQDLTSKLLHQNPLERLGTGSAYEVKQHPFFTGLDWTGLLRQKAEFIPQLESEDDTSYFDTRSERYHHMDSEDEEEVSEDGCLEIRQFSSCSPRFNKVYSSMERLSLLEERRTPPPTKRSLSEEKEDHSDGLAGLKGRDRSWVIGSPEILRKRLSVSESSHTESDSSPPMTVRRRCSGLLDAPRFPEGPEEASSTLRRQPQEGIWVLTPPSGEGVSGPVTEHSGEQRPKLDEEAVGRSSGSSPAMETRGRGTSQLAEGATAKAISDLAVRRARHRLLSGDSTEKRTARPVNKVIKSASATALSLLIPSEHHTCSPLASPMSPHSQSSNPSSRDSSPSRDFLPALGSMRPPIIIHRAGKKYGFTLRAIRVYMGDSDVYTVHHMVWHVEDGGPASEAGLRQGDLITHVNGEPVHGLVHTEVVELILKSGNKVAISTTPLENTSIKVGPARKGSYKAKMARRSKRSRGKDGQESRKRSSLFRKITKQASLLHTSRSLSSLNRSLSSGESGPGSPTHSHSLSPRSPTQGYRVTPDAVHSVGGNSSQSSSPSSSVPSSPAGSGHTRPSSLHGLAPKLQRQYRSPRRKSAGSIPLSPLAHTPSPPPPTASPQRSPSPLSGHVAQAFPTKLHLSPPLGRQLSRPKSAEPPRSPLLKRVQSAEKLAAALAASEKKLATSRKHSLDLPHSELKKELPPREVSPLEVVGARSVLSGKGALPGKGVLQPAPSRALGTLRQDRAERRESLQKQEAIREVDSSEDDTEEGPENSQGAQELSLAPHPEVSQSVAPKGAGESGEEDPFPSRDPRSLGPMVPSLLTGITLGPPRMESPSGPHRRLGSPQAIEEAASSSSAGPNLGQSGATDPIPPEGCWKAQHLHTQALTALSPSTSGLTPTSSCSPPSSTSGKLSMWSWKSLIEGPDRASPSRKATMAGGLANLQDLENTTPAQPKNLSPREQGKTQPPSAPRLAHPSYEDPSQGWLWESECAQAVKEDPALSITQVPDASGDRRQDVPCRGCPLTQKSEPSLRRGQEPGGHQKHRDLALVPDELLKQT
+Q02750,MAP2K1,MPKKKPTPIQLNPAPDGSAVNGTSSAETNLEALQKKLEELELDEQQRKRLEAFLTQKQKVGELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPPDAKELELMFGCQVEGDAAETPPRPRTPGRPLSSYGMDSRPPMAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIGLNQPSTPTHAAGV
+P36507,MAP2K2,MLARRKPVLPALTINPTIAEGPSPTSEGASEANLVDLQKKLEELELDEQQKKRLEAFLTQKAKVGELKDDDFERISELGAGNGGVVTKVQHRPSGLIMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKEAKRIPEEILGKVSIAVLRGLAYLREKHQIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMAPERLQGTHYSVQSDIWSMGLSLVELAVGRYPIPPPDAKELEAIFGRPVVDGEEGEPHSISPRPRPPGRPVSGHGMDSRPAMAIFELLDYIVNEPPPKLPNGVFTPDFQEFVNKCLIKNPAERADLKMLTNHTFIKRSEVEEVDFAGWLCKTLRLNQPGTPTRTAV
+Q13163,MAP2K5,MLWLALGPFPAMENQVLVIRIKIPNSGAVDWTVHSGPQLLFRDVLDVIGQVLPEATTTAFEYEDEDGDRITVRSDEEMKAMLSYYYSTVMEQQVNGQLIEPLQIFPRACKPPGERNIHGLKVNTRAGPSQHSSPAVSDSLPSNSLKKSSAELKKILANGQMNEQDIRYRDTLGHGNGGTVYKAYHVPSGKILAVKVILLDITLELQKQIMSELEILYKCDSSYIIGFYGAFFVENRISICTEFMDGGSLDVYRKMPEHVLGRIAVAVVKGLTYLWSLKILHRDVKPSNMLVNTRGQVKLCDFGVSTQLVNSIAKTYVGTNAYMAPERISGEQYGIHSDVWSLGISFMELALGRFPYPQIQKNQGSLMPLQLLQCIVDEDSPVLPVGEFSEPFVHFITQCMRKQPKERPAPEELMGHPFIVQFNDGNAAVVSMWVCRALEERRSQQGPP
+P52564,MAP2K6,MSQSKGKKRNPGLKIPKEAFEQPQTSSTPPRDLDSKACISIGNQNFEVKADDLEPIMELGRGAYGVVEKMRHVPSGQIMAVKRIRATVNSQEQKRLLMDLDISMRTVDCPFTVTFYGALFREGDVWICMELMDTSLDKFYKQVIDKGQTIPEDILGKIAVSIVKALEHLHSKLSVIHRDVKPSNVLINALGQVKMCDFGISGYLVDSVAKTIDAGCKPYMAPERINPELNQKGYSVKSDIWSLGITMIELAILRFPYDSWGTPFQQLKQVVEEPSPQLPADKFSAEFVDFTSQCLKKNSKERPTYPELMQHPFFTLHESKGTDVASFVKLILGD
+Q13233,MAP3K1,MAAAAGNRASSSGFPGARATSPEAGGGGGALKASSAPAAAAGLLREAGSGGRERADWRRRQLRKVRSVELDQLPEQPLFLAASPPASSTSPSPEPADAAGSGTGFQPVAVPPPHGAASRGGAHLTESVAAPDSGASSPAAAEPGEKRAPAAEPSPAAAPAGREMENKETLKGLHKMDDRPEERMIREKLKATCMPAWKHEWLERRNRRGPVVVKPIPVKGDGSEMNHLAAESPGEVQASAASPASKGRRSPSPGNSPSGRTVKSESPGVRRKRVSPVPFQSGRITPPRRAPSPDGFSPYSPEETNRRVNKVMRARLYLLQQIGPNSFLIGGDSPDNKYRVFIGPQNCSCARGTFCIHLLFVMLRVFQLEPSDPMLWRKTLKNFEVESLFQKYHSRRSSRIKAPSRNTIQKFVSRMSNSHTLSSSSTSTSSSENSIKDEEEQMCPICLLGMLDEESLTVCEDGCRNKLHHHCMSIWAEECRRNREPLICPLCRSKWRSHDFYSHELSSPVDSPSSLRAAQQQTVQQQPLAGSRRNQESNFNLTHYGTQQIPPAYKDLAEPWIQVFGMELVGCLFSRNWNVREMALRRLSHDVSGALLLANGESTGNSGGSSGSSPSGGATSGSSQTSISGDVVEACCSVLSMVCADPVYKVYVAALKTLRAMLVYTPCHSLAERIKLQRLLQPVVDTILVKCADANSRTSQLSISTLLELCKGQAGELAVGREILKAGSIGIGGVDYVLNCILGNQTESNNWQELLGRLCLIDRLLLEFPAEFYPHIVSTDVSQAEPVEIRYKKLLSLLTFALQSIDNSHSMVGKLSRRIYLSSARMVTTVPHVFSKLLEMLSVSSSTHFTRMRRRLMAIADEVEIAEAIQLGVEDTLDGQQDSFLQASVPNNYLETTENSSPECTVHLEKTGKGLCATKLSASSEDISERLASISVGPSSSTTTTTTTTEQPKPMVQTKGRPHSQCLNSSPLSHHSQLMFPALSTPSSSTPSVPAGTATDVSKHRLQGFIPCRIPSASPQTQRKFSLQFHRNCPENKDSDKLSPVFTQSRPLPSSNIHRPKPSRPTPGNTSKQGDPSKNSMTLDLNSSSKCDDSFGCSSNSSNAVIPSDETVFTPVEEKCRLDVNTELNSSIEDLLEASMPSSDTTVTFKSEVAVLSPEKAENDDTYKDDVNHNQKCKEKMEAEEEEALAIAMAMSASQDALPIVPQLQVENGEDIIIIQQDTPETLPGHTKAKQPYREDTEWLKGQQIGLGAFSSCYQAQDVGTGTLMAVKQVTYVRNTSSEQEEVVEALREEIRMMSHLNHPNIIRMLGATCEKSNYNLFIEWMAGGSVAHLLSKYGAFKESVVINYTEQLLRGLSYLHENQIIHRDVKGANLLIDSTGQRLRIADFGAAARLASKGTGAGEFQGQLLGTIAFMAPEVLRGQQYGRSCDVWSVGCAIIEMACAKPPWNAEKHSNHLALIFKIASATTAPSIPSHLSPGLRDVALRCLELQPQDRPPSRELLKHPVFRTTW
+Q9Y2U5,MAP3K2,MDDQQALNSIMQDLAVLHKASRPALSLQETRKAKSSSPKKQNDVRVKFEHRGEKRILQFPRPVKLEDLRSKAKIAFGQSMDLHYTNNELVIPLTTQDDLDKAVELLDRSIHMKSLKILLVINGSTQATNLEPLPSLEDLDNTVFGAERKKRLSIIGPTSRDRSSPPPGYIPDELHQVARNGSFTSINSEGEFIPESMDQMLDPLSLSSPENSGSGSCPSLDSPLDGESYPKSRMPRAQSYPDNHQEFSDYDNPIFEKFGKGGTYPRRYHVSYHHQEYNDGRKTFPRARRTQGTSLRSPVSFSPTDHSLSTSSGSSIFTPEYDDSRIRRRGSDIDNPTLTVMDISPPSRSPRAPTNWRLGKLLGQGAFGRVYLCYDVDTGRELAVKQVQFDPDSPETSKEVNALECEIQLLKNLLHERIVQYYGCLRDPQEKTLSIFMEYMPGGSIKDQLKAYGALTENVTRKYTRQILEGVHYLHSNMIVHRDIKGANILRDSTGNVKLGDFGASKRLQTICLSGTGMKSVTGTPYWMSPEVISGEGYGRKADIWSVACTVVEMLTEKPPWAEFEAMAAIFKIATQPTNPKLPPHVSDYTRDFLKRIFVEAKLRPSADELLRHMFVHYH
+Q99759,MAP3K3,MDEQEALNSIMNDLVALQMNRRHRMPGYETMKNKDTGHSNRQSDVRIKFEHNGERRIIAFSRPVKYEDVEHKVTTVFGQPLDLHYMNNELSILLKNQDDLDKAIDILDRSSSMKSLRILLLSQDRNHNSSSPHSGVSRQVRIKASQSAGDINTIYQPPEPRSRHLSVSSQNPGRSSPPPGYVPERQQHIARQGSYTSINSEGEFIPETSEQCMLDPLSSAENSLSGSCQSLDRSADSPSFRKSRMSRAQSFPDNRQEYSDRETQLYDKGVKGGTYPRRYHVSVHHKDYSDGRRTFPRIRRHQGNLFTLVPSSRSLSTNGENMGLAVQYLDPRGRLRSADSENALSVQERNVPTKSPSAPINWRRGKLLGQGAFGRVYLCYDVDTGRELASKQVQFDPDSPETSKEVSALECEIQLLKNLQHERIVQYYGCLRDRAEKTLTIFMEYMPGGSVKDQLKAYGALTESVTRKYTRQILEGMSYLHSNMIVHRDIKGANILRDSAGNVKLGDFGASKRLQTICMSGTGMRSVTGTPYWMSPEVISGEGYGRKADVWSLGCTVVEMLTEKPPWAEYEAMAAIFKIATQPTNPQLPSHISEHGRDFLRRIFVEARQRPSAEELLTHHFAQLMY
+Q9Y6R4,MAP3K4,MREAAAALVPPPAFAVTPAAAMEEPPPPPPPPPPPPEPETESEPECCLAARQEGTLGDSACKSPESDLEDFSDETNTENLYGTSPPSTPRQMKRMSTKHQRNNVGRPASRSNLKEKMNAPNQPPHKDTGKTVENVEEYSYKQEKKIRAALRTTERDRKKNVQCSFMLDSVGGSLPKKSIPDVDLNKPYLSLGCSNAKLPVSVPMPIARPARQTSRTDCPADRLKFFETLRLLLKLTSVSKKKDREQRGQENTSGFWLNRSNELIWLELQAWHAGRTINDQDFFLYTARQAIPDIINEILTFKVDYGSFAFVRDRAGFNGTSVEGQCKATPGTKIVGYSTHHEHLQRQRVSFEQVKRIMELLEYIEALYPSLQALQKDYEKYAAKDFQDRVQALCLWLNITKDLNQKLRIMGTVLGIKNLSDIGWPVFEIPSPRPSKGNEPEYEGDDTEGELKELESSTDESEEEQISDPRVPEIRQPIDNSFDIQSRDCISKKLERLESEDDSLGWGAPDWSTEAGFSRHCLTSIYRPFVDKALKQMGLRKLILRLHKLMDGSLQRARIALVKNDRPVEFSEFPDPMWGSDYVQLSRTPPSSEEKCSAVSWEELKAMDLPSFEPAFLVLCRVLLNVIHECLKLRLEQRPAGEPSLLSIKQLVRECKEVLKGGLLMKQYYQFMLQEVLEDLEKPDCNIDAFEEDLHKMLMVYFDYMRSWIQMLQQLPQASHSLKNLLEEEWNFTKEITHYIRGGEAQAGKLFCDIAGMLLKSTGSFLEFGLQESCAEFWTSADDSSASDEIRRSVIEISRALKELFHEARERASKALGFAKMLRKDLEIAAEFRLSAPVRDLLDVLKSKQYVKVQIPGLENLQMFVPDTLAEEKSIILQLLNAAAGKDCSKDSDDVLIDAYLLLTKHGDRARDSEDSWGTWEAQPVKVVPQVETVDTLRSMQVDNLLLVVMQSAHLTIQRKAFQQSIEGLMTLCQEQTSSQPVIAKALQQLKNDALELCNRISNAIDRVDHMFTSEFDAEVDESESVTLQQYYREAMIQGYNFGFEYHKEVVRLMSGEFRQKIGDKYISFARKWMNYVLTKCESGRGTRPRWATQGFDFLQAIEPAFISALPEDDFLSLQALMNECIGHVIGKPHSPVTGLYLAIHRNSPRPMKVPRCHSDPPNPHLIIPTPEGFSTRSMPSDARSHGSPAAAAAAAAAAVAASRPSPSGGDSVLPKSISSAHDTRGSSVPENDRLASIAAELQFRSLSRHSSPTEERDEPAYPRGDSSGSTRRSWELRTLISQSKDTASKLGPIEAIQKSVRLFEEKRYREMRRKNIIGQVCDTPKSYDNVMHVGLRKVTFKWQRGNKIGEGQYGKVYTCISVDTGELMAMKEIRFQPNDHKTIKETADELKIFEGIKHPNLVRYFGVELHREEMYIFMEYCDEGTLEEVSRLGLQEHVIRLYSKQITIAINVLHEHGIVHRDIKGANIFLTSSGLIKLGDFGCSVKLKNNAQTMPGEVNSTLGTAAYMAPEVITRAKGEGHGRAADIWSLGCVVIEMVTGKRPWHEYEHNFQIMYKVGMGHKPPIPERLSPEGKDFLSHCLESDPKMRWTASQLLDHSFVKVCTDEE
+Q99683,MAP3K5,MSTEADEGITFSVPPFAPSGFCTIPEGGICRRGGAAAVGEGEEHQLPPPPPGSFWNVESAAAPGIGCPAATSSSSATRGRGSSVGGGSRRTTVAYVINEASQGQLVVAESEALQSLREACETVGATLETLHFGKLDFGETTVLDRFYNADIAVVEMSDAFRQPSLFYHLGVRESFSMANNIILYCDTNSDSLQSLKEIICQKNTMCTGNYTFVPYMITPHNKVYCCDSSFMKGLTELMQPNFELLLGPICLPLVDRFIQLLKVAQASSSQYFRESILNDIRKARNLYTGKELAAELARIRQRVDNIEVLTADIVINLLLSYRDIQDYDSIVKLVETLEKLPTFDLASHHHVKFHYAFALNRRNLPGDRAKALDIMIPMVQSEGQVASDMYCLVGRIYKDMFLDSNFTDTESRDHGASWFKKAFESEPTLQSGINYAVLLLAAGHQFESSFELRKVGVKLSSLLGKKGNLEKLQSYWEVGFFLGASVLANDHMRVIQASEKLFKLKTPAWYLKSIVETILIYKHFVKLTTEQPVAKQELVDFWMDFLVEATKTDVTVVRFPVLILEPTKIYQPSYLSINNEVEEKTISIWHVLPDDKKGIHEWNFSASSVRGVSISKFEERCCFLYVLHNSDDFQIYFCTELHCKKFFEMVNTITEEKGRSTEEGDCESDLLEYDYEYDENGDRVVLGKGTYGIVYAGRDLSNQVRIAIKEIPERDSRYSQPLHEEIALHKHLKHKNIVQYLGSFSENGFIKIFMEQVPGGSLSALLRSKWGPLKDNEQTIGFYTKQILEGLKYLHDNQIVHRDIKGDNVLINTYSGVLKISDFGTSKRLAGINPCTETFTGTLQYMAPEIIDKGPRGYGKAADIWSLGCTIIEMATGKPPFYELGEPQAAMFKVGMFKVHPEIPESMSAEAKAFILKCFEPDPDKRACANDLLVDEFLKVSSKKKKTQPKLSALSAGSNEYLRSISLPVPVLVEDTSSSSEYGSVSPDTELKVDPFSFKTRAKSCGERDVKGIRTLFLGIPDENFEDHSAPPSPEEKDSGFFMLRKDSERRATLHRILTEDQDKIVRNLMESLAQGAEEPKLKWEHITTLIASLREFVRSTDRKIIATTLSKLKLELDFDSHGISQVQVVLFGFQDAVNKVLRNHNIKPHWMFALDSIIRKAVQTAITILVPELRPHFSLASESDTADQEDLDVEDDHEEQPSNQTVRRPQAVIEDAVATSGVSTLSSTVSHDSQSAHRSLNVQLGRMKIETNRLLEELVRKEKELQALLHRAIEEKDQEIKHLKLKSQPIEIPELPVFHLNSSGTNTEDSELTDWLRVNGADEDTISRFLAEDYTLLDVLYYVTRDDLKCLRLRGGMLCTLWKAIIDFRNKQT
+Q12866,MERTK,MGPAPLPLLLGLFLPALWRRAITEAREEAKPYPLFPGPFPGSLQTDHTPLLSLPHASGYQPALMFSPTQPGRPHTGNVAIPQVTSVESKPLPPLAFKHTVGHIILSEHKGVKFNCSISVPNIYQDTTISWWKDGKELLGAHHAITQFYPDDEVTAIIASFSITSVQRSDNGSYICKMKINNEEIVSDPIYIEVQGLPHFTKQPESMNVTRNTAFNLTCQAVGPPEPVNIFWVQNSSRVNEQPEKSPSVLTVPGLTEMAVFSCEAHNDKGLTVSKGVQINIKAIPSPPTEVSIRNSTAHSILISWVPGFDGYSPFRNCSIQVKEADPLSNGSVMIFNTSALPHLYQIKQLQALANYSIGVSCMNEIGWSAVSPWILASTTEGAPSVAPLNVTVFLNESSDNVDIRWMKPPTKQQDGELVGYRISHVWQSAGISKELLEEVGQNGSRARISVQVHNATCTVRIAAVTRGGVGPFSDPVKIFIPAHGWVDYAPSSTPAPGNADPVLIIFGCFCGFILIGLILYISLAIRKRVQETKFGNAFTEEDSELVVNYIAKKSFCRRAIELTLHSLGVSEELQNKLEDVVIDRNLLILGKILGEGEFGSVMEGNLKQEDGTSLKVAVKTMKLDNSSQREIEEFLSEAACMKDFSHPNVIRLLGVCIEMSSQGIPKPMVILPFMKYGDLHTYLLYSRLETGPKHIPLQTLLKFMVDIALGMEYLSNRNFLHRDLAARNCMLRDDMTVCVADFGLSKKIYSGDYYRQGRIAKMPVKWIAIESLADRVYTSKSDVWAFGVTMWEIATRGMTPYPGVQNHEMYDYLLHGHRLKQPEDCLDELYEIMYSCWRTDPLDRPTFSVLRLQLEKLLESLPDVRNQADVIYVNTQLLESSEGLAQGSTLAPLDLNIDPDSIIASCTPRAAISVVTAEVHDSKPHEGRYILNGGSEEWEDLTSAPSAAVTAEKNSVLPGERLVRNGVSWSHSSMLPLGSSLPDELLFADDSSEGSEVLM
+P08581,MET,MKAPAVLAPGILVLLFTLVQRSNGECKEALAKSEMNVNMKYQLPNFTAETPIQNVILHEHHIFLGATNYIYVLNEEDLQKVAEYKTGPVLEHPDCFPCQDCSSKANLSGGVWKDNINMALVVDTYYDDQLISCGSVNRGTCQRHVFPHNHTADIQSEVHCIFSPQIEEPSQCPDCVVSALGAKVLSSVKDRFINFFVGNTINSSYFPDHPLHSISVRRLKETKDGFMFLTDQSYIDVLPEFRDSYPIKYVHAFESNNFIYFLTVQRETLDAQTFHTRIIRFCSINSGLHSYMEMPLECILTEKRKKRSTKKEVFNILQAAYVSKPGAQLARQIGASLNDDILFGVFAQSKPDSAEPMDRSAMCAFPIKYVNDFFNKIVNKNNVRCLQHFYGPNHEHCFNRTLLRNSSGCEARRDEYRTEFTTALQRVDLFMGQFSEVLLTSISTFIKGDLTIANLGTSEGRFMQVVVSRSGPSTPHVNFLLDSHPVSPEVIVEHTLNQNGYTLVITGKKITKIPLNGLGCRHFQSCSQCLSAPPFVQCGWCHDKCVRSEECLSGTWTQQICLPAIYKVFPNSAPLEGGTRLTICGWDFGFRRNNKFDLKKTRVLLGNESCTLTLSESTMNTLKCTVGPAMNKHFNMSIIISNGHGTTQYSTFSYVDPVITSISPKYGPMAGGTLLTLTGNYLNSGNSRHISIGGKTCTLKSVSNSILECYTPAQTISTEFAVKLKIDLANRETSIFSYREDPIVYEIHPTKSFISGGSTITGVGKNLNSVSVPRMVINVHEAGRNFTVACQHRSNSEIICCTTPSLQQLNLQLPLKTKAFFMLDGILSKYFDLIYVHNPVFKPFEKPVMISMGNENVLEIKGNDIDPEAVKGEVLKVGNKSCENIHLHSEAVLCTVPNDLLKLNSELNIEWKQAISSTVLGKVIVQPDQNFTGLIAGVVSISTALLLLLGFFLWLKKRKQIKDLGSELVRYDARVHTPHLDRLVSARSVSPTTEMVSNESVDYRATFPEDQFPNSSQNGSCRQVQYPLTDMSPILTSGDSDISSPLLQNTVHIDLSALNPELVQAVQHVVIGPSSLIVHFNEVIGRGHFGCVYHGTLLDNDGKKIHCAVKSLNRITDIGEVSQFLTEGIIMKDFSHPNVLSLLGICLRSEGSPLVVLPYMKHGDLRNFIRNETHNPTVKDLIGFGLQVAKGMKYLASKKFVHRDLAARNCMLDEKFTVKVADFGLARDMYDKEYYSVHNKTGAKLPVKWMALESLQTQKFTTKSDVWSFGVLLWELMTRGAPPYPDVNTFDITVYLLQGRRLLQPEYCPDPLYEVMLKCWHPKAEMRPSFSELVSRISAIFSTFIGEHYVHVNATYVNVKCVAPYPSLLSSEDNADDEVDTRPASFWETS
+Q16671,AMHR2,MLGSLGLWALLPTAVEAPPNRRTCVFFEAPGVRGSTKTLGELLDTGTELPRAIRCLYSRCCFGIWNLTQDRAQVEMQGCRDSDEPGCESLHCDPSPRAHPSPGSTLFTCSCGTDFCNANYSHLPPPGSPGTPGSQGPQAAPGESIWMALVLLGLFLLLLLLLGSIILALLQRKNYRVRGEPVPEPRPDSGRDWSVELQELPELCFSQVIREGGHAVVWAGQLQGKLVAIKAFPPRSVAQFQAERALYELPGLQHDHIVRFITASRGGPGRLLSGPLLVLELHPKGSLCHYLTQYTSDWGSSLRMALSLAQGLAFLHEERWQNGQYKPGIAHRDLSSQNVLIREDGSCAIGDLGLALVLPGLTQPPAWTPTQPQGPAAIMEAGTQRYMAPELLDKTLDLQDWGMALRRADIYSLALLLWEILSRCPDLRPDSSPPPFQLAYEAELGNTPTSDELWALAVQERRRPYIPSTWRCFATDPDGLRELLEDCWDADPEARLTAECVQQRLAALAHPQESHPFPESCPRGCPPLCPEDCTSIPAPTILPCRPQRSACHFSVQQGPCSRNPQPACTLSPV
+O14733,MAP2K7,MAASSLEQKLSRLEAKLKQENREARRRIDLNLDISPQRPRPTLQLPLANDGGSRSPSSESSPQHPTPPARPRHMLGLPSTLFTPRSMESIEIDQKLQEIMKQTGYLTIGGQRYQAEINDLENLGEMGSGTCGQVWKMRFRKTGHVIAVKQMRRSGNKEENKRILMDLDVVLKSHDCPYIVQCFGTFITNTDVFIAMELMGTCAEKLKKRMQGPIPERILGKMTVAIVKALYYLKEKHGVIHRDVKPSNILLDERGQIKLCDFGISGRLVDSKAKTRSAGCAAYMAPERIDPPDPTKPDYDIRADVWSLGISLVELATGQFPYKNCKTDFEVLTKVLQEEPPLLPGHMGFSGDFQSFVKDCLTKDHRKRPKYNKLLEHSFIKRYETLEVDVASWFKDVMAKTESPRTSGVLSQPHLPFFR
+Q15746,MYLK,MGDVKLVASSHISKTSLSVDPSRVDSMPLTEAPAFILPPRNLCIKEGATAKFEGRVRGYPEPQVTWHRNGQPITSGGRFLLDCGIRGTFSLVIHAVHEEDRGKYTCEATNGSGARQVTVELTVEGSFAKQLGQPVVSKTLGDRFSAPAVETRPSIWGECPPKFATKLGRVVVKEGQMGRFSCKITGRPQPQVTWLKGNVPLQPSARVSVSEKNGMQVLEIHGVNQDDVGVYTCLVVNGSGKASMSAELSIQGLDSANRSFVRETKATNSDVRKEVTNVISKESKLDSLEAAAKSKNCSSPQRGGSPPWAANSQPQPPRESKLESCKDSPRTAPQTPVLQKTSSSITLQAARVQPEPRAPGLGVLSPSGEERKRPAPPRPATFPTRQPGLGSQDVVSKAANRRIPMEGQRDSAFPKFESKPQSQEVKENQTVKFRCEVSGIPKPEVAWFLEGTPVRRQEGSIEVYEDAGSHYLCLLKARTRDSGTYSCTASNAQGQLSCSWTLQVERLAVMEVAPSFSSVLKDCAVIEGQDFVLQCSVRGTPVPRITWLLNGQPIQYARSTCEAGVAELHIQDALPEDHGTYTCLAENALGQVSCSAWVTVHEKKSSRKSEYLLPVAPSKPTAPIFLQGLSDLKVMDGSQVTMTVQVSGNPPPEVIWLHNGNEIQESEDFHFEQRGTQHSLCIQEVFPEDTGTYTCEAWNSAGEVRTQAVLTVQEPHDGTQPWFISKPRSVTASLGQSVLISCAIAGDPFPTVHWLRDGKALCKDTGHFEVLQNEDVFTLVLKKVQPWHAGQYEILLKNRVGECSCQVSLMLQNSSARALPRGREPASCEDLCGGGVGADGGGSDRYGSLRPGWPARGQGWLEEEDGEDVRGVLKRRVETRQHTEEAIRQQEVEQLDFRDLLGKKVSTKTLSEDDLKEIPAEQMDFRANLQRQVKPKTVSEEERKVHSPQQVDFRSVLAKKGTSKTPVPEKVPPPKPATPDFRSVLGGKKKLPAENGSSSAETLNAKAVESSKPLSNAQPSGPLKPVGNAKPAETLKPMGNAKPAETLKPMGNAKPDENLKSASKEELKKDVKNDVNCKRGHAGTTDNEKRSESQGTAPAFKQKLQDVHVAEGKKLLLQCQVSSDPPATIIWTLNGKTLKTTKFIILSQEGSLCSVSIEKALPEDRGLYKCVAKNDAGQAECSCQVTVDDAPASENTKAPEMKSRRPKSSLPPVLGTESDATVKKKPAPKTPPKAAMPPQIIQFPEDQKVRAGESVELFGKVTGTQPITCTWMKFRKQIQESEHMKVENSENGSKLTILAARQEHCGCYTLLVENKLGSRQAQVNLTVVDKPDPPAGTPCASDIRSSSLTLSWYGSSYDGGSAVQSYSIEIWDSANKTWKELATCRSTSFNVQDLLPDHEYKFRVRAINVYGTSEPSQESELTTVGEKPEEPKDEVEVSDDDEKEPEVDYRTVTINTEQKVSDFYDIEERLGSGKFGQVFRLVEKKTRKVWAGKFFKAYSAKEKENIRQEISIMNCLHHPKLVQCVDAFEEKANIVMVLEIVSGGELFERIIDEDFELTERECIKYMRQISEGVEYIHKQGIVHLDLKPENIMCVNKTGTRIKLIDFGLARRLENAGSLKVLFGTPEFVAPEVINYEPIGYATDMWSIGVICYILVSGLSPFMGDNDNETLANVTSATWDFDDEAFDEISDDAKDFISNLLKKDMKNRLDCTQCLQHPWLMKDTKNMEAKKLSKDRMKKYMARRKWQKTGNAVRAIGRLSSMAMISGLSGRKSSTGSPTSPLNAEKLESEEDVSQAFLEAVAEEKPHVKPYFSKTIRDLEVVEGSAARFDCKIEGYPDPEVVWFKDDQSIRESRHFQIDYDEDGNCSLIISDVCGDDDAKYTCKAVNSLGEATCTAELIVETMEEGEGEGEEEEE
+P80192,MAP3K9,MEPSRALLGCLASAAAAAPPGEDGAGAGAEEEEEEEEEAAAAVGPGELGCDAPLPYWTAVFEYEAAGEDELTLRLGDVVEVLSKDSQVSGDEGWWTGQLNQRVGIFPSNYVTPRSAFSSRCQPGGEDPSCYPPIQLLEIDFAELTLEEIIGIGGFGKVYRAFWIGDEVAVKAARHDPDEDISQTIENVRQEAKLFAMLKHPNIIALRGVCLKEPNLCLVMEFARGGPLNRVLSGKRIPPDILVNWAVQIARGMNYLHDEAIVPIIHRDLKSSNILILQKVENGDLSNKILKITDFGLAREWHRTTKMSAAGTYAWMAPEVIRASMFSKGSDVWSYGVLLWELLTGEVPFRGIDGLAVAYGVAMNKLALPIPSTCPEPFAKLMEDCWNPDPHSRPSFTNILDQLTTIEESGFFEMPKDSFHCLQDNWKHEIQEMFDQLRAKEKELRTWEEELTRAALQQKNQEELLRRREQELAEREIDILERELNIIIHQLCQEKPRVKKRKGKFRKSRLKLKDGNRISLPSDFQHKFTVQASPTMDKRKSLINSRSSPPASPTIIPRLRAIQLTPGESSKTWGRSSVVPKEEGEEEEKRAPKKKGRTWGPGTLGQKELASGDEGSPQRREKANGLSTPSESPHFHLGLKSLVDGYKQWSSSAPNLVKGPRSSPALPGFTSLMEMEDEDSEGPGSGESRLQHSPSQSYLCIPFPRGEDGDGPSSDGIHEEPTPVNSATSTPQLTPTNSLKRGGAHHRRCEVALLGCGAVLAATGLGFDLLEAGKCQLLPLEEPEPPAREEKKRREGLFQRSSRPRRSTSPPSRKLFKKEEPMLLLGDPSASLTLLSLSSISECNSTRSLLRSDSDEIVVYEMPVSPVEAPPLSPCTHNPLVNVRVERFKRDPNQSLTPTHVTLTTPSQPSSHRRTPSDGALKPETLLASRSPSSNGLSPSPGAGMLKTPSPSRDPGEFPRLPDPNVVFPPTPRRWNTQQDSTLERPKTLEFLPRPRPSANRQRLDPWWFVSPSHARSTSPANSSSTETPSNLDSCFASSSSTVEERPGLPALLPFQAGPLPPTERTLLDLDAEGQSQDSTVPLCRAELNTHRPAPYEIQQEFWS
+Q02779,MAP3K10,MEEEEGAVAKEWGTTPAGPVWTAVFDYEAAGDEELTLRRGDRVQVLSQDCAVSGDEGWWTGQLPSGRVGVFPSNYVAPGAPAAPAGLQLPQEIPFHELQLEEIIGVGGFGKVYRALWRGEEVAVKAARLDPEKDPAVTAEQVCQEARLFGALQHPNIIALRGACLNPPHLCLVMEYARGGALSRVLAGRRVPPHVLVNWAVQVARGMNYLHNDAPVPIIHRDLKSINILILEAIENHNLADTVLKITDFGLAREWHKTTKMSAAGTYAWMAPEVIRLSLFSKSSDVWSFGVLLWELLTGEVPYREIDALAVAYGVAMNKLTLPIPSTCPEPFARLLEECWDPDPHGRPDFGSILKRLEVIEQSALFQMPLESFHSLQEDWKLEIQHMFDDLRTKEKELRSREEELLRAAQEQRFQEEQLRRREQELAEREMDIVERELHLLMCQLSQEKPRVRKRKGNFKRSRLLKLREGGSHISLPSGFEHKITVQASPTLDKRKGSDGASPPASPSIIPRLRAIRLTPVDCGGSSSGSSSGGSGTWSRGGPPKKEELVGGKKKGRTWGPSSTLQKERVGGEERLKGLGEGSKQWSSSAPNLGKSPKHTPIAPGFASLNEMEEFAEAEDGGSSVPPSPYSTPSYLSVPLPAEPSPGARAPWEPTPSAPPARWGHGARRRCDLALLGCATLLGAVGLGADVAEARAADGEEQRRWLDGLFFPRAGRFPRGLSPPARPHGRREDVGPGLGLAPSATLVSLSSVSDCNSTRSLLRSDSDEAAPAAPSPPPSPPAPTPTPSPSTNPLVDLELESFKKDPRQSLTPTHVTAACAVSRGHRRTPSDGALGQRGPPEPAGHGPGPRDLLDFPRLPDPQALFPARRRPPEFPGRPTTLTFAPRPRPAASRPRLDPWKLVSFGRTLTISPPSRPDTPESPGPPSVQPTLLDMDMEGQNQDSTVPLCGAHGSH
+Q13627,DYRK1A,MHTGGETSACKPSSVRLAPSFSFHAAGLQMAGQMPHSHQYSDRRQPNISDQQVSALSYSDQIQQPLTNQVMPDIVMLQRRMPQTFRDPATAPLRKLSVDLIKTYKHINEVYYAKKKRRHQQGQGDDSSHKKERKVYNDGYDDDNYDYIVKNGEKWMDRYEIDSLIGKGSFGQVVKAYDRVEQEWVAIKIIKNKKAFLNQAQIEVRLLELMNKHDTEMKYYIVHLKRHFMFRNHLCLVFEMLSYNLYDLLRNTNFRGVSLNLTRKFAQQMCTALLFLATPELSIIHCDLKPENILLCNPKRSAIKIVDFGSSCQLGQRIYQYIQSRFYRSPEVLLGMPYDLAIDMWSLGCILVEMHTGEPLFSGANEVDQMNKIVEVLGIPPAHILDQAPKARKFFEKLPDGTWNLKKTKDGKREYKPPGTRKLHNILGVETGGPGGRRAGESGHTVADYLKFKDLILRMLDYDPKTRIQPYYALQHSFFKKTADEGTNTSNSVSTSPAMEQSQSSGTTSSTSSSSGGSSGTSNSGRARSDPTHQHRHSGGHFTAAVQAMDCETHSPQVRQQFPAPLGWSGTEAPTQVTVETHPVQETTFHVAPQQNALHHHHGNSSHHHHHHHHHHHHHGQQALGNRTRPRVYNSPTNSSSTQDSMEVGHSHHSMTSLSSSTTSSSTSSSSTGNQGNQAYQNRPVAANTLDFGQNGAMDVNLTVYSNPRQETGIAGHPTYQFSANTGPAHYMTEGHLTMRQGADREESPMTGVCVQQSPVASS
+Q9BUB5,MKNK1,MVSSQKLEKPIEMGSSEPLPIADGDRRRKKKRRGRATDSLPGKFEDMYKLTSELLGEGAYAKVQGAVSLQNGKEYAVKIIEKQAGHSRSRVFREVETLYQCQGNKNILELIEFFEDDTRFYLVFEKLQGGSILAHIQKQKHFNEREASRVVRDVAAALDFLHTKDKVSLCHLGWSAMAPSGLTAAPTSLGSSDPPTSASQVAGTTGIAHRDLKPENILCESPEKVSPVKICDFDLGSGMKLNNSCTPITTPELTTPCGSAEYMAPEVVEVFTDQATFYDKRCDLWSLGVVLYIMLSGYPPFVGHCGADCGWDRGEVCRVCQNKLFESIQEGKYEFPDKDWAHISSEAKDLISKLLVRDAKQRLSAAQVLQHPWVQGQAPEKGLPTPQVLQRNSSTMDLTLFAAEAIALNRQLSQHEENELAEEPEALADGLCSMKLSPPCKSRLARRRALAQAGRGEDRSPPTAL
+Q9HBH9,MKNK2,MVQKKPAELQGFHRSFKGQNPFELAFSLDQPDHGDSDFGLQCSARPDMPASQPIDIPDAKKRGKKKKRGRATDSFSGRFEDVYQLQEDVLGEGAHARVQTCINLITSQEYAVKIIEKQPGHIRSRVFREVEMLYQCQGHRNVLELIEFFEEEDRFYLVFEKMRGGSILSHIHKRRHFNELEASVVVQDVASALDFLHNKGIAHRDLKPENILCEHPNQVSPVKICDFDLGSGIKLNGDCSPISTPELLTPCGSAEYMAPEVVEAFSEEASIYDKRCDLWSLGVILYILLSGYPPFVGRCGSDCGWDRGEACPACQNMLFESIQEGKYEFPDKDWAHISCAAKDLISKLLVRDAKQRLSAAQVLQHPWVQGCAPENTLPTPMVLQRNSCAKDLTSFAAEAIAMNRQLAQHDEDLAEEEAAGQGQPVLVRATSRCLQLSPPSQSKLAQRRQRASLSSAPVVLVGDHA
+P00540,MOS,MPSPLALRPYLRSEFSPSVDARPCSSPSELPAKLLLGATLPRAPRLPRRLAWCSIDWEQVCLLQRLGAGGFGSVYKATYRGVPVAIKQVNKCTKNRLASRRSFWAELNVARLRHDNIVRVVAASTRTPAGSNSLGTIIMEFGGNVTLHQVIYGAAGHPEGDAGEPHCRTGGQLSLGKCLKYSLDVVNGLLFLHSQSIVHLDLKPANILISEQDVCKISDFGCSEKLEDLLCFQTPSYPLGGTYTHRAPELLKGEGVTPKADIYSFAITLWQMTTKQAPYSGERQHILYAVVAYDLRPSLSAAVFEDSLPGQRLGDVIQRCWRPSAAQRPSARLLLVDLTSLKAELG
+P46734,MAP2K3,MESPASSQPASMPQSKGKSKRKKDLRISCMSKPPAPNPTPPRNLDSRTFITIGDRNFEVEADDLVTISELGRGAYGVVEKVRHAQSGTIMAVKRIRATVNSQEQKRLLMDLDINMRTVDCFYTVTFYGALFREGDVWICMELMDTSLDKFYRKVLDKNMTIPEDILGEIAVSIVRALEHLHSKLSVIHRDVKPSNVLINKEGHVKMCDFGISGYLVDSVAKTMDAGCKPYMAPERINPELNQKGYNVKSDVWSLGITMIEMAILRFPYESWGTPFQQLKQVVEEPSPQLPADRFSPEFVDFTAQCLRKNPAERMSYLELMEHPFFTLHKTKKTDIAAFVKEILGEDS
+P45985,MAP2K4,MAAPSPSGGGGSGGGSGSGTPGPVGSPAPGHPAVSSMQGKRKALKLNFANPPFKSTARFTLNPNPTGVQNPHIERLRTHSIESSGKLKISPEQHWDFTAEDLKDLGEIGRGAYGSVNKMVHKPSGQIMAVKRIRSTVDEKEQKQLLMDLDVVMRSSDCPYIVQFYGALFREGDCWICMELMSTSFDKFYKYVYSVLDDVIPEEILGKITLATVKALNHLKENLKIIHRDIKPSNILLDRSGNIKLCDFGISGQLVDSIAKTRDAGCRPYMAPERIDPSASRQGYDVRSDVWSLGITLYELATGRFPYPKWNSVFDQLTQVVKGDPPQLSNSEEREFSPSFINFVNLCLTKDESKRPKYKELLKHPFILMYEERAVEVACYVCKILDQMPATPSSPMYVD
+Q9Y5S2,CDC42BPB,MSAKVRLKKLEQLLLDGPWRNESALSVETLLDVLVCLYTECSHSALRRDKYVAEFLEWAKPFTQLVKEMQLHREDFEIIKVIGRGAFGEVAVVKMKNTERIYAMKILNKWEMLKRAETACFREERDVLVNGDCQWITALHYAFQDENHLYLVMDYYVGGDLLTLLSKFEDKLPEDMARFYIGEMVLAIDSIHQLHYVHRDIKPDNVLLDVNGHIRLADFGSCLKMNDDGTVQSSVAVGTPDYISPEILQAMEDGMGKYGPECDWWSLGVCMYEMLYGETPFYAESLVETYGKIMNHEERFQFPSHVTDVSEEAKDLIQRLICSRERRLGQNGIEDFKKHAFFEGLNWENIRNLEAPYIPDVSSPSDTSNFDVDDDVLRNTEILPPGSHTGFSGLHLPFIGFTFTTESCFSDRGSLKSIMQSNTLTKDEDVQRDLEHSLQMEAYERRIRRLEQEKLELSRKLQESTQTVQSLHGSSRALSNSNRDKEIKKLNEEIERLKNKIADSNRLERQLEDTVALRQEREDSTQRLRGLEKQHRVVRQEKEELHKQLVEASERLKSQAKELKDAHQQRKLALQEFSELNERMAELRAQKQKVSRQLRDKEEEMEVATQKVDAMRQEMRRAEKLRKELEAQLDDAVAEASKERKLREHSENFCKQMESELEALKVKQGGRGAGATLEHQQEISKIKSELEKKVLFYEEELVRREASHVLEVKNVKKEVHDSESHQLALQKEILMLKDKLEKSKRERHNEMEEAVGTIKDKYERERAMLFDENKKLTAENEKLCSFVDKLTAQNRQLEDELQDLAAKKESVAHWEAQIAEIIQWVSDEKDARGYLQALASKMTEELEALRSSSLGSRTLDPLWKVRRSQKLDMSARLELQSALEAEIRAKQLVQEELRKVKDANLTLESKLKDSEAKNRELLEEMEILKKKMEEKFRADTGLKLPDFQDSIFEYFNTAPLAHDLTFRTSSASEQETQAPKPEASPSMSVAASEQQEDMARPPQRPSAVPLPTTQALALAGPKPKAHQFSIKSFSSPTQCSHCTSLMVGLIRQGYACEVCSFACHVSCKDGAPQVCPIPPEQSKRPLGVDVQRGIGTAYKGHVKVPKPTGVKKGWQRAYAVVCDCKLFLYDLPEGKSTQPGVIASQVLDLRDDEFSVSSVLASDVIHATRRDIPCIFRVTASLLGAPSKTSSLLILTENENEKRKWVGILEGLQSILHKNRLRNQVVHVPLEAYDSSLPLIKAILTAAIVDADRIAVGLEEGLYVIEVTRDVIVRAADCKKVHQIELAPREKIVILLCGRNHHVHLYPWSSLDGAEGSFDIKLPETKGCQLMATATLKRNSGTCLFVAVKRLILCYEIQRTKPFHRKFNEIVAPGSVQCLAVLRDRLCVGYPSGFCLLSIQGDGQPLNLVNPNDPSLAFLSQQSFDALCAVELESEEYLLCFSHMGLYVDPQGRRARAQELMWPAAPVACSCSPTHVTVYSEYGVDVFDVRTMEWVQTIGLRRIRPLNSEGTLNLLNCEPPRLIYFKSKFSGAVLNVPDTSDNSKKQMLRTRSKRRFVFKVPEEERLQQRREMLRDPELRSKMISNPTNFNHVAHMGPGDGMQVLMDLPLSAVPPSQEERPGPAPTNLARQPPSRNKPYISWPSSGGSEPSVTVPLRSMSDPDQDFDKEPDSDSTKHSTPSNSSNPSGPPSPNSPHRSQLPLEGLEQPACDT
+O75582,RPS6KA5,MEEEGGSSGGAAGTSADGGDGGEQLLTVKHELRTANLTGHAEKVGIENFELLKVLGTGAYGKVFLVRKISGHDTGKLYAMKVLKKATIVQKAKTTEHTRTERQVLEHIRQSPFLVTLHYAFQTETKLHLILDYINGGELFTHLSQRERFTEHEVQIYVGEIVLALEHLHKLGIIYRDIKLENILLDSNGHVVLTDFGLSKEFVADETERAYSFCGTIEYMAPDIVRGGDSGHDKAVDWWSLGVLMYELLTGASPFTVDGEKNSQAEISRRILKSEPPYPQEMSALAKDLIQRLLMKDPKKRLGCGPRDADEIKEHLFFQKINWDDLAAKKVPAPFKPVIRDELDVSNFAEEFTEMDPTYSPAALPQSSEKLFQGYSFVAPSILFKRNAAVIDPLQFHMGVERPGVTNVARSAMMKDSPFYQHYDLDLKDKPLGEGSFSICRKCVHKKSNQAFAVKIISKRMEANTQKEITALKLCEGHPNIVKLHEVFHDQLHTFLVMELLNGGELFERIKKKKHFSETEASYIMRKLVSAVSHMHDVGVVHRDLKPENLLFTDENDNLEIKIIDFGFARLKPPDNQPLKTPCFTLHYAAPELLNQNGYDESCDLWSLGVILYTMLSGQVPFQSHDRSLTCTSAVEIMKKIKKGDFSFEGEAWKNVSQEAKDLIQGLLTVDPNKRLKMSGLRYNEWLQDGSQLSSNPLMTPDILGSSGAAVHTCVKATFHAFNKYKREGFCLQNVDKAPLAKRRKMKKTSTSTETRSSSSESSHSSSSHSHGKTTPTKTLQPSNPADSNNPETLFQFSDSVA
+O75676,RPS6KA4,MGDEDDDESCAVELRITEANLTGHEEKVSVENFELLKVLGTGAYGKVFLVRKAGGHDAGKLYAMKVLRKAALVQRAKTQEHTRTERSVLELVRQAPFLVTLHYAFQTDAKLHLILDYVSGGEMFTHLYQRQYFKEAEVRVYGGEIVLALEHLHKLGIIYRDLKLENVLLDSEGHIVLTDFGLSKEFLTEEKERTFSFCGTIEYMAPEIIRSKTGHGKAVDWWSLGILLFELLTGASPFTLEGERNTQAEVSRRILKCSPPFPPRIGPVAQDLLQRLLCKDPKKRLGAGPQGAQEVRNHPFFQGLDWVALAARKIPAPFRPQIRSELDVGNFAEEFTRLEPVYSPPGSPPPGDPRIFQGYSFVAPSILFDHNNAVMTDGLEAPGAGDRPGRAAVARSAMMQDSPFFQQYELDLREPALGQGSFSVCRRCRQRQSGQEFAVKILSRRLEANTQREVAALRLCQSHPNVVNLHEVHHDQLHTYLVLELLRGGELLEHIRKKRHFSESEASQILRSLVSAVSFMHEEAGVVHRDLKPENILYADDTPGAPVKIIDFGFARLRPQSPGVPMQTPCFTLQYAAPELLAQQGYDESCDLWSLGVILYMMLSGQVPFQGASGQGGQSQAAEIMCKIREGRFSLDGEAWQGVSEEAKELVRGLLTVDPAKRLKLEGLRGSSWLQDGSARSSPPLRTPDVLESSGPAVRSGLNATFMAFNRGKREGFFLKSVENAPLAKRRKQKLRSATASRRGSPAPANPGRAPVASKGAPRRANGPLPPS
+Q13043,STK4,METVQLRNPPRRQLKKLDEDSLTKQPEEVFDVLEKLGEGSYGSVYKAIHKETGQIVAIKQVPVESDLQEIIKEISIMQQCDSPHVVKYYGSYFKNTDLWIVMEYCGAGSVSDIIRLRNKTLTEDEIATILQSTLKGLEYLHFMRKIHRDIKAGNILLNTEGHAKLADFGVAGQLTDTMAKRNTVIGTPFWMAPEVIQEIGYNCVADIWSLGITAIEMAEGKPPYADIHPMRAIFMIPTNPPPTFRKPELWSDNFTDFVKQCLVKSPEQRATATQLLQHPFVRSAKGVSILRDLINEAMDVKLKRQESQQREVDQDDEENSEEDEMDSGTMVRAVGDEMGTVRVASTMTDGANTMIEHDDTLPSQLGTMVINAEDEEEEGTMKRRDETMQPAKPSFLEYFEQKEKENQINSFGKSVPGPLKNSSDWKIPQDGDYEFLKSWTVEDLQKRLLALDPMMEQEIEEIRQKYQSKRQPILDAIEAKKRRQQNF
+Q13188,STK3,MEQPPAPKSKLKKLSEDSLTKQPEEVFDVLEKLGEGSYGSVFKAIHKESGQVVAIKQVPVESDLQEIIKEISIMQQCDSPYVVKYYGSYFKNTDLWIVMEYCGAGSVSDIIRLRNKTLIEDEIATILKSTLKGLEYLHFMRKIHRDIKAGNILLNTEGHAKLADFGVAGQLTDTMAKRNTVIGTPFWMAPEVIQEIGYNCVADIWSLGITSIEMAEGKPPYADIHPMRAIFMIPTNPPPTFRKPELWSDDFTDFVKKCLVKNPEQRATATQLLQHPFIKNAKPVSILRDLITEAMEIKAKRHEEQQRELEEEEENSDEDELDSHTMVKTSVESVGTMRATSTMSEGAQTMIEHNSTMLESDLGTMVINSEDEEEEDGTMKRNATSPQVQRPSFMDYFDKQDFKNKSHENCNQNMHEPFPMSKNVFPDNWKVPQDGDFDFLKNLSLEELQMRLKALDPMMEREIEELRQRYTAKRQPILDAMDAKKRRQQNF
+Q9Y6E0,STK24,MDSRAQLWGLALNKRRATLPHPGGSTNLKADPEELFTKLEKIGKGSFGEVFKGIDNRTQKVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSPYVTKYYGSYLKDTKLWIIMEYLGGGSALDLLEPGPLDETQIATILREILKGLDYLHSEKKIHRDIKAANVLLSEHGEVKLADFGVAGQLTDTQIKRNTFVGTPFWMAPEVIKQSAYDSKADIWSLGITAIELARGEPPHSELHPMKVLFLIPKNNPPTLEGNYSKPLKEFVEACLNKEPSFRPTAKELLKHKFILRNAKKTSYLTELIDRYKRWKAEQSHDDSSSEDSDAETDGQASGGSDSGDWIFTIREKDPKNLENGALQPSDLDRNKMKDIPKRPFSQCLSTIISPLFAELKEKSQACGGNLGSIEELRGAIYLAEEACPGISDTMVAQLVQRLQRYSLSGGGTSSH
+O15146,MUSK,MRELVNIPLVHILTLVAFSGTEKLPKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSPLRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKVVKLEVEVFARILRAPESHNVTFGSFVTLHCTATGIPVPTITWIENGNAVSSGSIQESVKDRVIDSRLQLFITKPGLYTCIATNKHGEKFSTAKAAATISIAEWSKPQKDNKGYCAQYRGEVCNAVLAKDALVFLNTSYADPEEAQELLVHTAWNELKVVSPVCRPAAEALLCNHIFQECSPGVVPTPIPICREYCLAVKELFCAKEWLVMEEKTHRGLYRSEMHLLSVPECSKLPSMHWDPTACARLPHLDYNKENLKTFPPMTSSKPSVDIPNLPSSSSSSFSVSPTYSMTVIISIMSSFAIFVLLTITTLYCCRRRKQWKNKKRESAAVTLTTLPSELLLDRLHPNPMYQRMPLLLNPKLLSLEYPRNNIEYVRDIGEGAFGRVFQARAPGLLPYEPFTMVAVKMLKEEASADMQADFQREAALMAEFDNPNIVKLLGVCAVGKPMCLLFEYMAYGDLNEFLRSMSPHTVCSLSHSDLSMRAQVSSPGPPPLSCAEQLCIARQVAAGMAYLSERKFVHRDLATRNCLVGENMVVKIADFGLSRNIYSADYYKANENDAIPIRWMPPESIFYNRYTTESDVWAYGVVLWEIFSYGLQPYYGMAHEEVIYYVRDGNILSCPENCPVELYNLMRLCWSKLPADRPSFTSIHRILERMCERAEGTVSV
+Q99640,PKMYT1,MLERPPALAMPMPTEGTPPPLSGTPIPVPAYFRHAEPGFSLKRPRGLSRSLPPPPPAKGSIPISRLFPPRTPGWHQLQPRRVSFRGEASETLQSPGYDPSRPESFFQQSFQRLSRLGHGSYGEVFKVRSKEDGRLYAVKRSMSPFRGPKDRARKLAEVGSHEKVGQHPCCVRLEQAWEEGGILYLQTELCGPSLQQHCEAWGASLPEAQVWGYLRDTLLALAHLHSQGLVHLDVKPANIFLGPRGRCKLGDFGLLVELGTAGAGEVQEGDPRYMAPELLQGSYGTAADVFSLGLTILEVACNMELPHGGEGWQQLRQGYLPPEFTAGLSSELRSVLVMMLEPDPKLRATAEALLALPVLRQPRAWGVLWCMAAEALSRGWALWQALLALLCWLWHGLAHPASWLQPLGPPATPPGSPPCSLLLDSSLSSNWDDDSLGPSLSPEAVLARTVGSTSTPRSRCTPRDALDLSDINSEPPRGSFPSFEPRNLLSLFEDTLDPT
+Q15208,STK38,MAMTGSTPCSSMSNHTKERVTMTKVTLENFYSNLIAQHEEREMRQKKLEKVMEEEGLKDEEKRLRRSAHARKETEFLRLKRTRLGLEDFESLKVIGRGAFGEVRLVQKKDTGHVYAMKILRKADMLEKEQVGHIRAERDILVEADSLWVVKMFYSFQDKLNLYLIMEFLPGGDMMTLLMKKDTLTEEETQFYIAETVLAIDSIHQLGFIHRDIKPDNLLLDSKGHVKLSDFGLCTGLKKAHRTEFYRNLNHSLPSDFTFQNMNSKRKAETWKRNRRQLAFSTVGTPDYIAPEVFMQTGYNKLCDWWSLGVIMYEMLIGYPPFCSETPQETYKKVMNWKETLTFPPEVPISEKAKDLILRFCCEWEHRIGAPGVEEIKSNSFFEGVDWEHIRERPAAISIEIKSIDDTSNFDEFPESDILKPTVATSNHPETDYKNKDWVFINYTYKRFEGLTARGAIPSYMKAAK
+Q96PY6,NEK1,MEKYVRLQKIGEGSFGKAILVKSTEDGRQYVIKEINISRMSSKEREESRREVAVLANMKHPNIVQYRESFEENGSLYIVMDYCEGGDLFKRINAQKGVLFQEDQILDWFVQICLALKHVHDRKILHRDIKSQNIFLTKDGTVQLGDFGIARVLNSTVELARTCIGTPYYLSPEICENKPYNNKSDIWALGCVLYELCTLKHAFEAGSMKNLVLKIISGSFPPVSLHYSYDLRSLVSQLFKRNPRDRPSVNSILEKGFIAKRIEKFLSPQLIAEEFCLKTFSKFGSQPIPAKRPASGQNSISVMPAQKITKPAAKYGIPLAYKKYGDKKLHEKKPLQKHKQAHQTPEKRVNTGEERRKISEEAARKRRLEFIEKEKKQKDQIISLMKAEQMKRQEKERLERINRAREQGWRNVLSAGGSGEVKAPFLGSGGTIAPSSFSSRGQYEHYHAIFDQMQQQRAEDNEAKWKREIYGRGLPERGILPGVRPGFPYGAAGHHHFPDADDIRKTLKRLKAVSKQANANRQKGQLAVERAKQVEEFLQRKREAMQNKARAEGHMVYLARLRQIRLQNFNERQQIKAKLRGEKKEANHSEGQEGSEEADMRRKKIESLKAHANARAAVLKEQLERKRKEAYEREKKVWEEHLVAKGVKSSDVSPPLGQHETGGSPSKQQMRSVISVTSALKEVGVDSSLTDTRETSEEMQKTNNAISSKREILRRLNENLKAQEDEKGKQNLSDTFEINVHEDAKEHEKEKSVSSDRKKWEAGGQLVIPLDELTLDTSFSTTERHTVGEVIKLGPNGSPRRAWGKSPTDSVLKILGEAELQLQTELLENTTIRSEISPEGEKYKPLITGEKKVQCISHEINPSAIVDSPVETKSPEFSEASPQMSLKLEGNLEEPDDLETEILQEPSGTNKDESLPCTITDVWISEEKETKETQSADRITIQENEVSEDGVSSTVDQLSDIHIEPGTNDSQHSKCDVDKSVQPEPFFHKVVHSEHLNLVPQVQSVQCSPEESFAFRSHSHLPPKNKNKNSLLIGLSTGLFDANNPKMLRTCSLPDLSKLFRTLMDVPTVGDVRQDNLEIDEIEDENIKEGPSDSEDIVFEETDTDLQELQASMEQLLREQPGEEYSEEEESVLKNSDVEPTANGTDVADEDDNPSSESALNEEWHSDNSDGEIASECECDSVFNHLEELRLHLEQEMGFEKFFEVYEKIKAIHEDEDENIEICSKIVQNILGNEHQHLYAKILHLVMADGAYQEDNDE
+P51955,NEK2,MPSRAEDYEVLYTIGTGSYGRCQKIRRKSDGKILVWKELDYGSMTEAEKQMLVSEVNLLRELKHPNIVRYYDRIIDRTNTTLYIVMEYCEGGDLASVITKGTKERQYLDEEFVLRVMTQLTLALKECHRRSDGGHTVLHRDLKPANVFLDGKQNVKLGDFGLARILNHDTSFAKTFVGTPYYMSPEQMNRMSYNEKSDIWSLGCLLYELCALMPPFTAFSQKELAGKIREGKFRRIPYRYSDELNEIITRMLNLKDYHRPSVEEILENPLIADLVADEQRRNLERRGRQLGEPEKSQDSSPVLSELKLKEIQLQERERALKAREERLEQKEQELCVRERLAEDKLARAENLLKNYSLLKERKFLSLASNPELLNLPSSVIKKKVHFSGESKENIMRSENSESQLTSKSKCKDLKKRLHAAQLRAQALSDIEKNYQLKSRQILGMR
+P51956,NEK3,MDDYMVLRMIGEGSFGRALLVQHESSNQMFAMKEIRLPKSFSNTQNSRKEAVLLAKMKHPNIVAFKESFEAEGHLYIVMEYCDGGDLMQKIKQQKGKLFPEDMILNWFTQMCLGVNHIHKKRVLHRDIKSKNIFLTQNGKVKLGDFGSARLLSNPMAFACTYVGTPYYVPPEIWENLPYNNKSDIWSLGCILYELCTLKHPFQANSWKNLILKVCQGCISPLPSHYSYELQFLVKQMFKRNPSHRPSATTLLSRGIVARLVQKCLPPEIIMEYGEEVLEEIKNSKHNTPRKKTNPSRIRIALGNEASTVQEEEQDRKGSHTDLESINENLVESALRRVNREEKGNKSVHLRKASSPNLHRRQWEKNVPNTALTALENASILTSSLTAEDDRGGSVIKYSKNTTRKQWLKETPDTLLNILKNADLSLAFQTYTIYRPGSEGFLKGPLSEETEASDSVDGGHDSVILDPERLEPGLDEEDTDFEEEDDNPDWVSELKKRAGWQGLCDR
+Q99558,MAP3K14,MAVMEMACPGAPGSAVGQQKELPKAKEKTPPLGKKQSSVYKLEAVEKSPVFCGKWEILNDVITKGTAKEGSEAGPAAISIIAQAECENSQEFSPTFSERIFIAGSKQYSQSESLDQIPNNVAHATEGKMARVCWKGKRRSKARKKRKKKSSKSLAHAGVALAKPLPRTPEQESCTIPVQEDESPLGAPYVRNTPQFTKPLKEPGLGQLCFKQLGEGLRPALPRSELHKLISPLQCLNHVWKLHHPQDGGPLPLPTHPFPYSRLPHPFPFHPLQPWKPHPLESFLGKLACVDSQKPLPDPHLSKLACVDSPKPLPGPHLEPSCLSRGAHEKFSVEEYLVHALQGSVSSGQAHSLTSLAKTWAARGSRSREPSPKTEDNEGVLLTEKLKPVDYEYREEVHWATHQLRLGRGSFGEVHRMEDKQTGFQCAVKKVRLEVFRAEELMACAGLTSPRIVPLYGAVREGPWVNIFMELLEGGSLGQLVKEQGCLPEDRALYYLGQALEGLEYLHSRRILHGDVKADNVLLSSDGSHAALCDFGHAVCLQPDGLGKSLLTGDYIPGTETHMAPEVVLGRSCDAKVDVWSSCCMMLHMLNGCHPWTQFFRGPLCLKIASEPPPVREIPPSCAPLTAQAIQEGLRKEPIHRVSAAELGGKVNRALQQVGGLKSPWRGEYKEPRHPPPNQANYHQTLHAQPRELSPRAPGPRPAEETTGRAPKLQPPLPPEPPEPNKSPPLTLSKEESGMWEPLPLSSLEPAPARNPSSPERKATVPEQELQQLEIELFLNSLSQPFSLEEQEQILSCLSIDSLSLSDDSEKNPSKASQSSRDTLSSGVHSWSSQAEARSSSWNMVLARGRPTDTPSYFNGVKVQIQSLNGEHLHIREFHRVKVGDIATGISSQIPAAAFSLVTKDGQPVRYDMEVPDSGIDLQCTLAPDGSFAWSWRVKHGQLENRP
+Q9UBE8,NLK,MSLCGARANAKMMAAYNGGTSAAAAGHHHHHHHHLPHLPPPHLHHHHHPQHHLHPGSAAAVHPVQQHTSSAAAAAAAAAAAAAMLNPGQQQPYFPSPAPGQAPGPAAAAPAQVQAAAAATVKAHHHQHSHHPQQQLDIEPDRPIGYGAFGVVWSVTDPRDGKRVALKKMPNVFQNLVSCKRVFRELKMLCFFKHDNVLSALDILQPPHIDYFEEIYVVTELMQSDLHKIIVSPQPLSSDHVKVFLYQILRGLKYLHSAGILHRDIKPGNLLVNSNCVLKICDFGLARVEELDESRHMTQEVVTQYYRAPEILMGSRHYSNAIDIWSVGCIFAELLGRRILFQAQSPIQQLDLITDLLGTPSLEAMRTACEGAKAHILRGPHKQPSLPVLYTLSSQATHEAVHLLCRMLVFDPSKRISAKDALAHPYLDEGRLRYHTCMCKCCFSTSTGRVYTSDFEPVTNPKFDDTFEKNLSSVRQVKEIIHQFILEQQKGNRVPLCINPQSAAFKSFISSTVAQPSEMPPSPLVWE
+P51957,NEK4,MPLAAYCYLRVVGKGSYGEVTLVKHRRDGKQYVIKKLNLRNASSRERRAAEQEAQLLSQLKHPNIVTYKESWEGGDGLLYIVMGFCEGGDLYRKLKEQKGQLLPENQVVEWFVQIAMALQYLHEKHILHRDLKTQNVFLTRTNIIKVGDLGIARVLENHCDMASTLIGTPYYMSPELFSNKPYNYKSDVWALGCCVYEMATLKHAFNAKDMNSLVYRIIEGKLPPMPRDYSPELAELIRTMLSKRPEERPSVRSILRQPYIKRQISFFLEATKIKTSKNNIKNGDSQSKPFATVVSGEAESNHEVIHPQPLSSEGSQTYIMGEGKCLSQEKPRASGLLKSPASLKAHTCKQDLSNTTELATISSVNIDILPAKGRDSVSDGFVQENQPRYLDASNELGGICSISQVEEEMLQDNTKSSAQPENLIPMWSSDIVTGEKNEPVKPLQPLIKEQKPKDQSLALSPKLECSGTILAHSNLRLLGSSDSPASASRVAGITGVCHHAQDQVAGECIIEKQGRIHPDLQPHNSGSEPSLSRQRRQKRREQTEHRGEKRQVRRDLFAFQESPPRFLPSHPIVGKVDVTSTQKEAENQRRVVTGSVSSSRSSEMSSSKDRPLSARERRRLKQSQEEMSSSGPSVRKASLSVAGPGKPQEEDQPLPARRLSSDCSVTQERKQIHCLSEDELSSSTSSTDKSDGDYGEGKGQTNEINALVQLMTQTLKLDSKESCEDVPVANPVSEFKLHRKYRDTLILHGKVAEEAEEIHFKELPSAIMPGSEKIRRLVEVLRTDVIRGLGVQLLEQVYDLLEEEDEFDREVRLREHMGEKYTTYSVKARQLKFFEENMNF
+Q9NWZ3,IRAK4,MNKPITPSTYVRCLNVGLIRKLSDFIDPQEGWKKLAVAIKKPSGDDRYNQFHIRRFEALLQTGKSPTSELLFDWGTTNCTVGDLVDLLIQNEFFAPASLLLPDAVPKTANTLPSKEAITVQQKQMPFCDKDRTLMTPVQNLEQSYMPPDSSSPENKSLEVSDTRFHSFSFYELKNVTNNFDERPISVGGNKMGEGGFGVVYKGYVNNTTVAVKKLAAMVDITTEELKQQFDQEIKVMAKCQHENLVELLGFSSDGDDLCLVYVYMPNGSLLDRLSCLDGTPPLSWHMRCKIAQGAANGINFLHENHHIHRDIKSANILLDEAFTAKISDFGLARASEKFAQTVMTSRIVGTTAYMAPEALRGEITPKSDIYSFGVVLLEIITGLPAVDEHREPQLLLDIKEEIEDEEKTIEDYIDKKMNDADSTSVEAMYSVASQCLHEKKNKRPDIKKVQQLLQEMTAS
+Q99570,PIK3R4,MGNQLAGIAPSQILSVESYFSDIHDFEYDKSLGSTRFFKVARAKHREGLVVVKVFAIQDPTLPLTSYKQELEELKIRLNSAQNCLPFQKASEKASEKAAMLFRQYVRDNLYDRISTRPFLNNIEKRWIAFQILTAVDQAHKSGVRHGDIKTENVMVTSWNWVLLTDFASFKPTYLPEDNPADFNYFFDTSRRRTCYIAPERFVDGGMFATELEYMRDPSTPLVDLNSNQRTRGELKRAMDIFSAGCVIAELFTEGVPLFDLSQLLAYRNGHFFPEQVLNKIEDHSIRELVTQMIHREPDKRLEAEDYLKQQRGNAFPEIFYTFLQPYMAQFAKETFLSADERILVIRKDLGNIIHNLCGHDLPEKAEGEPKENGLVILVSVITSCLQTLKYCDSKLAALELILHLAPRLSVEILLDRITPYLLHFSNDSVPRVRAEALRTLTKVLALVKEVPRNDINIYPEYILPGIAHLAQDDATIVRLAYAENIALLAETALRFLELVQLKNLNMENDPNNEEIDEVTHPNGNYDTELQALHEMVQQKVVTLLSDPENIVKQTLMENGITRLCVFFGRQKANDVLLSHMITFLNDKNDWHLRGAFFDSIVGVAAYVGWQSSSILKPLLQQGLSDAEEFVIVKALYALTCMCQLGLLQKPHVYEFASDIAPFLCHPNLWIRYGAVGFITVVARQISTADVYCKLMPYLDPYITQPIIQIERKLVLLSVLKEPVSRSIFDYALRSKDITSLFRHLHMRQKKRNGSLPDCPPPEDPAIAQLLKKLLSQGMTEEEEDKLLALKDFMMKSNKAKANIVDQSHLHDSSQKGVIDLAALGITGRQVDLVKTKQEPDDKRARKHVKQDSNVNEEWKSMFGSLDPPNMPQALPKGSDQEVIQTGKPPRSESSAGICVPLSTSSQVPEVTTVQNKKPVIPVLSSTILPSTYQIRITTCKTELQQLIQQKREQCNAERIAKQMMENAEWESKPPPPGWRPKGLLVAHLHEHKSAVNRIRVSDEHSLFATCSNDGTVKIWNSQKMEGKTTTTRSILTYSRIGGRVKTLTFCQGSHYLAIASDNGAVQLLGIEASKLPKSPKIHPLQSRILDQKEDGCVVDMHHFNSGAQSVLAYATVNGSLVGWDLRSSSNAWTLKHDLKSGLITSFAVDIHQCWLCIGTSSGTMACWDMRFQLPISSHCHPSRARIRRLSMHPLYQSWVIAAVQGNNEVSMWDMETGDRRFTLWASSAPPLSELQPSPHSVHGIYCSPADGNPILLTAGSDMKIRFWDLAYPERSYVVAGSTSSPSVSYYRKIIEGTEVVQEIQNKQKVGPSDDTPRRGPESLPVGHHDIITDVATFQTTQGFIVTASRDGIVKVWK
+O75116,ROCK2,MSRPPPTGKMPGAPETAPGDGAGASRQRKLEALIRDPRSPINVESLLDGLNSLVLDLDFPALRKNKNIDNFLNRYEKIVKKIRGLQMKAEDYDVVKVIGRGAFGEVQLVRHKASQKVYAMKLLSKFEMIKRSDSAFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWAKFYTAEVVLALDAIHSMGLIHRDVKPDNMLLDKHGHLKLADFGTCMKMDETGMVHCDTAVGTPDYISPEVLKSQGGDGFYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMDHKNSLCFPEDAEISKHAKNLICAFLTDREVRLGRNGVEEIRQHPFFKNDQWHWDNIRETAAPVVPELSSDIDSSNFDDIEDDKGDVETFPIPKAFVGNQLPFIGFTYYRENLLLSDSPSCRETDSIQSRKNEESQEIQKKLYTLEEHLSNEMQAKEELEQKCKSVNTRLEKTAKELEEEITLRKSVESALRQLEREKALLQHKNAEYQRKADHEADKKRNLENDVNSLKDQLEDLKKRNQNSQISTEKVNQLQRQLDETNALLRTESDTAARLRKTQAESSKQIQQLESNNRDLQDKNCLLETAKLKLEKEFINLQSALESERRDRTHGSEIINDLQGRICGLEEDLKNGKILLAKVELEKRQLQERFTDLEKEKSNMEIDMTYQLKVIQQSLEQEEAEHKATKARLADKNKIYESIEEAKSEAMKEMEKKLLEERTLKQKVENLLLEAEKRCSLLDCDLKQSQQKINELLKQKDVLNEDVRNLTLKIEQETQKRCLTQNDLKMQTQQVNTLKMSEKQLKQENNHLMEMKMNLEKQNAELRKERQDADGQMKELQDQLEAEQYFSTLYKTQVRELKEECEEKTKLGKELQQKKQELQDERDSLAAQLEITLTKADSEQLARSIAEEQYSDLEKEKIMKELEIKEMMARHKQELTEKDATIASLEETNRTLTSDVANLANEKEELNNKLKDVQEQLSRLKDEEISAAAIKAQFEKQLLTERTLKTQAVNKLAEIMNRKEPVKRGNDTDVRRKEKENRKLHMELKSEREKLTQQMIKYQKELNEMQAQIAEESQIRIELQMTLDSKDSDIEQLRSQLQALHIGLDSSSIGSGPGDAEADDGFPESRLEGWLSLPVRNNTKKFGWVKKYVIVSSKKILFYDSEQDKEQSNPYMVLDIDKLFHVRPVTQTDVYRADAKEIPRIFQILYANEGESKKEQEFPVEPVGEKSNYICHKGHEFIPTLYHFPTNCEACMKPLWHMFKPPPALECRRCHIKCHKDHMDKKEEIIAPCKVYYDISTAKNLLLLANSTEEQQKWVSRLVKKIPKKPPAPDPFARSSPRTSMKIQQNQSIRRPSRQLAPNKPS
+Q16539,MAPK14,MSQERPTFYRQELNKTIWEVPERYQNLSPVGSGAYGSVCAAFDTKTGLRVAVKKLSRPFQSIIHAKRTYRELRLLKHMKHENVIGLLDVFTPARSLEEFNDVYLVTHLMGADLNNIVKCQKLTDDHVQFLIYQILRGLKYIHSADIIHRDLKPSNLAVNEDCELKILDFGLARHTDDEMTGYVATRWYRAPEIMLNWMHYNQTVDIWSVGCIMAELLTGRTLFPGTDHIDQLKLILRLVGTPGAELLKKISSESARNYIQSLTQMPKMNFANVFIGANPLAVDLLEKMLVLDSDKRITAAQALAHAYFAQYHDPDDEPVADPYDQSFESRDLLIDEWKSLTYDEVISFVPPPLDQEEMES
+P23443,RPS6KB1,MRRRRRRDGFYPAPDFRDREAEDMAGVFDIDLDQPEDAGSEDELEEGGQLNESMDHGGVGPYELGMEHCEKFEISETSVNRGPEKIRPECFELLRVLGKGGYGKVFQVRKVTGANTGKIFAMKVLKKAMIVRNAKDTAHTKAERNILEEVKHPFIVDLIYAFQTGGKLYLILEYLSGGELFMQLEREGIFMEDTACFYLAEISMALGHLHQKGIIYRDLKPENIMLNHQGHVKLTDFGLCKESIHDGTVTHTFCGTIEYMAPEILMRSGHNRAVDWWSLGALMYDMLTGAPPFTGENRKKTIDKILKCKLNLPPYLTQEARDLLKKLLKRNAASRLGAGPGDAGEVQAHPFFRHINWEELLARKVEPPFKPLLQSEEDVSQFDSKFTRQTPVDSPDDSTLSESANQVFLGFTYVAPSVLESVKEKFSFEPKIRSPRRFIGSPRTPVSPVKFSPGDFWGRGASASTANPQTPVEYPMETSGIEQMDVTMSGEASAPLPIRQPNSGPYKKQAFPMISKRPEHLRMNL
+Q9UBS0,RPS6KB2,MAAVFDLDLETEEGSEGEGEPELSPADACPLAELRAAGLEPVGHYEEVELTETSVNVGPERIGPHCFELLRVLGKGGYGKVFQVRKVQGTNLGKIYAMKVLRKAKIVRNAKDTAHTRAERNILESVKHPFIVELAYAFQTGGKLYLILECLSGGELFTHLEREGIFLEDTACFYLAEITLALGHLHSQGIIYRDLKPENIMLSSQGHIKLTDFGLCKESIHEGAVTHTFCGTIEYMAPEILVRSGHNRAVDWWSLGALMYDMLTGSPPFTAENRKKTMDKIIRGKLALPPYLTPDARDLVKKFLKRNPSQRIGGGPGDAADVQRHPFFRHMNWDDLLAWRVDPPFRPCLQSEEDVSQFDTRFTRQTPVDSPDDTALSESANQAFLGFTYVAPSVLDSIKEGFSFQPKLRSPRRLNSSPRAPVSPLKFSPFEGFRPSPSLPEPTELPLPPLLPPPPPSTTAPLPIRPPSGTKKSKRGRGRPGR
+Q13153,PAK1,MSNNGLDIQDKPPAPPMRNTSTMIGAGSKDAGTLNHGSKPLPPNPEEKKKKDRFYRSILPGDKTNKKKEKERPEISLPSDFEHTIHVGFDAVTGEFTGMPEQWARLLQTSNITKSEQKKNPQAVLDVLEFYNSKKTSNSQKYMSFTDKSAEDYNSSNALNVKAVSETPAVPPVSEDEDDDDDDATPPPVIAPRPEHTKSVYTRSVIEPLPVTPTRDVATSPISPTENNTTPPDALTRNTEKQKKKPKMSDEEILEKLRSIVSVGDPKKKYTRFEKIGQGASGTVYTAMDVATGQEVAIKQMNLQQQPKKELIINEILVMRENKNPNIVNYLDSYLVGDELWVVMEYLAGGSLTDVVTETCMDEGQIAAVCRECLQALEFLHSNQVIHRDIKSDNILLGMDGSVKLTDFGFCAQITPEQSKRSTMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMIEGEPPYLNENPLRALYLIATNGTPELQNPEKLSAIFRDFLNRCLEMDVEKRGSAKELLQHQFLKIAKPLSSLTPLIAAAKEATKNNH
+Q13177,PAK2,MSDNGELEDKPPAPPVRMSSTIFSTGGKDPLSANHSLKPLPSVPEEKKPRHKIISIFSGTEKGSKKKEKERPEISPPSDFEHTIHVGFDAVTGEFTGMPEQWARLLQTSNITKLEQKKNPQAVLDVLKFYDSNTVKQKYLSFTPPEKDGFPSGTPALNAKGTEAPAVVTEEEDDDEETAPPVIAPRPDHTKSIYTRSVIDPVPAPVGDSHVDGAAKSLDKQKKKTKMTDEEIMEKLRTIVSIGDPKKKYTRYEKIGQGASGTVFTATDVALGQEVAIKQINLQKQPKKELIINEILVMKELKNPNIVNFLDSYLVGDELFVVMEYLAGGSLTDVVTETCMDEAQIAAVCRECLQALEFLHANQVIHRDIKSDNVLLGMEGSVKLTDFGFCAQITPEQSKRSTMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMVEGEPPYLNENPLRALYLIATNGTPELQNPEKLSPIFRDFLNRCLEMDVEKRGSAKELLQHPFLKLAKPLSSLTPLIMAAKEAMKSNR
+O75914,PAK3,MSDGLDNEEKPPAPPLRMNSNNRDSSALNHSSKPLPMAPEEKNKKARLRSIFPGGGDKTNKKKEKERPEISLPSDFEHTIHVGFDAVTGEFTPDLYGSQMCPGKLPEGIPEQWARLLQTSNITKLEQKKNPQAVLDVLKFYDSKETVNNQKYMSFTSGDKSAHGYIAAHPSSTKTASEPPLAPPVSEEEDEEEEEEEDENEPPPVIAPRPEHTKSIYTRSVVESIASPAVPNKEVTPPSAENANSSTLYRNTDRQRKKSKMTDEEILEKLRSIVSVGDPKKKYTRFEKIGQGASGTVYTALDIATGQEVAIKQMNLQQQPKKELIINEILVMRENKNPNIVNYLDSYLVGDELWVVMEYLAGGSLTDVVTETCMDEGQIAAVCRECLQALDFLHSNQVIHRDIKSDNILLGMDGSVKLTDFGFCAQITPEQSKRSTMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMVEGEPPYLNENPLRALYLIATNGTPELQNPERLSAVFRDFLNRCLEMDVDRRGSAKELLQHPFLKLAKPLSSLTPLIIAAKEAIKNSSR
+P24723,PRKCH,MSSGTMKFNGYLRVRIGEAVGLQPTRWSLRHSLFKKGHQLLDPYLTVSVDQVRVGQTSTKQKTNKPTYNEEFCANVTDGGHLELAVFHETPLGYDHFVANCTLQFQELLRTTGASDTFEGWVDLEPEGKVFVVITLTGSFTEATLQRDRIFKHFTRKRQRAMRRRVHQINGHKFMATYLRQPTYCSHCREFIWGVFGKQGYQCQVCTCVVHKRCHHLIVTACTCQNNINKVDSKIAEQRFGINIPHKFSIHNYKVPTFCDHCGSLLWGIMRQGLQCKICKMNVHIRCQANVAPNCGVNAVELAKTLAGMGLQPGNISPTSKLVSRSTLRRQGKESSKEGNGIGVNSSNRLGIDNFEFIRVLGKGSFGKVMLARVKETGDLYAVKVLKKDVILQDDDVECTMTEKRILSLARNHPFLTQLFCCFQTPDRLFFVMEFVNGGDLMFHIQKSRRFDEARARFYAAEIISALMFLHDKGIIYRDLKLDNVLLDHEGHCKLADFGMCKEGICNGVTTATFCGTPDYIAPEILQEMLYGPAVDWWAMGVLLYEMLCGHAPFEAENEDDLFEAILNDEVVYPTWLHEDATGILKSFMTKNPTMRLGSLTQGGEHAILRHPFFKEIDWAQLNHRQIEPPFRPRIKSREDVSNFDPDFIKEEPVLTPIDEGHLPMINQDEFRNFSYVSPELQP
+Q00536,CDK16,MDRMKKIKRQLSMTLRGGRGIDKTNGAPEQIGLDESGGGGGSDPGEAPTRAAPGELRSARGPLSSAPEIVHEDLKMGSDGESDQASATSSDEVQSPVRVRMRNHPPRKISTEDINKRLSLPADIRLPEGYLEKLTLNSPIFDKPLSRRLRRVSLSEIGFGKLETYIKLDKLGEGTYATVYKGKSKLTDNLVALKEIRLEHEEGAPCTAIREVSLLKDLKHANIVTLHDIIHTEKSLTLVFEYLDKDLKQYLDDCGNIINMHNVKLFLFQLLRGLAYCHRQKVLHRDLKPQNLLINERGELKLADFGLARAKSIPTKTYSNEVVTLWYRPPDILLGSTDYSTQIDMWGVGCIFYEMATGRPLFPGSTVEEQLHFIFRILGTPTEETWPGILSNEEFKTYNYPKYRAEALLSHAPRLDSDGADLLTKLLQFEGRNRISAEDAMKHPFFLSLGERIHKLPDTTSIFALKEIQLQKEASLRSSSMPDSGRPAFRVVDTEF
+Q00537,CDK17,MKKFKRRLSLTLRGSQTIDESLSELAEQMTIEENSSKDNEPIVKNGRPPTSHSMHSFLHQYTGSFKKPPLRRPHSVIGGSLGSFMAMPRNGSRLDIVHENLKMGSDGESDQASGTSSDEVQSPTGVCLRNRIHRRISMEDLNKRLSLPADIRIPDGYLEKLQINSPPFDQPMSRRSRRASLSEIGFGKMETYIKLEKLGEGTYATVYKGRSKLTENLVALKEIRLEHEEGAPCTAIREVSLLKDLKHANIVTLHDIVHTDKSLTLVFEYLDKDLKQYMDDCGNIMSMHNVKLFLYQILRGLAYCHRRKVLHRDLKPQNLLINEKGELKLADFGLARAKSVPTKTYSNEVVTLWYRPPDVLLGSSEYSTQIDMWGVGCIFFEMASGRPLFPGSTVEDELHLIFRLLGTPSQETWPGISSNEEFKNYNFPKYKPQPLINHAPRLDSEGIELITKFLQYESKKRVSAEEAMKHVYFRSLGPRIHALPESVSIFSLKEIQLQKDPGFRNSSYPETGHGKNRRQSMLF
+Q07002,CDK18,MIMNKMKNFKRRFSLSVPRTETIEESLAEFTEQFNQLHNRRNENLQLGPLGRDPPQECSTFSPTDSGEEPGQLSPGVQFQRRQNQRRFSMEDVSKRLSLPMDIRLPQEFLQKLQMESPDLPKPLSRMSRRASLSDIGFGKLETYVKLDKLGEGTYATVFKGRSKLTENLVALKEIRLEHEEGAPCTAIREVSLLKNLKHANIVTLHDLIHTDRSLTLVFEYLDSDLKQYLDHCGNLMSMHNVKIFMFQLLRGLAYCHHRKILHRDLKPQNLLINERGELKLADFGLARAKSVPTKTYSNEVVTLWYRPPDVLLGSTEYSTPIDMWGVGCIHYEMATGRPLFPGSTVKEELHLIFRLLGTPTEETWPGVTAFSEFRTYSFPCYLPQPLINHAPRLDTDGIHLLSSLLLYESKSRMSAEAALSHSYFRSLGERVHQLEDTASIFSLKEIQLQKDPGYRGLAFQQPGRGKNRRQSIF
+P16234,PDGFRA,MGTSHPAFLVLGCLLTGLSLILCQLSLPSILPNENEKVVQLNSSFSLRCFGESEVSWQYPMSEEESSDVEIRNEENNSGLFVTVLEVSSASAAHTGLYTCYYNHTQTEENELEGRHIYIYVPDPDVAFVPLGMTDYLVIVEDDDSAIIPCRTTDPETPVTLHNSEGVVPASYDSRQGFNGTFTVGPYICEATVKGKKFQTIPFNVYALKATSELDLEMEALKTVYKSGETIVVTCAVFNNEVVDLQWTYPGEVKGKGITMLEEIKVPSIKLVYTLTVPEATVKDSGDYECAARQATREVKEMKKVTISVHEKGFIEIKPTFSQLEAVNLHEVKHFVVEVRAYPPPRISWLKNNLTLIENLTEITTDVEKIQEIRYRSKLKLIRAKEEDSGHYTIVAQNEDAVKSYTFELLTQVPSSILDLVDDHHGSTGGQTVRCTAEGTPLPDIEWMICKDIKKCNNETSWTILANNVSNIITEIHSRDRSTVEGRVTFAKVEETIAVRCLAKNLLGAENRELKLVAPTLRSELTVAAAVLVLLVIVIISLIVLVVIWKQKPRYEIRWRVIESISPDGHEYIYVDPMQLPYDSRWEFPRDGLVLGRVLGSGAFGKVVEGTAYGLSRSQPVMKVAVKMLKPTARSSEKQALMSELKIMTHLGPHLNIVNLLGACTKSGPIYIITEYCFYGDLVNYLHKNRDSFLSHHPEKPKKELDIFGLNPADESTRSYVILSFENNGDYMDMKQADTTQYVPMLERKEVSKYSDIQRSLYDRPASYKKKSMLDSEVKNLLSDDNSEGLTLLDLLSFTYQVARGMEFLASKNCVHRDLAARNVLLAQGKIVKICDFGLARDIMHDSNYVSKGSTFLPVKWMAPESIFDNLYTTLSDVWSYGILLWEIFSLGGTPYPGMMVDSTFYNKIKSGYRMAKPDHATSEVYEIMVKCWNSEPEKRPSFYHLSEIVENLLPGQYKKSYEKIHLDFLKSDHPAVARMRVDSDNAYIGVTYKNEEDKLKDWEGGLDEQRLSADSGYIIPLPDIDPVPEEEDLGKRNRHSSQTSEESAIETGSSSSTFIKREDETIEDIDMMDDIGIDSSDLVEDSFL
+P09619,PDGFRB,MRLPGAMPALALKGELLLLSLLLLLEPQISQGLVVTPPGPELVLNVSSTFVLTCSGSAPVVWERMSQEPPQEMAKAQDGTFSSVLTLTNLTGLDTGEYFCTHNDSRGLETDERKRLYIFVPDPTVGFLPNDAEELFIFLTEITEITIPCRVTDPQLVVTLHEKKGDVALPVPYDHQRGFSGIFEDRSYICKTTIGDREVDSDAYYVYRLQVSSINVSVNAVQTVVRQGENITLMCIVIGNEVVNFEWTYPRKESGRLVEPVTDFLLDMPYHIRSILHIPSAELEDSGTYTCNVTESVNDHQDEKAINITVVESGYVRLLGEVGTLQFAELHRSRTLQVVFEAYPPPTVLWFKDNRTLGDSSAGEIALSTRNVSETRYVSELTLVRVKVAEAGHYTMRAFHEDAEVQLSFQLQINVPVRVLELSESHPDSGEQTVRCRGRGMPQPNIIWSACRDLKRCPRELPPTLLGNSSEEESQLETNVTYWEEEQEFEVVSTLRLQHVDRPLSVRCTLRNAVGQDTQEVIVVPHSLPFKVVVISAILALVVLTIISLIILIMLWQKKPRYEIRWKVIESVSSDGHEYIYVDPMQLPYDSTWELPRDQLVLGRTLGSGAFGQVVEATAHGLSHSQATMKVAVKMLKSTARSSEKQALMSELKIMSHLGPHLNVVNLLGACTKGGPIYIITEYCRYGDLVDYLHRNKHTFLQHHSDKRRPPSAELYSNALPVGLPLPSHVSLTGESDGGYMDMSKDESVDYVPMLDMKGDVKYADIESSNYMAPYDNYVPSAPERTCRATLINESPVLSYMDLVGFSYQVANGMEFLASKNCVHRDLAARNVLICEGKLVKICDFGLARDIMRDSNYISKGSTFLPLKWMAPESIFNSLYTTLSDVWSFGILLWEIFTLGGTPYPELPMNEQFYNAIKRGYRMAQPAHASDEIYEIMQKCWEEKFEIRPPFSQLVLLLERLLGEGYKKKYQQVDEEFLRSDHPAILRSQARLPGFHGLRSPLDTSSVLYTAVQPNEGDNDYIIPLPDPKPEVADEGPLEGSPSLASSTLNEVNTSSTISCDSPLEPQDEPEPEPQLELQVEPEPELEQLPDSGCPAPRAEAEDSFL
+O15530,PDPK1,MARTTSQLYDAVPIQSSVVLCSCPSPSMVRTQTESSTPPGIPGGSRQGPAMDGTAAEPRPGAGSLQHAQPPPQPRKKRPEDFKFGKILGEGSFSTVVLARELATSREYAIKILEKRHIIKENKVPYVTRERDVMSRLDHPFFVKLYFTFQDDEKLYFGLSYAKNGELLKYIRKIGSFDETCTRFYTAEIVSALEYLHGKGIIHRDLKPENILLNEDMHIQITDFGTAKVLSPESKQARANSFVGTAQYVSPELLTEKSACKSSDLWALGCIIYQLVAGLPPFRAGNEYLIFQKIIKLEYDFPEKFFPKARDLVEKLLVLDATKRLGCEEMEGYGPLKAHPFFESVTWENLHQQTPPKLTAYLPAMSEDDEDCYGNYDNLLSQFGCMQVSSSSSSHSLSASDTGLPQRSGSNIEQYIHDLDSNSFELDLQFSEDEKRLLLEKQAGGNPWHQFVENNLILKMGPVDKRKGLFARRRQLLLTEGPHLYYVDPVNKVLKGEIPWSQELRPEAKNFKTFFVHTPNRTYYLMDPSGNAHKWCRKIQEVWRQRYQSHPDAAVQ
+Q15118,PDK1,MRLARLLRGAALAGPGPGLRAAGFSRSFSSDSGSSPASERGVPGQVDFYARFSPSPLSMKQFLDFGSVNACEKTSFMFLRQELPVRLANIMKEISLLPDNLLRTPSVQLVQSWYIQSLQELLDFKDKSAEDAKAIYDFTDTVIRIRNRHNDVIPTMAQGVIEYKESFGVDPVTSQNVQYFLDRFYMSRISIRMLLNQHSLLFGGKGKGSPSHRKHIGSINPNCNVLEVIKDGYENARRLCDLYYINSPELELEELNAKSPGQPIQVVYVPSHLYHMVFELFKNAMRATMEHHANRGVYPPIQVHVTLGNEDLTVKMSDRGGGVPLRKIDRLFNYMYSTAPRPRVETSRAVPLAGFGYGLPISRLYAQYFQGDLKLYSLEGYGTDAVIYIKALSTDSIERLPVYNKAAWKHYNTNHEADDWCVPSREPKDMTTFRSA
+Q15119,PDK2,MRWVWALLKNASLAGAPKYIEHFSKFSPSPLSMKQFLDFGSSNACEKTSFTFLRQELPVRLANIMKEINLLPDRVLSTPSVQLVQSWYVQSLLDIMEFLDKDPEDHRTLSQFTDALVTIRNRHNDVVPTMAQGVLEYKDTYGDDPVSNQNIQYFLDRFYLSRISIRMLINQHTLIFDGSTNPAHPKHIGSIDPNCNVSEVVKDAYDMAKLLCDKYYMASPDLEIQEINAANSKQPIHMVYVPSHLYHMLFELFKNAMRATVESHESSLILPPIKVMVALGEEDLSIKMSDRGGGVPLRKIERLFSYMYSTAPTPQPGTGGTPLAGFGYGLPISRLYAKYFQGDLQLFSMEGFGTDAVIYLKALSTDSVERLPVYNKSAWRHYQTIQEAGDWCVPSTEPKNTSTYRVS
+Q15120,PDK3,MRLFRWLLKQPVPKQIERYSRFSPSPLSIKQFLDFGRDNACEKTSYMFLRKELPVRLANTMREVNLLPDNLLNRPSVGLVQSWYMQSFLELLEYENKSPEDPQVLDNFLQVLIKVRNRHNDVVPTMAQGVIEYKEKFGFDPFISTNIQYFLDRFYTNRISFRMLINQHTLLFGGDTNPVHPKHIGSIDPTCNVADVVKDAYETAKMLCEQYYLVAPELEVEEFNAKAPDKPIQVVYVPSHLFHMLFELFKNSMRATVELYEDRKEGYPAVKTLVTLGKEDLSIKISDLGGGVPLRKIDRLFNYMYSTAPRPSLEPTRAAPLAGFGYGLPISRLYARYFQGDLKLYSMEGVGTDAVIYLKALSSESFERLPVFNKSAWRHYKTTPEADDWSNPSSEPRDASKYKAKQ
+Q16654,PDK4,MKAARFVLRSAGSLNGAGLVPREVEHFSRYSPSPLSMKQLLDFGSENACERTSFAFLRQELPVRLANILKEIDILPTQLVNTSSVQLVKSWYIQSLMDLVEFHEKSPDDQKALSDFVDTLIKVRNRHHNVVPTMAQGIIEYKDACTVDPVTNQNLQYFLDRFYMNRISTRMLMNQHILIFSDSQTGNPSHIGSIDPNCDVVAVVQDAFECSRMLCDQYYLSSPELKLTQVNGKFPDQPIHIVYVPSHLHHMLFELFKNAMRATVEHQENQPSLTPIEVIVVLGKEDLTIKISDRGGGVPLRIIDRLFSYTYSTAPTPVMDNSRNAPLAGFGYGLPISRLYAKYFQGDLNLYSLSGYGTDAIIYLKALSSESIEKLPVFNKSAFKHYQMSSEADDWCIPSREPKNLAKEVAM
+Q9NZJ5,EIF2AK3,MERAISPGLLVRALLLLLLLLGLAARTVAAGRARGLPAPTAEAAFGLGAAAAPTSATRVPAAGAVAAAEVTVEDAEALPAAAGEQEPRGPEPDDETELRPRGRSLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLSKPEVFGNKMIIPSLDGALFQWDQDRESMETVPFTVESLLESSYKFGDDVVLVGGKSLTTYGLSAYSGKVRYICSALGCRQWDSDEMEQEEDILLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYIPDMETRAGFIESTFKPNENTEESKIISDVEEQEAAIMDIVIKVSVADWKVMAFSKKGGHLEWEYQFCTPIASAWLLKDGKVIPISLFDDTSYTSNDDVLEDEEDIVEAARGATENSVYLGMYRGQLYLQSSVRISEKFPSSPKALESVTNENAIIPLPTIKWKPLIHSPSRTPVLVGSDEFDKCLSNDKFSHEEYSNGALSILQYPYDNGYYLPYYKRERNKRSTQITVRFLDNPHYNKNIRKKDPVLLLHWWKEIVATILFCIIATTFIVRRLFHPHPHRQRKESETQCQTENKYDSVSGEANDSSWNDIKNSGYISRYLTDFEPIQCLGRGGFGVVFEAKNKVDDCNYAIKRIRLPNRELAREKVMREVKALAKLEHPGIVRYFNAWLEAPPEKWQEKMDEIWLKDESTDWPLSSPSPMDAPSVKIRRMDPFATKEHIEIIAPSPQRSRSFSVGISCDQTSSSESQFSPLEFSGMDHEDISESVDAAYNLQDSCLTDCDVEDGTMDGNDEGHSFELCPSEASPYVRSRERTSSSIVFEDSGCDNASSKEEPKTNRLHIGNHCANKLTAFKPTSSKSSSEATLSISPPRPTTLSLDLTKNTTEKLQPSSPKVYLYIQMQLCRKENLKDWMNGRCTIEERERSVCLHIFLQIAEAVEFLHSKGLMHRDLKPSNIFFTMDDVVKVGDFGLVTAMDQDEEEQTVLTPMPAYARHTGQVGTKLYMSPEQIHGNSYSHKVDIFSLGLILFELLYPFSTQMERVRTLTDVRNLKFPPLFTQKYPCEYVMVQDMLSPSPMERPEAINIIENAVFEDLDFPGKTVLRQRSRSLSSSGTKHSRQSNNSHSPLPSN
+O94921,CDK14,MCDLIEPQPAEKIGKMKKLRRTLSESFSRIALKKDDTTFDEICVTKMSTRNCQGMDSVIKPLDTIPEDKKVRVQRTQSTFDPFEKPANQVKRVHSENNACINFKTSSTGKESPKVRRHSSPSSPTSPKFGKADSYEKLEKLGEGSYATVYKGKSKVNGKLVALKVIRLQEEEGTPFTAIREASLLKGLKHANIVLLHDIIHTKETLTLVFEYVHTDLCQYMDKHPGGLHPDNVKLFLFQLLRGLSYIHQRYILHRDLKPQNLLISDTGELKLADFGLARAKSVPSHTYSNEVVTLWYRPPDVLLGSTEYSTCLDMWGVGCIFVEMIQGVAAFPGMKDIQDQLERIFLVLGTPNEDTWPGVHSLPHFKPERFTLYSSKNLRQAWNKLSYVNHAEDLASKLLQCSPKNRLSAQAALSHEYFSDLPPRLWELTDMSSIFTVPNVRLQPEAGESMRAFGKNNSYGKSLSNSKH
+Q16816,PHKG1,MTRDEALPDSHSAQDFYENYEPKEILGRGVSSVVRRCIHKPTSQEYAVKVIDVTGGGSFSPEEVRELREATLKEVDILRKVSGHPNIIQLKDTYETNTFFFLVFDLMKRGELFDYLTEKVTLSEKETRKIMRALLEVICTLHKLNIVHRDLKPENILLDDNMNIKLTDFGFSCQLEPGERLREVCGTPSYLAPEIIECSMNEDHPGYGKEVDMWSTGVIMYTLLAGSPPFWHRKQMLMLRMIMSGNYQFGSPEWDDYSDTVKDLVSRFLVVQPQNRYTAEEALAHPFFQQYLVEEVRHFSPRGKFKVIALTVLASVRIYYQYRRVKPVTREIVIRDPYALRPLRRLIDAYAFRIYGHWVKKGQQQNRAALFENTPKAVLLSLAEEDY
+P15735,PHKG2,MTLDVGPEDELPDWAAAKEFYQKYDPKDVIGRGVSSVVRRCVHRATGHEFAVKIMEVTAERLSPEQLEEVREATRRETHILRQVAGHPHIITLIDSYESSSFMFLVFDLMRKGELFDYLTEKVALSEKETRSIMRSLLEAVSFLHANNIVHRDLKPENILLDDNMQIRLSDFGFSCHLEPGEKLRELCGTPGYLAPEILKCSMDETHPGYGKEVDLWACGVILFTLLAGSPPFWHRRQILMLRMIMEGQYQFSSPEWDDRSSTVKDLISRLLQVDPEARLTAEQALQHPFFERCEGSQPWNLTPRQRFRVAVWTVLAAGRVALSTHRVRPLTKNALLRDPYALRSVRHLIDNCAFRLYGHWVKKGEQQNRAALFQHRPPGPFPIMGPEEEGDSAAITEDEAVLVLG
+P11309,PIM1,MLLSKINSLAHLRAAPCNDLHATKLAPGKEKEPLESQYQVGPLLGSGGFGSVYSGIRVSDNLPVAIKHVEKDRISDWGELPNGTRVPMEVVLLKKVSSGFSGVIRLLDWFERPDSFVLILERPEPVQDLFDFITERGALQEELARSFFWQVLEAVRHCHNCGVLHRDIKDENILIDLNRGELKLIDFGSGALLKDTVYTDFDGTRVYSPPEWIRYHRYHGRSAAVWSLGILLYDMVCGDIPFEHDEEIIRGQVFFRQRVSSECQHLIRWCLALRPSDRPTFEEIQNHPWMQDVLLPQETAEIHLHSLSPGPSK
+Q9P1W9,PIM2,MLTKPLQGPPAPPGTPTPPPGGKDREAFEAEYRLGPLLGKGGFGTVFAGHRLTDRLQVAIKVIPRNRVLGWSPLSDSVTCPLEVALLWKVGAGGGHPGVIRLLDWFETQEGFMLVLERPLPAQDLFDYITEKGPLGEGPSRCFFGQVVAAIQHCHSRGVVHRDIKDENILIDLRRGCAKLIDFGSGALLHDEPYTDFDGTRVYSPPEWISRHQYHALPATVWSLGILLYDMVCGDIPFERDQEILEAELHFPAHVSPDCCALIRRCLAPKPSSRPSLEEILLDPWMQTPAEDVPLNPSKGGPAPLAWSLLP
+Q15131,CDK10,MAEPDLECEQIRLKCIRKEGFFTVPPEHRLGRCRSVKEFEKLNRIGEGTYGIVYRARDTQTDEIVALKKVRMDKEKDGIPISSLREITLLLRLRHPNIVELKEVVVGNHLESIFLVMGYCEQDLASLLENMPTPFSEAQVKCIVLQVLRGLQYLHRNFIIHRDLKVSNLLMTDKGCVKTADFGLARAYGVPVKPMTPKVVTLWYRAPELLLGTTTQTTSIDMWAVGCILAELLAHRPLLPGTSEIHQIDLIVQLLGTPSENIWPGFSKLPLVGQYSLRKQPYNNLKHKFPWLSEAGLRLLHFLFMYDPKKRATAGDCLESSYFKEKPLPCEPELMPTFPHHRNKRAAPATSEGQSKRCKP
+P50750,CDK9,MAKQYDSVECPFCDEVSKYEKLAKIGQGTFGEVFKARHRKTGQKVALKKVLMENEKEGFPITALREIKILQLLKHENVVNLIEICRTKASPYNRCKGSIYLVFDFCEHDLAGLLSNVLVKFTLSEIKRVMQMLLNGLYYIHRNKILHRDMKAANVLITRDGVLKLADFGLARAFSLAKNSQPNRYTNRVVTLWYRPPELLLGERDYGPPIDLWGAGCIMAEMWTRSPIMQGNTEQHQLALISQLCGSITPEVWPNVDNYELYEKLELVKGQKRKVKDRLKAYVRDPYALDLIDKLLVLDPAQRIDSDDALNHDFFWSDPMPSDLKGMLSTHLTSMFEYLAPPRRKGSQITQQSTNQSRNPATTNQTEFERVF
+P21127,CDK11B,MGDEKDSWKVKTLDEILQEKKRRKEQEEKAEIKRLKNSDDRDSKRDSLEEGELRDHRMEITIRNSPYRREDSMEDRGEEDDSLAIKPPQQMSRKEKAHHRKDEKRKEKRRHRSHSAEGGKHARVKEKEREHERRKRHREEQDKARREWERQKRREMAREHSRRERDRLEQLERKRERERKMREQQKEQREQKERERRAEERRKEREARREVSAHHRTMREDYSDKVKASHWSRSPPRPPRERFELGDGRKPGEARPAPAQKPAQLKEEKMEERDLLSDLQDISDSERKTSSAESSSAESGSGSEEEEEEEEEEEEEGSTSEESEEEEEEEEEEEEETGSNSEEASEQSAEEVSEEEMSEDEERENENHLLVVPESRFDRDSGESEEAEEEVGEGTPQSSALTEGDYVPDSPALSPIELKQELPKYLPALQGCRSVEEFQCLNRIEEGTYGVVYRAKDKKTDEIVALKRLKMEKEKEGFPITSLREINTILKAQHPNIVTVREIVVGSNMDKIYIVMNYVEHDLKSLMETMKQPFLPGEVKTLMIQLLRGVKHLHDNWILHRDLKTSNLLLSHAGILKVGDFGLAREYGSPLKAYTPVVVTLWYRAPELLLGAKEYSTAVDMWSVGCIFGELLTQKPLFPGKSEIDQINKVFKDLGTPSEKIWPGYSELPAVKKMTFSEHPYNNLRKRFGALLSDQGFDLMNKFLTYFPGRRISAEDGLKHEYFRETPLPIDPSMFPTWPAKSEQQRVKRGTSPRPPEGGLGYSQLGDDDLKETGFHLTTTNQGASAAGPGFSLKF
+Q14680,MELK,MKDYDELLKYYELHETIGTGGFAKVKLACHILTGEMVAIKIMDKNTLGSDLPRIKTEIEALKNLRHQHICQLYHVLETANKIFMVLEYCPGGELFDYIISQDRLSEEETRVVFRQIVSAVAYVHSQGYAHRDLKPENLLFDEYHKLKLIDFGLCAKPKGNKDYHLQTCCGSLAYAAPELIQGKSYLGSEADVWSMGILLYVLMCGFLPFDDDNVMALYKKIMRGKYDVPKWLSPSSILLLQQMLQVDPKKRISMKNLLNHPWIMQDYNYPVEWQSKNPFIHLDDDCVTELSVHHRNNRQTMEDLISLWQYDHLTATYLLLLAKKARGKPVRLRLSSFSCGQASATPFTDIKSNNWSLEDVTASDKNYVAGLIDYDWCEDDLSTGAATPRTSQFTKYWTESNGVESKSLTPALCRTPANKLKNKENVYTPKSAVKNEEYFMFPEPKTPVNKNQHKREILTTPNRYTTPSKARNQCLKETPIKIPVNSTGTDKLMTGVISPERRCRSVELDLNQAHMEETPKRKGAKVFGSLERGLDKVITVLTRSKRKGSARDGPRRLKLHYNVTTTRLVNPDQLLNEIMSILPKKHVDFVQKGYTLKCQTQSDFGKVTMQFELEVCQLQKPDVVGIRRQRLKGDAWVYKRLVEDILSSCKV
+Q5VT25,CDC42BPA,MSGEVRLRQLEQFILDGPAQTNGQCFSVETLLDILICLYDECNNSPLRREKNILEYLEWAKPFTSKVKQMRLHREDFEILKVIGRGAFGEVAVVKLKNADKVFAMKILNKWEMLKRAETACFREERDVLVNGDNKWITTLHYAFQDDNNLYLVMDYYVGGDLLTLLSKFEDRLPEDMARFYLAEMVIAIDSVHQLHYVHRDIKPDNILMDMNGHIRLADFGSCLKLMEDGTVQSSVAVGTPDYISPEILQAMEDGKGRYGPECDWWSLGVCMYEMLYGETPFYAESLVETYGKIMNHKERFQFPAQVTDVSENAKDLIRRLICSREHRLGQNGIEDFKKHPFFSGIDWDNIRNCEAPYIPEVSSPTDTSNFDVDDDCLKNSETMPPPTHTAFSGHHLPFVGFTYTSSCVLSDRSCLRVTAGPTSLDLDVNVQRTLDNNLATEAYERRIKRLEQEKLELSRKLQESTQTVQALQYSTVDGPLTASKDLEIKNLKEEIEKLRKQVTESSHLEQQLEEANAVRQELDDAFRQIKAYEKQIKTLQQEREDLNKELVQASERLKNQSKELKDAHCQRKLAMQEFMEINERLTELHTQKQKLARHVRDKEEEVDLVMQKVESLRQELRRTERAKKELEVHTEALAAEASKDRKLREQSEHYSKQLENELEGLKQKQISYSPGVCSIEHQQEITKLKTDLEKKSIFYEEELSKREGIHANEIKNLKKELHDSEGQQLALNKEIMILKDKLEKTRRESQSEREEFESEFKQQYEREKVLLTEENKKLTSELDKLTTLYENLSIHNQQLEEEVKDLADKKESVAHWEAQITEIIQWVSDEKDARGYLQALASKMTEELEALRNSSLGTRATDMPWKMRRFAKLDMSARLELQSALDAEIRAKQAIQEELNKVKASNIITECKLKDSEKKNLELLSEIEQLIKDTEELRSEKGIEHQDSQHSFLAFLNTPTDALDQFERSPSCTPASKGRRTVDSTPLSVHTPTLRKKGCPGSTGFPPKRKTHQFFVKSFTTPTKCHQCTSLMVGLIRQGCSCEVCGFSCHITCVNKAPTTCPVPPEQTKGPLGIDPQKGIGTAYEGHVRIPKPAGVKKGWQRALAIVCDFKLFLYDIAEGKASQPSVVISQVIDMRDEEFSVSSVLASDVIHASRKDIPCIFRVTASQLSASNNKCSILMLADTENEKNKWVGVLSELHKILKKNKFRDRSVYVPKEAYDSTLPLIKTTQAAAIIDHERIALGNEEGLFVVHVTKDEIIRVGDNKKIHQIELIPNDQLVAVISGRNRHVRLFPMSALDGRETDFYKLSETKGCQTVTSGKVRHGALTCLCVAMKRQVLCYELFQSKTRHRKFKEIQVPYNVQWMAIFSEQLCVGFQSGFLRYPLNGEGNPYSMLHSNDHTLSFIAHQPMDAICAVEISSKEYLLCFNSIGIYTDCQGRRSRQQELMWPANPSSCCYNAPYLSVYSENAVDIFDVNSMEWIQTLPLKKVRPLNNEGSLNLLGLETIRLIYFKNKMAEGDELVVPETSDNSRKQMVRNINNKRRYSFRVPEEERMQQRREMLRDPEMRNKLISNPTNFNHIAHMGPGDGIQILKDLPMNPRPQESRTVFSGSVSIPSITKSRPEPGRSMSASSGLSARSSAQNGSALKREFSGGSYSAKRQPMPSPSEGSLSSGGMDQGSDAPARDFDGEDSDSPRHSTASNSSNLSSPPSPASPRKTKSLSLESTDRGSWDP
+P17612,PRKACA,MGNAAAAKKGSEQESVKEFLAKAKEDFLKKWESPAQNTAHLDQFERIKTLGTGSFGRVMLVKHKETGNHYAMKILDKQKVVKLKQIEHTLNEKRILQAVNFPFLVKLEFSFKDNSNLYMVMEYVPGGEMFSHLRRIGRFSEPHARFYAAQIVLTFEYLHSLDLIYRDLKPENLLIDQQGYIQVTDFGFAKRVKGRTWTLCGTPEYLAPEIILSKGYNKAVDWWALGVLIYEMAAGYPPFFADQPIQIYEKIVSGKVRFPSHFSSDLKDLLRNLLQVDLTKRFGNLKNGVNDIKNHKWFATTDWIAIYQRKVEAPFIPKFKGPGDTSNFDDYEEEEIRVSINEKCGKEFSEF
+P22694,PRKACB,MGNAATAKKGSEVESVKEFLAKAKEDFLKKWENPTQNNAGLEDFERKKTLGTGSFGRVMLVKHKATEQYYAMKILDKQKVVKLKQIEHTLNEKRILQAVNFPFLVRLEYAFKDNSNLYMVMEYVPGGEMFSHLRRIGRFSEPHARFYAAQIVLTFEYLHSLDLIYRDLKPENLLIDHQGYIQVTDFGFAKRVKGRTWTLCGTPEYLAPEIILSKGYNKAVDWWALGVLIYEMAAGYPPFFADQPIQIYEKIVSGKVRFPSHFSSDLKDLLRNLLQVDLTKRFGNLKNGVSDIKTHKWFATTDWIAIYQRKVEAPFIPKFRGSGDTSNFDDYEEEDIRVSITEKCAKEFGEF
+P22612,PRKACG,MGNAPAKKDTEQEESVNEFLAKARGDFLYRWGNPAQNTASSDQFERLRTLGMGSFGRVMLVRHQETGGHYAMKILNKQKVVKMKQVEHILNEKRILQAIDFPFLVKLQFSFKDNSYLYLVMEYVPGGEMFSRLQRVGRFSEPHACFYAAQVVLAVQYLHSLDLIHRDLKPENLLIDQQGYLQVTDFGFAKRVKGRTWTLCGTPEYLAPEIILSKGYNKAVDWWALGVLIYEMAVGFPPFYADQPIQIYEKIVSGRVRFPSKLSSDLKHLLRSLLQVDLTKRFGNLRNGVGDIKNHKWFATTSWIAIYEKKVEAPFIPKYTGPGDASNFDDYEEEELRISINEKCAKEFSEF
+P17252,PRKCA,MADVFPGNDSTASQDVANRFARKGALRQKNVHEVKDHKFIARFFKQPTFCSHCTDFIWGFGKQGFQCQVCCFVVHKRCHEFVTFSCPGADKGPDTDDPRSKHKFKIHTYGSPTFCDHCGSLLYGLIHQGMKCDTCDMNVHKQCVINVPSLCGMDHTEKRGRIYLKAEVADEKLHVTVRDAKNLIPMDPNGLSDPYVKLKLIPDPKNESKQKTKTIRSTLNPQWNESFTFKLKPSDKDRRLSVEIWDWDRTTRNDFMGSLSFGVSELMKMPASGWYKLLNQEEGEYYNVPIPEGDEEGNMELRQKFEKAKLGPAGNKVISPSEDRKQPSNNLDRVKLTDFNFLMVLGKGSFGKVMLADRKGTEELYAIKILKKDVVIQDDDVECTMVEKRVLALLDKPPFLTQLHSCFQTVDRLYFVMEYVNGGDLMYHIQQVGKFKEPQAVFYAAEISIGLFFLHKRGIIYRDLKLDNVMLDSEGHIKIADFGMCKEHMMDGVTTRTFCGTPDYIAPEIIAYQPYGKSVDWWAYGVLLYEMLAGQPPFDGEDEDELFQSIMEHNVSYPKSLSKEAVSVCKGLMTKHPAKRLGCGPEGERDVREHAFFRRIDWEKLENREIQPPFKPKVCGKGAENFDKFFTRGQPVLTPPDQLVIANIDQSDFEGFSYVNPQFVHPILQSAV
+P05771,PRKCB,MADPAAGPPPSEGEESTVRFARKGALRQKNVHEVKNHKFTARFFKQPTFCSHCTDFIWGFGKQGFQCQVCCFVVHKRCHEFVTFSCPGADKGPASDDPRSKHKFKIHTYSSPTFCDHCGSLLYGLIHQGMKCDTCMMNVHKRCVMNVPSLCGTDHTERRGRIYIQAHIDRDVLIVLVRDAKNLVPMDPNGLSDPYVKLKLIPDPKSESKQKTKTIKCSLNPEWNETFRFQLKESDKDRRLSVEIWDWDLTSRNDFMGSLSFGISELQKASVDGWFKLLSQEEGEYFNVPVPPEGSEANEELRQKFERAKISQGTKVPEEKTTNTVSKFDNNGNRDRMKLTDFNFLMVLGKGSFGKVMLSERKGTDELYAVKILKKDVVIQDDDVECTMVEKRVLALPGKPPFLTQLHSCFQTMDRLYFVMEYVNGGDLMYHIQQVGRFKEPHAVFYAAEIAIGLFFLQSKGIIYRDLKLDNVMLDSEGHIKIADFGMCKENIWDGVTTKTFCGTPDYIAPEIIAYQPYGKSVDWWAFGVLLYEMLAGQAPFEGEDEDELFQSIMEHNVAYPKSMSKEAVAICKGLMTKHPGKRLGCGPEGERDIKEHAFFRYIDWEKLERKEIQPPYKPKARDKRDTSNFDKEFTRQPVELTPTDKLFIMNLDQNEFAGFSYTNPEFVINV
+Q05655,PRKCD,MAPFLRIAFNSYELGSLQAEDEANQPFCAVKMKEALSTERGKTLVQKKPTMYPEWKSTFDAHIYEGRVIQIVLMRAAEEPVSEVTVGVSVLAERCKKNNGKAEFWLDLQPQAKVLMSVQYFLEDVDCKQSMRSEDEAKFPTMNRRGAIKQAKIHYIKNHEFIATFFGQPTFCSVCKDFVWGLNKQGYKCRQCNAAIHKKCIDKIIGRCTGTAANSRDTIFQKERFNIDMPHRFKVHNYMSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCGINQKLLAEALNQVTQRASRRSDSASSEPVGIYQGFEKKTGVAGEDMQDNSGTYGKIWEGSSKCNINNFIFHKVLGKGSFGKVLLGELKGRGEYFAIKALKKDVVLIDDDVECTMVEKRVLTLAAENPFLTHLICTFQTKDHLFFVMEFLNGGDLMYHIQDKGRFELYRATFYAAEIMCGLQFLHSKGIIYRDLKLDNVLLDRDGHIKIADFGMCKENIFGESRASTFCGTPDYIAPEILQGLKYTFSVDWWSFGVLLYEMLIGQSPFHGDDEDELFESIRVDTPHYPRWITKESKDILEKLFEREPTKRLGVTGNIKIHPFFKTINWTLLEKRRLEPPFRPKVKSPRDYSNFDQEFLNEKARLSYSDKNLIDSMDQSAFAGFSFVNPKFEHLLED
+Q02156,PRKCE,MVVFNGLLKIKICEAVSLKPTAWSLRHAVGPRPQTFLLDPYIALNVDDSRIGQTATKQKTNSPAWHDEFVTDVCNGRKIELAVFHDAPIGYDDFVANCTIQFEELLQNGSRHFEDWIDLEPEGRVYVIIDLSGSSGEAPKDNEERVFRERMRPRKRQGAVRRRVHQVNGHKFMATYLRQPTYCSHCRDFIWGVIGKQGYQCQVCTCVVHKRCHELIITKCAGLKKQETPDQVGSQRFSVNMPHKFGIHNYKVPTFCDHCGSLLWGLLRQGLQCKVCKMNVHRRCETNVAPNCGVDARGIAKVLADLGVTPDKITNSGQRRKKLIAGAESPQPASGSSPSEEDRSKSAPTSPCDQEIKELENNIRKALSFDNRGEEHRAASSPDGQLMSPGENGEVRQGQAKRLGLDEFNFIKVLGKGSFGKVMLAELKGKDEVYAVKVLKKDVILQDDDVDCTMTEKRILALARKHPYLTQLYCCFQTKDRLFFVMEYVNGGDLMFQIQRSRKFDEPRSRFYAAEVTSALMFLHQHGVIYRDLKLDNILLDAEGHCKLADFGMCKEGILNGVTTTTFCGTPDYIAPEILQELEYGPSVDWWALGVLMYEMMAGQPPFEADNEDDLFESILHDDVLYPVWLSKEAVSILKAFMTKNPHKRLGCVASQNGEDAIKQHPFFKEIDWVLLEQKKIKPPFKPRIKTKRDVNNFDQDFTREEPVLTLVDEAIVKQINQEEFKGFSYFGEDLMP
+P05129,PRKCG,MAGLGPGVGDSEGGPRPLFCRKGALRQKVVHEVKSHKFTARFFKQPTFCSHCTDFIWGIGKQGLQCQVCSFVVHRRCHEFVTFECPGAGKGPQTDDPRNKHKFRLHSYSSPTFCDHCGSLLYGLVHQGMKCSCCEMNVHRRCVRSVPSLCGVDHTERRGRLQLEIRAPTADEIHVTVGEARNLIPMDPNGLSDPYVKLKLIPDPRNLTKQKTRTVKATLNPVWNETFVFNLKPGDVERRLSVEVWDWDRTSRNDFMGAMSFGVSELLKAPVDGWYKLLNQEEGEYYNVPVADADNCSLLQKFEACNYPLELYERVRMGPSSSPIPSPSPSPTDPKRCFFGASPGRLHISDFSFLMVLGKGSFGKVMLAERRGSDELYAIKILKKDVIVQDDDVDCTLVEKRVLALGGRGPGGRPHFLTQLHSTFQTPDRLYFVMEYVTGGDLMYHIQQLGKFKEPHAAFYAAEIAIGLFFLHNQGIIYRDLKLDNVMLDAEGHIKITDFGMCKENVFPGTTTRTFCGTPDYIAPEIIAYQPYGKSVDWWSFGVLLYEMLAGQPPFDGEDEEELFQAIMEQTVTYPKSLSREAVAICKGFLTKHPGKRLGSGPDGEPTIRAHGFFRWIDWERLERLEIPPPFRPRPCGRSGENFDKFFTRAAPALTPPDRLVLASIDQADFQGFTYVNPDFVHPDARSPTSPVPVPVM
+P41743,PRKCI,MPTQRDSSTMSHTVAGGGSGDHSHQVRVKAYYRGDIMITHFEPSISFEGLCNEVRDMCSFDNEQLFTMKWIDEEGDPCTVSSQLELEEAFRLYELNKDSELLIHVFPCVPERPGMPCPGEDKSIYRRGARRWRKLYCANGHTFQAKRFNRRAHCAICTDRIWGLGRQGYKCINCKLLVHKKCHKLVTIECGRHSLPQEPVMPMDQSSMHSDHAQTVIPYNPSSHESLDQVGEEKEAMNTRESGKASSSLGLQDFDLLRVIGRGSYAKVLLVRLKKTDRIYAMKVVKKELVNDDEDIDWVQTEKHVFEQASNHPFLVGLHSCFQTESRLFFVIEYVNGGDLMFHMQRQRKLPEEHARFYSAEISLALNYLHERGIIYRDLKLDNVLLDSEGHIKLTDYGMCKEGLRPGDTTSTFCGTPNYIAPEILRGEDYGFSVDWWALGVLMFEMMAGRSPFDIVGSSDNPDQNTEDYLFQVILEKQIRIPRSLSVKAASVLKSFLNKDPKERLGCHPQTGFADIQGHPFFRNVDWDMMEQKQVVPPFKPNISGEFGLDNFDSQFTNEPVQLTPDDDDIVRKIDQSEFEGFEYINPLLMSAEECV
+Q15139,PRKD1,MSAPPVLRPPSPLLPVAAAAAAAAAALVPGSGPGPAPFLAPVAAPVGGISFHLQIGLSREPVLLLQDSSGDYSLAHVREMACSIVDQKFPECGFYGMYDKILLFRHDPTSENILQLVKAASDIQEGDLIEVVLSASATFEDFQIRPHALFVHSYRAPAFCDHCGEMLWGLVRQGLKCEGCGLNYHKRCAFKIPNNCSGVRRRRLSNVSLTGVSTIRTSSAELSTSAPDEPLLQKSPSESFIGREKRSNSQSYIGRPIHLDKILMSKVKVPHTFVIHSYTRPTVCQYCKKLLKGLFRQGLQCKDCRFNCHKRCAPKVPNNCLGEVTINGDLLSPGAESDVVMEEGSDDNDSERNSGLMDDMEEAMVQDAEMAMAECQNDSGEMQDPDPDHEDANRTISPSTSNNIPLMRVVQSVKHTKRKSSTVMKEGWMVHYTSKDTLRKRHYWRLDSKCITLFQNDTGSRYYKEIPLSEILSLEPVKTSALIPNGANPHCFEITTANVVYYVGENVVNPSSPSPNNSVLTSGVGADVARMWEIAIQHALMPVIPKGSSVGTGTNLHRDISVSISVSNCQIQENVDISTVYQIFPDEVLGSGQFGIVYGGKHRKTGRDVAIKIIDKLRFPTKQESQLRNEVAILQNLHHPGVVNLECMFETPERVFVVMEKLHGDMLEMILSSEKGRLPEHITKFLITQILVALRHLHFKNIVHCDLKPENVLLASADPFPQVKLCDFGFARIIGEKSFRRSVVGTPAYLAPEVLRNKGYNRSLDMWSVGVIIYVSLSGTFPFNEDEDIHDQIQNAAFMYPPNPWKEISHEAIDLINNLLQVKMRKRYSVDKTLSHPWLQDYQTWLDLRELECKIGERYITHESDDLRWEKYAGEQGLQYPTHLINPSASHSDTPETEETEMKALGERVSIL
+Q04759,PRKCQ,MSPFLRIGLSNFDCGSCQSCQGEAVNPYCAVLVKEYVESENGQMYIQKKPTMYPPWDSTFDAHINKGRVMQIIVKGKNVDLISETTVELYSLAERCRKNNGKTEIWLELKPQGRMLMNARYFLEMSDTKDMNEFETEGFFALHQRRGAIKQAKVHHVKCHEFTATFFPQPTFCSVCHEFVWGLNKQGYQCRQCNAAIHKKCIDKVIAKCTGSAINSRETMFHKERFKIDMPHRFKVYNYKSPTFCEHCGTLLWGLARQGLKCDACGMNVHHRCQTKVANLCGINQKLMAEALAMIESTQQARCLRDTEQIFREGPVEIGLPCSIKNEARPPCLPTPGKREPQGISWESPLDEVDKMCHLPEPELNKERPSLQIKLKIEDFILHKMLGKGSFGKVFLAEFKKTNQFFAIKALKKDVVLMDDDVECTMVEKRVLSLAWEHPFLTHMFCTFQTKENLFFVMEYLNGGDLMYHIQSCHKFDLSRATFYAAEIILGLQFLHSKGIVYRDLKLDNILLDKDGHIKIADFGMCKENMLGDAKTNTFCGTPDYIAPEILLGQKYNHSVDWWSFGVLLYEMLIGQSPFHGQDEEELFHSIRMDNPFYPRWLEKEAKDLLVKLFVREPEKRLGVRGDIRQHPLFREINWEELERKEIDPPFRPKVKSPFDCSNFDKEFLNEKPRLSFADRALINSMDQNMFRNFSFMNPGMERLIS
+Q05513,PRKCZ,MPSRTGPKMEGSGGRVRLKAHYGGDIFITSVDAATTFEELCEEVRDMCRLHQQHPLTLKWVDSEGDPCTVSSQMELEEAFRLARQCRDEGLIIHVFPSTPEQPGLPCPGEDKSIYRRGARRWRKLYRANGHLFQAKRFNRRAYCGQCSERIWGLARQGYRCINCKLLVHKRCHGLVPLTCRKHMDSVMPSQEPPVDDKNEDADLPSEETDGIAYISSSRKHDSIKDDSEDLKPVIDGMDGIKISQGLGLQDFDLIRVIGRGSYAKVLLVRLKKNDQIYAMKVVKKELVHDDEDIDWVQTEKHVFEQASSNPFLVGLHSCFQTTSRLFLVIEYVNGGDLMFHMQRQRKLPEEHARFYAAEICIALNFLHERGIIYRDLKLDNVLLDADGHIKLTDYGMCKEGLGPGDTTSTFCGTPNYIAPEILRGEEYGFSVDWWALGVLMFEMMAGRSPFDIITDNPDMNTEDYLFQVILEKPIRIPRFLSVKASHVLKGFLNKDPKERLGCRPQTGFSDIKSHAFFRSIDWDLLEKKQALPPFQPQITDDYGLDNFDTQFTSEPVQLTPDDEDAIKRIDQSEFEGFEYINPLLLSTEESV
+P51817,PRKX,MEAPGLAQAAAAESDSRKVAEETPDGAPALCPSPEALSPEPPVYSLQDFDTLATVGTGTFGRVHLVKEKTAKHFFALKVMSIPDVIRLKQEQHVHNEKSVLKEVSHPFLIRLFWTWHDERFLYMLMEYVPGGELFSYLRNRGRFSSTTGLFYSAEIICAIEYLHSKEIVYRDLKPENILLDRDGHIKLTDFGFAKKLVDRTWTLCGTPEYLAPEVIQSKGHGRAVDWWALGILIFEMLSGFPPFFDDNPFGIYQKILAGKIDFPRHLDFHVKDLIKKLLVVDRTRRLGNMKNGANDVKHHRWFRSVDWEAVPQRKLKPPIVPKIAGDGDTSNFETYPENDWDTAAPVPQKDLEIFKNF
+Q9H422,HIPK3,MASQVLVYPPYVYQTQSSAFCSVKKLKVEPSSCVFQERNYPRTYVNGRNFGNSHPPTKGSAFQTKIPFNRPRGHNFSLQTSAVVLKNTAGATKVIAAQAQQAHVQAPQIGAWRNRLHFLEGPQRCGLKRKSEELDNHSSAMQIVDELSILPAMLQTNMGNPVTVVTATTGSKQNCTTGEGDYQLVQHEVLCSMKNTYEVLDFLGRGTFGQVVKCWKRGTNEIVAIKILKNHPSYARQGQIEVSILARLSTENADEYNFVRAYECFQHRNHTCLVFEMLEQNLYDFLKQNKFSPLPLKVIRPILQQVATALKKLKSLGLIHADLKPENIMLVDPVRQPYRVKVIDFGSASHVSKTVCSTYLQSRYYRAPEIILGLPFCEAIDMWSLGCVIAELFLGWPLYPGALEYDQIRYISQTQGLPGEQLLNVGTKSTRFFCKETDMSHSGWRLKTLEEHEAETGMKSKEARKYIFNSLDDVAHVNTVMDLEGSDLLAEKADRREFVSLLKKMLLIDADLRITPAETLNHPFVNMKHLLDFPHSNHVKSCFHIMDICKSHLNSCDTNNHNKTSLLRPVASSSTATLTANFTKIGTLRSQALTTSAHSVVHHGIPLQAGTAQFGCGDAFQQTLIICPPAIQGIPATHGKPTSYSIRVDNTVPLVTQAPAVQPLQIRPGVLSQTWSGRTQQMLVPAWQQVTPLAPATTTLTSESVAGSHRLGDWGKMISCSNHYNSVMPQPLLTNQITLSAPQPVSVGIAHVVWPQPATTKKNKQCQNRGILVKLMEWEPGREEINAFSWSNSLQNTNIPHSAFISPKIINGKDVEEVSCIETQDNQNSEGEARNCCETSIRQDSDSSVSDKQRQTIIIADSPSPAVSVITISSDTDEEETSQRHSLRECKGSLDCEACQSTLNIDRMCSLSSPDSTLSTSSSGQSSPSPCKRPNSMSDEEQESSCDTVDGSPTSDSSGHDSPFAESTFVEDTHENTELVSSADTETKPAVCSVVVPPVELENGLNADEHMANTDSICQPLIKGRSAPGRLNQPSAVGTRQQKLTSAFQQQHLNFSQVQHFGSGHQEWNGNFGHRRQQAYIPTSVTSNPFTLSHGSPNHTAVHAHLAGNTHLGGQPTLLPYPSSATLSSAAPVAHLLASPCTSRPMLQHPTYNISHPSGIVHQVPVGLNPRLLPSPTIHQTQYKPIFPPHSYIAASPAYTGFPLSPTKLSQYPYM
+P53350,PLK1,MSAAVTAGKLARAPADPGKAGVPGVAAPGAPAAAPPAKEIPEVLVDPRSRRRYVRGRFLGKGGFAKCFEISDADTKEVFAGKIVPKSLLLKPHQREKMSMEISIHRSLAHQHVVGFHGFFEDNDFVFVVLELCRRRSLLELHKRRKALTEPEARYYLRQIVLGCQYLHRNRVIHRDLKLGNLFLNEDLEVKIGDFGLATKVEYDGERKKTLCGTPNYIAPEVLSKKGHSFEVDVWSIGCIMYTLLVGKPPFETSCLKETYLRIKKNEYSIPKHINPVAASLIQKMLQTDPTARPTINELLNDEFFTSGYIPARLPITCLTIPPRFSIAPSSLDPSNRKPLTVLNKGLENPLPERPREKEEPVVRETGEVVDCHLSDMLQQLHSVNASKPSERGLVRQEEAEDPACIPIFWVSKWVDYSDKYGLGYQLCDNSVGVLFNDSTRLILYNDGDSLQYIERDGTESYLTVSSHPNSLMKKITLLKYFRNYMSEHLLKAGANITPREGDELARLPYLRTWFRTRSAIILHLSNGSVQINFFQDHTKLILCPLMAAVTYIDEKRDFRTYRLSLLEEYGCCKELASRLRYARTMVDKLLSSRSASNRLKAS
+Q9H4B4,PLK3,MEPAAGFLSPRPFQRAAAAPAPPAGPGPPPSALRGPELEMLAGLPTSDPGRLITDPRSGRTYLKGRLLGKGGFARCYEATDTETGSAYAVKVIPQSRVAKPHQREKILNEIELHRDLQHRHIVRFSHHFEDADNIYIFLELCSRKSLAHIWKARHTLLEPEVRYYLRQILSGLKYLHQRGILHRDLKLGNFFITENMELKVGDFGLAARLEPPEQRKKTICGTPNYVAPEVLLRQGHGPEADVWSLGCVMYTLLCGSPPFETADLKETYRCIKQVHYTLPASLSLPARQLLAAILRASPRDRPSIDQILRHDFFTKGYTPDRLPISSCVTVPDLTPPNPARSLFAKVTKSLFGRKKKSKNHAQERDEVSGLVSGLMRTSVGHQDARPEAPAASGPAPVSLVETAPEDSSPRGTLASSGDGFEEGLTVATVVESALCALRNCIAFMPPAEQNPAPLAQPEPLVWVSKWVDYSNKFGFGYQLSSRRVAVLFNDGTHMALSANRKTVHYNPTSTKHFSFSVGAVPRALQPQLGILRYFASYMEQHLMKGGDLPSVEEVEVPAPPLLLQWVKTDQALLMLFSDGTVQVNFYGDHTKLILSGWEPLLVTFVARNRSACTYLASHLRQLGCSPDLRQRLRYALRLLRDRSPA
+Q16512,PKN1,MASDAVQSEPRSWSLLEQLGLAGADLAAPGVQQQLELERERLRREIRKELKLKEGAENLRRATTDLGRSLGPVELLLRGSSRRLDLLHQQLQELHAHVVLPDPAATHDGPQSPGAGGPTCSATNLSRVAGLEKQLAIELKVKQGAENMIQTYSNGSTKDRKLLLTAQQMLQDSKTKIDIIRMQLRRALQAGQLENQAAPDDTQGSPDLGAVELRIEELRHHFRVEHAVAEGAKNVLRLLSAAKAPDRKAVSEAQEKLTESNQKLGLLREALERRLGELPADHPKGRLLREELAAASSAAFSTRLAGPFPATHYSTLCKPAPLTGTLEVRVVGCRDLPETIPWNPTPSMGGPGTPDSRPPFLSRPARGLYSRSGSLSGRSSLKAEAENTSEVSTVLKLDNTVVGQTSWKPCGPNAWDQSFTLELERARELELAVFWRDQRGLCALKFLKLEDFLDNERHEVQLDMEPQGCLVAEVTFRNPVIERIPRLRRQKKIFSKQQGKAFQRARQMNIDVATWVRLLRRLIPNATGTGTFSPGASPGSEARTTGDISVEKLNLGTDSDSSPQKSSRDPPSSPSSLSSPIQESTAPELPSETQETPGPALCSPLRKSPLTLEDFKFLAVLGRGHFGKVLLSEFRPSGELFAIKALKKGDIVARDEVESLMCEKRILAAVTSAGHPFLVNLFGCFQTPEHVCFVMEYSAGGDLMLHIHSDVFSEPRAIFYSACVVLGLQFLHEHKIVYRDLKLDNLLLDTEGYVKIADFGLCKEGMGYGDRTSTFCGTPEFLAPEVLTDTSYTRAVDWWGLGVLLYEMLVGESPFPGDDEEEVFDSIVNDEVRYPRFLSAEAIGIMRRLLRRNPERRLGSSERDAEDVKKQPFFRTLGWEALLARRLPPPFVPTLSGRTDVSNFDEEFTGEAPTLSPPRDARPLTAAEQAAFLDFDFVAGGC
+Q16513,PKN2,MASNPERGEILLTELQGDSRSLPFSENVSAVQKLDFSDTMVQQKLDDIKDRIKREIRKELKIKEGAENLRKVTTDKKSLAYVDNILKKSNKKLEELHHKLQELNAHIVVSDPEDITDCPRTPDTPNNDPRCSTSNNRLKALQKQLDIELKVKQGAENMIQMYSNGSSKDRKLHGTAQQLLQDSKTKIEVIRMQILQAVQTNELAFDNAKPVISPLELRMEELRHHFRIEFAVAEGAKNVMKLLGSGKVTDRKALSEAQARFNESSQKLDLLKYSLEQRLNEVPKNHPKSRIIIEELSLVAASPTLSPRQSMISTQNQYSTLSKPAALTGTLEVRLMGCQDILENVPGRSKATSVALPGWSPSETRSSFMSRTSKSKSGSSRNLLKTDDLSNDVCAVLKLDNTVVGQTSWKPISNQSWDQKFTLELDRSRELEISVYWRDWRSLCAVKFLRLEDFLDNQRHGMCLYLEPQGTLFAEVTFFNPVIERRPKLQRQKKIFSKQQGKTFLRAPQMNINIATWGRLVRRAIPTVNHSGTFSPQAPVPTTVPVVDVRIPQLAPPASDSTVTKLDFDLEPEPPPAPPRASSLGEIDESSELRVLDIPGQDSETVFDIQNDRNSILPKSQSEYKPDTPQSGLEYSGIQELEDRRSQQRFQFNLQDFRCCAVLGRGHFGKVLLAEYKNTNEMFAIKALKKGDIVARDEVDSLMCEKRIFETVNSVRHPFLVNLFACFQTKEHVCFVMEYAAGGDLMMHIHTDVFSEPRAVFYAACVVLGLQYLHEHKIVYRDLKLDNLLLDTEGFVKIADFGLCKEGMGYGDRTSTFCGTPEFLAPEVLTETSYTRAVDWWGLGVLIYEMLVGESPFPGDDEEEVFDSIVNDEVRYPRFLSTEAISIMRRLLRRNPERRLGASEKDAEDVKKHPFFRLIDWSALMDKKVKPPFIPTIRGREDVSNFDDEFTSEAPILTPPREPRILSEEEQEMFRDFDYIADWC
+O43930,PRKY,MEAPGPAQAAAAESNSREVTEDAADWAPALCPSPEARSPEAPAYRLQDCDALVTMGTGTFGRVHLVKEKTAKHFFALKVMSIPDVIRRKQEQHVHNEKSVLKEVSHPFLIRLFWTWHEERFLYMLMEYVPGGELFSYLRNRGHFSSTTGLFYSAEIICAIEYLHSKEIVYRDLKPENILLDRDGHIKLTDFGFAKKLVDRTWTLCGTPEYLAPEVIQSKGHGRAVDWWALGILIFEMLSGFPPFFDDNPFGIYQKILAGKLYFPRHLDFHVKTGRMM
+Q13523,PRPF4B,MAAAETQSLREQPEMEDANSEKSINEENGEVSEDQSQNKHSRHKKKKHKHRSKHKKHKHSSEEDKDKKHKHKHKHKKHKRKEIIDASDKEGMSPAKRTKLDDLALLEDLEKQRALIKAELDNELMEGKVQSGMGLILQGYESGSEEEGEIHEKARNGNRSSTRSSSTKGKLELVDNKITTKKRSKSRSKERTRHRSDKKKSKGGIEIVKEKTTRSKSKERKKSKSPSKRSKSQDQARKSKSPTLRRRSQEKIGKARSPTDDKVKIEDKSKSKDRKKSPIINESRSRDRGKKSRSPVDLRGKSKDRRSRSKERKSKRSETDKEKKPIKSPSKDASSGKENRSPSRRPGRSPKRRSLSPKPRDKSRRSRSPLLNDRRSKQSKSPSRTLSPGRRAKSRSLERKRREPERRRLSSPRTRPRDDILSRRERSKDASPINRWSPTRRRSRSPIRRRSRSPLRRSRSPRRRSRSPRRRDRGRRSRSRLRRRSRSRGGRRRRSRSKVKEDKFKGSLSEGMKVEQESSSDDNLEDFDVEEEDEEALIEQRRIQRQAIVQKYKYLAEDSNMSVPSEPSSPQSSTRTRSPSPDDILERVAADVKEYERENVDTFEASVKAKHNLMTVEQNNGSSQKKLLAPDMFTESDDMFAAYFDSARLRAAGIGKDFKENPNLRDNWTDAEGYYRVNIGEVLDKRYNVYGYTGQGVFSNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLFRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADNDITPYLVSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVDKVTEREKVTVMSTINPTKDLLADLIGCQRLPEDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQEKI
+P11801,PSKH1,MGCGTSKVLPEPPKDVQLDLVKKVEPFSGTKSDVYKHFITEVDSVGPVKAGFPAASQYAHPCPGPPTAGHTEPPSEPPRRARVAKYRAKFDPRVTAKYDIKALIGRGSFSRVVRVEHRATRQPYAIKMIETKYREGREVCESELRVLRRVRHANIIQLVEVFETQERVYMVMELATGGELFDRIIAKGSFTERDATRVLQMVLDGVRYLHALGITHRDLKPENLLYYHPGTDSKIIITDFGLASARKKGDDCLMKTTCGTPEYIAPEVLVRKPYTNSVDMWALGVIAYILLSGTMPFEDDNRTRLYRQILRGKYSYSGEPWPSVSNLAKDFIDRLLTVDPGARMTALQALRHPWVVSMAASSSMKNLHRSISQNLLKRASSRCQSTKSAQSTRSSRSTRSNKSRRVRERELRELNLRYQQQYNG
+P04049,RAF1,MEHIQGAWKTISNGFGFKDAVFDGSSCISPTIVQQFGYQRRASDDGKLTDPSKTSNTIRVFLPNKQRTVVNVRNGMSLHDCLMKALKVRGLQPECCAVFRLLHEHKGKKARLDWNTDAASLIGEELQVDFLDHVPLTTHNFARKTFLKLAFCDICQKFLLNGFRCQTCGYKFHEHCSTKVPTMCVDWSNIRQLLLFPNSTIGDSGVPALPSLTMRRMRESVSRMPVSSQHRYSTPHAFTFNTSSPSSEGSLSQRQRSTSTPNVHMVSTTLPVDSRMIEDAIRSHSESASPSALSSSPNNLSPTGWSQPKTPVPAQRERAPVSGTQEKNKIRPRGQRDSSYYWEIEASEVMLSTRIGSGSFGTVYKGKWHGDVAVKILKVVDPTPEQFQAFRNEVAVLRKTRHVNILLFMGYMTKDNLAIVTQWCEGSSLYKHLHVQETKFQMFQLIDIARQTAQGMDYLHAKNIIHRDMKSNNIFLHEGLTVKIGDFGLATVKSRWSGSQQVEQPTGSVLWMAPEVIRMQDNNPFSFQSDVYSYGIVLYELMTGELPYSHINNRDQIIFMVGRGYASPDLSKLYKNCPKAMKRLVADCVKKVKEERPLFPQILSSIELLQHSLPKINRSASEPSLHRAAHTEDINACTLTTSPRLPVF
+P07949,RET,MAKATSGAAGLRLLLLLLLPLLGKVALGLYFSRDAYWEKLYVDQAAGTPLLYVHALRDAPEEVPSFRLGQHLYGTYRTRLHENNWICIQEDTGLLYLNRSLDHSSWEKLSVRNRGFPLLTVYLKVFLSPTSLREGECQWPGCARVYFSFFNTSFPACSSLKPRELCFPETRPSFRIRENRPPGTFHQFRLLPVQFLCPNISVAYRLLEGEGLPFRCAPDSLEVSTRWALDREQREKYELVAVCTVHAGAREEVVMVPFPVTVYDEDDSAPTFPAGVDTASAVVEFKRKEDTVVATLRVFDADVVPASGELVRRYTSTLLPGDTWAQQTFRVEHWPNETSVQANGSFVRATVHDYRLVLNRNLSISENRTMQLAVLVNDSDFQGPGAGVLLLHFNVSVLPVSLHLPSTYSLSVSRRARRFAQIGKVCVENCQAFSGINVQYKLHSSGANCSTLGVVTSAEDTSGILFVNDTKALRRPKCAELHYMVVATDQQTSRQAQAQLLVTVEGSYVAEEAGCPLSCAVSKRRLECEECGGLGSPTGRCEWRQGDGKGITRNFSTCSPSTKTCPDGHCDVVETQDINICPQDCLRGSIVGGHEPGEPRGIKAGYGTCNCFPEEEKCFCEPEDIQDPLCDELCRTVIAAAVLFSFIVSVLLSAFCIHCYHKFAHKPPISSAEMTFRRPAQAFPVSYSSSGARRPSLDSMENQVSVDAFKILEDPKWEFPRKNLVLGKTLGEGEFGKVVKATAFHLKGRAGYTTVAVKMLKENASPSELRDLLSEFNVLKQVNHPHVIKLYGACSQDGPLLLIVEYAKYGSLRGFLRESRKVGPGYLGSGGSRNSSSLDHPDERALTMGDLISFAWQISQGMQYLAEMKLVHRDLAARNILVAEGRKMKISDFGLSRDVYEEDSYVKRSQGRIPVKWMAIESLFDHIYTTQSDVWSFGVLLWEIVTLGGNPYPGIPPERLFNLLKTGHRMERPDNCSEEMYRLMLQCWKQEPDKRPVFADISKDLEKMMVKRRDYLDLAASTPSDSLIYDDGLSEEETPLVDCNNAPLPRALPSTWIENKLYGMSDPNWPGESPVPLTRADGTNTGFPRYPNDSVYANWMLSPSAAKLMDTFDS
+Q15835,GRK1,MDFGSLETVVANSAFIAARGSFDGSSSQPSRDKKYLAKLKLPPLSKCESLRDSLSLEFESVCLEQPIGKKLFQQFLQSAEKHLPALELWKDIEDYDTADNDLQPQKAQTILAQYLDPQAKLFCSFLDEGIVAKFKEGPVEIQDGLFQPLLQATLAHLGQAPFQEYLGSLYFLRFLQWKWLEAQPMGEDWFLDFRVLGKGGFGEVSACQMKATGKLYACKKLNKKRLKKRKGYQGAMVEKKILMKVHSRFIVSLAYAFETKADLCLVMTIMNGGDIRYHIYNVNEENPGFPEPRALFYTAQIICGLEHLHQRRIVYRDLKPENVLLDNDGNVRISDLGLAVELLDGQSKTKGYAGTPGFMAPELLQGEEYDFSVDYFALGVTLYEMIAARGPFRARGEKVENKELKHRIISEPVKYPDKFSQASKDFCEALLEKDPEKRLGFRDETCDKLRAHPLFKDLNWRQLEAGMLMPPFIPDSKTVYAKDIQDVGAFSTVKGVAFDKTDTEFFQEFATGNCPIPWQEEMIETGIFGELNVWRSDGQMPDDMKGISGGSSSSSKSGMCLVS
+Q13546,RIPK1,MQPDMSLNVIKMKSSDFLESAELDSGGFGKVSLCFHRTQGLMIMKTVYKGPNCIEHNEALLEEAKMMNRLRHSRVVKLLGVIIEEGKYSLVMEYMEKGNLMHVLKAEMSTPLSVKGRIILEIIEGMCYLHGKGVIHKDLKPENILVDNDFHIKIADLGLASFKMWSKLNNEEHNELREVDGTAKKNGGTLYYMAPEHLNDVNAKPTEKSDVYSFAVVLWAIFANKEPYENAICEQQLIMCIKSGNRPDVDDITEYCPREIISLMKLCWEANPEARPTFPGIEEKFRPFYLSQLEESVEEDVKSLKKEYSNENAVVKRMQSLQLDCVAVPSSRSNSATEQPGSLHSSQGLGMGPVEESWFAPSLEHPQEENEPSLQSKLQDEANYHLYGSRMDRQTKQQPRQNVAYNREEERRRRVSHDPFAQQRPYENFQNTEGKGTAYSSAASHGNAVHQPSGLTSQPQVLYQNNGLYSSHGFGTRPLDPGTAGPRVWYRPIPSHMPSLHNIPVPETNYLGNTPTMPFSSLPPTDESIKYTIYNSTGIQIGAYNYMEIGGTSSSLLDSTNTNFKEEPAAKYQAIFDNTTSLTDKHLDPIRENLGKHWKNCARKLGFTQSQIDEIDHDYERDGLKEKVYQMLQKWVMREGIKGATVGKLAQALHQCSRIDLLSSLIYVSQN
+O43353,RIPK2,MNGEAICSALPTIPYHKLADLRYLSRGASGTVSSARHADWRVQVAVKHLHIHTPLLDSERKDVLREAEILHKARFSYILPILGICNEPEFLGIVTEYMPNGSLNELLHRKTEYPDVAWPLRFRILHEIALGVNYLHNMTPPLLHHDLKTQNILLDNEFHVKIADFGLSKWRMMSLSQSRSSKSAPEGGTIIYMPPENYEPGQKSRASIKHDIYSYAVITWEVLSRKQPFEDVTNPLQIMYSVSQGHRPVINEESLPYDIPHRARMISLIESGWAQNPDERPSFLKCLIELEPVLRTFEEITFLEAVIQLKKTKLQSVSSAIHLCDKKKMELSLNIPVNHGPQEESCGSSQLHENSGSPETSRSLPAPQDNDFLSRKAQDCYFMKLHHCPGNHSWDSTISGSQRAAFCDHKTTPCSSAIINPLSTAGNSERLQPGIAQQWIQSKREDIVNQMTEACLNQSLDALLSRDLIMKEDYELVSTKPTRTSKVRQLLDTTDIQGEEFAKVIVQKLKDNKQMGLQPYPEILVVSRSPSLNLLQNKSM
+Q9Y572,RIPK3,MSCVKLWPSGAPAPLVSIEELENQELVGKGGFGTVFRAQHRKWGYDVAVKIVNSKAISREVKAMASLDNEFVLRLEGVIEKVNWDQDPKPALVTKFMENGSLSGLLQSQCPRPWPLLCRLLKEVVLGMFYLHDQNPVLLHRDLKPSNVLLDPELHVKLADFGLSTFQGGSQSGTGSGEPGGTLGYLAPELFVNVNRKASTASDVYSFGILMWAVLAGREVELPTEPSLVYEAVCNRQNRPSLAELPQAGPETPGLEGLKELMQLCWSSEPKDRPSFQECLPKTDEVFQMVENNMNAAVSTVKDFLSQLRSSNRRFSIPESGQGGTEMDGFRRTIENQHSRNDVMVSEWLNKLNLEEPPSSVPKKCPSLTKRSRAQEEQVPQAWTAGTSSDSMAQPPQTPETSTFRNQMPSPTSTGTPSPGPRGNQGAERQGMNWSCRTPEPNPVTGRPLVNIYNCSGVQVGDNNYLTMQQTTALPTWGLAPSGKGRGLQHPPPVGSQEGPKDPEAWSRPQGWYNHSGK
+Q13464,ROCK1,MSTGDSFETRFEKMDNLLRDPKSEVNSDCLLDGLDALVYDLDFPALRKNKNIDNFLSRYKDTINKIRDLRMKAEDYEVVKVIGRGAFGEVQLVRHKSTRKVYAMKLLSKFEMIKRSDSAFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWARFYTAEVVLALDAIHSMGFIHRDVKPDNMLLDKSGHLKLADFGTCMKMNKEGMVRCDTAVGTPDYISPEVLKSQGGDGYYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMNHKNSLTFPDDNDISKEAKNLICAFLTDREVRLGRNGVEEIKRHLFFKNDQWAWETLRDTVAPVVPDLSSDIDTSNFDDLEEDKGEEETFPIPKAFVGNQLPFVGFTYYSNRRYLSSANPNDNRTSSNADKSLQESLQKTIYKLEEQLHNEMQLKDEMEQKCRTSNIKLDKIMKELDEEGNQRRNLESTVSQIEKEKMLLQHRINEYQRKAEQENEKRRNVENEVSTLKDQLEDLKKVSQNSQLANEKLSQLQKQLEEANDLLRTESDTAVRLRKSHTEMSKSISQLESLNRELQERNRILENSKSQTDKDYYQLQAILEAERRDRGHDSEMIGDLQARITSLQEEVKHLKHNLEKVEGERKEAQDMLNHSEKEKNNLEIDLNYKLKSLQQRLEQEVNEHKVTKARLTDKHQSIEEAKSVAMCEMEKKLKEEREAREKAENRVVQIEKQCSMLDVDLKQSQQKLEHLTGNKERMEDEVKNLTLQLEQESNKRLLLQNELKTQAFEADNLKGLEKQMKQEINTLLEAKRLLEFELAQLTKQYRGNEGQMRELQDQLEAEQYFSTLYKTQVKELKEEIEEKNRENLKKIQELQNEKETLATQLDLAETKAESEQLARGLLEEQYFELTQESKKAASRNRQEITDKDHTVSRLEEANSMLTKDIEILRRENEELTEKMKKAEEEYKLEKEEEISNLKAAFEKNINTERTLKTQAVNKLAEIMNRKDFKIDRKKANTQDLRKKEKENRKLQLELNQEREKFNQMVVKHQKELNDMQAQLVEECAHRNELQMQLASKESDIEQLRAKLLDLSDSTSVASFPSADETDGNLPESRIEGWLSVPNRGNIKRYGWKKQYVVVSSKKILFYNDEQDKEQSNPSMVLDIDKLFHVRPVTQGDVYRAETEEIPKIFQILYANEGECRKDVEMEPVQQAEKTNFQNHKGHEFIPTLYHFPANCDACAKPLWHVFKPPPALECRRCHVKCHRDHLDKKEDLICPCKVSYDVTSARDMLLLACSQDEQKKWVTHLVKKIPKNPPSGFVRASPRTLSTRSTANQSFRKVVKNTSGKTS
+Q04912,MST1R,MELLPPLPQSFLLLLLLPAKPAAGEDWQCPRTPYAASRDFDVKYVVPSFSAGGLVQAMVTYEGDRNESAVFVAIRNRLHVLGPDLKSVQSLATGPAGDPGCQTCAACGPGPHGPPGDTDTKVLVLDPALPALVSCGSSLQGRCFLHDLEPQGTAVHLAAPACLFSAHHNRPDDCPDCVASPLGTRVTVVEQGQASYFYVASSLDAAVAASFSPRSVSIRRLKADASGFAPGFVALSVLPKHLVSYSIEYVHSFHTGAFVYFLTVQPASVTDDPSALHTRLARLSATEPELGDYRELVLDCRFAPKRRRRGAPEGGQPYPVLRVAHSAPVGAQLATELSIAEGQEVLFGVFVTGKDGGPGVGPNSVVCAFPIDLLDTLIDEGVERCCESPVHPGLRRGLDFFQSPSFCPNPPGLEALSPNTSCRHFPLLVSSSFSRVDLFNGLLGPVQVTALYVTRLDNVTVAHMGTMDGRILQVELVRSLNYLLYVSNFSLGDSGQPVQRDVSRLGDHLLFASGDQVFQVPIQGPGCRHFLTCGRCLRAWHFMGCGWCGNMCGQQKECPGSWQQDHCPPKLTEFHPHSGPLRGSTRLTLCGSNFYLHPSGLVPEGTHQVTVGQSPCRPLPKDSSKLRPVPRKDFVEEFECELEPLGTQAVGPTNVSLTVTNMPPGKHFRVDGTSVLRGFSFMEPVLIAVQPLFGPRAGGTCLTLEGQSLSVGTSRAVLVNGTECLLARVSEGQLLCATPPGATVASVPLSLQVGGAQVPGSWTFQYREDPVVLSISPNCGYINSHITICGQHLTSAWHLVLSFHDGLRAVESRCERQLPEQQLCRLPEYVVRDPQGWVAGNLSARGDGAAGFTLPGFRFLPPPHPPSANLVPLKPEEHAIKFEYIGLGAVADCVGINVTVGGESCQHEFRGDMVVCPLPPSLQLGQDGAPLQVCVDGECHILGRVVRPGPDGVPQSTLLGILLPLLLLVAALATALVFSYWWRRKQLVLPPNLNDLASLDQTAGATPLPILYSGSDYRSGLALPAIDGLDSTTCVHGASFSDSEDESCVPLLRKESIQLRDLDSALLAEVKDVLIPHERVVTHSDRVIGKGHFGVVYHGEYIDQAQNRIQCAIKSLSRITEMQQVEAFLREGLLMRGLNHPNVLALIGIMLPPEGLPHVLLPYMCHGDLLQFIRSPQRNPTVKDLISFGLQVARGMEYLAEQKFVHRDLAARNCMLDESFTVKVADFGLARDILDREYYSVQQHRHARLPVKWMALESLQTYRFTTKSDVWSFGVLLWELLTRGAPPYRHIDPFDLTHFLAQGRRLPQPEYCPDSLYQVMQQCWEADPAVRPTFRVLVGEVEQIVSALLGDHYVQLPATYMNLGPSTSHEMNVRPEQPQFSPMPGNVRRPRPLSEPPRPT
+Q01973,ROR1,MHRPRRRGTRPPLLALLAALLLAARGAAAQETELSVSAELVPTSSWNISSELNKDSYLTLDEPMNNITTSLGQTAELHCKVSGNPPPTIRWFKNDAPVVQEPRRLSFRSTIYGSRLRIRNLDTTDTGYFQCVATNGKEVVSSTGVLFVKFGPPPTASPGYSDEYEEDGFCQPYRGIACARFIGNRTVYMESLHMQGEIENQITAAFTMIGTSSHLSDKCSQFAIPSLCHYAFPYCDETSSVPKPRDLCRDECEILENVLCQTEYIFARSNPMILMRLKLPNCEDLPQPESPEAANCIRIGIPMADPINKNHKCYNSTGVDYRGTVSVTKSGRQCQPWNSQYPHTHTFTALRFPELNGGHSYCRNPGNQKEAPWCFTLDENFKSDLCDIPACDSKDSKEKNKMEILYILVPSVAIPLAIALLFFFICVCRNNQKSSSAPVQRQPKHVRGQNVEMSMLNAYKPKSKAKELPLSAVRFMEELGECAFGKIYKGHLYLPGMDHAQLVAIKTLKDYNNPQQWTEFQQEASLMAELHHPNIVCLLGAVTQEQPVCMLFEYINQGDLHEFLIMRSPHSDVGCSSDEDGTVKSSLDHGDFLHIAIQIAAGMEYLSSHFFVHKDLAARNILIGEQLHVKISDLGLSREIYSADYYRVQSKSLLPIRWMPPEAIMYGKFSSDSDIWSFGVVLWEIFSFGLQPYYGFSNQEVIEMVRKRQLLPCSEDCPPRMYSLMTECWNEIPSRRPRFKDIHVRLRSWEGLSSHTSSTTPSGGNATTQTTSLSASPVSNLSNPRYPNYMFPSQGITPQGQIAGFIGPPIPQNQRFIPINGYPIPPGYAAFPAAHYQPTGPPRVIQHCPPPKSRSPSSASGSTSTGHVTSLPSSGSNQEANIPLLPHMSIPNHPGGMGITVFGNKSQKPYKIDSKQASLLGDANIHGHTESMISAEL
+Q01974,ROR2,MARGSALPRRPLLCIPAVWAAAALLLSVSRTSGEVEVLDPNDPLGPLDGQDGPIPTLKGYFLNFLEPVNNITIVQGQTAILHCKVAGNPPPNVRWLKNDAPVVQEPRRIIIRKTEYGSRLRIQDLDTTDTGYYQCVATNGMKTITATGVLFVRLGPTHSPNHNFQDDYHEDGFCQPYRGIACARFIGNRTIYVDSLQMQGEIENRITAAFTMIGTSTHLSDQCSQFAIPSFCHFVFPLCDARSRTPKPRELCRDECEVLESDLCRQEYTIARSNPLILMRLQLPKCEALPMPESPDAANCMRIGIPAERLGRYHQCYNGSGMDYRGTASTTKSGHQCQPWALQHPHSHHLSSTDFPELGGGHAYCRNPGGQMEGPWCFTQNKNVRMELCDVPSCSPRDSSKMGILYILVPSIAIPLVIACLFFLVCMCRNKQKASASTPQRRQLMASPSQDMEMPLINQHKQAKLKEISLSAVRFMEELGEDRFGKVYKGHLFGPAPGEQTQAVAIKTLKDKAEGPLREEFRHEAMLRARLQHPNVVCLLGVVTKDQPLSMIFSYCSHGDLHEFLVMRSPHSDVGSTDDDRTVKSALEPPDFVHLVAQIAAGMEYLSSHHVVHKDLATRNVLVYDKLNVKISDLGLFREVYAADYYKLLGNSLLPIRWMAPEAIMYGKFSIDSDIWSYGVVLWEVFSYGLQPYCGYSNQDVVEMIRNRQVLPCPDDCPAWVYALMIECWNEFPSRRPRFKDIHSRLRAWGNLSNYNSSAQTSGASNTTQTSSLSTSPVSNVSNARYVGPKQKAPPFPQPQFIPMKGQIRPMVPPPQLYVPVNGYQPVPAYGAYLPNFYPVQIPMQMAPQQVPPQMVPKPSSHHSGSGSTSTGYVTTAPSNTSMADRAALLSEGADDTQNAPEDGAQSTVQEAEEEEEGSVPETELLGDCDTLQVDEAQVQLEA
+P08922,ROS1,MKNIYCLIPKLVNFATLGCLWISVVQCTVLNSCLKSCVTNLGQQLDLGTPHNLSEPCIQGCHFWNSVDQKNCALKCRESCEVGCSSAEGAYEEEVLENADLPTAPFASSIGSHNMTLRWKSANFSGVKYIIQWKYAQLLGSWTYTKTVSRPSYVVKPLHPFTEYIFRVVWIFTAQLQLYSPPSPSYRTHPHGVPETAPLIRNIESSSPDTVEVSWDPPQFPGGPILGYNLRLISKNQKLDAGTQRTSFQFYSTLPNTIYRFSIAAVNEVGEGPEAESSITTSSSAVQQEEQWLFLSRKTSLRKRSLKHLVDEAHCLRLDAIYHNITGISVDVHQQIVYFSEGTLIWAKKAANMSDVSDLRIFYRGSGLISSISIDWLYQRMYFIMDELVCVCDLENCSNIEEITPPSISAPQKIVADSYNGYVFYLLRDGIYRADLPVPSGRCAEAVRIVESCTLKDFAIKPQAKRIIYFNDTAQVFMSTFLDGSASHLILPRIPFADVKSFACENNDFLVTDGKVIFQQDALSFNEFIVGCDLSHIEEFGFGNLVIFGSSSQLHPLPGRPQELSVLFGSHQALVQWKPPALAIGANVILISDIIELFELGPSAWQNWTYEVKVSTQDPPEVTHIFLNISGTMLNVPELQSAMKYKVSVRASSPKRPGPWSEPSVGTTLVPASEPPFIMAVKEDGLWSKPLNSFGPGEFLSSDIGNVSDMDWYNNSLYYSDTKGDVFVWLLNGTDISENYHLPSIAGAGALAFEWLGHFLYWAGKTYVIQRQSVLTGHTDIVTHVKLLVNDMVVDSVGGYLYWTTLYSVESTRLNGESSLVLQTQPWFSGKKVIALTLDLSDGLLYWLVQDSQCIHLYTAVLRGQSTGDTTITEFAAWSTSEISQNALMYYSGRLFWINGFRIITTQEIGQKTSVSVLEPARFNQFTIIQTSLKPLPGNFSFTPKVIPDSVQESSFRIEGNASSFQILWNGPPAVDWGVVFYSVEFSAHSKFLASEQHSLPVFTVEGLEPYALFNLSVTPYTYWGKGPKTSLSLRAPETVPSAPENPRIFILPSGKCCNKNEVVVEFRWNKPKHENGVLTKFEIFYNISNQSITNKTCEDWIAVNVTPSVMSFQLEGMSPRCFIAFQVRAFTSKGPGPYADVVKSTTSEINPFPHLITLLGNKIVFLDMDQNQVVWTFSAERVISAVCYTADNEMGYYAEGDSLFLLHLHNRSSSELFQDSLVFDITVITIDWISRHLYFALKESQNGMQVFDVDLEHKVKYPREVKIHNRNSTIISFSVYPLLSRLYWTEVSNFGYQMFYYSIISHTLHRILQPTATNQQNKRNQCSCNVTEFELSGAMAIDTSNLEKPLIYFAKAQEIWAMDLEGCQCWRVITVPAMLAGKTLVSLTVDGDLIYWIITAKDSTQIYQAKKGNGAIVSQVKALRSRHILAYSSVMQPFPDKAFLSLASDTVEPTILNATNTSLTIRLPLAKTNLTWYGITSPTPTYLVYYAEVNDRKNSSDLKYRILEFQDSIALIEDLQPFSTYMIQIAVKNYYSDPLEHLPPGKEIWGKTKNGVPEAVQLINTTVRSDTSLIISWRESHKPNGPKESVRYQLAISHLALIPETPLRQSEFPNGRLTLLVTRLSGGNIYVLKVLACHSEEMWCTESHPVTVEMFNTPEKPYSLVPENTSLQFNWKAPLNVNLIRFWVELQKWKYNEFYHVKTSCSQGPAYVCNITNLQPYTSYNVRVVVVYKTGENSTSLPESFKTKAGVPNKPGIPKLLEGSKNSIQWEKAEDNGCRITYYILEIRKSTSNNLQNQNLRWKMTFNGSCSSVCTWKSKNLKGIFQFRVVAANNLGFGEYSGISENIILVGDDFWIPETSFILTIIVGIFLVVTIPLTFVWHRRLKNQKSAKEGVTVLINEDKELAELRGLAAGVGLANACYAIHTLPTQEEIENLPAFPREKLTLRLLLGSGAFGEVYEGTAVDILGVGSGEIKVAVKTLKKGSTDQEKIEFLKEAHLMSKFNHPNILKQLGVCLLNEPQYIILELMEGGDLLTYLRKARMATFYGPLLTLVDLVDLCVDISKGCVYLERMHFIHRDLAARNCLVSVKDYTSPRIVKIGDFGLARDIYKNDYYRKRGEGLLPVRWMAPESLMDGIFTTQSDVWSFGILIWEILTLGHQPYPAHSNLDVLNYVQTGGRLEPPRNCPDDLWNLMTQCWAQEPDQRPTFHRIQDQLQLFRNFFLNSIYKSRDEANNSGVINESFEGEDGDVICLNSDDIMPVALMETKNREGLNYMVLATECGQGEEKSEGPLGSQESESCGLRKEEKEPHADKDFCQEKQVAYCPSGKPEGLNYACLTHSGYGDGSD
+Q15349,RPS6KA2,MDLSMKKFAVRRFFSVYLRRKSRSKSSSLSRLEEEGVVKEIDISHHVKEGFEKADPSQFELLKVLGQGSYGKVFLVRKVKGSDAGQLYAMKVLKKATLKVRDRVRSKMERDILAEVNHPFIVKLHYAFQTEGKLYLILDFLRGGDLFTRLSKEVMFTEEDVKFYLAELALALDHLHSLGIIYRDLKPENILLDEEGHIKITDFGLSKEAIDHDKRAYSFCGTIEYMAPEVVNRRGHTQSADWWSFGVLMFEMLTGSLPFQGKDRKETMALILKAKLGMPQFLSGEAQSLLRALFKRNPCNRLGAGIDGVEEIKRHPFFVTIDWNTLYRKEIKPPFKPAVGRPEDTFHFDPEFTARTPTDSPGVPPSANAHHLFRGFSFVASSLIQEPSQQDLHKVPVHPIVQQLHGNNIHFTDGYEIKEDIGVGSYSVCKRCVHKATDTEYAVKIIDKSKRDPSEEIEILLRYGQHPNIITLKDVYDDGKFVYLVMELMRGGELLDRILRQRYFSEREASDVLCTITKTMDYLHSQGVVHRDLKPSNILYRDESGSPESIRVCDFGFAKQLRAGNGLLMTPCYTANFVAPEVLKRQGYDAACDIWSLGILLYTMLAGFTPFANGPDDTPEEILARIGSGKYALSGGNWDSISDAAKDVVSKMLHVDPHQRLTAMQVLKHPWVVNREYLSPNQLSRQDVHLVKGAMAATYFALNRTPQAPRLEPVLSSNLAQRRGMKRLTSTRL
+P51812,RPS6KA3,MPLAQLADPWQKMAVESPSDSAENGQQIMDEPMGEEEINPQTEEVSIKEIAITHHVKEGHEKADPSQFELLKVLGQGSFGKVFLVKKISGSDARQLYAMKVLKKATLKVRDRVRTKMERDILVEVNHPFIVKLHYAFQTEGKLYLILDFLRGGDLFTRLSKEVMFTEEDVKFYLAELALALDHLHSLGIIYRDLKPENILLDEEGHIKLTDFGLSKESIDHEKKAYSFCGTVEYMAPEVVNRRGHTQSADWWSFGVLMFEMLTGTLPFQGKDRKETMTMILKAKLGMPQFLSPEAQSLLRMLFKRNPANRLGAGPDGVEEIKRHSFFSTIDWNKLYRREIHPPFKPATGRPEDTFYFDPEFTAKTPKDSPGIPPSANAHQLFRGFSFVAITSDDESQAMQTVGVHSIVQQLHRNSIQFTDGYEVKEDIGVGSYSVCKRCIHKATNMEFAVKIIDKSKRDPTEEIEILLRYGQHPNIITLKDVYDDGKYVYVVTELMKGGELLDKILRQKFFSEREASAVLFTITKTVEYLHAQGVVHRDLKPSNILYVDESGNPESIRICDFGFAKQLRAENGLLMTPCYTANFVAPEVLKRQGYDAACDIWSLGVLLYTMLTGYTPFANGPDDTPEEILARIGSGKFSLSGGYWNSVSDTAKDLVSKMLHVDPHQRLTAALVLRHPWIVHWDQLPQYQLNRQDAPHLVKGAMAATYSALNRNQSPVLEPVGRSTLAQRRGIKKITSTAL
+Q15418,RPS6KA1,MPLAQLKEPWPLMELVPLDPENGQTSGEEAGLQPSKDEGVLKEISITHHVKAGSEKADPSHFELLKVLGQGSFGKVFLVRKVTRPDSGHLYAMKVLKKATLKVRDRVRTKMERDILADVNHPFVVKLHYAFQTEGKLYLILDFLRGGDLFTRLSKEVMFTEEDVKFYLAELALGLDHLHSLGIIYRDLKPENILLDEEGHIKLTDFGLSKEAIDHEKKAYSFCGTVEYMAPEVVNRQGHSHSADWWSYGVLMFEMLTGSLPFQGKDRKETMTLILKAKLGMPQFLSTEAQSLLRALFKRNPANRLGSGPDGAEEIKRHVFYSTIDWNKLYRREIKPPFKPAVAQPDDTFYFDTEFTSRTPKDSPGIPPSAGAHQLFRGFSFVATGLMEDDGKPRAPQAPLHSVVQQLHGKNLVFSDGYVVKETIGVGSYSECKRCVHKATNMEYAVKVIDKSKRDPSEEIEILLRYGQHPNIITLKDVYDDGKHVYLVTELMRGGELLDKILRQKFFSEREASFVLHTIGKTVEYLHSQGVVHRDLKPSNILYVDESGNPECLRICDFGFAKQLRAENGLLMTPCYTANFVAPEVLKRQGYDEGCDIWSLGILLYTMLAGYTPFANGPSDTPEEILTRIGSGKFTLSGGNWNTVSETAKDLVSKMLHVDPHQRLTAKQVLQHPWVTQKDKLPQSQLSHQDLQLVKGAMAATYSALNSSKPTPQLKPIESSILAQRRVRKLPSTTL
+P34925,RYK,MRGAARLGRPGRSCLPGARGLRAPPPPPLLLLLALLPLLPAPGAAAAPAPRPPELQSASAGPSVSLYLSEDEVRRLIGLDAELYYVRNDLISHYALSFSLLVPSETNFLHFTWHAKSKVEYKLGFQVDNVLAMDMPQVNISVQGEVPRTLSVFRVELSCTGKVDSEVMILMQLNLTVNSSKNFTVLNFKRRKMCYKKLEEVKTSALDKNTSRTIYDPVHAAPTTSTRVFYISVGVCCAVIFLVAIILAVLHLHSMKRIELDDSISASSSSQGLSQPSTQTTQYLRADTPNNATPITSYPTLRIEKNDLRSVTLLEAKGKVKDIAISRERITLKDVLQEGTFGRIFHGILIDEKDPNKEKQAFVKTVKDQASEIQVTMMLTESCKLRGLHHRNLLPITHVCIEEGEKPMVILPYMNWGNLKLFLRQCKLVEANNPQAISQQDLVHMAIQIACGMSYLARREVIHKDLAARNCVIDDTLQVKITDNALSRDLFPMDYHCLGDNENRPVRWMALESLVNNEFSSASDVWAFGVTLWELMTLGQTPYVDIDPFEMAAYLKDGYRIAQPINCPDELFAVMACCWALDPEERPKFQQLVQCLTEFHAALGAYV
+O00444,PLK4,MATCIGEKIEDFKVGNLLGKGSFAGVYRAESIHTGLEVAIKMIDKKAMYKAGMVQRVQNEVKIHCQLKHPSILELYNYFEDSNYVYLVLEMCHNGEMNRYLKNRVKPFSENEARHFMHQIITGMLYLHSHGILHRDLTLSNLLLTRNMNIKIADFGLATQLKMPHEKHYTLCGTPNYISPEIATRSAHGLESDVWSLGCMFYTLLIGRPPFDTDTVKNTLNKVVLADYEMPSFLSIEAKDLIHQLLRRNPADRLSLSSVLDHPFMSRNSSTKSKDLGTVEDSIDSGHATISTAITASSSTSISGSLFDKRRLLIGQPLPNKMTVFPKNKSSTDFSSSGDGNSFYTQWGNQETSNSGRGRVIQDAEERPHSRYLRRAYSSDRSGTSNSQSQAKTYTMERCHSAEMLSVSKRSGGGENEERYSPTDNNANIFNFFKEKTSSSSGSFERPDNNQALSNHLCPGKTPFPFADPTPQTETVQQWFGNLQINAHLRKTTEYDSISPNRDFQGHPDLQKDTSKNAWTDTKVKKNSDASDNAHSVKQQNTMKYMTALHSKPEIIQQECVFGSDPLSEQSKTRGMEPPWGYQNRTLRSITSPLVAHRLKPIRQKTKKAVVSILDSEEVCVELVKEYASQEYVKEVLQISSDGNTITIYYPNGGRGFPLADRPPSPTDNISRYSFDNLPEKYWRKYQYASRFVQLVRSKSPKITYFTRYAKCILMENSPGADFEVWFYDGVKIHKTEDFIQVIEKTGKSYTLKSESEVNSLKEEIKMYMDHANEGHRICLALESIISEEERKTRSAPFFPIIIGRKPGSTSSPKALSPPPSVDSNYPTRERASFNRMVMHSAASPTQAPILNPSMVTNEGLGLTTTASGTDISSNSLKDCLPKSAQLLKSVFVKNVGWATQLTSGAVWVQFNDGSQLVVQAGVSSISYTSPNGQTTRYGENEKLPDYIKQKLQCLSSILLMFSNPTPNFH
+Q15759,MAPK11,MSGPRAGFYRQELNKTVWEVPQRLQGLRPVGSGAYGSVCSAYDARLRQKVAVKKLSRPFQSLIHARRTYRELRLLKHLKHENVIGLLDVFTPATSIEDFSEVYLVTTLMGADLNNIVKCQALSDEHVQFLVYQLLRGLKYIHSAGIIHRDLKPSNVAVNEDCELRILDFGLARQADEEMTGYVATRWYRAPEIMLNWMHYNQTVDIWSVGCIMAELLQGKALFPGSDYIDQLKRIMEVVGTPSPEVLAKISSEHARTYIQSLPPMPQKDLSSIFRGANPLAIDLLGRMLVLDSDQRVSAAEALAHAYFSQYHDPEDEPEAEPYDESVEAKERTLEEWKELTYQEVLSFKPPEPPKPPGSLEIEQ
+P53778,MAPK12,MSSPPPARSGFYRQEVTKTAWEVRAVYRDLQPVGSGAYGAVCSAVDGRTGAKVAIKKLYRPFQSELFAKRAYRELRLLKHMRHENVIGLLDVFTPDETLDDFTDFYLVMPFMGTDLGKLMKHEKLGEDRIQFLVYQMLKGLRYIHAAGIIHRDLKPGNLAVNEDCELKILDFGLARQADSEMTGYVVTRWYRAPEVILNWMRYTQTVDIWSVGCIMAEMITGKTLFKGSDHLDQLKEIMKVTGTPPAEFVQRLQSDEAKNYMKGLPELEKKDFASILTNASPLAVNLLEKMLVLDAEQRVTAGEALAHPYFESLHDTEDEPQVQKYDDSFDDVDRTLDEWKRVTYKEVLSFKPPRQLGARVSKETPL
+O15264,MAPK13,MSLIRKKGFYKQDVNKTAWELPKTYVSPTHVGSGAYGSVCSAIDKRSGEKVAIKKLSRPFQSEIFAKRAYRELLLLKHMQHENVIGLLDVFTPASSLRNFYDFYLVMPFMQTDLQKIMGMEFSEEKIQYLVYQMLKGLKYIHSAGVVHRDLKPGNLAVNEDCELKILDFGLARHADAEMTGYVVTRWYRAPEVILSWMHYNQTVDIWSVGCIMAEMLTGKTLFKGKDYLDQLTQILKVTGVPGTEFVQKLNDKAAKSYIQSLPQTPRKDFTQLFPRASPQAADLLEKMLELDVDKRLTAAQALTHPFFEPFRDPEEETEAQQPFDDSLEHEKLTVDEWKQHIYKEIVNFSPIARKDSRRRSGMKL
+Q9Y2H9,MAST1,MSDSLWTALSNFSMPSFPGGSMFRRTKSCRTSNRKSLILTSTSPTLPRPHSPLPGHLGSSPLDSPRNFSPNTPAHFSFASSRRADGRRWSLASLPSSGYGTNTPSSTVSSSCSSQERLHQLPYQPTVDELHFLSKHFGSTESITDEDGGRRSPAVRPRSRSLSPGRSPSSYDNEIVMMNHVYKERFPKATAQMEEKLRDFTRAYEPDSVLPLADGVLSFIHHQIIELARDCLTKSRDGLITTVYFYELQENLEKLLQDAYERSESLEVAFVTQLVKKLLIIISRPARLLECLEFNPEEFYHLLEAAEGHAKEGHLVKTDIPRYIIRQLGLTRDPFPDVVHLEEQDSGGSNTPEQDDLSEGRSSKAKKPPGENDFDTIKLISNGAYGAVYLVRHRDTRQRFAMKKINKQNLILRNQIQQAFVERDILTFAENPFVVGMFCSFETRRHLCMVMEYVEGGDCATLLKNIGALPVEMARMYFAETVLALEYLHNYGIVHRDLKPDNLLITSMGHIKLTDFGLSKMGLMSLTTNLYEGHIEKDAREFLDKQVCGTPEYIAPEVILRQGYGKPVDWWAMGIILYEFLVGCVPFFGDTPEELFGQVISDDILWPEGDEALPTEAQLLISSLLQTNPLVRLGAGGAFEVKQHSFFRDLDWTGLLRQKAEFIPHLESEDDTSYFDTRSDRYHHVNSYDEDDTTEEEPVEIRQFSSCSPRFSKVYSSMEQLSQHEPKTPVAAAGSSKREPSTKGPEEKVAGKREGLGGLTLREKTWRGGSPEIKRFSASEASFLEGEASPPLGARRRFSALLEPSRFSAPQEDEDEARLRRPPRPSSDPAGSLDARAPKEETQGEGTSSAGDSEATDRPRPGDLCPPSKDGDASGPRATNDLVLRRARHQQMSGDVAVEKRPSRTGGKVIKSASATALSVMIPAVDPHGSSPLASPMSPRSLSSNPSSRDSSPSRDYSPAVSGLRSPITIQRSGKKYGFTLRAIRVYMGDTDVYSVHHIVWHVEEGGPAQEAGLCAGDLITHVNGEPVHGMVHPEVVELILKSGNKVAVTTTPFENTSIRIGPARRSSYKAKMARRNKRPSAKEGQESKKRSSLFRKITKQSNLLHTSRSLSSLNRSLSSSDSLPGSPTHGLPARSPTHSYRSTPDSAYLGASSQSSSPASSTPNSPASSASHHIRPSTLHGLSPKLHRQYRSARCKSAGNIPLSPLAHTPSPTQASPPPLPGHTVGSSHTTQSFPAKLHSSPPVVRPRPKSAEPPRSPLLKRVQSAEKLGASLSADKKGALRKHSLEVGHPDFRKDFHGELALHSLAESDGETPPVEGLGAPRQVAVRRLGRQESPLSLGADPLLPEGASRPPVSSKEKESPGGAEACTPPRATTPGGRTLERDVGCTRHQSVQTEDGTGGMARAVAKAALSPVQEHETGRRSSSGEAGTPLVPIVVEPARPGAKAVVPQPLGADSKGLQEPAPLAPSVPEAPRGRERWVLEVVEERTTLSGPRSKPASPKLSPEPQTPSLAPAKCSAPSSAVTPVPPASLLGSGTKPQVGLTSRCPAEAVPPAGLTKKGVSSPAPPGP
+O00141,SGK1,MTVKTEAAKGTLTYSRMRGMVAILIAFMKQRRMGLNDFIQKIANNSYACKHPEVQSILKISQPQEPELMNANPSPPPSPSQQINLGPSSNPHAKPSDFHFLKVIGKGSFGKVLLARHKAEEVFYAVKVLQKKAILKKKEEKHIMSERNVLLKNVKHPFLVGLHFSFQTADKLYFVLDYINGGELFYHLQRERCFLEPRARFYAAEIASALGYLHSLNIVYRDLKPENILLDSQGHIVLTDFGLCKENIEHNSTTSTFCGTPEYLAPEVLHKQPYDRTVDWWCLGAVLYEMLYGLPPFYSRNTAEMYDNILNKPLQLKPNITNSARHLLEGLLQKDRTKRLGAKDDFMEIKSHVFFSLINWDDLINKKITPPFNPNVSGPNDLRHFDPEFTEEPVPNSIGKSPDSVLVTASVKEAAEAFLGFSYAPPTDSFL
+Q9H2G2,SLK,MSFFNFRKIFKLGSEKKKKQYEHVKRDLNPEDFWEIIGELGDGAFGKVYKAQNKETSVLAAAKVIDTKSEEELEDYMVEIDILASCDHPNIVKLLDAFYYENNLWILIEFCAGGAVDAVMLELERPLTESQIQVVCKQTLDALNYLHDNKIIHRDLKAGNILFTLDGDIKLADFGVSAKNTRTIQRRDSFIGTPYWMAPEVVMCETSKDRPYDYKADVWSLGITLIEMAEIEPPHHELNPMRVLLKIAKSEPPTLAQPSRWSSNFKDFLKKCLEKNVDARWTTSQLLQHPFVTVDSNKPIRELIAEAKAEVTEEVEDGKEEDEEEETENSLPIPASKRASSDLSIASSEEDKLSQNACILESVSEKTERSNSEDKLNSKILNEKPTTDEPEKAVEDINEHITDAQLEAMTELHDRTAVIKENEREKRPKLENLPDTEDQETVDINSVSEGKENNIMITLETNIEHNLKSEEEKDQEKQQMFENKLIKSEEIKDTILQTVDLVSQETGEKEANIQAVDSEVGLTKEDTQEKLGEDDKTQKDVISNTSDVIGTCEAADVAQKVDEDSAEDTQSNDGKEVVEVGQKLINKPMVGPEAGGTKEVPIKEIVEMNEIEEGKNKEQAINSSENIMDINEEPGTTEGEEITESSSTEEMEVRSVVADTDQKALGSEVQDASKVTTQIDKEKKEIPVSIKKEPEVTVVSQPTEPQPVLIPSININSDSGENKEEIGSLSKTETILPPESENPKENDNDSGTGSTADTSSIDLNLSISSFLSKTKDSGSISLQETRRQKKTLKKTRKFIVDGVEVSVTTSKIVTDSDSKTEELRFLRRQELRELRFLQKEEQRAQQQLNSKLQQQREQIFRRFEQEMMSKKRQYDQEIENLEKQQKQTIERLEQEHTNRLRDEAKRIKGEQEKELSKFQNMLKNRKKEVINEVEKAPKELRKELMKRRKEELAQSQHAQEQEFVQKQQQELDGSLKKIIQQQKAELANIERECLNNKQQLMRAREAAIWELEERHLQEKHQLLKQQLKDQYFMQRHQLLKRHEKETEQMQRYNQRLIEELKNRQTQERARLPKIQRSEAKTRMAMFKKSLRINSTATPDQDRDKIKQFAAQEEKRQKNERMAQHQKHENQMRDLQLQCEANVRELHQLQNEKCHLLVEHETQKLKELDEEHSQELKEWREKLRPRKKTLEEEFARKLQEQEVFFKMTGESECLNPSTQSRISKFYPIPSLHSTGS
+Q9NYY3,PLK2,MELLRTITYQPAASTKMCEQALGKGCGADSKKKRPPQPPEESQPPQSQAQVPPAAPHHHHHHSHSGPEISRIIVDPTTGKRYCRGKVLGKGGFAKCYEMTDLTNNKVYAAKIIPHSRVAKPHQREKIDKEIELHRILHHKHVVQFYHYFEDKENIYILLEYCSRRSMAHILKARKVLTEPEVRYYLRQIVSGLKYLHEQEILHRDLKLGNFFINEAMELKVGDFGLAARLEPLEHRRRTICGTPNYLSPEVLNKQGHGCESDIWALGCVMYTMLLGRPPFETTNLKETYRCIREARYTMPSSLLAPAKHLIASMLSKNPEDRPSLDDIIRHDFFLQGFTPDRLSSSCCHTVPDFHLSSPAKNFFKKAAAALFGGKKDKARYIDTHNRVSKEDEDIYKLRHDLKKTSITQQPSKHRTDEELQPPTTTVARSGTPAVENKQQIGDAIRMIVRGTLGSCSSSSECLEDSTMGSVADTVARVLRGCLENMPEADCIPKEQLSTSFQWVTKWVDYSNKYGFGYQLSDHTVGVLFNNGAHMSLLPDKKTVHYYAELGQCSVFPATDAPEQFISQVTVLKYFSHYMEENLMDGGDLPSVTDIRRPRLYLLQWLKSDKALMMLFNDGTFQVNFYHDHTKIIICSQNEEYLLTYINEDRISTTFRLTTLLMSGCSSELKNRMEYALNMLLQRCN
+Q16584,MAP3K11,MEPLKSLFLKSPLGSWNGSGSGGGGGGGGGRPEGSPKAAGYANPVWTALFDYEPSGQDELALRKGDRVEVLSRDAAISGDEGWWAGQVGGQVGIFPSNYVSRGGGPPPCEVASFQELRLEEVIGIGGFGKVYRGSWRGELVAVKAARQDPDEDISVTAESVRQEARLFAMLAHPNIIALKAVCLEEPNLCLVMEYAAGGPLSRALAGRRVPPHVLVNWAVQIARGMHYLHCEALVPVIHRDLKSNNILLLQPIESDDMEHKTLKITDFGLAREWHKTTQMSAAGTYAWMAPEVIKASTFSKGSDVWSFGVLLWELLTGEVPYRGIDCLAVAYGVAVNKLTLPIPSTCPEPFAQLMADCWAQDPHRRPDFASILQQLEALEAQVLREMPRDSFHSMQEGWKREIQGLFDELRAKEKELLSREEELTRAAREQRSQAEQLRRREHLLAQWELEVFERELTLLLQQVDRERPHVRRRRGTFKRSKLRARDGGERISMPLDFKHRITVQASPGLDRRRNVFEVGPGDSPTFPRFRAIQLEPAEPGQAWGRQSPRRLEDSSNGERRACWAWGPSSPKPGEAQNGRRRSRMDEATWYLDSDDSSPLGSPSTPPALNGNPPRPSLEPEEPKRPVPAERGSSSGTPKLIQRALLRGTALLASLGLGRDLQPPGGPGRERGESPTTPPTPTPAPCPTEPPPSPLICFSLKTPDSPPTPAPLLLDLGIPVGQRSAKSPRREEEPRGGTVSPPPGTSRSAPGTPGTPRSPPLGLISRPRPSPLRSRIDPWSFVSAGPRPSPLPSPQPAPRRAPWTLFPDSDPFWDSPPANPFQGGPQDCRAQTKDMGAQAPWVPEAGP
+P12931,SRC,MGSNKSKPKDASQRRRSLEPAENVHGAGGGAFPASQTPSKPASADGHRGPSAAFAPAAAEPKLFGGFNSSDTVTSPQRAGPLAGGVTTFVALYDYESRTETDLSFKKGERLQIVNNTEGDWWLAHSLSTGQTGYIPSNYVAPSDSIQAEEWYFGKITRRESERLLLNAENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYITSRTQFNSLQQLVAYYSKHADGLCHRLTTVCPTSKPQTQGLAKDAWEIPRESLRLEVKLGQGCFGEVWMGTWNGTTRVAIKTLKPGTMSPEAFLQEAQVMKKLRHEKLVQLYAVVSEEPIYIVTEYMSKGSLLDFLKGETGKYLRLPQLVDMAAQIASGMAYVERMNYVHRDLRAANILVGENLVCKVADFGLARLIEDNEYTARQGAKFPIKWTAPEAALYGRFTIKSDVWSFGILLTELTTKGRVPYPGMVNREVLDQVERGYRMPCPPECPESLHDLMCQCWRKEPEERPTFEYLQAFLEDYFTSTEPQYQPGENL
+Q96SB4,SRPK1,MERKVLALQARKKRTKAKKDKAQRKSETQHRGSAPHSESDLPEQEEEILGSDDDEQEDPNDYCKGGYHLVKIGDLFNGRYHVIRKLGWGHFSTVWLSWDIQGKKFVAMKVVKSAEHYTETALDEIRLLKSVRNSDPNDPNREMVVQLLDDFKISGVNGTHICMVFEVLGHHLLKWIIKSNYQGLPLPCVKKIIQQVLQGLDYLHTKCRIIHTDIKPENILLSVNEQYIRRLAAEATEWQRSGAPPPSGSAVSTAPQPKPADKMSKNKKKKLKKKQKRQAELLEKRMQEIEEMEKESGPGQKRPNKQEESESPVERPLKENPPNKMTQEKLEESSTIGQDQTLMERDTEGGAAEINCNGVIEVINYTQNSNNETLRHKEDLHNANDCDVQNLNQESSFLSSQNGDSSTSQETDSCTPITSEVSDTMVCQSSSTVGQSFSEQHISQLQESIRAEIPCEDEQEQEHNGPLDNKGKSTAGNFLVNPLEPKNAEKLKVKIADLGNACWVHKHFTEDIQTRQYRSLEVLIGSGYNTPADIWSTACMAFELATGDYLFEPHSGEEYTRDEDHIALIIELLGKVPRKLIVAGKYSKEFFTKKGDLKHITKLKPWGLFEVLVEKYEWSQEEAAGFTDFLLPMLELIPEKRATAAECLRHPWLNS
+P78362,SRPK2,MSVNSEKSSSSERPEPQQKAPLVPPPPPPPPPPPPPLPDPTPPEPEEEILGSDDEEQEDPADYCKGGYHPVKIGDLFNGRYHVIRKLGWGHFSTVWLCWDMQGKRFVAMKVVKSAQHYTETALDEIKLLKCVRESDPSDPNKDMVVQLIDDFKISGMNGIHVCMVFEVLGHHLLKWIIKSNYQGLPVRCVKSIIRQVLQGLDYLHSKCKIIHTDIKPENILMCVDDAYVRRMAAEATEWQKAGAPPPSGSAVSTAPQQKPIGKISKNKKKKLKKKQKRQAELLEKRLQEIEELEREAERKIIEENITSAAPSNDQDGEYCPEVKLKTTGLEEAAEAETAKDNGEAEDQEEKEDAEKENIEKDEDDVDQELANIDPTWIESPKTNGHIENGPFSLEQQLDDEDDDEEDCPNPEEYNLDEPNAESDYTYSSSYEQFNGELPNGRHKIPESQFPEFSTSLFSGSLEPVACGSVLSEGSPLTEQEESSPSHDRSRTVSASSTGDLPKAKTRAADLLVNPLDPRNADKIRVKIADLGNACWVHKHFTEDIQTRQYRSIEVLIGAGYSTPADIWSTACMAFELATGDYLFEPHSGEDYSRDEDHIAHIIELLGSIPRHFALSGKYSREFFNRRGELRHITKLKPWSLFDVLVEKYGWPHEDAAQFTDFLIPMLEMVPEKRASAGECLRHPWLNS
+O76039,CDKL5,MKIPNIGNVMNKFEILGVVGEGAYGVVLKCRHKETHEIVAIKKFKDSEENEEVKETTLRELKMLRTLKQENIVELKEAFRRRGKLYLVFEYVEKNMLELLEEMPNGVPPEKVKSYIYQLIKAIHWCHKNDIVHRDIKPENLLISHNDVLKLCDFGFARNLSEGNNANYTEYVATRWYRSPELLLGAPYGKSVDMWSVGCILGELSDGQPLFPGESEIDQLFTIQKVLGPLPSEQMKLFYSNPRFHGLRFPAVNHPQSLERRYLGILNSVLLDLMKNLLKLDPADRYLTEQCLNHPTFQTQRLLDRSPSRSAKRKPYHVESSTLSNRNQAGKSTALQSHHRSNSKDIQNLSVGLPRADEGLPANESFLNGNLAGASLSPLHTKTYQASSQPGSTSKDLTNNNIPHLLSPKEAKSKTEFDFNIDPKPSEGPGTKYLKSNSRSQQNRHSFMESSQSKAGTLQPNEKQSRHSYIDTIPQSSRSPSYRTKAKSHGALSDSKSVSNLSEARAQIAEPSTSRYFPSSCLDLNSPTSPTPTRHSDTRTLLSPSGRNNRNEGTLDSRRTTTRHSKTMEELKLPEHMDSSHSHSLSAPHESFSYGLGYTSPFSSQQRPHRHSMYVTRDKVRAKGLDGSLSIGQGMAARANSLQLLSPQPGEQLPPEMTVARSSVKETSREGTSSFHTRQKSEGGVYHDPHSDDGTAPKENRHLYNDPVPRRVGSFYRVPSPRPDNSFHENNVSTRVSSLPSESSSGTNHSKRQPAFDPWKSPENISHSEQLKEKEKQGFFRSMKKKKKKSQTVPNSDSPDLLTLQKSIHSASTPSSRPKEWRPEKISDLQTQSQPLKSLRKLLHLSSASNHPASSDPRFQPLTAQQTKNSFSEIRIHPLSQASGGSSNIRQEPAPKGRPALQLPGQMDPGWHVSSVTRSATEGPSYSEQLGAKSGPNGHPYNRTNRSRMPNLNDLKETAL
+Q9UL54,TAOK2,MPAGGRAGSLKDPDVAELFFKDDPEKLFSDLREIGHGSFGAVYFARDVRNSEVVAIKKMSYSGKQSNEKWQDIIKEVRFLQKLRHPNTIQYRGCYLREHTAWLVMEYCLGSASDLLEVHKKPLQEVEIAAVTHGALQGLAYLHSHNMIHRDVKAGNILLSEPGLVKLGDFGSASIMAPANSFVGTPYWMAPEVILAMDEGQYDGKVDVWSLGITCIELAERKPPLFNMNAMSALYHIAQNESPVLQSGHWSEYFRNFVDSCLQKIPQDRPTSEVLLKHRFVLRERPPTVIMDLIQRTKDAVRELDNLQYRKMKKILFQEAPNGPGAEAPEEEEEAEPYMHRAGTLTSLESSHSVPSMSISASSQSSSVNSLADASDNEEEEEEEEEEEEEEEGPEAREMAMMQEGEHTVTSHSSIIHRLPGSDNLYDDPYQPEITPSPLQPPAAPAPTSTTSSARRRAYCRNRDHFATIRTASLVSRQIQEHEQDSALREQLSGYKRMRRQHQKQLLALESRLRGEREEHSARLQRELEAQRAGFGAEAEKLARRHQAIGEKEARAAQAEERKFQQHILGQQKKELAALLEAQKRTYKLRKEQLKEELQENPSTPKREKAEWLLRQKEQLQQCQAEEEAGLLRRQRQYFELQCRQYKRKMLLARHSLDQDLLREDLNKKQTQKDLECALLLRQHEATRELELRQLQAVQRTRAELTRLQHQTELGNQLEYNKRREQELRQKHAAQVRQQPKSLKVRAGQRPPGLPLPIPGALGPPNTGTPIEQQPCSPGQEAVLDQRMLGEEEEAVGERRILGKEGATLEPKQQRILGEESGAPSPSPQKHGSLVDEEVWGLPEEIEELRVPSLVPQERSIVGQEEAGTWSLWGKEDESLLDEEFELGWVQGPALTPVPEEEEEEEEGAPIGTPRDPGDGCPSPDIPPEPPPTHLRPCPASQLPGLLSHGLLAGLSFAVGSSSGLLPLLLLLLLPLLAAQGGGGLQAALLALEVGLVGLGASYLLLCTALHLPSSLFLLLAQGTALGAVLGLSWRRGLMGVPLGLGAAWLLAWPGLALPLVAMAAGGRWVRQQGPRVRRGISRLWLRVLLRLSPMAFRALQGCGAVGDRGLFALYPKTNKDGFRSRLPVPGPRRRNPRTTQHPLALLARVWVLCKGWNWRLARASQGLASHLPPWAIHTLASWGLLRGERPTRIPRLLPRSQRQLGPPASRQPLPGTLAGRRSRTRQSRALPPWR
+P43405,SYK,MASSGMADSANHLPFFFGNITREEAEDYLVQGGMSDGLYLLRQSRNYLGGFALSVAHGRKAHHYTIERELNGTYAIAGGRTHASPADLCHYHSQESDGLVCLLKKPFNRPQGVQPKTGPFEDLKENLIREYVKQTWNLQGQALEQAIISQKPQLEKLIATTAHEKMPWFHGKISREESEQIVLIGSKTNGKFLIRARDNNGSYALCLLHEGKVLHYRIDKDKTGKLSIPEGKKFDTLWQLVEHYSYKADGLLRVLTVPCQKIGTQGNVNFGGRPQLPGSHPATWSAGGIISRIKSYSFPKPGHRKSSPAQGNRQESTVSFNPYEPELAPWAADKGPQREALPMDTEVYESPYADPEEIRPKEVYLDRKLLTLEDKELGSGNFGTVKKGYYQMKKVVKTVAVKILKNEANDPALKDELLAEANVMQQLDNPYIVRMIGICEAESWMLVMEMAELGPLNKYLQQNRHVKDKNIIELVHQVSMGMKYLEESNFVHRDLAARNVLLVTQHYAKISDFGLSKALRADENYYKAQTHGKWPVKWYAPECINYYKFSSKSDVWSFGVLMWEAFSYGQKPYRGMKGSEVTAMLEKGERMGCPAGCPREMYDLMNLCWTYDVENRPGFAAVELRLRNYYYDVVN
+O43318,MAP3K7,MSTASAASSSSSSSAGEMIEAPSQVLNFEEIDYKEIEVEEVVGRGAFGVVCKAKWRAKDVAIKQIESESERKAFIVELRQLSRVNHPNIVKLYGACLNPVCLVMEYAEGGSLYNVLHGAEPLPYYTAAHAMSWCLQCSQGVAYLHSMQPKALIHRDLKPPNLLLVAGGTVLKICDFGTACDIQTHMTNNKGSAAWMAPEVFEGSNYSEKCDVFSWGIILWEVITRRKPFDEIGGPAFRIMWAVHNGTRPPLIKNLPKPIESLMTRCWSKDPSQRPSMEEIVKIMTHLMRYFPGADEPLQYPCQYSDEGQSNSATSTGSFMDIASTNTSNKSDTNMEQVPATNDTIKRLESKLLKNQAKQQSESGRLSLGASRGSSVESLPPTSEGKRMSADMSEIEARIAATTAYSKPKRGHRKTASFGNILDVPEIVISGNGQPRRRSIQDLTVTGTEPGQVSSRSSSPSVRMITTSGPTSEKPTRSHPWTPDDSTDTNGSDNSIPMAYLTLDHQLQPLAPCPNSKESMAVFEQHCKMAQEYMKVQTEIALLLQRKQELVAELDQDEKDQQNTSRLVQEHKKLLDENKSLSTYYQQCKKQLEVIRSQQQKRQGTS
+Q13873,BMPR2,MTSSLQRPWRVPWLPWTILLVSTAAASQNQERLCAFKDPYQQDLGIGESRISHENGTILCSKGSTCYGLWEKSKGDINLVKQGCWSHIGDPQECHYEECVVTTTPPSIQNGTYRFCCCSTDLCNVNFTENFPPPDTTPLSPPHSFNRDETIIIALASVSVLAVLIVALCFGYRMLTGDRKQGLHSMNMMEAAASEPSLDLDNLKLLELIGRGRYGAVYKGSLDERPVAVKVFSFANRQNFINEKNIYRVPLMEHDNIARFIVGDERVTADGRMEYLLVMEYYPNGSLCKYLSLHTSDWVSSCRLAHSVTRGLAYLHTELPRGDHYKPAISHRDLNSRNVLVKNDGTCVISDFGLSMRLTGNRLVRPGEEDNAAISEVGTIRYMAPEVLEGAVNLRDCESALKQVDMYALGLIYWEIFMRCTDLFPGESVPEYQMAFQTEVGNHPTFEDMQVLVSREKQRPKFPEAWKENSLAVRSLKETIEDCWDQDAEARLTAQCAEERMAELMMIWERNKSVSPTVNPMSTAMQNERNLSHNRRVPKIGPYPDYSSSSYIEDSIHHTDSIVKNISSEHSMSSTPLTIGEKNRNSINYERQQAQARIPSPETSVTSLSTNTTTTNTTGLTPSTGMTTISEMPYPDETNLHTTNVAQSIGPTPVCLQLTEEDLETNKLDPKEVDKNLKESSDENLMEHSLKQFSGPDPLSSTSSSLLYPLIKLAVEATGQQDFTQTANGQACLIPDVLPTQIYPLPKQQNLPKRPTSLPLNTKNSTKEPRLKFGSKHKSNLKQVETGVAKMNTINAAEPHVVTVTMNGVAGRNHSVNSHAATTQYANGTVLSGQTTNIVTHRAQEMLQNQFIGEDTRLNINSSPDEHEPLLRREQQAGHDEGVLDRLVDRRERPLEGGRTNSNNNNSNPCSEQDVLAQGVPSTAADPGPSKPRRAQRPNSLDLSATNVLDGSSIQIGESTQDGKSGSGEKIKKRVKTPYSLKRWRPSTWVISTESLDCEVNNNGSNRAVHSKSSTAVYLAEGGTATTMVSKDIGMNCL
+P42680,TEC,MNFNTILEEILIKRSQQKKKTSPLNYKERLFVLTKSMLTYYEGRAEKKYRKGFIDVSKIKCVEIVKNDDGVIPCQNKYPFQVVHDANTLYIFAPSPQSRDLWVKKLKEEIKNNNNIMIKYHPKFWTDGSYQCCRQTEKLAPGCEKYNLFESSIRKALPPAPETKKRRPPPPIPLEEEDNSEEIVVAMYDFQAAEGHDLRLERGQEYLILEKNDVHWWRARDKYGNEGYIPSNYVTGKKSNNLDQYEWYCRNMNRSKAEQLLRSEDKEGGFMVRDSSQPGLYTVSLYTKFGGEGSSGFRHYHIKETTTSPKKYYLAEKHAFGSIPEIIEYHKHNAAGLVTRLRYPVSVKGKNAPTTAGFSYEKWEINPSELTFMRELGSGLFGVVRLGKWRAQYKVAIKAIREGAMCEEDFIEEAKVMMKLTHPKLVQLYGVCTQQKPIYIVTEFMERGCLLNFLRQRQGHFSRDVLLSMCQDVCEGMEYLERNSFIHRDLAARNCLVSEAGVVKVSDFGMARYVLDDQYTSSSGAKFPVKWCPPEVFNYSRFSSKSDVWSFGVLMWEVFTEGRMPFEKYTNYEVVTMVTRGHRLYQPKLASNYVYEVMLRCWQEKPEGRPSFEDLLRTIDELVECEETFGR
+Q02763,TEK,MDSLASLVLCGVSLLLSGTVEGAMDLILINSLPLVSDAETSLTCIASGWRPHEPITIGRDFEALMNQHQDPLEVTQDVTREWAKKVVWKREKASKINGAYFCEGRVRGEAIRIRTMKMRQQASFLPATLTMTVDKGDNVNISFKKVLIKEEDAVIYKNGSFIHSVPRHEVPDILEVHLPHAQPQDAGVYSARYIGGNLFTSAFTRLIVRRCEAQKWGPECNHLCTACMNNGVCHEDTGECICPPGFMGRTCEKACELHTFGRTCKERCSGQEGCKSYVFCLPDPYGCSCATGWKGLQCNEACHPGFYGPDCKLRCSCNNGEMCDRFQGCLCSPGWQGLQCEREGIQRMTPKIVDLPDHIEVNSGKFNPICKASGWPLPTNEEMTLVKPDGTVLHPKDFNHTDHFSVAIFTIHRILPPDSGVWVCSVNTVAGMVEKPFNISVKVLPKPLNAPNVIDTGHNFAVINISSEPYFGDGPIKSKKLLYKPVNHYEAWQHIQVTNEIVTLNYLEPRTEYELCVQLVRRGEGGEGHPGPVRRFTTASIGLPPPRGLNLLPKSQTTLNLTWQPIFPSSEDDFYVEVERRSVQKSDQQNIKVPGNLTSVLLNNLHPREQYVVRARVNTKAQGEWSEDLTAWTLSDILPPQPENIKISNITHSSAVISWTILDGYSISSITIRYKVQGKNEDQHVDVKIKNATITQYQLKGLEPETAYQVDIFAENNIGSSNPAFSHELVTLPESQAPADLGGGKMLLIAILGSAGMTCLTVLLAFLIILQLKRANVQRRMAQAFQNVREEPAVQFNSGTLALNRKVKNNPDPTIYPVLDWNDIKFQDVIGEGNFGQVLKARIKKDGLRMDAAIKRMKEYASKDDHRDFAGELEVLCKLGHHPNIINLLGACEHRGYLYLAIEYAPHGNLLDFLRKSRVLETDPAFAIANSTASTLSSQQLLHFAADVARGMDYLSQKQFIHRDLAARNILVGENYVAKIADFGLSRGQEVYVKKTMGRLPVRWMAIESLNYSVYTTNSDVWSYGVLLWEIVSLGGTPYCGMTCAELYEKLPQGYRLEKPLNCDDEVYDLMRQCWREKPYERPSFAQILVSLNRMLEERKTYVNTTLYEKFTYAGIDCSAEEAA
+Q15569,TESK1,MAGERPPLRGPGPGPGEVPGEGPPGPGGTGGGPGRGRPSSYRALRSAVSSLARVDDFHCAEKIGAGFFSEVYKVRHRQSGQVMVLKMNKLPSNRGNTLREVQLMNRLRHPNILRFMGVCVHQGQLHALTEYMNGGTLEQLLSSPEPLSWPVRLHLALDIARGLRYLHSKGVFHRDLTSKNCLVRREDRGFTAVVGDFGLAEKIPVYREGARKEPLAVVGSPYWMAPEVLRGELYDEKADVFAFGIVLCELIARVPADPDYLPRTEDFGLDVPAFRTLVGDDCPLPFLLLAIHCCNLEPSTRAPFTEITQHLEWILEQLPEPAPLTRTALTHNQGSVARGGPSATLPRPDPRLSRSRSDLFLPPSPESPPNWGDNLTRVNPFSLREDLRGGKIKLLDTPSKPVLPLVPPSPFPSTQLPLVTTPETLVQPGTPARRCRSLPSSPELPRRMETALPGPGPPAVGPSAEEKMECEGSSPEPEPPGPAPQLPLAVATDNFISTCSSASQPWSPRSGPVLNNNPPAVVVNSPQGWAGEPWNRAQHSLPRAAALERTEPSPPPSAPREPDEGLPCPGCCLGPFSFGFLSMCPRPTPAVARYRNLNCEAGSLLCHRGHHAKPPTPSLQLPGARS
+P37173,TGFBR2,MGRGLLRGLWPLHIVLWTRIASTIPPHVQKSVNNDMIVTDNNGAVKFPQLCKFCDVRFSTCDNQKSCMSNCSITSICEKPQEVCVAVWRKNDENITLETVCHDPKLPYHDFILEDAASPKCIMKEKKKPGETFFMCSCSSDECNDNIIFSEEYNTSNPDLLLVIFQVTGISLLPPLGVAISVIIIFYCYRVNRQQKLSSTWETGKTRKLMEFSEHCAIILEDDRSDISSTCANNINHNTELLPIELDTLVGKGRFAEVYKAKLKQNTSEQFETVAVKIFPYEEYASWKTEKDIFSDINLKHENILQFLTAEERKTELGKQYWLITAFHAKGNLQEYLTRHVISWEDLRKLGSSLARGIAHLHSDHTPCGRPKMPIVHRDLKSSNILVKNDLTCCLCDFGLSLRLDPTLSVDDLANSGQVGTARYMAPEVLESRMNLENVESFKQTDVYSMALVLWEMTSRCNAVGEVKDYEPPFGSKVREHPCVESMKDNVLRDRGRPEIPSFWLNHQGIQMVCETLTECWDHDPEARLTAQCVAERFSELEHLDRLSGRSCSEEKIPEDGSLNTTK
+P35590,TIE1,MVWRVPPFLLPILFLASHVGAAVDLTLLANLRLTDPQRFFLTCVSGEAGAGRGSDAWGPPLLLEKDDRIVRTPPGPPLRLARNGSHQVTLRGFSKPSDLVGVFSCVGGAGARRTRVIYVHNSPGAHLLPDKVTHTVNKGDTAVLSARVHKEKQTDVIWKSNGSYFYTLDWHEAQDGRFLLQLPNVQPPSSGIYSATYLEASPLGSAFFRLIVRGCGAGRWGPGCTKECPGCLHGGVCHDHDGECVCPPGFTGTRCEQACREGRFGQSCQEQCPGISGCRGLTFCLPDPYGCSCGSGWRGSQCQEACAPGHFGADCRLQCQCQNGGTCDRFSGCVCPSGWHGVHCEKSDRIPQILNMASELEFNLETMPRINCAAAGNPFPVRGSIELRKPDGTVLLSTKAIVEPEKTTAEFEVPRLVLADSGFWECRVSTSGGQDSRRFKVNVKVPPVPLAAPRLLTKQSRQLVVSPLVSFSGDGPISTVRLHYRPQDSTMDWSTIVVDPSENVTLMNLRPKTGYSVRVQLSRPGEGGEGAWGPPTLMTTDCPEPLLQPWLEGWHVEGTDRLRVSWSLPLVPGPLVGDGFLLRLWDGTRGQERRENVSSPQARTALLTGLTPGTHYQLDVQLYHCTLLGPASPPAHVLLPPSGPPAPRHLHAQALSDSEIQLTWKHPEALPGPISKYVVEVQVAGGAGDPLWIDVDRPEETSTIIRGLNASTRYLFRMRASIQGLGDWSNTVEESTLGNGLQAEGPVQESRAAEEGLDQQLILAVVGSVSATCLTILAALLTLVCIRRSCLHRRRTFTYQSGSGEETILQFSSGTLTLTRRPKLQPEPLSYPVLEWEDITFEDLIGEGNFGQVIRAMIKKDGLKMNAAIKMLKEYASENDHRDFAGELEVLCKLGHHPNIINLLGACKNRGYLYIAIEYAPYGNLLDFLRKSRVLETDPAFAREHGTASTLSSRQLLRFASDAANGMQYLSEKQFIHRDLAARNVLVGENLASKIADFGLSRGEEVYVKKTMGRLPVRWMAIESLNYSVYTTKSDVWSFGVLLWEIVSLGGTPYCGMTCAELYEKLPQGYRMEQPRNCDDEVYELMRQCWRDRPYERPPFAQIALQLGRMLEARKAYVNMSLFENFTYAGIDATAEEA
+Q8WZ42,TTN,MTTQAPTFTQPLQSVVVLEGSTATFEAHISGFPVPEVSWFRDGQVISTSTLPGVQISFSDGRAKLTIPAVTKANSGRYSLKATNGSGQATSTAELLVKAETAPPNFVQRLQSMTVRQGSQVRLQVRVTGIPTPVVKFYRDGAEIQSSLDFQISQEGDLYSLLIAEAYPEDSGTYSVNATNSVGRATSTAELLVQGEEEVPAKKTKTIVSTAQISESRQTRIEKKIEAHFDARSIATVEMVIDGAAGQQLPHKTPPRIPPKPKSRSPTPPSIAAKAQLARQQSPSPIRHSPSPVRHVRAPTPSPVRSVSPAARISTSPIRSVRSPLLMRKTQASTVATGPEVPPPWKQEGYVASSSEAEMRETTLTTSTQIRTEERWEGRYGVQEQVTISGAAGAAASVSASASYAAEAVATGAKEVKQDADKSAAVATVVAAVDMARVREPVISAVEQTAQRTTTTAVHIQPAQEQVRKEAEKTAVTKVVVAADKAKEQELKSRTKEVITTKQEQMHVTHEQIRKETEKTFVPKVVISAAKAKEQETRISEEITKKQKQVTQEAIRQETEITAASMVVVATAKSTKLETVPGAQEETTTQQDQMHLSYEKIMKETRKTVVPKVIVATPKVKEQDLVSRGREGITTKREQVQITQEKMRKEAEKTALSTIAVATAKAKEQETILRTRETMATRQEQIQVTHGKVDVGKKAEAVATVVAAVDQARVREPREPGHLEESYAQQTTLEYGYKERISAAKVAEPPQRPASEPHVVPKAVKPRVIQAPSETHIKTTDQKGMHISSQIKKTTDLTTERLVHVDKRPRTASPHFTVSKISVPKTEHGYEASIAGSAIATLQKELSATSSAQKITKSVKAPTVKPSETRVRAEPTPLPQFPFADTPDTYKSEAGVEVKKEVGVSITGTTVREERFEVLHGREAKVTETARVPAPVEIPVTPPTLVSGLKNVTVIEGESVTLECHISGYPSPTVTWYREDYQIESSIDFQITFQSGIARLMIREAFAEDSGRFTCSAVNEAGTVSTSCYLAVQVSEEFEKETTAVTEKFTTEEKRFVESRDVVMTDTSLTEEQAGPGEPAAPYFITKPVVQKLVEGGSVVFGCQVGGNPKPHVYWKKSGVPLTTGYRYKVSYNKQTGECKLVISMTFADDAGEYTIVVRNKHGETSASASLLEEADYELLMKSQQEMLYQTQVTAFVQEPKVGETAPGFVYSEYEKEYEKEQALIRKKMAKDTVVVRTYVEDQEFHISSFEERLIKEIEYRIIKTTLEELLEEDGEEKMAVDISESEAVESGFDSRIKNYRILEGMGVTFHCKMSGYPLPKIAWYKDGKRIKHGERYQMDFLQDGRASLRIPVVLPEDEGIYTAFASNIKGNAICSGKLYVEPAAPLGAPTYIPTLEPVSRIRSLSPRSVSRSPIRMSPARMSPARMSPARMSPARMSPGRRLEETDESQLERLYKPVFVLKPVSFKCLEGQTARFDLKVVGRPMPETFWFHDGQQIVNDYTHKVVIKEDGTQSLIIVPATPSDSGEWTVVAQNRAGRSSISVILTVEAVEHQVKPMFVEKLKNVNIKEGSRLEMKVRATGNPNPDIVWLKNSDIIVPHKYPKIRIEGTKGEAALKIDSTVSQDSAWYTATAINKAGRDTTRCKVNVEVEFAEPEPERKLIIPRGTYRAKEIAAPELEPLHLRYGQEQWEEGDLYDKEKQQKPFFKKKLTSLRLKRFGPAHFECRLTPIGDPTMVVEWLHDGKPLEAANRLRMINEFGYCSLDYGVAYSRDSGIITCRATNKYGTDHTSATLIVKDEKSLVEESQLPEGRKGLQRIEELERMAHEGALTGVTTDQKEKQKPDIVLYPEPVRVLEGETARFRCRVTGYPQPKVNWYLNGQLIRKSKRFRVRYDGIHYLDIVDCKSYDTGEVKVTAENPEGVIEHKVKLEIQQREDFRSVLRRAPEPRPEFHVHEPGKLQFEVQKVDRPVDTTETKEVVKLKRAERITHEKVPEESEELRSKFKRRTEEGYYEAITAVELKSRKKDESYEELLRKTKDELLHWTKELTEEEKKALAEEGKITIPTFKPDKIELSPSMEAPKIFERIQSQTVGQGSDAHFRVRVVGKPDPECEWYKNGVKIERSDRIYWYWPEDNVCELVIRDVTAEDSASIMVKAINIAGETSSHAFLLVQAKQLITFTQELQDVVAKEKDTMATFECETSEPFVKVKWYKDGMEVHEGDKYRMHSDRKVHFLSILTIDTSDAEDYSCVLVEDENVKTTAKLIVEGAVVEFVKELQDIEVPESYSGELECIVSPENIEGKWYHNDVELKSNGKYTITSRRGRQNLTVKDVTKEDQGEYSFVIDGKKTTCKLKMKPRPIAILQGLSDQKVCEGDIVQLEVKVSLESVEGVWMKDGQEVQPSDRVHIVIDKQSHMLLIEDMTKEDAGNYSFTIPALGLSTSGRVSVYSVDVITPLKDVNVIEGTKAVLECKVSVPDVTSVKWYLNDEQIKPDDRVQAIVKGTKQRLVINRTHASDEGPYKLIVGRVETNCNLSVEKIKIIRGLRDLTCTETQNVVFEVELSHSGIDVLWNFKDKEIKPSSKYKIEAHGKIYKLTVLNMMKDDEGKYTFYAGENMTSGKLTVAGGAISKPLTDQTVAESQEAVFECEVANPDSKGEWLRDGKHLPLTNNIRSESDGHKRRLIIAATKLDDIGEYTYKVATSKTSAKLKVEAVKIKKTLKNLTVTETQDAVFTVELTHPNVKGVQWIKNGVVLESNEKYAISVKGTIYSLRIKNCAIVDESVYGFRLGRLGASARLHVETVKIIKKPKDVTALENATVAFEVSVSHDTVPVKWFHKSVEIKPSDKHRLVSERKVHKLMLQNISPSDAGEYTAVVGQLECKAKLFVETLHITKTMKNIEVPETKTASFECEVSHFNVPSMWLKNGVEIEMSEKFKIVVQGKLHQLIIMNTSTEDSAEYTFVCGNDQVSATLTVTPIMITSMLKDINAEEKDTITFEVTVNYEGISYKWLKNGVEIKSTDKCQMRTKKLTHSLNIRNVHFGDAADYTFVAGKATSTATLYVEARHIEFRKHIKDIKVLEKKRAMFECEVSEPDITVQWMKDDQELQITDRIKIQKEKYVHRLLIPSTRMSDAGKYTVVAGGNVSTAKLFVEGRDVRIRSIKKEVQVIEKQRAVVEFEVNEDDVDAHWYKDGIEINFQVQERHKYVVERRIHRMFISETRQSDAGEYTFVAGRNRSSVTLYVNAPEPPQVLQELQPVTVQSGKPARFCAVISGRPQPKISWYKEEQLLSTGFKCKFLHDGQEYTLLLIEAFPEDAAVYTCEAKNDYGVATTSASLSVEVPEVVSPDQEMPVYPPAIITPLQDTVTSEGQPARFQCRVSGTDLKVSWYSKDKKIKPSRFFRMTQFEDTYQLEIAEAYPEDEGTYTFVASNAVGQVSSTANLSLEAPESILHERIEQEIEMEMKEFSSSFLSAEEEGLHSAELQLSKINETLELLSESPVYPTKFDSEKEGTGPIFIKEVSNADISMGDVATLSVTVIGIPKPKIQWFFNGVLLTPSADYKFVFDGDDHSLIILFTKLEDEGEYTCMASNDYGKTICSAYLKINSKGEGHKDTETESAVAKSLEKLGGPCPPHFLKELKPIRCAQGLPAIFEYTVVGEPAPTVTWFKENKQLCTSVYYTIIHNPNGSGTFIVNDPQREDSGLYICKAENMLGESTCAAELLVLLEDTDMTDTPCKAKSTPEAPEDFPQTPLKGPAVEALDSEQEIATFVKDTILKAALITEENQQLSYEHIAKANELSSQLPLGAQELQSILEQDKLTPESTREFLCINGSIHFQPLKEPSPNLQLQIVQSQKTFSKEGILMPEEPETQAVLSDTEKIFPSAMSIEQINSLTVEPLKTLLAEPEGNYPQSSIEPPMHSYLTSVAEEVLSPKEKTVSDTNREQRVTLQKQEAQSALILSQSLAEGHVESLQSPDVMISQVNYEPLVPSEHSCTEGGKILIESANPLENAGQDSAVRIEEGKSLRFPLALEEKQVLLKEEHSDNVVMPPDQIIESKREPVAIKKVQEVQGRDLLSKESLLSGIPEEQRLNLKIQICRALQAAVASEQPGLFSEWLRNIEKVEVEAVNITQEPRHIMCMYLVTSAKSVTEEVTIIIEDVDPQMANLKMELRDALCAIIYEEIDILTAEGPRIQQGAKTSLQEEMDSFSGSQKVEPITEPEVESKYLISTEEVSYFNVQSRVKYLDATPVTKGVASAVVSDEKQDESLKPSEEKEESSSESGTEEVATVKIQEAEGGLIKEDGPMIHTPLVDTVSEEGDIVHLTTSITNAKEVNWYFENKLVPSDEKFKCLQDQNTYTLVIDKVNTEDHQGEYVCEALNDSGKTATSAKLTVVKRAAPVIKRKIEPLEVALGHLAKFTCEIQSAPNVRFQWFKAGREIYESDKCSIRSSKYISSLEILRTQVVDCGEYTCKASNEYGSVSCTATLTVTEAYPPTFLSRPKSLTTFVGKAAKFICTVTGTPVIETIWQKDGAALSPSPNWRISDAENKHILELSNLTIQDRGVYSCKASNKFGADICQAELIIIDKPHFIKELEPVQSAINKKVHLECQVDEDRKVTVTWSKDGQKLPPGKDYKICFEDKIATLEIPLAKLKDSGTYVCTASNEAGSSSCSATVTVREPPSFVKKVDPSYLMLPGESARLHCKLKGSPVIQVTWFKNNKELSESNTVRMYFVNSEAILDITDVKVEDSGSYSCEAVNDVGSDSCSTEIVIKEPPSFIKTLEPADIVRGTNALLQCEVSGTGPFEISWFKDKKQIRSSKKYRLFSQKSLVCLEIFSFNSADVGEYECVVANEVGKCGCMATHLLKEPPTFVKKVDDLIALGGQTVTLQAAVRGSEPISVTWMKGQEVIREDGKIKMSFSNGVAVLIIPDVQISFGGKYTCLAENEAGSQTSVGELIVKEPAKIIERAELIQVTAGDPATLEYTVAGTPELKPKWYKDGRPLVASKKYRISFKNNVAQLKFYSAELHDSGQYTFEISNEVGSSSCETTFTVLDRDIAPFFTKPLRNVDSVVNGTCRLDCKIAGSLPMRVSWFKDGKEIAASDRYRIAFVEGTASLEIIRVDMNDAGNFTCRATNSVGSKDSSGALIVQEPPSFVTKPGSKDVLPGSAVCLKSTFQGSTPLTIRWFKGNKELVSGGSCYITKEALESSLELYLVKTSDSGTYTCKVSNVAGGVECSANLFVKEPATFVEKLEPSQLLKKGDATQLACKVTGTPPIKITWFANDREIKESSKHRMSFVESTAVLRLTDVGIEDSGEYMCEAQNEAGSDHCSSIVIVKESPYFTKEFKPIEVLKEYDVMLLAEVAGTPPFEITWFKDNTILRSGRKYKTFIQDHLVSLQILKFVAADAGEYQCRVTNEVGSSICSARVTLREPPSFIKKIESTSSLRGGTAAFQATLKGSLPITVTWLKDSDEITEDDNIRMTFENNVASLYLSGIEVKHDGKYVCQAKNDAGIQRCSALLSVKEPATITEEAVSIDVTQGDPATLQVKFSGTKEITAKWFKDGQELTLGSKYKISVTDTVSILKIISTEKKDSGEYTFEVQNDVGRSSCKARINVLDLIIPPSFTKKLKKMDSIKGSFIDLECIVAGSHPISIQWFKDDQEISASEKYKFSFHDNTAFLEISQLEGTDSGTYTCSATNKAGHNQCSGHLTVKEPPYFVEKPQSQDVNPNTRVQLKALVGGTAPMTIKWFKDNKELHSGAARSVWKDDTSTSLELFAAKATDSGTYICQLSNDVGTATSKATLFVKEPPQFIKKPSPVLVLRNGQSTTFECQITGTPKIRVSWYLDGNEITAIQKHGISFIDGLATFQISGARVENSGTYVCEARNDAGTASCSIELKVKEPPTFIRELKPVEVVKYSDVELECEVTGTPPFEVTWLKNNREIRSSKKYTLTDRVSVFNLHITKCDPSDTGEYQCIVSNEGGSCSCSTRVALKEPPSFIKKIENTTTVLKSSATFQSTVAGSPPISITWLKDDQILDEDDNVYISFVDSVATLQIRSVDNGHSGRYTCQAKNESGVERCYAFLLVQEPAQIVEKAKSVDVTEKDPMTLECVVAGTPELKVKWLKDGKQIVPSRYFSMSFENNVASFRIQSVMKQDSGQYTFKVENDFGSSSCDAYLRVLDQNIPPSFTKKLTKMDKVLGSSIHMECKVSGSLPISAQWFKDGKEISTSAKYRLVCHERSVSLEVNNLELEDTANYTCKVSNVAGDDACSGILTVKEPPSFLVKPGRQQAIPDSTVEFKAILKGTPPFKIKWFKDDVELVSGPKCFIGLEGSTSFLNLYSVDASKTGQYTCHVTNDVGSDSCTTMLLVTEPPKFVKKLEASKIVKAGDSSRLECKIAGSPEIRVVWFRNEHELPASDKYRMTFIDSVAVIQMNNLSTEDSGDFICEAQNPAGSTSCSTKVIVKEPPVFSSFPPIVETLKNAEVSLECELSGTPPFEVVWYKDKRQLRSSKKYKIASKNFHTSIHILNVDTSDIGEYHCKAQNEVGSDTCVCTVKLKEPPRFVSKLNSLTVVAGEPAELQASIEGAQPIFVQWLKEKEEVIRESENIRITFVENVATLQFAKAEPANAGKYICQIKNDGGMRENMATLMVLEPAVIVEKAGPMTVTVGETCTLECKVAGTPELSVEWYKDGKLLTSSQKHKFSFYNKISSLRILSVERQDAGTYTFQVQNNVGKSSCTAVVDVSDRAVPPSFTRRLKNTGGVLGASCILECKVAGSSPISVAWFHEKTKIVSGAKYQTTFSDNVCTLQLNSLDSSDMGNYTCVAANVAGSDECRAVLTVQEPPSFVKEPEPLEVLPGKNVTFTSVIRGTPPFKVNWFRGARELVKGDRCNIYFEDTVAELELFNIDISQSGEYTCVVSNNAGQASCTTRLFVKEPAAFLKRLSDHSVEPGKSIILESTYTGTLPISVTWKKDGFNITTSEKCNIVTTEKTCILEILNSTKRDAGQYSCEIENEAGRDVCGALVSTLEPPYFVTELEPLEAAVGDSVSLQCQVAGTPEITVSWYKGDTKLRPTPEYRTYFTNNVATLVFNKVNINDSGEYTCKAENSIGTASSKTVFRIQERQLPPSFARQLKDIEQTVGLPVTLTCRLNGSAPIQVCWYRDGVLLRDDENLQTSFVDNVATLKILQTDLSHSGQYSCSASNPLGTASSSARLTAREPKKSPFFDIKPVSIDVIAGESADFECHVTGAQPMRITWSKDNKEIRPGGNYTITCVGNTPHLRILKVGKGDSGQYTCQATNDVGKDMCSAQLSVKEPPKFVKKLEASKVAKQGESIQLECKISGSPEIKVSWFRNDSELHESWKYNMSFINSVALLTINEASAEDSGDYICEAHNGVGDASCSTALTVKAPPVFTQKPSPVGALKGSDVILQCEISGTPPFEVVWVKDRKQVRNSKKFKITSKHFDTSLHILNLEASDVGEYHCKATNEVGSDTCSCSVKFKEPPRFVKKLSDTSTLIGDAVELRAIVEGFQPISVVWLKDRGEVIRESENTRISFIDNIATLQLGSPEASNSGKYICQIKNDAGMRECSAVLTVLEPARIIEKPEPMTVTTGNPFALECVVTGTPELSAKWFKDGRELSADSKHHITFINKVASLKIPCAEMSDKGLYSFEVKNSVGKSNCTVSVHVSDRIVPPSFIRKLKDVNAILGASVVLECRVSGSAPISVGWFQDGNEIVSGPKCQSSFSENVCTLNLSLLEPSDTGIYTCVAANVAGSDECSAVLTVQEPPSFEQTPDSVEVLPGMSLTFTSVIRGTPPFKVKWFKGSRELVPGESCNISLEDFVTELELFEVQPLESGDYSCLVTNDAGSASCTTHLFVKEPATFVKRLADFSVETGSPIVLEATYTGTPPISVSWIKDEYLISQSERCSITMTEKSTILEILESTIEDYAQYSCLIENEAGQDICEALVSVLEPPYFIEPLEHVEAVIGEPATLQCKVDGTPEIRISWYKEHTKLRSAPAYKMQFKNNVASLVINKVDHSDVGEYSCKADNSVGAVASSAVLVIKARKLPPFFARKLKDVHETLGFPVAFECRINGSEPLQVSWYKDGVLLKDDANLQTSFVHNVATLQILQTDQSHIGQYNCSASNPLGTASSSAKLILSEHEVPPFFDLKPVSVDLALGESGTFKCHVTGTAPIKITWAKDNREIRPGGNYKMTLVENTATLTVLKVGKGDAGQYTCYASNIAGKDSCSAQLGVQEPPRFIKKLEPSRIVKQDEFTRYECKIGGSPEIKVLWYKDETEIQESSKFRMSFVDSVAVLEMHNLSVEDSGDYTCEAHNAAGSASSSTSLKVKEPPIFRKKPHPIETLKGADVHLECELQGTPPFHVSWYKDKRELRSGKKYKIMSENFLTSIHILNVDAADIGEYQCKATNDVGSDTCVGSIALKAPPRFVKKLSDISTVVGKEVQLQTTIEGAEPISVVWFKDKGEIVRESDNIWISYSENIATLQFSRVEPANAGKYTCQIKNDAGMQECFATLSVLEPATIVEKPESIKVTTGDTCTLECTVAGTPELSTKWFKDGKELTSDNKYKISFFNKVSGLKIINVAPSDSGVYSFEVQNPVGKDSCTASLQVSDRTVPPSFTRKLKETNGLSGSSVVMECKVYGSPPISVSWFHEGNEISSGRKYQTTLTDNTCALTVNMLEESDSGDYTCIATNMAGSDECSAPLTVREPPSFVQKPDPMDVLTGTNVTFTSIVKGTPPFSVSWFKGSSELVPGDRCNVSLEDSVAELELFDVDTSQSGEYTCIVSNEAGKASCTTHLYIKAPAKFVKRLNDYSIEKGKPLILEGTFTGTPPISVTWKKNGINVTPSQRCNITTTEKSAILEIPSSTVEDAGQYNCYIENASGKDSCSAQILILEPPYFVKQLEPVKVSVGDSASLQCQLAGTPEIGVSWYKGDTKLRPTTTYKMHFRNNVATLVFNQVDINDSGEYICKAENSVGEVSASTFLTVQEQKLPPSFSRQLRDVQETVGLPVVFDCAISGSEPISVSWYKDGKPLKDSPNVQTSFLDNTATLNIFKTDRSLAGQYSCTATNPIGSASSSARLILTEGKNPPFFDIRLAPVDAVVGESADFECHVTGTQPIKVSWAKDSREIRSGGKYQISYLENSAHLTVLKVDKGDSGQYTCYAVNEVGKDSCTAQLNIKERLIPPSFTKRLSETVEETEGNSFKLEGRVAGSQPITVAWYKNNIEIQPTSNCEITFKNNTLVLQVRKAGMNDAGLYTCKVSNDAGSALCTSSIVIKEPKKPPVFDQHLTPVTVSEGEYVQLSCHVQGSEPIRIQWLKAGREIKPSDRCSFSFASGTAVLELRDVAKADSGDYVCKASNVAGSDTTKSKVTIKDKPAVAPATKKAAVDGRLFFVSEPQSIRVVEKTTATFIAKVGGDPIPNVKWTKGKWRQLNQGGRVFIHQKGDEAKLEIRDTTKTDSGLYRCVAFNEHGEIESNVNLQVDERKKQEKIEGDLRAMLKKTPILKKGAGEEEEIDIMELLKNVDPKEYEKYARMYGITDFRGLLQAFELLKQSQEEETHRLEIEEIERSERDEKEFEELVSFIQQRLSQTEPVTLIKDIENQTVLKDNDAVFEIDIKINYPEIKLSWYKGTEKLEPSDKFEISIDGDRHTLRVKNCQLKDQGNYRLVCGPHIASAKLTVIEPAWERHLQDVTLKEGQTCTMTCQFSVPNVKSEWFRNGRILKPQGRHKTEVEHKVHKLTIADVRAEDQGQYTCKYEDLETSAELRIEAEPIQFTKRIQNIVVSEHQSATFECEVSFDDAIVTWYKGPTELTESQKYNFRNDGRCHYMTIHNVTPDDEGVYSVIARLEPRGEARSTAELYLTTKEIKLELKPPDIPDSRVPIPTMPIRAVPPEEIPPVVAPPIPLLLPTPEEKKPPPKRIEVTKKAVKKDAKKVVAKPKEMTPREEIVKKPPPPTTLIPAKAPEIIDVSSKAEEVKIMTITRKKEVQKEKEAVYEKKQAVHKEKRVFIESFEEPYDELEVEPYTEPFEQPYYEEPDEDYEEIKVEAKKEVHEEWEEDFEEGQEYYEREEGYDEGEEEWEEAYQEREVIQVQKEVYEESHERKVPAKVPEKKAPPPPKVIKKPVIEKIEKTSRRMEEEKVQVTKVPEVSKKIVPQKPSRTPVQEEVIEVKVPAVHTKKMVISEEKMFFASHTEEEVSVTVPEVQKEIVTEEKIHVAISKRVEPPPKVPELPEKPAPEEVAPVPIPKKVEPPAPKVPEVPKKPVPEEKKPVPVPKKEPAAPPKVPEVPKKPVPEEKIPVPVAKKKEAPPAKVPEVQKGVVTEEKITIVTQREESPPPAVPEIPKKKVPEERKPVPRKEEEVPPPPKVPALPKKPVPEEKVAVPVPVAKKAPPPRAEVSKKTVVEEKRFVAEEKLSFAVPQRVEVTRHEVSAEEEWSYSEEEEGVSISVYREEEREEEEEAEVTEYEVMEEPEEYVVEEKLHIISKRVEAEPAEVTERQEKKIVLKPKIPAKIEEPPPAKVPEAPKKIVPEKKVPAPVPKKEKVPPPKVPEEPKKPVPEKKVPPKVIKMEEPLPAKVTERHMQITQEEKVLVAVTKKEAPPKARVPEEPKRAVPEEKVLKLKPKREEEPPAKVTEFRKRVVKEEKVSIEAPKREPQPIKEVTIMEEKERAYTLEEEAVSVQREEEYEEYEEYDYKEFEEYEPTEEYDQYEEYEEREYERYEEHEEYITEPEKPIPVKPVPEEPVPTKPKAPPAKVLKKAVPEEKVPVPIPKKLKPPPPKVPEEPKKVFEEKIRISITKREKEQVTEPAAKVPMKPKRVVAEEKVPVPRKEVAPPVRVPEVPKELEPEEVAFEEEVVTHVEEYLVEEEEEYIHEEEEFITEEEVVPVIPVKVPEVPRKPVPEEKKPVPVPKKKEAPPAKVPEVPKKPEEKVPVLIPKKEKPPPAKVPEVPKKPVPEEKVPVPVPKKVEAPPAKVPEVPKKPVPEKKVPVPAPKKVEAPPAKVPEVPKKLIPEEKKPTPVPKKVEAPPPKVPKKREPVPVPVALPQEEEVLFEEEIVPEEEVLPEEEEVLPEEEEVLPEEEEVLPEEEEIPPEEEEVPPEEEYVPEEEEFVPEEEVLPEVKPKVPVPAPVPEIKKKVTEKKVVIPKKEEAPPAKVPEVPKKVEEKRIILPKEEEVLPVEVTEEPEEEPISEEEIPEEPPSIEEVEEVAPPRVPEVIKKAVPEAPTPVPKKVEAPPAKVSKKIPEEKVPVPVQKKEAPPAKVPEVPKKVPEKKVLVPKKEAVPPAKGRTVLEEKVSVAFRQEVVVKERLELEVVEAEVEEIPEEEEFHEVEEYFEEGEFHEVEEFIKLEQHRVEEEHRVEKVHRVIEVFEAEEVEVFEKPKAPPKGPEISEKIIPPKKPPTKVVPRKEPPAKVPEVPKKIVVEEKVRVPEEPRVPPTKVPEVLPPKEVVPEKKVPVPPAKKPEAPPPKVPEAPKEVVPEKKVPVPPPKKPEVPPTKVPEVPKAAVPEKKVPEAIPPKPESPPPEVPEAPKEVVPEKKVPAAPPKKPEVTPVKVPEAPKEVVPEKKVPVPPPKKPEVPPTKVPEVPKVAVPEKKVPEAIPPKPESPPPEVFEEPEEVALEEPPAEVVEEPEPAAPPQVTVPPKKPVPEKKAPAVVAKKPELPPVKVPEVPKEVVPEKKVPLVVPKKPEAPPAKVPEVPKEVVPEKKVAVPKKPEVPPAKVPEVPKKPVLEEKPAVPVPERAESPPPEVYEEPEEIAPEEEIAPEEEKPVPVAEEEEPEVPPPAVPEEPKKIIPEKKVPVIKKPEAPPPKEPEPEKVIEKPKLKPRPPPPPPAPPKEDVKEKIFQLKAIPKKKVPEKPQVPEKVELTPLKVPGGEKKVRKLLPERKPEPKEEVVLKSVLRKRPEEEEPKVEPKKLEKVKKPAVPEPPPPKPVEEVEVPTVTKRERKIPEPTKVPEIKPAIPLPAPEPKPKPEAEVKTIKPPPVEPEPTPIAAPVTVPVVGKKAEAKAPKEEAAKPKGPIKGVPKKTPSPIEAERRKLRPGSGGEKPPDEAPFTYQLKAVPLKFVKEIKDIILTESEFVGSSAIFECLVSPSTAITTWMKDGSNIRESPKHRFIADGKDRKLHIIDVQLSDAGEYTCVLRLGNKEKTSTAKLVVEELPVRFVKTLEEEVTVVKGQPLYLSCELNKERDVVWRKDGKIVVEKPGRIVPGVIGLMRALTINDADDTDAGTYTVTVENANNLECSSCVKVVEVIRDWLVKPIRDQHVKPKGTAIFACDIAKDTPNIKWFKGYDEIPAEPNDKTEILRDGNHLYLKIKNAMPEDIAEYAVEIEGKRYPAKLTLGEREVELLKPIEDVTIYEKESASFDAEISEADIPGQWKLKGELLRPSPTCEIKAEGGKRFLTLHKVKLDQAGEVLYQALNAITTAILTVKEIELDFAVPLKDVTVPERRQARFECVLTREANVIWSKGPDIIKSSDKFDIIADGKKHILVINDSQFDDEGVYTAEVEGKKTSARLFVTGIRLKFMSPLEDQTVKEGETATFVCELSHEKMHVVWFKNDAKLHTSRTVLISSEGKTHKLEMKEVTLDDISQIKAQVKELSSTAQLKVLEADPYFTVKLHDKTAVEKDEITLKCEVSKDVPVKWFKDGEEIVPSPKYSIKADGLRRILKIKKADLKDKGEYVCDCGTDKTKANVTVEARLIKVEKPLYGVEVFVGETAHFEIELSEPDVHGQWKLKGQPLTASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAANAKSAANLKVKELPLIFITPLSDVKVFEKDEAKFECEVSREPKTFRWLKGTQEITGDDRFELIKDGTKHSMVIKSAAFEDEAKYMFEAEDKHTSGKLIIEGIRLKFLTPLKDVTAKEKESAVFTVELSHDNIRVKWFKNDQRLHTTRSVSMQDEGKTHSITFKDLSIDDTSQIRVEAMGMSSEAKLTVLEGDPYFTGKLQDYTGVEKDEVILQCEISKADAPVKWFKDGKEIKPSKNAVIKADGKKRMLILKKALKSDIGQYTCDCGTDKTSGKLDIEDREIKLVRPLHSVEVMETETARFETEISEDDIHANWKLKGEALLQTPDCEIKEEGKIHSLVLHNCRLDQTGGVDFQAANVKSSAHLRVKPRVIGLLRPLKDVTVTAGETATFDCELSYEDIPVEWYLKGKKLEPSDKVVPRSEGKVHTLTLRDVKLEDAGEVQLTAKDFKTHANLFVKEPPVEFTKPLEDQTVEEGATAVLECEVSRENAKVKWFKNGTEILKSKKYEIVADGRVRKLVIHDCTPEDIKTYTCDAKDFKTSCNLNVVPPHVEFLRPLTDLQVREKEMARFECELSRENAKVKWFKDGAEIKKGKKYDIISKGAVRILVINKCLLDDEAEYSCEVRTARTSGMLTVLEEEAVFTKNLANIEVSETDTIKLVCEVSKPGAEVIWYKGDEEIIETGRYEILTEGRKRILVIQNAHLEDAGNYNCRLPSSRTDGKVKVHELAAEFISKPQNLEILEGEKAEFVCSISKESFPVQWKRDDKTLESGDKYDVIADGKKRVLVVKDATLQDMGTYVVMVGAARAAAHLTVIEKLRIVVPLKDTRVKEQQEVVFNCEVNTEGAKAKWFRNEEAIFDSSKYIILQKDLVYTLRIRDAHLDDQANYNVSLTNHRGENVKSAANLIVEEEDLRIVEPLKDIETMEKKSVTFWCKVNRLNVTLKWTKNGEEVPFDNRVSYRVDKYKHMLTIKDCGFPDEGEYIVTAGQDKSVAELLIIEAPTEFVEHLEDQTVTEFDDAVFSCQLSREKANVKWYRNGREIKEGKKYKFEKDGSIHRLIIKDCRLDDECEYACGVEDRKSRARLFVEEIPVEIIRPPQDILEAPGADVVFLAELNKDKVEVQWLRNNMVVVQGDKHQMMSEGKIHRLQICDIKPRDQGEYRFIAKDKEARAKLELAAAPKIKTADQDLVVDVGKPLTMVVPYDAYPKAEAEWFKENEPLSTKTIDTTAEQTSFRILEAKKGDKGRYKIVLQNKHGKAEGFINLKVIDVPGPVRNLEVTETFDGEVSLAWEEPLTDGGSKIIGYVVERRDIKRKTWVLATDRAESCEFTVTGLQKGGVEYLFRVSARNRVGTGEPVETDNPVEARSKYDVPGPPLNVTITDVNRFGVSLTWEPPEYDGGAEITNYVIELRDKTSIRWDTAMTVRAEDLSATVTDVVEGQEYSFRVRAQNRIGVGKPSAATPFVKVADPIERPSPPVNLTSSDQTQSSVQLKWEPPLKDGGSPILGYIIERCEEGKDNWIRCNMKLVPELTYKVTGLEKGNKYLYRVSAENKAGVSDPSEILGPLTADDAFVEPTMDLSAFKDGLEVIVPNPITILVPSTGYPRPTATWCFGDKVLETGDRVKMKTLSAYAELVISPSERSDKGIYTLKLENRVKTISGEIDVNVIARPSAPKELKFGDITKDSVHLTWEPPDDDGGSPLTGYVVEKREVSRKTWTKVMDFVTDLEFTVPDLVQGKEYLFKVCARNKCGPGEPAYVDEPVNMSTPATVPDPPENVKWRDRTANSIFLTWDPPKNDGGSRIKGYIVERCPRGSDKWVACGEPVAETKMEVTGLEEGKWYAYRVKALNRQGASKPSRPTEEIQAVDTQEAPEIFLDVKLLAGLTVKAGTKIELPATVTGKPEPKITWTKADMILKQDKRITIENVPKKSTVTIVDSKRSDTGTYIIEAVNVCGRATAVVEVNVLDKPGPPAAFDITDVTNESCLLTWNPPRDDGGSKITNYVVERRATDSEVWHKLSSTVKDTNFKATKLIPNKEYIFRVAAENMYGVGEPVQASPITAKYQFDPPGPPTRLEPSDITKDAVTLTWCEPDDDGGSPITGYWVERLDPDTDKWVRCNKMPVKDTTYRVKGLTNKKKYRFRVLAENLAGPGKPSKSTEPILIKDPIDPPWPPGKPTVKDVGKTSVRLNWTKPEHDGGAKIESYVIEMLKTGTDEWVRVAEGVPTTQHLLPGLMEGQEYSFRVRAVNKAGESEPSEPSDPVLCREKLYPPSPPRWLEVINITKNTADLKWTVPEKDGGSPITNYIVEKRDVRRKGWQTVDTTVKDTKCTVTPLTEGSLYVFRVAAENAIGQSDYTEIEDSVLAKDTFTTPGPPYALAVVDVTKRHVDLKWEPPKNDGGRPIQRYVIEKKERLGTRWVKAGKTAGPDCNFRVTDVIEGTEVQFQVRAENEAGVGHPSEPTEILSIEDPTSPPSPPLDLHVTDAGRKHIAIAWKPPEKNGGSPIIGYHVEMCPVGTEKWMRVNSRPIKDLKFKVEEGVVPDKEYVLRVRAVNAIGVSEPSEISENVVAKDPDCKPTIDLETHDIIVIEGEKLSIPVPFRAVPVPTVSWHKDGKEVKASDRLTMKNDHISAHLEVPKSVRADAGIYTITLENKLGSATASINVKVIGLPGPCKDIKASDITKSSCKLTWEPPEFDGGTPILHYVLERREAGRRTYIPVMSGENKLSWTVKDLIPNGEYFFRVKAVNKVGGGEYIELKNPVIAQDPKQPPDPPVDVEVHNPTAEAMTITWKPPLYDGGSKIMGYIIEKIAKGEERWKRCNEHLVPILTYTAKGLEEGKEYQFRVRAENAAGISEPSRATPPTKAVDPIDAPKVILRTSLEVKRGDEIALDASISGSPYPTITWIKDENVIVPEEIKKRAAPLVRRRKGEVQEEEPFVLPLTQRLSIDNSKKGESQLRVRDSLRPDHGLYMIKVENDHGIAKAPCTVSVLDTPGPPINFVFEDIRKTSVLCKWEPPLDDGGSEIINYTLEKKDKTKPDSEWIVVTSTLRHCKYSVTKLIEGKEYLFRVRAENRFGPGPPCVSKPLVAKDPFGPPDAPDKPIVEDVTSNSMLVKWNEPKDNGSPILGYWLEKREVNSTHWSRVNKSLLNALKANVDGLLEGLTYVFRVCAENAAGPGKFSPPSDPKTAHDPISPPGPPIPRVTDTSSTTIELEWEPPAFNGGGEIVGYFVDKQLVGTNEWSRCTEKMIKVRQYTVKEIREGADYKLRVSAVNAAGEGPPGETQPVTVAEPQEPPAVELDVSVKGGIQIMAGKTLRIPAVVTGRPVPTKVWTKEEGELDKDRVVIDNVGTKSELIIKDALRKDHGRYVITATNSCGSKFAAARVEVFDVPGPVLDLKPVVTNRKMCLLNWSDPEDDGGSEITGFIIERKDAKMHTWRQPIETERSKCDITGLLEGQEYKFRVIAKNKFGCGPPVEIGPILAVDPLGPPTSPERLTYTERTKSTITLDWKEPRSNGGSPIQGYIIEKRRHDKPDFERVNKRLCPTTSFLVENLDEHQMYEFRVKAVNEIGESEPSLPLNVVIQDDEVPPTIKLRLSVRGDTIKVKAGEPVHIPADVTGLPMPKIEWSKNETVIEKPTDALQITKEEVSRSEAKTELSIPKAVREDKGTYTVTASNRLGSVFRNVHVEVYDRPSPPRNLAVTDIKAESCYLTWDAPLDNGGSEITHYVIDKRDASRKKAEWEEVTNTAVEKRYGIWKLIPNGQYEFRVRAVNKYGISDECKSDKVVIQDPYRLPGPPGKPKVLARTKGSMLVSWTPPLDNGGSPITGYWLEKREEGSPYWSRVSRAPITKVGLKGVEFNVPRLLEGVKYQFRAMAINAAGIGPPSEPSDPEVAGDPIFPPGPPSCPEVKDKTKSSISLGWKPPAKDGGSPIKGYIVEMQEEGTTDWKRVNEPDKLITTCECVVPNLKELRKYRFRVKAVNEAGESEPSDTTGEIPATDIQEEPEVFIDIGAQDCLVCKAGSQIRIPAVIKGRPTPKSSWEFDGKAKKAMKDGVHDIPEDAQLETAENSSVIIIPECKRSHTGKYSITAKNKAGQKTANCRVKVMDVPGPPKDLKVSDITRGSCRLSWKMPDDDGGDRIKGYVIEKRTIDGKAWTKVNPDCGSTTFVVPDLLSEQQYFFRVRAENRFGIGPPVETIQRTTARDPIYPPDPPIKLKIGLITKNTVHLSWKPPKNDGGSPVTHYIVECLAWDPTGTKKEAWRQCNKRDVEELQFTVEDLVEGGEYEFRVKAVNAAGVSKPSATVGPVTVKDQTCPPSIDLKEFMEVEEGTNVNIVAKIKGVPFPTLTWFKAPPKKPDNKEPVLYDTHVNKLVVDDTCTLVIPQSRRSDTGLYTITAVNNLGTASKEMRLNVLGRPGPPVGPIKFESVSADQMTLSWFPPKDDGGSKITNYVIEKREANRKTWVHVSSEPKECTYTIPKLLEGHEYVFRIMAQNKYGIGEPLDSEPETARNLFSVPGAPDKPTVSSVTRNSMTVNWEEPEYDGGSPVTGYWLEMKDTTSKRWKRVNRDPIKAMTLGVSYKVTGLIEGSDYQFRVYAINAAGVGPASLPSDPATARDPIAPPGPPFPKVTDWTKSSADLEWSPPLKDGGSKVTGYIVEYKEEGKEEWEKGKDKEVRGTKLVVTGLKEGAFYKFRVRAVNIAGIGEPGEVTDVIEMKDRLVSPDLQLDASVRDRIVVHAGGVIRIIAYVSGKPPPTVTWNMNERTLPQEATIETTAISSSMVIKNCQRSHQGVYSLLAKNEAGERKKTIIVDVLDVPGPVGTPFLAHNLTNESCKLTWFSPEDDGGSPITNYVIEKRESDRRAWTPVTYTVTRQNATVQGLIQGKAYFFRIAAENSIGMGPFVETSEALVIREPITVPERPEDLEVKEVTKNTVTLTWNPPKYDGGSEIINYVLESRLIGTEKFHKVTNDNLLSRKYTVKGLKEGDTYEYRVSAVNIVGQGKPSFCTKPITCKDELAPPTLHLDFRDKLTIRVGEAFALTGRYSGKPKPKVSWFKDEADVLEDDRTHIKTTPATLALEKIKAKRSDSGKYCVVVENSTGSRKGFCQVNVVDRPGPPVGPVSFDEVTKDYMVISWKPPLDDGGSKITNYIIEKKEVGKDVWMPVTSASAKTTCKVSKLLEGKDYIFRIHAENLYGISDPLVSDSMKAKDRFRVPDAPDQPIVTEVTKDSALVTWNKPHDGGKPITNYILEKRETMSKRWARVTKDPIHPYTKFRVPDLLEGCQYEFRVSAENEIGIGDPSPPSKPVFAKDPIAKPSPPVNPEAIDTTCNSVDLTWQPPRHDGGSKILGYIVEYQKVGDEEWRRANHTPESCPETKYKVTGLRDGQTYKFRVLAVNAAGESDPAHVPEPVLVKDRLEPPELILDANMAREQHIKVGDTLRLSAIIKGVPFPKVTWKKEDRDAPTKARIDVTPVGSKLEIRNAAHEDGGIYSLTVENPAGSKTVSVKVLVLDKPGPPRDLEVSEIRKDSCYLTWKEPLDDGGSVITNYVVERRDVASAQWSPLSATSKKKSHFAKHLNEGNQYLFRVAAENQYGRGPFVETPKPIKALDPLHPPGPPKDLHHVDVDKTEVSLVWNKPDRDGGSPITGYLVEYQEEGTQDWIKFKTVTNLECVVTGLQQGKTYRFRVKAENIVGLGLPDTTIPIECQEKLVPPSVELDVKLIEGLVVKAGTTVRFPAIIRGVPVPTAKWTTDGSEIKTDEHYTVETDNFSSVLTIKNCLRRDTGEYQITVSNAAGSKTVAVHLTVLDVPGPPTGPINILDVTPEHMTISWQPPKDDGGSPVINYIVEKQDTRKDTWGVVSSGSSKTKLKIPHLQKGCEYVFRVRAENKIGVGPPLDSTPTVAKHKFSPPSPPGKPVVTDITENAATVSWTLPKSDGGSPITGYYMERREVTGKWVRVNKTPIADLKFRVTGLYEGNTYEFRVFAENLAGLSKPSPSSDPIKACRPIKPPGPPINPKLKDKSRETADLVWTKPLSDGGSPILGYVVECQKPGTAQWNRINKDELIRQCAFRVPGLIEGNEYRFRIKAANIVGEGEPRELAESVIAKDILHPPEVELDVTCRDVITVRVGQTIRILARVKGRPEPDITWTKEGKVLVREKRVDLIQDLPRVELQIKEAVRADHGKYIISAKNSSGHAQGSAIVNVLDRPGPCQNLKVTNVTKENCTISWENPLDNGGSEITNFIVEYRKPNQKGWSIVASDVTKRLIKANLLANNEYYFRVCAENKVGVGPTIETKTPILAINPIDRPGEPENLHIADKGKTFVYLKWRRPDYDGGSPNLSYHVERRLKGSDDWERVHKGSIKETHYMVDRCVENQIYEFRVQTKNEGGESDWVKTEEVVVKEDLQKPVLDLKLSGVLTVKAGDTIRLEAGVRGKPFPEVAWTKDKDATDLTRSPRVKIDTRADSSKFSLTKAKRSDGGKYVVTATNTAGSFVAYATVNVLDKPGPVRNLKIVDVSSDRCTVCWDPPEDDGGCEIQNYILEKCETKRMVWSTYSATVLTPGTTVTRLIEGNEYIFRVRAENKIGTGPPTESKPVIAKTKYDKPGRPDPPEVTKVSKEEMTVVWNPPEYDGGKSITGYFLEKKEKHSTRWVPVNKSAIPERRMKVQNLLPDHEYQFRVKAENEIGIGEPSLPSRPVVAKDPIEPPGPPTNFRVVDTTKHSITLGWGKPVYDGGAPIIGYVVEMRPKIADASPDEGWKRCNAAAQLVRKEFTVTSLDENQEYEFRVCAQNQVGIGRPAELKEAIKPKEILEPPEIDLDASMRKLVIVRAGCPIRLFAIVRGRPAPKVTWRKVGIDNVVRKGQVDLVDTMAFLVIPNSTRDDSGKYSLTLVNPAGEKAVFVNVRVLDTPGPVSDLKVSDVTKTSCHVSWAPPENDGGSQVTHYIVEKREADRKTWSTVTPEVKKTSFHVTNLVPGNEYYFRVTAVNEYGPGVPTDVPKPVLASDPLSEPDPPRKLEVTEMTKNSATLAWLPPLRDGGAKIDGYITSYREEEQPADRWTEYSVVKDLSLVVTGLKEGKKYKFRVAARNAVGVSLPREAEGVYEAKEQLLPPKILMPEQITIKAGKKLRIEAHVYGKPHPTCKWKKGEDEVVTSSHLAVHKADSSSILIIKDVTRKDSGYYSLTAENSSGTDTQKIKVVVMDAPGPPQPPFDISDIDADACSLSWHIPLEDGGSNITNYIVEKCDVSRGDWVTALASVTKTSCRVGKLIPGQEYIFRVRAENRFGISEPLTSPKMVAQFPFGVPSEPKNARVTKVNKDCIFVAWDRPDSDGGSPIIGYLIERKERNSLLWVKANDTLVRSTEYPCAGLVEGLEYSFRIYALNKAGSSPPSKPTEYVTARMPVDPPGKPEVIDVTKSTVSLIWARPKHDGGSKIIGYFVEACKLPGDKWVRCNTAPHQIPQEEYTATGLEEKAQYQFRAIARTAVNISPPSEPSDPVTILAENVPPRIDLSVAMKSLLTVKAGTNVCLDATVFGKPMPTVSWKKDGTLLKPAEGIKMAMQRNLCTLELFSVNRKDSGDYTITAENSSGSKSATIKLKVLDKPGPPASVKINKMYSDRAMLSWEPPLEDGGSEITNYIVDKRETSRPNWAQVSATVPITSCSVEKLIEGHEYQFRICAENKYGVGDPVFTEPAIAKNPYDPPGRCDPPVISNITKDHMTVSWKPPADDGGSPITGYLLEKRETQAVNWTKVNRKPIIERTLKATGLQEGTEYEFRVTAINKAGPGKPSDASKAAYARDPQYPPGPPAFPKVYDTTRSSVSLSWGKPAYDGGSPIIGYLVEVKRADSDNWVRCNLPQNLQKTRFEVTGLMEDTQYQFRVYAVNKIGYSDPSDVPDKHYPKDILIPPEGELDADLRKTLILRAGVTMRLYVPVKGRPPPKITWSKPNVNLRDRIGLDIKSTDFDTFLRCENVNKYDAGKYILTLENSCGKKEYTIVVKVLDTPGPPVNVTVKEISKDSAYVTWEPPIIDGGSPIINYVVQKRDAERKSWSTVTTECSKTSFRVANLEEGKSYFFRVFAENEYGIGDPGETRDAVKASQTPGPVVDLKVRSVSKSSCSIGWKKPHSDGGSRIIGYVVDFLTEENKWQRVMKSLSLQYSAKDLTEGKEYTFRVSAENENGEGTPSEITVVARDDVVAPDLDLKGLPDLCYLAKENSNFRLKIPIKGKPAPSVSWKKGEDPLATDTRVSVESSAVNTTLIVYDCQKSDAGKYTITLKNVAGTKEGTISIKVVGKPGIPTGPIKFDEVTAEAMTLKWAPPKDDGGSEITNYILEKRDSVNNKWVTCASAVQKTTFRVTRLHEGMEYTFRVSAENKYGVGEGLKSEPIVARHPFDVPDAPPPPNIVDVRHDSVSLTWTDPKKTGGSPITGYHLEFKERNSLLWKRANKTPIRMRDFKVTGLTEGLEYEFRVMAINLAGVGKPSLPSEPVVALDPIDPPGKPEVINITRNSVTLIWTEPKYDGGHKLTGYIVEKRDLPSKSWMKANHVNVPECAFTVTDLVEGGKYEFRIRAKNTAGAISAPSESTETIICKDEYEAPTIVLDPTIKDGLTIKAGDTIVLNAISILGKPLPKSSWSKAGKDIRPSDITQITSTPTSSMLTIKYATRKDAGEYTITATNPFGTKVEHVKVTVLDVPGPPGPVEISNVSAEKATLTWTPPLEDGGSPIKSYILEKRETSRLLWTVVSEDIQSCRHVATKLIQGNEYIFRVSAVNHYGKGEPVQSEPVKMVDRFGPPGPPEKPEVSNVTKNTATVSWKRPVDDGGSEITGYHVERREKKSLRWVRAIKTPVSDLRCKVTGLQEGSTYEFRVSAENRAGIGPPSEASDSVLMKDAAYPPGPPSNPHVTDTTKKSASLAWGKPHYDGGLEITGYVVEHQKVGDEAWIKDTTGTALRITQFVVPDLQTKEKYNFRISAINDAGVGEPAVIPDVEIVEREMAPDFELDAELRRTLVVRAGLSIRIFVPIKGRPAPEVTWTKDNINLKNRANIENTESFTLLIIPECNRYDTGKFVMTIENPAGKKSGFVNVRVLDTPGPVLNLRPTDITKDSVTLHWDLPLIDGGSRITNYIVEKREATRKSYSTATTKCHKCTYKVTGLSEGCEYFFRVMAENEYGIGEPTETTEPVKASEAPSPPDSLNIMDITKSTVSLAWPKPKHDGGSKITGYVIEAQRKGSDQWTHITTVKGLECVVRNLTEGEEYTFQVMAVNSAGRSAPRESRPVIVKEQTMLPELDLRGIYQKLVIAKAGDNIKVEIPVLGRPKPTVTWKKGDQILKQTQRVNFETTATSTILNINECVRSDSGPYPLTARNIVGEVGDVITIQVHDIPGPPTGPIKFDEVSSDFVTFSWDPPENDGGVPISNYVVEMRQTDSTTWVELATTVIRTTYKATRLTTGLEYQFRVKAQNRYGVGPGITSACIVANYPFKVPGPPGTPQVTAVTKDSMTISWHEPLSDGGSPILGYHVERKERNGILWQTVSKALVPGNIFKSSGLTDGIAYEFRVIAENMAGKSKPSKPSEPMLALDPIDPPGKPVPLNITRHTVTLKWAKPEYTGGFKITSYIVEKRDLPNGRWLKANFSNILENEFTVSGLTEDAAYEFRVIAKNAAGAISPPSEPSDAITCRDDVEAPKIKVDVKFKDTVILKAGEAFRLEADVSGRPPPTMEWSKDGKELEGTAKLEIKIADFSTNLVNKDSTRRDSGAYTLTATNPGGFAKHIFNVKVLDRPGPPEGPLAVTEVTSEKCVLSWFPPLDDGGAKIDHYIVQKRETSRLAWTNVASEVQVTKLKVTKLLKGNEYIFRVMAVNKYGVGEPLESEPVLAVNPYGPPDPPKNPEVTTITKDSMVVCWGHPDSDGGSEIINYIVERRDKAGQRWIKCNKKTLTDLRYKVSGLTEGHEYEFRIMAENAAGISAPSPTSPFYKACDTVFKPGPPGNPRVLDTSRSSISIAWNKPIYDGGSEITGYMVEIALPEEDEWQIVTPPAGLKATSYTITGLTENQEYKIRIYAMNSEGLGEPALVPGTPKAEDRMLPPEIELDADLRKVVTIRACCTLRLFVPIKGRPAPEVKWARDHGESLDKASIESTSSYTLLIVGNVNRFDSGKYILTVENSSGSKSAFVNVRVLDTPGPPQDLKVKEVTKTSVTLTWDPPLLDGGSKIKNYIVEKRESTRKAYSTVATNCHKTSWKVDQLQEGCSYYFRVLAENEYGIGLPAETAESVKASERPLPPGKITLMDVTRNSVSLSWEKPEHDGGSRILGYIVEMQTKGSDKWATCATVKVTEATITGLIQGEEYSFRVSAQNEKGISDPRQLSVPVIAKDLVIPPAFKLLFNTFTVLAGEDLKVDVPFIGRPTPAVTWHKDNVPLKQTTRVNAESTENNSLLTIKDACREDVGHYVVKLTNSAGEAIETLNVIVLDKPGPPTGPVKMDEVTADSITLSWGPPKYDGGSSINNYIVEKRDTSTTTWQIVSATVARTTIKACRLKTGCEYQFRIAAENRYGKSTYLNSEPTVAQYPFKVPGPPGTPVVTLSSRDSMEVQWNEPISDGGSRVIGYHLERKERNSILWVKLNKTPIPQTKFKTTGLEEGVEYEFRVSAENIVGIGKPSKVSECYVARDPCDPPGRPEAIIVTRNSVTLQWKKPTYDGGSKITGYIVEKKELPEGRWMKASFTNIIDTHFEVTGLVEDHRYEFRVIARNAAGVFSEPSESTGAITARDEVDPPRISMDPKYKDTIVVHAGESFKVDADIYGKPIPTIQWIKGDQELSNTARLEIKSTDFATSLSVKDAVRVDSGNYILKAKNVAGERSVTVNVKVLDRPGPPEGPVVISGVTAEKCTLAWKPPLQDGGSDIINYIVERRETSRLVWTVVDANVQTLSCKVTKLLEGNEYTFRIMAVNKYGVGEPLESEPVVAKNPFVVPDAPKAPEVTTVTKDSMIVVWERPASDGGSEILGYVLEKRDKEGIRWTRCHKRLIGELRLRVTGLIENHDYEFRVSAENAAGLSEPSPPSAYQKACDPIYKPGPPNNPKVIDITRSSVFLSWSKPIYDGGCEIQGYIVEKCDVSVGEWTMCTPPTGINKTNIEVEKLLEKHEYNFRICAINKAGVGEHADVPGPIIVEEKLEAPDIDLDLELRKIINIRAGGSLRLFVPIKGRPTPEVKWGKVDGEIRDAAIIDVTSSFTSLVLDNVNRYDSGKYTLTLENSSGTKSAFVTVRVLDTPSPPVNLKVTEITKDSVSITWEPPLLDGGSKIKNYIVEKREATRKSYAAVVTNCHKNSWKIDQLQEGCSYYFRVTAENEYGIGLPAQTADPIKVAEVPQPPGKITVDDVTRNSVSLSWTKPEHDGGSKIIQYIVEMQAKHSEKWSECARVKSLQAVITNLTQGEEYLFRVVAVNEKGRSDPRSLAVPIVAKDLVIEPDVKPAFSSYSVQVGQDLKIEVPISGRPKPTITWTKDGLPLKQTTRINVTDSLDLTTLSIKETHKDDGGQYGITVANVVGQKTASIEIVTLDKPDPPKGPVKFDDVSAESITLSWNPPLYTGGCQITNYIVQKRDTTTTVWDVVSATVARTTLKVTKLKTGTEYQFRIFAENRYGQSFALESDPIVAQYPYKEPGPPGTPFATAISKDSMVIQWHEPVNNGGSPVIGYHLERKERNSILWTKVNKTIIHDTQFKAQNLEEGIEYEFRVYAENIVGVGKASKNSECYVARDPCDPPGTPEPIMVKRNEITLQWTKPVYDGGSMITGYIVEKRDLPDGRWMKASFTNVIETQFTVSGLTEDQRYEFRVIAKNAAGAISKPSDSTGPITAKDEVELPRISMDPKFRDTIVVNAGETFRLEADVHGKPLPTIEWLRGDKEIEESARCEIKNTDFKALLIVKDAIRIDGGQYILRASNVAGSKSFPVNVKVLDRPGPPEGPVQVTGVTSEKCSLTWSPPLQDGGSDISHYVVEKRETSRLAWTVVASEVVTNSLKVTKLLEGNEYVFRIMAVNKYGVGEPLESAPVLMKNPFVLPGPPKSLEVTNIAKDSMTVCWNRPDSDGGSEIIGYIVEKRDRSGIRWIKCNKRRITDLRLRVTGLTEDHEYEFRVSAENAAGVGEPSPATVYYKACDPVFKPGPPTNAHIVDTTKNSITLAWGKPIYDGGSEILGYVVEICKADEEEWQIVTPQTGLRVTRFEISKLTEHQEYKIRVCALNKVGLGEATSVPGTVKPEDKLEAPELDLDSELRKGIVVRAGGSARIHIPFKGRPTPEITWSREEGEFTDKVQIEKGVNYTQLSIDNCDRNDAGKYILKLENSSGSKSAFVTVKVLDTPGPPQNLAVKEVRKDSAFLVWEPPIIDGGAKVKNYVIDKRESTRKAYANVSSKCSKTSFKVENLTEGAIYYFRVMAENEFGVGVPVETVDAVKAAEPPSPPGKVTLTDVSQTSASLMWEKPEHDGGSRVLGYVVEMQPKGTEKWSIVAESKVCNAVVTGLSSGQEYQFRVKAYNEKGKSDPRVLGVPVIAKDLTIQPSLKLPFNTYSIQAGEDLKIEIPVIGRPRPNISWVKDGEPLKQTTRVNVEETATSTVLHIKEGNKDDFGKYTVTATNSAGTATENLSVIVLEKPGPPVGPVRFDEVSADFVVISWEPPAYTGGCQISNYIVEKRDTTTTTWHMVSATVARTTIKITKLKTGTEYQFRIFAENRYGKSAPLDSKAVIVQYPFKEPGPPGTPFVTSISKDQMLVQWHEPVNDGGTKIIGYHLEQKEKNSILWVKLNKTPIQDTKFKTTGLDEGLEYEFKVSAENIVGIGKPSKVSECFVARDPCDPPGRPEAIVITRNNVTLKWKKPAYDGGSKITGYIVEKKDLPDGRWMKASFTNVLETEFTVSGLVEDQRYEFRVIARNAAGNFSEPSDSSGAITARDEIDAPNASLDPKYKDVIVVHAGETFVLEADIRGKPIPDVVWSKDGKELEETAARMEIKSTIQKTTLVVKDCIRTDGGQYILKLSNVGGTKSIPITVKVLDRPGPPEGPLKVTGVTAEKCYLAWNPPLQDGGANISHYIIEKRETSRLSWTQVSTEVQALNYKVTKLLPGNEYIFRVMAVNKYGIGEPLESGPVTACNPYKPPGPPSTPEVSAITKDSMVVTWARPVDDGGTEIEGYILEKRDKEGVRWTKCNKKTLTDLRLRVTGLTEGHSYEFRVAAENAAGVGEPSEPSVFYRACDALYPPGPPSNPKVTDTSRSSVSLAWSKPIYDGGAPVKGYVVEVKEAAADEWTTCTPPTGLQGKQFTVTKLKENTEYNFRICAINSEGVGEPATLPGSVVAQERIEPPEIELDADLRKVVVLRASATLRLFVTIKGRPEPEVKWEKAEGILTDRAQIEVTSSFTMLVIDNVTRFDSGRYNLTLENNSGSKTAFVNVRVLDSPSAPVNLTIREVKKDSVTLSWEPPLIDGGAKITNYIVEKRETTRKAYATITNNCTKTTFRIENLQEGCSYYFRVLASNEYGIGLPAETTEPVKVSEPPLPPGRVTLVDVTRNTATIKWEKPESDGGSKITGYVVEMQTKGSEKWSTCTQVKTLEATISGLTAGEEYVFRVAAVNEKGRSDPRQLGVPVIARDIEIKPSVELPFHTFNVKAREQLKIDVPFKGRPQATVNWRKDGQTLKETTRVNVSSSKTVTSLSIKEASKEDVGTYELCVSNSAGSITVPITIIVLDRPGPPGPIRIDEVSCDSITISWNPPEYDGGCQISNYIVEKKETTSTTWHIVSQAVARTSIKIVRLTTGSEYQFRVCAENRYGKSSYSESSAVVAEYPFSPPGPPGTPKVVHATKSTMLVTWQVPVNDGGSRVIGYHLEYKERSSILWSKANKILIADTQMKVSGLDEGLMYEYRVYAENIAGIGKCSKSCEPVPARDPCDPPGQPEVTNITRKSVSLKWSKPHYDGGAKITGYIVERRELPDGRWLKCNYTNIQETYFEVTELTEDQRYEFRVFARNAADSVSEPSESTGPIIVKDDVEPPRVMMDVKFRDVIVVKAGEVLKINADIAGRPLPVISWAKDGIEIEERARTEIISTDNHTLLTVKDCIRRDTGQYVLTLKNVAGTRSVAVNCKVLDKPGPPAGPLEINGLTAEKCSLSWGRPQEDGGADIDYYIVEKRETSHLAWTICEGELQMTSCKVTKLLKGNEYIFRVTGVNKYGVGEPLESVAIKALDPFTVPSPPTSLEITSVTKESMTLCWSRPESDGGSEISGYIIERREKNSLRWVRVNKKPVYDLRVKSTGLREGCEYEYRVYAENAAGLSLPSETSPLIRAEDPVFLPSPPSKPKIVDSGKTTITIAWVKPLFDGGAPITGYTVEYKKSDDTDWKTSIQSLRGTEYTISGLTTGAEYVFRVKSVNKVGASDPSDSSDPQIAKEREEEPLFDIDSEMRKTLIVKAGASFTMTVPFRGRPVPNVLWSKPDTDLRTRAYVDTTDSRTSLTIENANRNDSGKYTLTIQNVLSAASLTLVVKVLDTPGPPTNITVQDVTKESAVLSWDVPENDGGAPVKNYHIEKREASKKAWVSVTNNCNRLSYKVTNLQEGAIYYFRVSGENEFGVGIPAETKEGVKITEKPSPPEKLGVTSISKDSVSLTWLKPEHDGGSRIVHYVVEALEKGQKNWVKCAVAKSTHHVVSGLRENSEYFFRVFAENQAGLSDPRELLLPVLIKEQLEPPEIDMKNFPSHTVYVRAGSNLKVDIPISGKPLPKVTLSRDGVPLKATMRFNTEITAENLTINLKESVTADAGRYEITAANSSGTTKAFINIVVLDRPGPPTGPVVISDITEESVTLKWEPPKYDGGSQVTNYILLKRETSTAVWTEVSATVARTMMKVMKLTTGEEYQFRIKAENRFGISDHIDSACVTVKLPYTTPGPPSTPWVTNVTRESITVGWHEPVSNGGSAVVGYHLEMKDRNSILWQKANKLVIRTTHFKVTTISAGLIYEFRVYAENAAGVGKPSHPSEPVLAIDACEPPRNVRITDISKNSVSLSWQQPAFDGGSKITGYIVERRDLPDGRWTKASFTNVTETQFIISGLTQNSQYEFRVFARNAVGSISNPSEVVGPITCIDSYGGPVIDLPLEYTEVVKYRAGTSVKLRAGISGKPAPTIEWYKDDKELQTNALVCVENTTDLASILIKDADRLNSGCYELKLRNAMGSASATIRVQILDKPGPPGGPIEFKTVTAEKITLLWRPPADDGGAKITHYIVEKRETSRVVWSMVSEHLEECIITTTKIIKGNEYIFRVRAVNKYGIGEPLESDSVVAKNAFVTPGPPGIPEVTKITKNSMTVVWSRPIADGGSDISGYFLEKRDKKSLGWFKVLKETIRDTRQKVTGLTENSDYQYRVCAVNAAGQGPFSEPSEFYKAADPIDPPGPPAKIRIADSTKSSITLGWSKPVYDGGSAVTGYVVEIRQGEEEEWTTVSTKGEVRTTEYVVSNLKPGVNYYFRVSAVNCAGQGEPIEMNEPVQAKDILEAPEIDLDVALRTSVIAKAGEDVQVLIPFKGRPPPTVTWRKDEKNLGSDARYSIENTDSSSLLTIPQVTRNDTGKYILTIENGVGEPKSSTVSVKVLDTPAACQKLQVKHVSRGTVTLLWDPPLIDGGSPIINYVIEKRDATKRTWSVVSHKCSSTSFKLIDLSEKTPFFFRVLAENEIGIGEPCETTEPVKAAEVPAPIRDLSMKDSTKTSVILSWTKPDFDGGSVITEYVVERKGKGEQTWSHAGISKTCEIEVSQLKEQSVLEFRVFAKNEKGLSDPVTIGPITVKELIITPEVDLSDIPGAQVTVRIGHNVHLELPYKGKPKPSISWLKDGLPLKESEFVRFSKTENKITLSIKNAKKEHGGKYTVILDNAVCRIAVPITVITLGPPSKPKGPIRFDEIKADSVILSWDVPEDNGGGEITCYSIEKRETSQTNWKMVCSSVARTTFKVPNLVKDAEYQFRVRAENRYGVSQPLVSSIIVAKHQFRIPGPPGKPVIYNVTSDGMSLTWDAPVYDGGSEVTGFHVEKKERNSILWQKVNTSPISGREYRATGLVEGLDYQFRVYAENSAGLSSPSDPSKFTLAVSPVDPPGTPDYIDVTRETITLKWNPPLRDGGSKIVGYSIEKRQGNERWVRCNFTDVSECQYTVTGLSPGDRYEFRIIARNAVGTISPPSQSSGIIMTRDENVPPIVEFGPEYFDGLIIKSGESLRIKALVQGRPVPRVTWFKDGVEIEKRMNMEITDVLGSTSLFVRDATRDHRGVYTVEAKNASGSAKAEIKVKVQDTPGKVVGPIRFTNITGEKMTLWWDAPLNDGCAPITHYIIEKRETSRLAWALIEDKCEAQSYTAIKLINGNEYQFRVSAVNKFGVGRPLDSDPVVAQIQYTVPDAPGIPEPSNITGNSITLTWARPESDGGSEIQQYILERREKKSTRWVKVISKRPISETRFKVTGLTEGNEYEFHVMAENAAGVGPASGISRLIKCREPVNPPGPPTVVKVTDTSKTTVSLEWSKPVFDGGMEIIGYIIEMCKADLGDWHKVNAEACVKTRYTVTDLQAGEEYKFRVSAINGAGKGDSCEVTGTIKAVDRLTAPELDIDANFKQTHVVRAGASIRLFIAYQGRPTPTAVWSKPDSNLSLRADIHTTDSFSTLTVENCNRNDAGKYTLTVENNSGSKSITFTVKVLDTPGPPGPITFKDVTRGSATLMWDAPLLDGGARIHHYVVEKREASRRSWQVISEKCTRQIFKVNDLAEGVPYYFRVSAVNEYGVGEPYEMPEPIVATEQPAPPRRLDVVDTSKSSAVLAWLKPDHDGGSRITGYLLEMRQKGSDFWVEAGHTKQLTFTVERLVEKTEYEFRVKAKNDAGYSEPREAFSSVIIKEPQIEPTADLTGITNQLITCKAGSPFTIDVPISGRPAPKVTWKLEEMRLKETDRVSITTTKDRTTLTVKDSMRGDSGRYFLTLENTAGVKTFSVTVVVIGRPGPVTGPIEVSSVSAESCVLSWGEPKDGGGTEITNYIVEKRESGTTAWQLVNSSVKRTQIKVTHLTKYMEYSFRVSSENRFGVSKPLESAPIIAEHPFVPPSAPTRPEVYHVSANAMSIRWEEPYHDGGSKIIGYWVEKKERNTILWVKENKVPCLECNYKVTGLVEGLEYQFRTYALNAAGVSKASEASRPIMAQNPVDAPGRPEVTDVTRSTVSLIWSAPAYDGGSKVVGYIIERKPVSEVGDGRWLKCNYTIVSDNFFTVTALSEGDTYEFRVLAKNAAGVISKGSESTGPVTCRDEYAPPKAELDARLHGDLVTIRAGSDLVLDAAVGGKPEPKIIWTKGDKELDLCEKVSLQYTGKRATAVIKFCDRSDSGKYTLTVKNASGTKAVSVMVKVLDSPGPCGKLTVSRVTQEKCTLAWSLPQEDGGAEITHYIVERRETSRLNWVIVEGECPTLSYVVTRLIKNNEYIFRVRAVNKYGPGVPVESEPIVARNSFTIPSPPGIPEEVGTGKEHIIIQWTKPESDGGNEISNYLVDKREKKSLRWTRVNKDYVVYDTRLKVTSLMEGCDYQFRVTAVNAAGNSEPSEASNFISCREPSYTPGPPSAPRVVDTTKHSISLAWTKPMYDGGTDIVGYVLEMQEKDTDQWYRVHTNATIRNTEFTVPDLKMGQKYSFRVAAVNVKGMSEYSESIAEIEPVERIEIPDLELADDLKKTVTIRAGASLRLMVSVSGRPPPVITWSKQGIDLASRAIIDTTESYSLLIVDKVNRYDAGKYTIEAENQSGKKSATVLVKVYDTPGPCPSVKVKEVSRDSVTITWEIPTIDGGAPVNNYIVEKREAAMRAFKTVTTKCSKTLYRISGLVEGTMYYFRVLPENIYGIGEPCETSDAVLVSEVPLVPAKLEVVDVTKSTVTLAWEKPLYDGGSRLTGYVLEACKAGTERWMKVVTLKPTVLEHTVTSLNEGEQYLFRIRAQNEKGVSEPRETVTAVTVQDLRVLPTIDLSTMPQKTIHVPAGRPVELVIPIAGRPPPAASWFFAGSKLRESERVTVETHTKVAKLTIRETTIRDTGEYTLELKNVTGTTSETIKVIILDKPGPPTGPIKIDEIDATSITISWEPPELDGGAPLSGYVVEQRDAHRPGWLPVSESVTRSTFKFTRLTEGNEYVFRVAATNRFGIGSYLQSEVIECRSSIRIPGPPETLQIFDVSRDGMTLTWYPPEDDGGSQVTGYIVERKEVRADRWVRVNKVPVTMTRYRSTGLTEGLEYEHRVTAINARGSGKPSRPSKPIVAMDPIAPPGKPQNPRVTDTTRTSVSLAWSVPEDEGGSKVTGYLIEMQKVDQHEWTKCNTTPTKIREYTLTHLPQGAEYRFRVLACNAGGPGEPAEVPGTVKVTEMLEYPDYELDERYQEGIFVRQGGVIRLTIPIKGKPFPICKWTKEGQDISKRAMIATSETHTELVIKEADRGDSGTYDLVLENKCGKKAVYIKVRVIGSPNSPEGPLEYDDIQVRSVRVSWRPPADDGGADILGYILERREVPKAAWYTIDSRVRGTSLVVKGLKENVEYHFRVSAENQFGISKPLKSEEPVTPKTPLNPPEPPSNPPEVLDVTKSSVSLSWSRPKDDGGSRVTGYYIERKETSTDKWVRHNKTQITTTMYTVTGLVPDAEYQFRIIAQNDVGLSETSPASEPVVCKDPFDKPSQPGELEILSISKDSVTLQWEKPECDGGKEILGYWVEYRQSGDSAWKKSNKERIKDKQFTIGGLLEATEYEFRVFAENETGLSRPRRTAMSIKTKLTSGEAPGIRKEMKDVTTKLGEAAQLSCQIVGRPLPDIKWYRFGKELIQSRKYKMSSDGRTHTLTVMTEEQEDEGVYTCIATNEVGEVETSSKLLLQATPQFHPGYPLKEKYYGAVGSTLRLHVMYIGRPVPAMTWFHGQKLLQNSENITIENTEHYTHLVMKNVQRKTHAGKYKVQLSNVFGTVDAILDVEIQDKPDKPTGPIVIEALLKNSAVISWKPPADDGGSWITNYVVEKCEAKEGAEWQLVSSAISVTTCRIVNLTENAGYYFRVSAQNTFGISDPLEVSSVVIIKSPFEKPGAPGKPTITAVTKDSCVVAWKPPASDGGAKIRNYYLEKREKKQNKWISVTTEEIRETVFSVKNLIEGLEYEFRVKCENLGGESEWSEISEPITPKSDVPIQAPHFKEELRNLNVRYQSNATLVCKVTGHPKPIVKWYRQGKEIIADGLKYRIQEFKGGYHQLIIASVTDDDATVYQVRATNQGGSVSGTASLEVEVPAKIHLPKTLEGMGAVHALRGEVVSIKIPFSGKPDPVITWQKGQDLIDNNGHYQVIVTRSFTSLVFPNGVERKDAGFYVVCAKNRFGIDQKTVELDVADVPDPPRGVKVSDVSRDSVNLTWTEPASDGGSKITNYIVEKCATTAERWLRVGQARETRYTVINLFGKTSYQFRVIAENKFGLSKPSEPSEPTITKEDKTRAMNYDEEVDETREVSMTKASHSSTKELYEKYMIAEDLGRGEFGIVHRCVETSSKKTYMAKFVKVKGTDQVLVKKEISILNIARHRNILHLHESFESMEELVMIFEFISGLDIFERINTSAFELNEREIVSYVHQVCEALQFLHSHNIGHFDIRPENIIYQTRRSSTIKIIEFGQARQLKPGDNFRLLFTAPEYYAPEVHQHDVVSTATDMWSLGTLVYVLLSGINPFLAETNQQIIENIMNAEYTFDEEAFKEISIEAMDFVDRLLVKERKSRMTASEALQHPWLKQKIERVSTKVIRTLKHRRYYHTLIKKDLNMVVSAARISCGGAIRSQKGVSVAKVKVASIEIGPVSGQIMHAVGEEGGHVKYVCKIENYDQSTQVTWYFGVRQLENSEKYEITYEDGVAILYVKDITKLDDGTYRCKVVNDYGEDSSYAELFVKGVREVYDYYCRRTMKKIKRRTDTMRLLERPPEFTLPLYNKTAYVGENVRFGVTITVHPEPHVTWYKSGQKIKPGDNDKKYTFESDKGLYQLTINSVTTDDDAEYTVVARNKYGEDSCKAKLTVTLHPPPTDSTLRPMFKRLLANAECQEGQSVCFEIRVSGIPPPTLKWEKDGQPLSLGPNIEIIHEGLDYYALHIRDTLPEDTGYYRVTATNTAGSTSCQAHLQVERLRYKKQEFKSKEEHERHVQKQIDKTLRMAEILSGTESVPLTQVAKEALREAAVLYKPAVSTKTVKGEFRLEIEEKKEERKLRMPYDVPEPRKYKQTTIEEDQRIKQFVPMSDMKWYKKIRDQYEMPGKLDRVVQKRPKRIRLSRWEQFYVMPLPRITDQYRPKWRIPKLSQDDLEIVRPARRRTPSPDYDFYYRPRRRSLGDISDEELLLPIDDYLAMKRTEEERLRLEEELELGFSASPPSRSPPHFELSSLRYSSPQAHVKVEETRKDFRYSTYHIPTKAEASTSYAELRERHAQAAYRQPKQRQRIMAEREDEELLRPVTTTQHLSEYKSELDFMSKEEKSRKKSRRQREVTEITEIEEEYEISKHAQRESSSSASRLLRRRRSLSPTYIELMRPVSELIRSRPQPAEEYEDDTERRSPTPERTRPRSPSPVSSERSLSRFERSARFDIFSRYESMKAALKTQKTSERKYEVLSQQPFTLDHAPRITLRMRSHRVPCGQNTRFILNVQSKPTAEVKWYHNGVELQESSKIHYTNTSGVLTLEILDCHTDDSGTYRAVCTNYKGEASDYATLDVTGGDYTTYASQRRDEEVPRSVFPELTRTEAYAVSSFKKTSEMEASSSVREVKSQMTETRESLSSYEHSASAEMKSAALEEKSLEEKSTTRKIKTTLAARILTKPRSMTVYEGESARFSCDTDGEPVPTVTWLRKGQVLSTSARHQVTTTKYKSTFEISSVQASDEGNYSVVVENSEGKQEAEFTLTIQKARVTEKAVTSPPRVKSPEPRVKSPEAVKSPKRVKSPEPSHPKAVSPTETKPTPTEKVQHLPVSAPPKITQFLKAEASKEIAKLTCVVESSVLRAKEVTWYKDGKKLKENGHFQFHYSADGTYELKINNLTESDQGEYVCEISGEGGTSKTNLQFMGQAFKSIHEKVSKISETKKSDQKTTESTVTRKTEPKAPEPISSKPVIVTGLQDTTVSSDSVAKFAVKATGEPRPTAIWTKDGKAITQGGKYKLSEDKGGFFLEIHKTDTSDSGLYTCTVKNSAGSVSSSCKLTIKAIKDTEAQKVSTQKTSEITPQKKAVVQEEISQKALRSEEIKMSEAKSQEKLALKEEASKVLISEEVKKSAATSLEKSIVHEEITKTSQASEEVRTHAEIKAFSTQMSINEGQRLVLKANIAGATDVKWVLNGVELTNSEEYRYGVSGSDQTLTIKQASHRDEGILTCISKTKEGIVKCQYDLTLSKELSDAPAFISQPRSQNINEGQNVLFTCEISGEPSPEIEWFKNNLPISISSNVSISRSRNVYSLEIRNASVSDSGKYTIKAKNFRGQCSATASLMVLPLVEEPSREVVLRTSGDTSLQGSFSSQSVQMSASKQEASFSSFSSSSASSMTEMKFASMSAQSMSSMQESFVEMSSSSFMGISNMTQLESSTSKMLKAGIRGIPPKIEALPSDISIDEGKVLTVACAFTGEPTPEVTWSCGGRKIHSQEQGRFHIENTDDLTTLIIMDVQKQDGGLYTLSLGNEFGSDSATVNIHIRSI
+Q9UKI8,TLK1,MSVQSSSGSLEGPPSWSQLSTSPTPGSAAAARSLLNHTPPSGRPREGAMDELHSLDPRRQELLEARFTGVASGSTGSTGSCSVGAKASTNNESSNHSFGSLGSLSDKESETPEKKQSESSRGRKRKAENQNESSQGKSIGGRGHKISDYFEYQGGNGSSPVRGIPPAIRSPQNSHSHSTPSSSVRPNSPSPTALAFGDHPIVQPKQLSFKIIQTDLTMLKLAALESNKIQDLEKKEGRIDDLLRANCDLRRQIDEQQKLLEKYKERLNKCISMSKKLLIEKSTQEKLSSREKSMQDRLRLGHFTTVRHGASFTEQWTDGFAFQNLVKQQEWVNQQREDIERQRKLLAKRKPPTANNSQAPSTNSEPKQRKNKAVNGAENDPFVRPNLPQLLTLAEYHEQEEIFKLRLGHLKKEEAEIQAELERLERVRNLHIRELKRINNEDNSQFKDHPTLNERYLLLHLLGRGGFSEVYKAFDLYEQRYAAVKIHQLNKSWRDEKKENYHKHACREYRIHKELDHPRIVKLYDYFSLDTDTFCTVLEYCEGNDLDFYLKQHKLMSEKEARSIVMQIVNALRYLNEIKPPIIHYDLKPGNILLVDGTACGEIKITDFGLSKIMDDDSYGVDGMDLTSQGAGTYWYLPPECFVVGKEPPKISNKVDVWSVGVIFFQCLYGRKPFGHNQSQQDILQENTILKATEVQFPVKPVVSSEAKAFIRRCLAYRKEDRFDVHQLANDPYLLPHMRRSNSSGNLHMAGLTASPTPPSSSIITY
+Q86UE8,TLK2,MMEELHSLDPRRQELLEARFTGVGVSKGPLNSESSNQSLCSVGSLSDKEVETPEKKQNDQRNRKRKAEPYETSQGKGTPRGHKISDYFEFAGGSAPGTSPGRSVPPVARSSPQHSLSNPLPRRVEQPLYGLDGSAAKEATEEQSALPTLMSVMLAKPRLDTEQLAQRGAGLCFTFVSAQQNSPSSTGSGNTEHSCSSQKQISIQHRQTQSDLTIEKISALENSKNSDLEKKEGRIDDLLRANCDLRRQIDEQQKMLEKYKERLNRCVTMSKKLLIEKSKQEKMACRDKSMQDRLRLGHFTTVRHGASFTEQWTDGYAFQNLIKQQERINSQREEIERQRKMLAKRKPPAMGQAPPATNEQKQRKSKTNGAENETPSSGNTELKDTAPALGAHSLLRLTLAEYHEQEEIFKLRLGHLKKEEAEIQAELERLERVRNLHIRELKRIHNEDNSQFKDHPTLNDRYLLLHLLGRGGFSEVYKAFDLTEQRYVAVKIHQLNKNWRDEKKENYHKHACREYRIHKELDHPRIVKLYDYFSLDTDSFCTVLEYCEGNDLDFYLKQHKLMSEKEARSIIMQIVNALKYLNEIKPPIIHYDLKPGNILLVNGTACGEIKITDFGLSKIMDDDSYNSVDGMELTSQGAGTYWYLPPECFVVGKEPPKISNKVDVWSVGVIFYQCLYGRKPFGHNQSQQDILQENTILKATEVQFPPKPVVTPEAKAFIRRCLAYRKEDRIDVQQLACDPYLLPHIRKSVSTSSPAGAAIASTSGASNNSSSN
+Q13470,TNK1,MLPEAGSLWLLKLLRDIQLAQFYWPILEELNVTRPEHFDFVKPEDLDGIGMGRPAQRRLSEALKRLRSGPKSKNWVYKILGGFAPEHKEPTLPSDSPRHLPEPEGGLKCLIPEGAVCRGELLGSGCFGVVHRGLWTLPSGKSVPVAVKSLRVGPEGPMGTELGDFLREVSVMMNLEHPHVLRLHGLVLGQPLQMVMELAPLGSLHARLTAPAPTPPLLVALLCLFLRQLAGAMAYLGARGLVHRDLATRNLLLASPRTIKVADFGLVRPLGGARGRYVMGGPRPIPYAWCAPESLRHGAFSSASDVWMFGVTLWEMFSGGEEPWAGVPPYLILQRLEDRARLPRPPLCSRALYSLALRCWAPHPADRPSFSHLEGLLQEAGPSEACCVRDVTEPGALRMETGDPITVIEGSSSFHSPDSTIWKGQNGRTFKVGSFPASAVTLADAGGLPATRPVHRGTPARGDQHPGSIDGDRKKANLWDAPPARGQRRNMPLERMKGISRSLESVLSLGPRPTGGGSSPPEIRQARAVPQGPPGLPPRPPLSSSSPQPSQPSRERLPWPKRKPPHNHPMGMPGARKAAALSGGLLSDPELQRKIMEVELSVHGVTHQECQTALGATGGDVVSAIRNLKVDQLFHLSSRSRADCWRILEHYQWDLSAASRYVLARP
+O75962,TRIO,MSGSSGGAAAPAASSGPAAAASAAGSGCGGGAGEGAEEAAKDLADIAAFFRSGFRKNDEMKAMDVLPILKEKVAYLSGGRDKRGGPILTFPARSNHDRIRQEDLRRLISYLACIPSEEVCKRGFTVIVDMRGSKWDSIKPLLKILQESFPCCIHVALIIKPDNFWQKQRTNFGSSKFEFETNMVSLEGLTKVVDPSQLTPEFDGCLEYNHEEWIEIRVAFEDYISNATHMLSRLEELQDILAKKELPQDLEGARNMIEEHSQLKKKVIKAPIEDLDLEGQKLLQRIQSSESFPKKNSGSGNADLQNLLPKVSTMLDRLHSTRQHLHQMWHVRKLKLDQCFQLRLFEQDAEKMFDWITHNKGLFLNSYTEIGTSHPHAMELQTQHNHFAMNCMNVYVNINRIMSVANRLVESGHYASQQIRQIASQLEQEWKAFAAALDERSTLLDMSSIFHQKAEKYMSNVDSWCKACGEVDLPSELQDLEDAIHHHQGIYEHITLAYSEVSQDGKSLLDKLQRPLTPGSSDSLTASANYSKAVHHVLDVIHEVLHHQRQLENIWQHRKVRLHQRLQLCVFQQDVQQVLDWIENHGEAFLSKHTGVGKSLHRARALQKRHEDFEEVAQNTYTNADKLLEAAEQLAQTGECDPEEIYQAAHQLEDRIQDFVRRVEQRKILLDMSVSFHTHVKELWTWLEELQKELLDDVYAESVEAVQDLIKRFGQQQQTTLQVTVNVIKEGEDLIQQLRDSAISSNKTPHNSSINHIETVLQQLDEAQSQMEELFQERKIKLELFLQLRIFERDAIDIISDLESWNDELSQQMNDFDTEDLTIAEQRLQHHADKALTMNNLTFDVIHQGQDLLQYVNEVQASGVELLCDRDVDMATRVQDLLEFLHEKQQELDLAAEQHRKHLEQCVQLRHLQAEVKQVLGWIRNGESMLNAGLITASSLQEAEQLQREHEQFQHAIEKTHQSALQVQQKAEAMLQANHYDMDMIRDCAEKVASHWQQLMLKMEDRLKLVNASVAFYKTSEQVCSVLESLEQEYKREEDWCGGADKLGPNSETDHVTPMISKHLEQKEAFLKACTLARRNADVFLKYLHRNSVNMPGMVTHIKAPEQQVKNILNELFQRENRVLHYWTMRKRRLDQCQQYVVFERSAKQALEWIHDNGEFYLSTHTSTGSSIQHTQELLKEHEEFQITAKQTKERVKLLIQLADGFCEKGHAHAAEIKKCVTAVDKRYRDFSLRMEKYRTSLEKALGISSDSNKSSKSLQLDIIPASIPGSEVKLRDAAHELNEEKRKSARRKEFIMAELIQTEKAYVRDLRECMDTYLWEMTSGVEEIPPGIVNKELIIFGNMQEIYEFHNNIFLKELEKYEQLPEDVGHCFVTWADKFQMYVTYCKNKPDSTQLILEHAGSYFDEIQQRHGLANSISSYLIKPVQRITKYQLLLKELLTCCEEGKGEIKDGLEVMLSVPKRANDAMHLSMLEGFDENIESQGELILQESFQVWDPKTLIRKGRERHLFLFEMSLVFSKEVKDSSGRSKYLYKSKLFTSELGVTEHVEGDPCKFALWVGRTPTSDNKIVLKASSIENKQDWIKHIREVIQERTIHLKGALKEPIHIPKTAPATRQKGRRDGEDLDSQGDGSSQPDTISIASRTSQNTLDSDKLSGGCELTVVIHDFTACNSNELTIRRGQTVEVLERPHDKPDWCLVRTTDRSPAAEGLVPCGSLCIAHSRSSMEMEGIFNHKDSLSVSSNDASPPASVASLQPHMIGAQSSPGPKRPGNTLRKWLTSPVRRLSSGKADGHVKKLAHKHKKSREVRKSADAGSQKDSDDSAATPQDETVEERGRNEGLSSGTLSKSSSSGMQSCGEEEGEEGADAVPLPPPMAIQQHSLLQPDSQDDKASSRLLVRPTSSETPSAAELVSAIEELVKSKMALEDRPSSLLVDQGDSSSPSFNPSDNSLLSSSSPIDEMEERKSSSLKRRHYVLQELVETERDYVRDLGYVVEGYMALMKEDGVPDDMKGKDKIVFGNIHQIYDWHRDFFLGELEKCLEDPEKLGSLFVKHERRLHMYIAYCQNKPKSEHIVSEYIDTFFEDLKQRLGHRLQLTDLLIKPVQRIMKYQLLLKDFLKYSKKASLDTSELERAVEVMCIVPRRCNDMMNVGRLQGFDGKIVAQGKLLLQDTFLVTDQDAGLLPRCRERRIFLFEQIVIFSEPLDKKKGFSMPGFLFKNSIKVSCLCLEENVENDPCKFALTSRTGDVVETFILHSSSPSVRQTWIHEINQILENQRNFLNALTSPIEYQRNHSGGGGGGGSGGSGGGGGSGGGGAPSGGSGHSGGPSSCGGAPSTSRSRPSRIPQPVRHHPPVLVSSAASSQAEADKMSGTSTPGPSLPPPGAAPEAGPSAPSRRPPGADAEGSEREAEPIPKMKVLESPRKGAANASGSSPDAPAKDARASLGTLPLGKPRAGAASPLNSPLSSAVPSLGKEPFPPSSPLQKGGSFWSSIPASPASRPGSFTFPGDSDSLQRQTPRHAAPGKDTDRMSTCSSASEQSVQSTQSNGSESSSSSNISTMLVTHDYTAVKEDEINVYQGEVVQILASNQQNMFLVFRAATDQCPAAEGWIPGFVLGHTSAVIVENPDGTLKKSTSWHTALRLRKKSEKKDKDGKREGKLENGYRKSREGLSNKVSVKLLNPNYIYDVPPEFVIPLSEVTCETGETVVLRCRVCGRPKASITWKGPEHNTLNNDGHYSISYSDLGEATLKIVGVTTEDDGIYTCIAVNDMGSASSSASLRVLGPGMDGIMVTWKDNFDSFYSEVAELGRGRFSVVKKCDQKGTKRAVATKFVNKKLMKRDQVTHELGILQSLQHPLLVGLLDTFETPTSYILVLEMADQGRLLDCVVRWGSLTEGKIRAHLGEVLEAVRYLHNCRIAHLDLKPENILVDESLAKPTIKLADFGDAVQLNTTYYIHQLLGNPEFAAPEIILGNPVSLTSDTWSVGVLTYVLLSGVSPFLDDSVEETCLNICRLDFSFPDDYFKGVSQKAKEFVCFLLQEDPAKRPSAALALQEQWLQAGNGRSTGVLDTSRLTSFIERRKHQNDVRPIRSIKNFLQSRLLPRV
+P04629,NTRK1,MLRGGRRGQLGWHSWAAGPGSLLAWLILASAGAAPCPDACCPHGSSGLRCTRDGALDSLHHLPGAENLTELYIENQQHLQHLELRDLRGLGELRNLTIVKSGLRFVAPDAFHFTPRLSRLNLSFNALESLSWKTVQGLSLQELVLSGNPLHCSCALRWLQRWEEEGLGGVPEQKLQCHGQGPLAHMPNASCGVPTLKVQVPNASVDVGDDVLLRCQVEGRGLEQAGWILTELEQSATVMKSGGLPSLGLTLANVTSDLNRKNVTCWAENDVGRAEVSVQVNVSFPASVQLHTAVEMHHWCIPFSVDGQPAPSLRWLFNGSVLNETSFIFTEFLEPAANETVRHGCLRLNQPTHVNNGNYTLLAANPFGQASASIMAAFMDNPFEFNPEDPIPVSFSPVDTNSTSGDPVEKKDETPFGVSVAVGLAVFACLFLSTLLLVLNKCGRRNKFGINRPAVLAPEDGLAMSLHFMTLGGSSLSPTEGKGSGLQGHIIENPQYFSDACVHHIKRRDIVLKWELGEGAFGKVFLAECHNLLPEQDKMLVAVKALKEASESARQDFQREAELLTMLQHQHIVRFFGVCTEGRPLLMVFEYMRHGDLNRFLRSHGPDAKLLAGGEDVAPGPLGLGQLLAVASQVAAGMVYLAGLHFVHRDLATRNCLVGQGLVVKIGDFGMSRDIYSTDYYRVGGRTMLPIRWMPPESILYRKFTTESDVWSFGVVLWEIFTYGKQPWYQLSNTEAIDCITQGRELERPRACPPEVYAIMRGCWQREPQQRHSIKDVHARLQALAQAPPVYLDVLG
+Q16620,NTRK2,MSSWIRWHGPAMARLWGFCWLVVGFWRAAFACPTSCKCSASRIWCSDPSPGIVAFPRLEPNSVDPENITEIFIANQKRLEIINEDDVEAYVGLRNLTIVDSGLKFVAHKAFLKNSNLQHINFTRNKLTSLSRKHFRHLDLSELILVGNPFTCSCDIMWIKTLQEAKSSPDTQDLYCLNESSKNIPLANLQIPNCGLPSANLAAPNLTVEEGKSITLSCSVAGDPVPNMYWDVGNLVSKHMNETSHTQGSLRITNISSDDSGKQISCVAENLVGEDQDSVNLTVHFAPTITFLESPTSDHHWCIPFTVKGNPKPALQWFYNGAILNESKYICTKIHVTNHTEYHGCLQLDNPTHMNNGDYTLIAKNEYGKDEKQISAHFMGWPGIDDGANPNYPDVIYEDYGTAANDIGDTTNRSNEIPSTDVTDKTGREHLSVYAVVVIASVVGFCLLVMLFLLKLARHSKFGMKGPASVISNDDDSASPLHHISNGSNTPSSSEGGPDAVIIGMTKIPVIENPQYFGITNSQLKPDTFVQHIKRHNIVLKRELGEGAFGKVFLAECYNLCPEQDKILVAVKTLKDASDNARKDFHREAELLTNLQHEHIVKFYGVCVEGDPLIMVFEYMKHGDLNKFLRAHGPDAVLMAEGNPPTELTQSQMLHIAQQIAAGMVYLASQHFVHRDLATRNCLVGENLLVKIGDFGMSRDVYSTDYYRVGGHTMLPIRWMPPESIMYRKFTTESDVWSLGVVLWEIFTYGKQPWYQLSNNEVIECITQGRVLQRPRTCPQEVYELMLGCWQREPHMRKNIKGIHTLLQNLAKASPVYLDILG
+Q16288,NTRK3,MDVSLCPAKCSFWRIFLLGSVWLDYVGSVLACPANCVCSKTEINCRRPDDGNLFPLLEGQDSGNSNGNASINITDISRNITSIHIENWRSLHTLNAVDMELYTGLQKLTIKNSGLRSIQPRAFAKNPHLRYINLSSNRLTTLSWQLFQTLSLRELQLEQNFFNCSCDIRWMQLWQEQGEAKLNSQNLYCINADGSQLPLFRMNISQCDLPEISVSHVNLTVREGDNAVITCNGSGSPLPDVDWIVTGLQSINTHQTNLNWTNVHAINLTLVNVTSEDNGFTLTCIAENVVGMSNASVALTVYYPPRVVSLEEPELRLEHCIEFVVRGNPPPTLHWLHNGQPLRESKIIHVEYYQEGEISEGCLLFNKPTHYNNGNYTLIAKNPLGTANQTINGHFLKEPFPESTDNFILFDEVSPTPPITVTHKPEEDTFGVSIAVGLAAFACVLLVVLFVMINKYGRRSKFGMKGPVAVISGEEDSASPLHHINHGITTPSSLDAGPDTVVIGMTRIPVIENPQYFRQGHNCHKPDTYVQHIKRRDIVLKRELGEGAFGKVFLAECYNLSPTKDKMLVAVKALKDPTLAARKDFQREAELLTNLQHEHIVKFYGVCGDGDPLIMVFEYMKHGDLNKFLRAHGPDAMILVDGQPRQAKGELGLSQMLHIASQIASGMVYLASQHFVHRDLATRNCLVGANLLVKIGDFGMSRDVYSTDYYRLFNPSGNDFCIWCEVGGHTMLPIRWMPPESIMYRKFTTESDVWSFGVILWEIFTYGKQPWFQLSNTEVIECITQGRVLERPRVCPKEVYDVMLGCWQREPQQRLNIKEIYKILHALGKATPIYLDILG
+Q9Y4A5,TRRAP,MAFVATQGATVVDQTTLMKKYLQFVAALTDVNTPDETKLKMMQEVSENFENVTSSPQYSTFLEHIIPRFLTFLQDGEVQFLQEKPAQQLRKLVLEIIHRIPTNEHLRPHTKNVLSVMFRFLETENEENVLICLRIIIELHKQFRPPITQEIHHFLDFVKQIYKELPKVVNRYFENPQVIPENTVPPPEMVGMITTIAVKVNPEREDSETRTHSIIPRGSLSLKVLAELPIIVVLMYQLYKLNIHNVVAEFVPLIMNTIAIQVSAQARQHKLYNKELYADFIAAQIKTLSFLAYIIRIYQELVTKYSQQMVKGMLQLLSNCPAETAHLRKELLIAAKHILTTELRNQFIPCMDKLFDESILIGSGYTARETLRPLAYSTLADLVHHVRQHLPLSDLSLAVQLFAKNIDDESLPSSIQTMSCKLLLNLVDCIRSKSEQESGNGRDVLMRMLEVFVLKFHTIARYQLSAIFKKCKPQSELGAVEAALPGVPTAPAAPGPAPSPAPVPAPPPPPPPPPPATPVTPAPVPPFEKQGEKDKEDKQTFQVTDCRSLVKTLVCGVKTITWGITSCKAPGEAQFIPNKQLQPKETQIYIKLVKYAMQALDIYQVQIAGNGQTYIRVANCQTVRMKEEKEVLEHFAGVFTMMNPLTFKEIFQTTVPYMVERISKNYALQIVANSFLANPTTSALFATILVEYLLDRLPEMGSNVELSNLYLKLFKLVFGSVSLFAAENEQMLKPHLHKIVNSSMELAQTAKEPYNYFLLLRALFRSIGGGSHDLLYQEFLPLLPNLLQGLNMLQSGLHKQHMKDLFVELCLTVPVRLSSLLPYLPMLMDPLVSALNGSQTLVSQGLRTLELCVDNLQPDFLYDHIQPVRAELMQALWRTLRNPADSISHVAYRVLGKFGGSNRKMLKESQKLHYVVTEVQGPSITVEFSDCKASLQLPMEKAIETALDCLKSANTEPYYRRQAWEVIKCFLVAMMSLEDNKHALYQLLAHPNFTEKTIPNVIISHRYKAQDTPARKTFEQALTGAFMSAVIKDLRPSALPFVASLIRHYTMVAVAQQCGPFLLPCYQVGSQPSTAMFHSEENGSKGMDPLVLIDAIAICMAYEEKELCKIGEVALAVIFDVASIILGSKERACQLPLFSYIVERLCACCYEQAWYAKLGGVVSIKFLMERLPLTWVLQNQQTFLKALLFVMMDLTGEVSNGAVAMAKTTLEQLLMRCATPLKDEERAEEIVAAQEKSFHHVTHDLVREVTSPNSTVRKQAMHSLQVLAQVTGKSVTVIMEPHKEVLQDMVPPKKHLLRHQPANAQIGLMEGNTFCTTLQPRLFTMDLNVVEHKVFYTELLNLCEAEDSALTKLPCYKSLPSLVPLRIAALNALAACNYLPQSREKIIAALFKALNSTNSELQEAGEACMRKFLEGATIEVDQIHTHMRPLLMMLGDYRSLTLNVVNRLTSVTRLFPNSFNDKFCDQMMQHLRKWMEVVVITHKGGQRSDGNESISECGRCPLSPFCQFEEMKICSAIINLFHLIPAAPQTLVKPLLEVVMKTERAMLIEAGSPFREPLIKFLTRHPSQTVELFMMEATLNDPQWSRMFMSFLKHKDARPLRDVLAANPNRFITLLLPGGAQTAVRPGSPSTSTMRLDLQFQAIKIISIIVKNDDSWLASQHSLVSQLRRVWVSENFQERHRKENMAATNWKEPKLLAYCLLNYCKRNYGDIELLFQLLRAFTGRFLCNMTFLKEYMEEEIPKNYSIAQKRALFFRFVDFNDPNFGDELKAKVLQHILNPAFLYSFEKGEGEQLLGPPNPEGDNPESITSVFITKVLDPEKQADMLDSLRIYLLQYATLLVEHAPHHIHDNNKNRNSKLRRLMTFAWPCLLSKACVDPACKYSGHLLLAHIIAKFAIHKKIVLQVFHSLLKAHAMEARAIVRQAMAILTPAVPARMEDGHQMLTHWTRKIIVEEGHTVPQLVHILHLIVQHFKVYYPVRHHLVQHMVSAMQRLGFTPSVTIEQRRLAVDLSEVVIKWELQRIKDQQPDSDMDPNSSGEGVNSVSSSIKRGLSVDSAQEVKRFRTATGAISAVFGRSQSLPGADSLLAKPIDKQHTDTVVNFLIRVACQVNDNTNTAGSPGEVLSRRCVNLLKTALRPDMWPKSELKLQWFDKLLMTVEQPNQVNYGNICTGLEVLSFLLTVLQSPAILSSFKPLQRGIAACMTCGNTKVLRAVHSLLSRLMSIFPTEPSTSSVASKYEELECLYAAVGKVIYEGLTNYEKATNANPSQLFGTLMILKSACSNNPSYIDRLISVFMRSLQKMVREHLNPQAASGSTEATSGTSELVMLSLELVKTRLAVMSMEMRKNFIQAILTSLIEKSPDAKILRAVVKIVEEWVKNNSPMAANQTPTLREKSILLVKMMTYIEKRFPEDLELNAQFLDLVNYVYRDETLSGSELTAKLEPAFLSGLRCAQPLIRAKFFEVFDNSMKRRVYERLLYVTCSQNWEAMGNHFWIKQCIELLLAVCEKSTPIGTSCQGAMLPSITNVINLADSHDRAAFAMVTHVKQEPRERENSESKEEDVEIDIELAPGDQTSTPKTKELSEKDIGNQLHMLTNRHDKFLDTLREVKTGALLSAFVQLCHISTTLAEKTWVQLFPRLWKILSDRQQHALAGEISPFLCSGSHQVQRDCQPSALNCFVEAMSQCVPPIPIRPCVLKYLGKTHNLWFRSTLMLEHQAFEKGLSLQIKPKQTTEFYEQESITPPQQEILDSLAELYSLLQEEDMWAGLWQKRCKYSETATAIAYEQHGFFEQAQESYEKAMDKAKKEHERSNASPAIFPEYQLWEDHWIRCSKELNQWEALTEYGQSKGHINPYLVLECAWRVSNWTAMKEALVQVEVSCPKEMAWKVNMYRGYLAICHPEEQQLSFIERLVEMASSLAIREWRRLPHVVSHVHTPLLQAAQQIIELQEAAQINAGLQPTNLGRNNSLHDMKTVVKTWRNRLPIVSDDLSHWSSIFMWRQHHYQGKPTWSGMHSSSIVTAYENSSQHDPSSNNAMLGVHASASAIIQYGKIARKQGLVNVALDILSRIHTIPTVPIVDCFQKIRQQVKCYLQLAGVMGKNECMQGLEVIESTNLKYFTKEMTAEFYALKGMFLAQINKSEEANKAFSAAVQMHDVLVKAWAMWGDYLENIFVKERQLHLGVSAITCYLHACRHQNESKSRKYLAKVLWLLSFDDDKNTLADAVDKYCIGVPPIQWLAWIPQLLTCLVGSEGKLLLNLISQVGRVYPQAVYFPIRTLYLTLKIEQRERYKSDPGPIRATAPMWRCSRIMHMQRELHPTLLSSLEGIVDQMVWFRENWHEEVLRQLQQGLAKCYSVAFEKSGAVSDAKITPHTLNFVKKLVSTFGVGLENVSNVSTMFSSAASESLARRAQATAQDPVFQKLKGQFTTDFDFSVPGSMKLHNLISKLKKWIKILEAKTKQLPKFFLIEEKCRFLSNFSAQTAEVEIPGEFLMPKPTHYYIKIARFMPRVEIVQKHNTAARRLYIRGHNGKIYPYLVMNDACLTESRREERVLQLLRLLNPCLEKRKETTKRHLFFTVPRVVAVSPQMRLVEDNPSSLSLVEIYKQRCAKKGIEHDNPISRYYDRLATVQARGTQASHQVLRDILKEVQSNMVPRSMLKEWALHTFPNATDYWTFRKMFTIQLALIGFAEFVLHLNRLNPEMLQIAQDTGKLNVAYFRFDINDATGDLDANRPVPFRLTPNISEFLTTIGVSGPLTASMIAVARCFAQPNFKVDGILKTVLRDEIIAWHKKTQEDTSSPLSAAGQPENMDSQQLVSLVQKAVTAIMTRLHNLAQFEGGESKVNTLVAAANSLDNLCRMDPAWHPWL
+P33981,TTK,MESEDLSGRELTIDSIMNKVRDIKNKFKNEDLTDELSLNKISADTTDNSGTVNQIMMMANNPEDWLSLLLKLEKNSVPLSDALLNKLIGRYSQAIEALPPDKYGQNESFARIQVRFAELKAIQEPDDARDYFQMARANCKKFAFVHISFAQFELSQGNVKKSKQLLQKAVERGAVPLEMLEIALRNLNLQKKQLLSEEEKKNLSASTVLTAQESFSGSLGHLQNRNNSCDSRGQTTKARFLYGENMPPQDAEIGYRNSLRQTNKTKQSCPFGRVPVNLLNSPDCDVKTDDSVVPCFMKRQTSRSECRDLVVPGSKPSGNDSCELRNLKSVQNSHFKEPLVSDEKSSELIITDSITLKNKTESSLLAKLEETKEYQEPEVPESNQKQWQSKRKSECINQNPAASSNHWQIPELARKVNTEQKHTTFEQPVFSVSKQSPPISTSKWFDPKSICKTPSSNTLDDYMSCFRTPVVKNDFPPACQLSTPYGQPACFQQQQHQILATPLQNLQVLASSSANECISVKGRIYSILKQIGSGGSSKVFQVLNEKKQIYAIKYVNLEEADNQTLDSYRNEIAYLNKLQQHSDKIIRLYDYEITDQYIYMVMECGNIDLNSWLKKKKSIDPWERKSYWKNMLEAVHTIHQHGIVHSDLKPANFLIVDGMLKLIDFGIANQMQPDTTSVVKDSQVGTVNYMPPEAIKDMSSSRENGKSKSKISPKSDVWSLGCILYYMTYGKTPFQQIINQISKLHAIIDPNHEIEFPDIPEKDLQDVLKCCLKRDPKQRISIPELLAHPYVQIQTHPVNQMAKGTTEEMKYVLGQLVGLNSPNSILKAAKTLYEHYSGGESHNSSSSKTFEKKRGKK
+P42681,TXK,MILSSYNTIQSVFCCCCCCSVQKRQMRTQISLSTDEELPEKYTQRRRPWLSQLSNKKQSNTGRVQPSKRKPLPPLPPSEVAEEKIQVKALYDFLPREPCNLALRRAEEYLILEKYNPHWWKARDRLGNEGLIPSNYVTENKITNLEIYEWYHRNITRNQAEHLLRQESKEGAFIVRDSRHLGSYTISVFMGARRSTEAAIKHYQIKKNDSGQWYVAERHAFQSIPELIWYHQHNAAGLMTRLRYPVGLMGSCLPATAGFSYEKWEIDPSELAFIKEIGSGQFGVVHLGEWRSHIQVAIKAINEGSMSEEDFIEEAKVMMKLSHSKLVQLYGVCIQRKPLYIVTEFMENGCLLNYLRENKGKLRKEMLLSVCQDICEGMEYLERNGYIHRDLAARNCLVSSTCIVKISDFGMTRYVLDDEYVSSFGAKFPIKWSPPEVFLFNKYSSKSDVWSFGVLMWEVFTEGKMPFENKSNLQVVEAISEGFRLYRPHLAPMSIYEVMYSCWHEKPEGRPTFAELLRAVTEIAETW
+P29597,TYK2,MPLRHWGMARGSKPVGDGAQPMAAMGGLKVLLHWAGPGGGEPWVTFSESSLTAEEVCIHIAHKVGITPPCFNLFALFDAQAQVWLPPNHILEIPRDASLMLYFRIRFYFRNWHGMNPREPAVYRCGPPGTEASSDQTAQGMQLLDPASFEYLFEQGKHEFVNDVASLWELSTEEEIHHFKNESLGMAFLHLCHLALRHGIPLEEVAKKTSFKDCIPRSFRRHIRQHSALTRLRLRNVFRRFLRDFQPGRLSQQMVMVKYLATLERLAPRFGTERVPVCHLRLLAQAEGEPCYIRDSGVAPTDPGPESAAGPPTHEVLVTGTGGIQWWPVEEEVNKEEGSSGSSGRNPQASLFGKKAKAHKAVGQPADRPREPLWAYFCDFRDITHVVLKEHCVSIHRQDNKCLELSLPSRAAALSFVSLVDGYFRLTADSSHYLCHEVAPPRLVMSIRDGIHGPLLEPFVQAKLRPEDGLYLIHWSTSHPYRLILTVAQRSQAPDGMQSLRLRKFPIEQQDGAFVLEGWGRSFPSVRELGAALQGCLLRAGDDCFSLRRCCLPQPGETSNLIIMRGARASPRTLNLSQLSFHRVDQKEITQLSHLGQGTRTNVYEGRLRVEGSGDPEEGKMDDEDPLVPGRDRGQELRVVLKVLDPSHHDIALAFYETASLMSQVSHTHLAFVHGVCVRGPENIMVTEYVEHGPLDVWLRRERGHVPMAWKMVVAQQLASALSYLENKNLVHGNVCGRNILLARLGLAEGTSPFIKLSDPGVGLGALSREERVERIPWLAPECLPGGANSLSTAMDKWGFGATLLEICFDGEAPLQSRSPSEKEHFYQRQHRLPEPSCPQLATLTSQCLTYEPTQRPSFRTILRDLTRLQPHNLADVLTVNPDSPASDPTVFHKRYLKKIRDLGEGHFGKVSLYCYDPTNDGTGEMVAVKALKADCGPQHRSGWKQEIDILRTLYHEHIIKYKGCCEDQGEKSLQLVMEYVPLGSLRDYLPRHSIGLAQLLLFAQQICEGMAYLHAQHYIHRDLAARNVLLDNDRLVKIGDFGLAKAVPEGHEYYRVREDGDSPVFWYAPECLKEYKFYYASDVWSFGVTLYELLTHCDSSQSPPTKFLELIGIAQGQMTVLRLTELLERGERLPRPDKCPCEVYHLMKNCWETEASFRPTFENLIPILKTVHEKYQGQAPSVFSVC
+Q06418,TYRO3,MALRRSMGRPGLPPLPLPPPPRLGLLLAALASLLLPESAAAGLKLMGAPVKLTVSQGQPVKLNCSVEGMEEPDIQWVKDGAVVQNLDQLYIPVSEQHWIGFLSLKSVERSDAGRYWCQVEDGGETEISQPVWLTVEGVPFFTVEPKDLAVPPNAPFQLSCEAVGPPEPVTIVWWRGTTKIGGPAPSPSVLNVTGVTQSTMFSCEAHNLKGLASSRTATVHLQALPAAPFNITVTKLSSSNASVAWMPGADGRALLQSCTVQVTQAPGGWEVLAVVVPVPPFTCLLRDLVPATNYSLRVRCANALGPSPYADWVPFQTKGLAPASAPQNLHAIRTDSGLILEWEEVIPEAPLEGPLGPYKLSWVQDNGTQDELTVEGTRANLTGWDPQKDLIVRVCVSNAVGCGPWSQPLVVSSHDRAGQQGPPHSRTSWVPVVLGVLTALVTAAALALILLRKRRKETRFGQAFDSVMARGEPAVHFRAARSFNRERPERIEATLDSLGISDELKEKLEDVLIPEQQFTLGRMLGKGEFGSVREAQLKQEDGSFVKVAVKMLKADIIASSDIEEFLREAACMKEFDHPHVAKLVGVSLRSRAKGRLPIPMVILPFMKHGDLHAFLLASRIGENPFNLPLQTLIRFMVDIACGMEYLSSRNFIHRDLAARNCMLAEDMTVCVADFGLSRKIYSGDYYRQGCASKLPVKWLALESLADNLYTVQSDVWAFGVTMWEIMTRGQTPYAGIENAEIYNYLIGGNRLKQPPECMEDVYDLMYQCWSADPKQRPSFTCLRMELENILGQLSVLSASQDPLYINIERAEEPTAGGSLELPGRDQPYSGAGDGSGMGAVGGTPSDCRYILTPGGLAEQPGQAEHQPESPLNETQRLLLLQQGLLPHSSC
+O75385,ULK1,MEPGRGGTETVGKFEFSRKDLIGHGAFAVVFKGRHREKHDLEVAVKCINKKNLAKSQTLLGKEIKILKELKHENIVALYDFQEMANSVYLVMEYCNGGDLADYLHAMRTLSEDTIRLFLQQIAGAMRLLHSKGIIHRDLKPQNILLSNPAGRRANPNSIRVKIADFGFARYLQSNMMAATLCGSPMYMAPEVIMSQHYDGKADLWSIGTIVYQCLTGKAPFQASSPQDLRLFYEKNKTLVPTIPRETSAPLRQLLLALLQRNHKDRMDFDEFFHHPFLDASPSVRKSPPVPVPSYPSSGSGSSSSSSSTSHLASPPSLGEMQQLQKTLASPADTAGFLHSSRDSGGSKDSSCDTDDFVMVPAQFPGDLVAEAPSAKPPPDSLMCSGSSLVASAGLESHGRTPSPSPPCSSSPSPSGRAGPFSSSRCGASVPIPVPTQVQNYQRIERNLQSPTQFQTPRSSAIRRSGSTSPLGFARASPSPPAHAEHGGVLARKMSLGGGRPYTPSPQVGTIPERPGWSGTPSPQGAEMRGGRSPRPGSSAPEHSPRTSGLGCRLHSAPNLSDLHVVRPKLPKPPTDPLGAVFSPPQASPPQPSHGLQSCRNLRGSPKLPDFLQRNPLPPILGSPTKAVPSFDFPKTPSSQNLLALLARQGVVMTPPRNRTLPDLSEVGPFHGQPLGPGLRPGEDPKGPFGRSFSTSRLTDLLLKAAFGTQAPDPGSTESLQEKPMEIAPSAGFGGSLHPGARAGGTSSPSPVVFTVGSPPSGSTPPQGPRTRMFSAGPTGSASSSARHLVPGPCSEAPAPELPAPGHGCSFADPITANLEGAVTFEAPDLPEETLMEQEHTEILRGLRFTLLFVQHVLEIAALKGSASEAAGGPEYQLQESVVADQISLLSREWGFAEQLVLYLKVAELLSSGLQSAIDQIRAGKLCLSSTVKQVVRRLNELYKASVVSCQGLSLRLQRFFLDKQRLLDRIHSITAERLIFSHAVQMVQSAALDEMFQHREGCVPRYHKALLLLEGLQHMLSDQADIENVTKCKLCIERRLSALLTGICA
+Q8IYT8,ULK2,MEVVGDFEYSKRDLVGHGAFAVVFRGRHRQKTDWEVAIKSINKKNLSKSQILLGKEIKILKELQHENIVALYDVQELPNSVFLVMEYCNGGDLADYLQAKGTLSEDTIRVFLHQIAAAMRILHSKGIIHRDLKPQNILLSYANRRKSSVSGIRIKIADFGFARYLHSNMMAATLCGSPMYMAPEVIMSQHYDAKADLWSIGTVIYQCLVGKPPFQANSPQDLRMFYEKNRSLMPSIPRETSPYLANLLLGLLQRNQKDRMDFEAFFSHPFLEQGPVKKSCPVPVPMYSGSVSGSSCGSSPSCRFASPPSLPDMQHIQEENLSSPPLGPPNYLQVSKDSASTSSKNSSCDTDDFVLVPHNISSDHSCDMPVGTAGRRASNEFLVCGGQCQPTVSPHSETAPIPVPTQIRNYQRIEQNLTSTASSGTNVHGSPRSAVVRRSNTSPMGFLRPGSCSPVPADTAQTVGRRLSTGSSRPYSPSPLVGTIPEQFSQCCCGHPQGHDSRSRNSSGSPVPQAQSPQSLLSGARLQSAPTLTDIYQNKQKLRKQHSDPVCPSHTGAGYSYSPQPSRPGSLGTSPTKHLGSSPRSSDWFFKTPLPTIIGSPTKTTAPFKIPKTQASSNLLALVTRHGPAEEQSKDGNEPRECAHCLLVQGSERQRAEQQSKAVFGRSVSTGKLSDQQGKTPICRHQGSTDSLNTERPMDIAPAGACGGVLAPPAGTAASSKAVLFTVGSPPHSAAAPTCTHMFLRTRTTSVGPSNSGGSLCAMSGRVCVGSPPGPGFGSSPPGAEAAPSLRYVPYGASPPSLEGLITFEAPELPEETLMEREHTDTLRHLNVMLMFTECVLDLTAMRGGNPELCTSAVSLYQIQESVVVDQISQLSKDWGRVEQLVLYMKAAQLLAASLHLAKAQIKSGKLSPSTAVKQVVKNLNERYKFCITMCKKLTEKLNRFFSDKQRFIDEINSVTAEKLIYNCAVEMVQSAALDEMFQQTEDIVYRYHKAALLLEGLSRILQDPADIENVHKYKCSIERRLSALCHSTATV
+Q99986,VRK1,MPRVKAAQAGRQSSAKRHLAEQFAVGEIITDMAKKEWKVGLPIGQGGFGCIYLADMNSSESVGSDAPCVVKVEPSDNGPLFTELKFYQRAAKPEQIQKWIRTRKLKYLGVPKYWGSGLHDKNGKSYRFMIMDRFGSDLQKIYEANAKRFSRKTVLQLSLRILDILEYIHEHEYVHGDIKASNLLLNYKNPDQVYLVDYGLAYRYCPEGVHKEYKEDPKRCHDGTIEFTSIDAHNGVAPSRRGDLEILGYCMIQWLTGHLPWEDNLKDPKYVRDSKIRYRENIASLMDKCFPEKNKPGEIAKYMETVKLLDYTEKPLYENLRDILLQGLKAIGSKDDGKLDLSVVENGGLKAKTITKKRKKEIEESKEPGVEDTEWSNTQTEEAIQTRSRTRKRVQK
+Q86Y07,VRK2,MPPKRNEKYKLPIPFPEGKVLDDMEGNQWVLGKKIGSGGFGLIYLAFPTNKPEKDARHVVKVEYQENGPLFSELKFYQRVAKKDCIKKWIERKQLDYLGIPLFYGSGLTEFKGRSYRFMVMERLGIDLQKISGQNGTFKKSTVLQLGIRMLDVLEYIHENEYVHGDIKAANLLLGYKNPDQVYLADYGLSYRYCPNGNHKQYQENPRKGHNGTIEFTSLDAHKGVALSRRSDVEILGYCMLRWLCGKLPWEQNLKDPVAVQTAKTNLLDELPQSVLKWAPSGSSCCEIAQFLVCAHSLAYDEKPNYQALKKILNPHGIPLGPLDFSTKGQSINVHTPNSQKVDSQKAATKQVNKAHNRLIEKKVHSERSAESCATWKVQKEEKLIGLMNNEAAQESTRRRQKYQESQEPLNEVNSFPQKISYTQFPNSFYEPHQDFTSPDIFKKSRSPSWYKYTSTVSTGITDLESSTGLWPTISQFTLSEETNADVYYYRIIIPVLLMLVFLALFFL
+P30291,WEE1,MSFLSRQQPPPPRRAGAACTLRQKLIFSPCSDCEEEEEEEEEEGSGHSTGEDSAFQEPDSPLPPARSPTEPGPERRRSPGPAPGSPGELEEDLLLPGACPGADEAGGGAEGDSWEEEGFGSSSPVKSPAAPYFLGSSFSPVRCGGPGDASPRGCGARRAGEGRRSPRPDHPGTPPHKTFRKLRLFDTPHTPKSLLSKARGIDSSSVKLRGSSLFMDTEKSGKREFDVRQTPQVNINPFTPDSLLLHSSGQCRRRKRTYWNDSCGEDMEASDYELEDETRPAKRITITESNMKSRYTTEFHELEKIGSGEFGSVFKCVKRLDGCIYAIKRSKKPLAGSVDEQNALREVYAHAVLGQHSHVVRYFSAWAEDDHMLIQNEYCNGGSLADAISENYRIMSYFKEAELKDLLLQVGRGLRYIHSMSLVHMDIKPSNIFISRTSIPNAASEEGDEDDWASNKVMFKIGDLGHVTRISSPQVEEGDSRFLANEVLQENYTHLPKADIFALALTVVCAAGAEPLPRNGDQWHEIRQGRLPRIPQVLSQEFTELLKVMIHPDPERRPSAMALVKHSVLLSASRKSAEQLRIELNAEKFKNSLLQKELKKAQMAKAAAEERALFTDRMATRSTTQSNRTSRLIGKKMNRSVSLTIY
+P07947,YES1,MGCIKSKENKSPAIKYRPENTPEPVSTSVSHYGAEPTTVSPCPSSSAKGTAVNFSSLSMTPFGGSSGVTPFGGASSSFSVVPSSYPAGLTGGVTIFVALYDYEARTTEDLSFKKGERFQIINNTEGDWWEARSIATGKNGYIPSNYVAPADSIQAEEWYFGKMGRKDAERLLLNPGNQRGIFLVRESETTKGAYSLSIRDWDEIRGDNVKHYKIRKLDNGGYYITTRAQFDTLQKLVKHYTEHADGLCHKLTTVCPTVKPQTQGLAKDAWEIPRESLRLEVKLGQGCFGEVWMGTWNGTTKVAIKTLKPGTMMPEAFLQEAQIMKKLRHDKLVPLYAVVSEEPIYIVTEFMSKGSLLDFLKEGDGKYLKLPQLVDMAAQIADGMAYIERMNYIHRDLRAANILVGENLVCKIADFGLARLIEDNEYTARQGAKFPIKWTAPEAALYGRFTIKSDVWSFGILQTELVTKGRVPYPGMVNREVLEQVERGYRMPCPQGCPESLHELMNLCWKKDPDERPTFEYIQSFLEDYFTATEPQYQPGENL
+O00506,STK25,MAHLRGFANQHSRVDPEELFTKLDRIGKGSFGEVYKGIDNHTKEVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSPYITRYFGSYLKSTKLWIIMEYLGGGSALDLLKPGPLEETYIATILREILKGLDYLHSERKIHRDIKAANVLLSEQGDVKLADFGVAGQLTDTQIKRNTFVGTPFWMAPEVIKQSAYDFKADIWSLGITAIELAKGEPPNSDLHPMRVLFLIPKNSPPTLEGQHSKPFKEFVEACLNKDPRFRPTAKELLKHKFITRYTKKTSFLTELIDRYKRWKSEGHGEESSSEDSDIDGEAEDGEQGPIWTFPPTIRPSPHSKLHKGTALHSSQKPAEPVKRQPRSQCLSTLVRPVFGELKEKHKQSGGSVGALEELENAFSLAEESCPGISDKLMVHLVERVQRFSHNRNHLTSTR
+P43403,ZAP70,MPDPAAHLPFFYGSISRAEAEEHLKLAGMADGLFLLRQCLRSLGGYVLSLVHDVRFHHFPIERQLNGTYAIAGGKAHCGPAELCEFYSRDPDGLPCNLRKPCNRPSGLEPQPGVFDCLRDAMVRDYVRQTWKLEGEALEQAIISQAPQVEKLIATTAHERMPWYHSSLTREEAERKLYSGAQTDGKFLLRPRKEQGTYALSLIYGKTVYHYLISQDKAGKYCIPEGTKFDTLWQLVEYLKLKADGLIYCLKEACPNSSASNASGAAAPTLPAHPSTLTHPQRRIDTLNSDGYTPEPARITSPDKPRPMPMDTSVYESPYSDPEELKDKKLFLKRDNLLIADIELGCGNFGSVRQGVYRMRKKQIDVAIKVLKQGTEKADTEEMMREAQIMHQLDNPYIVRLIGVCQAEALMLVMEMAGGGPLHKFLVGKREEIPVSNVAELLHQVSMGMKYLEEKNFVHRDLAARNVLLVNRHYAKISDFGLSKALGADDSYYTARSAGKWPLKWYAPECINFRKFSSRSDVWSYGVTMWEALSYGQKPYKKMKGPEVMAFIEQGKRMECPPECPPELYALMSDCWIYKWEDRPDFLTVEQRMRACYYSLASKVEGPPGSTQKAEAACA
+O43283,MAP3K13,MANFQEHLSCSSSPHLPFSESKTFNGLQDELTAMGNHPSPKLLEDQQEKGMVRTELIESVHSPVTTTVLTSVSEDSRDQFENSVLQLREHDESETAVSQGNSNTVDGESTSGTEDIKIQFSRSGSGSGGFLEGLFGCLRPVWNIIGKAYSTDYKLQQQDTWEVPFEEISELQWLGSGAQGAVFLGKFRAEEVAIKKVREQNETDIKHLRKLKHPNIIAFKGVCTQAPCYCIIMEYCAHGQLYEVLRAGRKITPRLLVDWSTGIASGMNYLHLHKIIHRDLKSPNVLVTHTDAVKISDFGTSKELSDKSTKMSFAGTVAWMAPEVIRNEPVSEKVDIWSFGVVLWELLTGEIPYKDVDSSAIIWGVGSNSLHLPVPSTCPDGFKILMKQTWQSKPRNRPSFRQTLMHLDIASADVLATPQETYFKSQAEWREEVKKHFEKIKSEGTCIHRLDEELIRRRREELRHALDIREHYERKLERANNLYMELSAIMLQLEMREKELIKREQAVEKKYPGTYKRHPVRPIIHPNAMEKLMKRKGVPHKSGMQTKRPDLLRSEGIPTTEVAPTASPLSGSPKMSTSSSKSRYRSKPRHRRGNSRGSHSDFAAILKNQPAQENSPHPTYLHQAQSQYPSLHHHNSLQQQYQQPPPAMSQSHHPRLNMHGQDIATCANNLRYFGPAAALRSPLSNHAQRQLPGSSPDLISTAMAADCWRSSEPDKGQAGPWGCCQADAYDPCLQCRPEQYGSLDIPSAEPVGRSPDLSKSPAHNPLLENAQSSEKTEENEFSGCRSESSLGTSHLGTPPALPRKTRPLQKSGDDSSEEEEGEVDSEVEFPRRQRPHRCISSCQSYSTFSSENFSVSDGEEGNTSDHSNSPDELADKLEDRLAEKLDDLLSQTPEIPIDISSHSDGLSDKECAVRRVKTQMSLGKLCVEERGYENPMQFEESDCDSSDGECSDATVRTNKHYSSATW
+Q08345,DDR1,MGPEALSSLLLLLLVASGDADMKGHFDPAKCRYALGMQDRTIPDSDISASSSWSDSTAARHSRLESSDGDGAWCPAGSVFPKEEEYLQVDLQRLHLVALVGTQGRHAGGLGKEFSRSYRLRYSRDGRRWMGWKDRWGQEVISGNEDPEGVVLKDLGPPMVARLVRFYPRADRVMSVCLRVELYGCLWRDGLLSYTAPVGQTMYLSEAVYLNDSTYDGHTVGGLQYGGLGQLADGVVGLDDFRKSQELRVWPGYDYVGWSNHSFSSGYVEMEFEFDRLRAFQAMQVHCNNMHTLGARLPGGVECRFRRGPAMAWEGEPMRHNLGGNLGDPRARAVSVPLGGRVARFLQCRFLFAGPWLLFSEISFISDVVNNSSPALGGTFPPAPWWPPGPPPTNFSSLELEPRGQQPVAKAEGSPTAILIGCLVAIILLLLLIIALMLWRLHWRRLLSKAERRVLEEELTVHLSVPGDTILINNRPGPREPPPYQEPRPRGNPPHSAPCVPNGSALLLSNPAYRLLLATYARPPRGPGPPTPAWAKPTNTQAYSGDYMEPEKPGAPLLPPPPQNSVPHYAEADIVTLQGVTGGNTYAVPALPPGAVGDGPPRVDFPRSRLRFKEKLGEGQFGEVHLCEVDSPQDLVSLDFPLNVRKGHPLLVAVKILRPDATKNARNDFLKEVKIMSRLKDPNIIRLLGVCVQDDPLCMITDYMENGDLNQFLSAHQLEDKAAEGAPGDGQAAQGPTISYPMLLHVAAQIASGMRYLATLNFVHRDLATRNCLVGENFTIKIADFGMSRNLYAGDYYRVQGRAVLPIRWMAWECILMGKFTTASDVWAFGVTLWEVLMLCRAQPFGQLTDEQVIENAGEFFRDQGRQVYLSRPPACPQGLYELMLRCWSRESEQRPPFSQLHRFLAEDALNTV
+Q86TW2,ADCK1,MARKALKLASWTSMALAASGIYFYSNKYLDPNDFGAVRVGRAVATTAVISYDYLTSLKSVPYGSEEYLQLRSKSWPVFLQVHLRSARRLCELCCANRGTFIKVGQHLGALDYLLPEEYTSTLKVLHSQAPQSSMQEIRQVIREDLGKEIHDLFQSFDDTPLGTASLAQVHKAVLHDGRTVAVKVQHPKVRAQSSKDILLMEVLVLAVKQLFPEFEFMWLVDEAKKNLPLELDFLNEGRNAEKVSQMLRHFDFLKVPRIHWDLSTERVLLMEFVDGGQVNDRDYMERNKIDVNEISRHLGKMYSEMIFVNGFVHCDPHPGNVLVRKHPGTGKAEIVLLDHGLYQMLTEEFRLNYCHLWQSLIWTDMKRVKEYSQRLGAGDLYPLFACMLTARSWDSVNRGISQAPVTATEDLEIRNNAANYLPQISHLLNHVPRQMLLILKTNDLLRGIEAALGTRASASSFLNMSRCCIRALAEHKKKNTCSFFRRTQISFSEAFNLWQINLHELILRVKGLKLADRVLALICWLFPAPL
+P35968,KDR,MQSKVLLAVALWLCVETRAASVGLPSVSLDLPRLSIQKDILTIKANTTLQITCRGQRDLDWLWPNNQSGSEQRVEVTECSDGLFCKTLTIPKVIGNDTGAYKCFYRETDLASVIYVYVQDYRSPFIASVSDQHGVVYITENKNKTVVIPCLGSISNLNVSLCARYPEKRFVPDGNRISWDSKKGFTIPSYMISYAGMVFCEAKINDESYQSIMYIVVVVGYRIYDVVLSPSHGIELSVGEKLVLNCTARTELNVGIDFNWEYPSSKHQHKKLVNRDLKTQSGSEMKKFLSTLTIDGVTRSDQGLYTCAASSGLMTKKNSTFVRVHEKPFVAFGSGMESLVEATVGERVRIPAKYLGYPPPEIKWYKNGIPLESNHTIKAGHVLTIMEVSERDTGNYTVILTNPISKEKQSHVVSLVVYVPPQIGEKSLISPVDSYQYGTTQTLTCTVYAIPPPHHIHWYWQLEEECANEPSQAVSVTNPYPCEEWRSVEDFQGGNKIEVNKNQFALIEGKNKTVSTLVIQAANVSALYKCEAVNKVGRGERVISFHVTRGPEITLQPDMQPTEQESVSLWCTADRSTFENLTWYKLGPQPLPIHVGELPTPVCKNLDTLWKLNATMFSNSTNDILIMELKNASLQDQGDYVCLAQDRKTKKRHCVVRQLTVLERVAPTITGNLENQTTSIGESIEVSCTASGNPPPQIMWFKDNETLVEDSGIVLKDGNRNLTIRRVRKEDEGLYTCQACSVLGCAKVEAFFIIEGAQEKTNLEIIILVGTAVIAMFFWLLLVIILRTVKRANGGELKTGYLSIVMDPDELPLDEHCERLPYDASKWEFPRDRLKLGKPLGRGAFGQVIEADAFGIDKTATCRTVAVKMLKEGATHSEHRALMSELKILIHIGHHLNVVNLLGACTKPGGPLMVIVEFCKFGNLSTYLRSKRNEFVPYKTKGARFRQGKDYVGAIPVDLKRRLDSITSSQSSASSGFVEEKSLSDVEEEEAPEDLYKDFLTLEHLICYSFQVAKGMEFLASRKCIHRDLAARNILLSEKNVVKICDFGLARDIYKDPDYVRKGDARLPLKWMAPETIFDRVYTIQSDVWSFGVLLWEIFSLGASPYPGVKIDEEFCRRLKEGTRMRAPDYTTPEMYQTMLDCWHGEPSQRPTFSELVEHLGNLLQANAQQDGKDYIVLPISETLSMEEDSGLSLPTSPVSCMEEEEVCDPKFHYDNTAGISQYLQNSKRKSRPVSVKTFEDIPLEEPEVKVIPDDNQTDSGMVLASEELKTLEDRTKLSPSFGGMVPSKSRESVASEGSNQTSGYQSGYHSDDTDTTVYSSEEAELLKLIEIGVQTGSTAQILQPDSGTTLSSPPV
+Q8NER5,ACVR1C,MTRALCSALRQALLLLAAAAELSPGLKCVCLLCDSSNFTCQTEGACWASVMLTNGKEQVIKSCVSLPELNAQVFCHSSNNVTKTECCFTDFCNNITLHLPTASPNAPKLGPMELAIIITVPVCLLSIAAMLTVWACQGRQCSYRKKKRPNVEEPLSECNLVNAGKTLKDLIYDVTASGSGSGLPLLVQRTIARTIVLQEIVGKGRFGEVWHGRWCGEDVAVKIFSSRDERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSEYHEQGSLYDYLNRNIVTVAGMIKLALSIASGLAHLHMEIVGTQGKPAIAHRDIKSKNILVKKCETCAIADLGLAVKHDSILNTIDIPQNPKVGTKRYMAPEMLDDTMNVNIFESFKRADIYSVGLVYWEIARRCSVGGIVEEYQLPYYDMVPSDPSIEEMRKVVCDQKFRPSIPNQWQSCEALRVMGRIMRECWYANGAARLTALRIKKTISQLCVKEDCKA
+Q96GD4,AURKB,MAQKENSYPWPYGRQTAPSGLSTLPQRVLRKEPVTPSALVLMSRSNVQPTAAPGQKVMENSSGTPDILTRHFTIDDFEIGRPLGKGKFGNVYLAREKKSHFIVALKVLFKSQIEKEGVEHQLRREIEIQAHLHHPNILRLYNYFYDRRRIYLILEYAPRGELYKELQKSCTFDEQRTATIMEELADALMYCHGKKVIHRDIKPENLLLGLKGELKIADFGWSVHAPSLRRKTMCGTLDYLPPEMIEGRMHNEKVDLWCIGVLCYELLVGNPPFESASHNETYRRIVKVDLKFPASVPMGAQDLISKLLRHNPSERLPLAQVSAHPWVRANSRRVLPPSALQSVA
+O14965,AURKA,MDRSKENCISGPVKATAPVGGPKRVLVTQQFPCQNPLPVNSGQAQRVLCPSNSSQRIPLQAQKLVSSHKPVQNQKQKQLQATSVPHPVSRPLNNTQKSKQPLPSAPENNPEEELASKQKNEESKKRQWALEDFEIGRPLGKGKFGNVYLAREKQSKFILALKVLFKAQLEKAGVEHQLRREVEIQSHLRHPNILRLYGYFHDATRVYLILEYAPLGTVYRELQKLSKFDEQRTATYITELANALSYCHSKRVIHRDIKPENLLLGSAGELKIADFGWSVHAPSSRRTTLCGTLDYLPPEMIEGRMHDEKVDLWSLGVLCYEFLVGKPPFEANTYQETYKRISRVEFTFPDFVTEGARDLISRLLKHNPSQRPMLREVLEHPWITANSSKPSNCQNKESASKQS
+Q13164,MAPK7,MAEPLKEEDGEDGSAEPPGPVKAEPAHTAASVAAKNLALLKARSFDVTFDVGDEYEIIETIGNGAYGVVSSARRRLTGQQVAIKKIPNAFDVVTNAKRTLRELKILKHFKHDNIIAIKDILRPTVPYGEFKSVYVVLDLMESDLHQIIHSSQPLTLEHVRYFLYQLLRGLKYMHSAQVIHRDLKPSNLLVNENCELKIGDFGMARGLCTSPAEHQYFMTEYVATRWYRAPELMLSLHEYTQAIDLWSVGCIFGEMLARRQLFPGKNYVHQLQLIMMVLGTPSPAVIQAVGAERVRAYIQSLPPRQPVPWETVYPGADRQALSLLGRMLRFEPSARISAAAALRHPFLAKYHDPDDEPDCAPPFDFAFDREALTRERIKEAIVAEIEDFHARREGIRQQIRFQPSLQPVASEPGCPDVEMPSPWAPSGDCAMESPPPAPPPCPGPAPDTIDLTLQPPPPVSEPAPPKKDGAISDNTKAALKAALLKSLRSRLRDGPSAPLEAPEPRKPVTAQERQREREEKRRRRQERAKEREKRRQERERKERGAGASGGPSTDPLAGLVLSDNDRSLLERWTRMARPAAPALTSVPAPAPAPTPTPTPVQPTSPPPGPVAQPTGPQPQSAGSTSGPVPQPACPPPGPAPHPTGPPGPIPVPAPPQIATSTSLLAAQSLVPPPGLPGSSTPGVLPYFPPGLPPPDAGGAPQSSMSESPDVNLVTQQLSKSQVEDPLPPVFSGTPKGSGAGYGVGFDLEEFLNQSFDMGVADGPQDGQADSASLSASLLADWLEGHGMNPADIESLQREIQMDSPMLLADLPDLQDP
+O43683,BUB1,MDTPENVLQMLEAHMQSYKGNDPLGEWERYIQWVEENFPENKEYLITLLEHLMKEFLDKKKYHNDPRFISYCLKFAEYNSDLHQFFEFLYNHGIGTLSSPLYIAWAGHLEAQGELQHASAVLQRGIQNQAEPREFLQQQYRLFQTRLTETHLPAQARTSEPLHNVQVLNQMITSKSNPGNNMACISKNQGSELSGVISSACDKESNMERRVITISKSEYSVHSSLASKVDVEQVVMYCKEKLIRGESEFSFEELRAQKYNQRRKHEQWVNEDRHYMKRKEANAFEEQLLKQKMDELHKKLHQVVETSHEDLPASQERSEVNPARMGPSVGSQQELRAPCLPVTYQQTPVNMEKNPREAPPVVPPLANAISAALVSPATSQSIAPPVPLKAQTVTDSMFAVASKDAGCVNKSTHEFKPQSGAEIKEGCETHKVANTSSFHTTPNTSLGMVQATPSKVQPSPTVHTKEALGFIMNMFQAPTLPDISDDKDEWQSLDQNEDAFEAQFQKNVRSSGAWGVNKIISSLSSAFHVFEDGNKENYGLPQPKNKPTGARTFGERSVSRLPSKPKEEVPHAEEFLDDSTVWGIRCNKTLAPSPKSPGDFTSAAQLASTPFHKLPVESVHILEDKENVVAKQCTQATLDSCEENMVVPSRDGKFSPIQEKSPKQALSSHMYSASLLRLSQPAAGGVLTCEAELGVEACRLTDTDAAIAEDPPDAIAGLQAEWMQMSSLGTVDAPNFIVGNPWDDKLIFKLLSGLSKPVSSYPNTFEWQCKLPAIKPKTEFQLGSKLVYVHHLLGEGAFAQVYEATQGDLNDAKNKQKFVLKVQKPANPWEFYIGTQLMERLKPSMQHMFMKFYSAHLFQNGSVLVGELYSYGTLLNAINLYKNTPEKVMPQGLVISFAMRMLYMIEQVHDCEIIHGDIKPDNFILGNGFLEQDDEDDLSAGLALIDLGQSIDMKLFPKGTIFTAKCETSGFQCVEMLSNKPWNYQIDYFGVAATVYCMLFGTYMKVKNEGGECKPEGLFRRLPHLDMWNEFFHVMLNIPDCHHLPSLDLLRQKLKKVFQQHYTNKIRALRNRLIVLLLECKRSRK
+Q16832,DDR2,MILIPRMLLVLFLLLPILSSAKAQVNPAICRYPLGMSGGQIPDEDITASSQWSESTAAKYGRLDSEEGDGAWCPEIPVEPDDLKEFLQIDLHTLHFITLVGTQGRHAGGHGIEFAPMYKINYSRDGTRWISWRNRHGKQVLDGNSNPYDIFLKDLEPPIVARFVRFIPVTDHSMNVCMRVELYGCVWLDGLVSYNAPAGQQFVLPGGSIIYLNDSVYDGAVGYSMTEGLGQLTDGVSGLDDFTQTHEYHVWPGYDYVGWRNESATNGYIEIMFEFDRIRNFTTMKVHCNNMFAKGVKIFKEVQCYFRSEASEWEPNAISFPLVLDDVNPSARFVTVPLHHRMASAIKCQYHFADTWMMFSEITFQSDAAMYNNSEALPTSPMAPTTYDPMLKVDDSNTRILIGCLVAIIFILLAIIVIILWRQFWQKMLEKASRRMLDDEMTVSLSLPSDSSMFNNNRSSSPSEQGSNSTYDRIFPLRPDYQEPSRLIRKLPEFAPGEEESGCSGVVKPVQPSGPEGVPHYAEADIVNLQGVTGGNTYSVPAVTMDLLSGKDVAVEEFPRKLLTFKEKLGEGQFGEVHLCEVEGMEKFKDKDFALDVSANQPVLVAVKMLRADANKNARNDFLKEIKIMSRLKDPNIIHLLAVCITDDPLCMITEYMENGDLNQFLSRHEPPNSSSSDVRTVSYTNLKFMATQIASGMKYLSSLNFVHRDLATRNCLVGKNYTIKIADFGMSRNLYSGDYYRIQGRAVLPIRWMSWESILLGKFTTASDVWAFGVTLWETFTFCQEQPYSQLSDEQVIENTGEFFRDQGRQTYLPQPAICPDSVYKLMLSCWRRDTKNRPSFQEIHLLLLQQGDE
+Q13308,PTK7,MGAARGSPARPRRLPLLSVLLLPLLGGTQTAIVFIKQPSSQDALQGRRALLRCEVEAPGPVHVYWLLDGAPVQDTERRFAQGSSLSFAAVDRLQDSGTFQCVARDDVTGEEARSANASFNIKWIEAGPVVLKHPASEAEIQPQTQVTLRCHIDGHPRPTYQWFRDGTPLSDGQSNHTVSSKERNLTLRPAGPEHSGLYSCCAHSAFGQACSSQNFTLSIADESFARVVLAPQDVVVARYEEAMFHCQFSAQPPPSLQWLFEDETPITNRSRPPHLRRATVFANGSLLLTQVRPRNAGIYRCIGQGQRGPPIILEATLHLAEIEDMPLFEPRVFTAGSEERVTCLPPKGLPEPSVWWEHAGVRLPTHGRVYQKGHELVLANIAESDAGVYTCHAANLAGQRRQDVNITVATVPSWLKKPQDSQLEEGKPGYLDCLTQATPKPTVVWYRNQMLISEDSRFEVFKNGTLRINSVEVYDGTWYRCMSSTPAGSIEAQARVQVLEKLKFTPPPQPQQCMEFDKEATVPCSATGREKPTIKWERADGSSLPEWVTDNAGTLHFARVTRDDAGNYTCIASNGPQGQIRAHVQLTVAVFITFKVEPERTTVYQGHTALLQCEAQGDPKPLIQWKGKDRILDPTKLGPRMHIFQNGSLVIHDVAPEDSGRYTCIAGNSCNIKHTEAPLYVVDKPVPEESEGPGSPPPYKMIQTIGLSVGAAVAYIIAVLGLMFYCKKRCKAKRLQKQPEGEEPEMECLNGGPLQNGQPSAEIQEEVALTSLGSGPAATNKRHSTSDKMHFPRSSLQPITTLGKSEFGEVFLAKAQGLEEGVAETLVLVKSLQSKDEQQQLDFRRELEMFGKLNHANVVRLLGLCREAEPHYMVLEYVDLGDLKQFLRISKSKDEKLKSQPLSTKQKVALCTQVALGMEHLSNNRFVHKDLAARNCLVSAQRQVKVSALGLSKDVYNSEYYHFRQAWVPLRWMSPEAILEGDFSTKSDVWAFGVLMWEVFTHGEMPHGGQADDEVLADLQAGKARLPQPEGCPSKLYRLMQRCWALSPKDRPSFSEIASALGDSTVDSKP
+P53667,LIMK1,MRLTLLCCTWREERMGEEGSELPVCASCGQRIYDGQYLQALNADWHADCFRCCDCSASLSHQYYEKDGQLFCKKDYWARYGESCHGCSEQITKGLVMVAGELKYHPECFICLTCGTFIGDGDTYTLVEHSKLYCGHCYYQTVVTPVIEQILPDSPGSHLPHTVTLVSIPASSHGKRGLSVSIDPPHGPPGCGTEHSHTVRVQGVDPGCMSPDVKNSIHVGDRILEINGTPIRNVPLDEIDLLIQETSRLLQLTLEHDPHDTLGHGLGPETSPLSSPAYTPSGEAGSSARQKPVLRSCSIDRSPGAGSLGSPASQRKDLGRSESLRVVCRPHRIFRPSDLIHGEVLGKGCFGQAIKVTHRETGEVMVMKELIRFDEETQRTFLKEVKVMRCLEHPNVLKFIGVLYKDKRLNFITEYIKGGTLRGIIKSMDSQYPWSQRVSFAKDIASGMAYLHSMNIIHRDLNSHNCLVRENKNVVVADFGLARLMVDEKTQPEGLRSLKKPDRKKRYTVVGNPYWMAPEMINGRSYDEKVDVFSFGIVLCEIIGRVNADPDYLPRTMDFGLNVRGFLDRYCPPNCPPSFFPITVRCCDLDPEKRPSFVKLEHWLETLRMHLAGHLPLGPQLEQLDRGFWETYRRGESGLPAHPEVPD
+Q6ZMQ8,AATK,MSSSFFNPSFAFSSHFDPDGAPLSELSWPSSLAVVAVSFSGLFAVIVLMLACLCCKKGGIGFKEFENAEGDEYAADLAQGSPATAAQNGPDVYVLPLTEVSLPMAKQPGRSVQLLKSTDVGRHSLLYLKEIGRGWFGKVFLGEVNSGISSAQVVVKELQASASVQEQMQFLEEVQPYRALKHSNLLQCLAQCAEVTPYLLVMEFCPLGDLKGYLRSCRVAESMAPDPRTLQRMACEVACGVLHLHRNNFVHSDLALRNCLLTADLTVKIGDYGLAHCKYREDYFVTADQLWVPLRWIAPELVDEVHSNLLVVDQTKSGNVWSLGVTIWELFELGTQPYPQHSDQQVLAYTVREQQLKLPKPQLQLTLSDRWYEVMQFCWLQPEQRPTAEEVHLLLSYLCAKGATEAEEEFERRWRSLRPGGGGVGPGPGAAGPMLGGVVELAAASSFPLLEQFAGDGFHADGDDVLTVTETSRGLNFEYKWEAGRGAEAFPATLSPGRTARLQELCAPDGAPPGVVPVLSAHSPSLGSEYFIRLEEAAPAAGHDPDCAGCAPSPPATADQDDDSDGSTAASLAMEPLLGHGPPVDVPWGRGDHYPRRSLARDPLCPSRSPSPSAGPLSLAEGGAEDADWGVAAFCPAFFEDPLGTSPLGSSGAPPLPLTGEDELEEVGARRAAQRGHWRSNVSANNNSGSRCPESWDPVSAGGHAEGCPSPKQTPRASPEPGYPGEPLLGLQAASAQEPGCCPGLPHLCSAQGLAPAPCLVTPSWTETASSGGDHPQAEPKLATEAEGTTGPRLPLPSVPSPSQEGAPLPSEEASAPDAPDALPDSPTPATGGEVSAIKLASALNGSSSSPEVEAPSSEDEDTAEATSGIFTDTSSDGLQARRPDVVPAFRSLQKQVGTPDSLDSLDIPSSASDGGYEVFSPSATGPSGGQPRALDSGYDTENYESPEFVLKEAQEGCEPQAFAELASEGEGPGPETRLSTSLSGLNEKNPYRDSAYFSDLEAEAEATSGPEKKCGGDRAPGPELGLPSTGQPSEQVCLRPGVSGEAQGSGPGEVLPPLLQLEGSSPEPSTCPSGLVPEPPEPQGPAKVRPGPSPSCSQFFLLTPVPLRSEGNSSEFQGPPGLLSGPAPQKRMGGPGTPRAPLRLALPGLPAALEGRPEEEEEDSEDSDESDEELRCYSVQEPSEDSEEEAPAVPVVVAESQSARNLRSLLKMPSLLSETFCEDLERKKKAVSFFDDVTVYLFDQESPTRELGEPFPGAKESPPTFLRGSPGSPSAPNRPQQADGSPNGSTAEEGGGFAWDDDFPLMTAKAAFAMALDPAAPAPAAPTPTPAPFSRFTVSPAPTSRFSITHVSDSDAESKRGPEAGAGGESKEA
+Q8IWU2,LMTK2,MPGPPALRRRLLLLLLVLLIAGSAGAAPLPQTGAGEAPPAAEVSSSFVILCVCSLIILIVLIANCVSCCKDPEIDFKEFEDNFDDEIDFTPPAEDTPSVQSPAEVFTLSVPNISLPAPSQFQPSVEGLKSQVARHSLNYIQEIGNGWFGKVLLGEIYTGTSVARVIVKELKASANPKEQDTFLKNGEPYYILQHPNILQCVGQCVEAIPYLLVFEFCDLGDLKAYLRSEQEHMRGDSQTMLLQRMACEVAAGLAAMHKLHFLHSDLALRNCFLTSDLNVKVGDYGIGFSRYKEDYIETDDKKVFPLRWTAPELVTSFQDRLLTADQTKYSNIWSLGVTLWELFDNAAQPYSNLSNLDVLNQVIRERDTKLPKPQLEQPYSDRWYEVLQFCWLSPEKRPAAEDVHRLLTYLRLQSQRDSEVDFEQQWNALKPNTNSRDSSNNAAFPILDHFARDRLGREMEEVLTVTETSQGLSFEYVWEAAKHDHFDERSRGHLDEGLSYTSIFYPVEVFESSLSDPGPGKQDDSGQDVPLRVPGVVPVFDAHNLSVGSDYYIQLEEKSGSNLELDYPPALLTTDMDNPERTGPELSQLTALRSVELEESSTDEDFFQSSTDPKDSSLPGDLHVTSGPESPFNNIFNDVDKSEDLPSHQKIFDLMELNGVQADFKPATLSSSLDNPKESVITGHFEKEKPRKIFDSEPLCLSDNLMHQDNFDPLNVQELSENFLFLQEKNLLKGSLSSKEHINDLQTELKNAGFTEAMLETSCRNSLDTELQFAENKPGLSLLQENVSTKGDDTDVMLTGDTLSTSLQSSPEVQVPPTSFETEETPRRVPPDSLPTQGETQPTCLDVIVPEDCLHQDISPDAVTVPVEILSTDARTHSLDNRSQDSPGESEETLRLTESDSVLADDILASRVSVGSSLPELGQELHNKPFSEDHHSHRRLEKNLEAVETLNQLNSKDAAKEAGLVSALSSDSTSQDSLLEDSLSAPFPASEPSLETPDSLESVDVHEALLDSLGSHTPQKLVPPDKPADSGYETENLESPEWTLHPAPEGTADSEPATTGDGGHSGLPPNPVIVISDAGDGHRGTEVTPETFTAGSQGSYRDSAYFSDNDSEPEKRSEEVPGTSPSALVLVQEQPLPEPVLPEQSPAAQDSCLEARKSQPDESCLSALHNSSDLELRATPEPAQTGVPQQVHPTEDEASSPWSVLNAELSSGDDFETQDDRPCTLASTGTNTNELLAYTNSALDKSLSSHSEGPKLKEPDIEGKYLGKLGVSGMLDLSEDGMDADEEDENSDDSDEDLRAFNLHSLSSESEDETEHPVPIILSNEDGRHLRSLLKPTAANAPDPLPEDWKKEKKAVTFFDDVTVYLFDQETPTKELGPCGGEACGPDLSGPAPASGSPYLSRCINSESSTDEEGGGFEWDDDFSPDPFMSKTTSNLLSSKPSLQTSKYFSPPPPARSTEQSWPHSAPYSRFSISPANIASFSLTHLTDSDIEQGGSSEDGEKD
+Q96Q04,LMTK3,MPAPGALILLAAVSASGCLASPAHPDGFALGRAPLAPPYAVVLISCSGLLAFIFLLLTCLCCKRGDVGFKEFENPEGEDCSGEYTPPAEETSSSQSLPDVYILPLAEVSLPMPAPQPSHSDMTTPLGLSRQHLSYLQEIGSGWFGKVILGEIFSDYTPAQVVVKELRASAGPLEQRKFISEAQPYRSLQHPNVLQCLGLCVETLPFLLIMEFCQLGDLKRYLRAQRPPEGLSPELPPRDLRTLQRMGLEIARGLAHLHSHNYVHSDLALRNCLLTSDLTVRIGDYGLAHSNYKEDYYLTPERLWIPLRWAAPELLGELHGTFMVVDQSRESNIWSLGVTLWELFEFGAQPYRHLSDEEVLAFVVRQQHVKLARPRLKLPYADYWYDILQSCWRPPAQRPSASDLQLQLTYLLSERPPRPPPPPPPPRDGPFPWPWPPAHSAPRPGTLSSPFPLLDGFPGADPDDVLTVTESSRGLNLECLWEKARRGAGRGGGAPAWQPASAPPAPHANPSNPFYEALSTPSVLPVISARSPSVSSEYYIRLEEHGSPPEPLFPNDWDPLDPGVPAPQAPQAPSEVPQLVSETWASPLFPAPRPFPAQSSASGSFLLSGWDPEGRGAGETLAGDPAEVLGERGTAPWVEEEEEEEEGSSPGEDSSSLGGGPSRRGPLPCPLCSREGACSCLPLERGDAVAGWGGHPALGCPHPPEDDSSLRAERGSLADLPMAPPASAPPEFLDPLMGAAAPQYPGRGPPPAPPPPPPPPRAPADPAASPDPPSAVASPGSGLSSPGPKPGDSGYETETPFSPEGAFPGGGAAEEEGVPRPRAPPEPPDPGAPRPPPDPGPLPLPGPREKPTFVVQVSTEQLLMSLREDVTRNLLGEKGATARETGPRKAGRGPGNREKVPGLNRDPTVLGNGKQAPSLSLPVNGVTVLENGDQRAPGIEEKAAENGALGSPEREEKVLENGELTPPRREEKALENGELRSPEAGEKVLVNGGLTPPKSEDKVSENGGLRFPRNTERPPETGPWRAPGPWEKTPESWGPAPTIGEPAPETSLERAPAPSAVVSSRNGGETAPGPLGPAPKNGTLEPGTERRAPETGGAPRAPGAGRLDLGSGGRAPVGTGTAPGGGPGSGVDAKAGWVDNTRPQPPPPPLPPPPEAQPRRLEPAPPRARPEVAPEGEPGAPDSRAGGDTALSGDGDPPKPERKGPEMPRLFLDLGPPQGNSEQIKARLSRLSLALPPLTLTPFPGPGPRRPPWEGADAGAAGGEAGGAGAPGPAEEDGEDEDEDEEEDEEAAAPGAAAGPRGPGRARAAPVPVVVSSADADAARPLRGLLKSPRGADEPEDSELERKRKMVSFHGDVTVYLFDQETPTNELSVQAPPEGDTDPSTPPAPPTPPHPATPGDGFPSNDSGFGGSFEWAEDFPLLPPPGPPLCFSRFSVSPALETPGPPARAPDARPAGPVEN
+Q15375,EPHA7,MVFQTRYPSWIILCYIWLLRFAHTGEAQAAKEVLLLDSKAQQTELEWISSPPNGWEEISGLDENYTPIRTYQVCQVMEPNQNNWLRTNWISKGNAQRIFVELKFTLRDCNSLPGVLGTCKETFNLYYYETDYDTGRNIRENLYVKIDTIAADESFTQGDLGERKMKLNTEVREIGPLSKKGFYLAFQDVGACIALVSVKVYYKKCWSIIENLAIFPDTVTGSEFSSLVEVRGTCVSSAEEEAENAPRMHCSAEGEWLVPIGKCICKAGYQQKGDTCEPCGRGFYKSSSQDLQCSRCPTHSFSDKEGSSRCECEDGYYRAPSDPPYVACTRPPSAPQNLIFNINQTTVSLEWSPPADNGGRNDVTYRILCKRCSWEQGECVPCGSNIGYMPQQTGLEDNYVTVMDLLAHANYTFEVEAVNGVSDLSRSQRLFAAVSITTGQAAPSQVSGVMKERVLQRSVELSWQEPEHPNGVITEYEIKYYEKDQRERTYSTVKTKSTSASINNLKPGTVYVFQIRAFTAAGYGNYSPRLDVATLEEATGKMFEATAVSSEQNPVIIIAVVAVAGTIILVFMVFGFIIGRRHCGYSKADQEGDEELYFHFKFPGTKTYIDPETYEDPNRAVHQFAKELDASCIKIERVIGAGEFGEVCSGRLKLPGKRDVAVAIKTLKVGYTEKQRRDFLCEASIMGQFDHPNVVHLEGVVTRGKPVMIVIEFMENGALDAFLRKHDGQFTVIQLVGMLRGIAAGMRYLADMGYVHRDLAARNILVNSNLVCKVSDFGLSRVIEDDPEAVYTTTGGKIPVRWTAPEAIQYRKFTSASDVWSYGIVMWEVMSYGERPYWDMSNQDVIKAIEEGYRLPAPMDCPAGLHQLMLDCWQKERAERPKFEQIVGILDKMIRNPNSLKTPLGTCSRPISPLLDQNTPDFTTFCSVGEWLQAIKMERYKDNFTAAGYNSLESVARMTIEDVMSLGITLVGHQKKIMSSIQTMRAQMLHLHGTGIQV
+P51813,BMX,MDTKSILEELLLKRSQQKKKMSPNNYKERLFVLTKTNLSYYEYDKMKRGSRKGSIEIKKIRCVEKVNLEEQTPVERQYPFQIVYKDGLLYVYASNEESRSQWLKALQKEIRGNPHLLVKYHSGFFVDGKFLCCQQSCKAAPGCTLWEAYANLHTAVNEEKHRVPTFPDRVLKIPRAVPVLKMDAPSSSTTLAQYDNESKKNYGSQPPSSSTSLAQYDSNSKKIYGSQPNFNMQYIPREDFPDWWQVRKLKSSSSSEDVASSNQKERNVNHTTSKISWEFPESSSSEEEENLDDYDWFAGNISRSQSEQLLRQKGKEGAFMVRNSSQVGMYTVSLFSKAVNDKKGTVKHYHVHTNAENKLYLAENYCFDSIPKLIHYHQHNSAGMITRLRHPVSTKANKVPDSVSLGNGIWELKREEITLLKELGSGQFGVVQLGKWKGQYDVAVKMIKEGSMSEDEFFQEAQTMMKLSHPKLVKFYGVCSKEYPIYIVTEYISNGCLLNYLRSHGKGLEPSQLLEMCYDVCEGMAFLESHQFIHRDLAARNCLVDRDLCVKVSDFGMTRYVLDDQYVSSVGTKFPVKWSAPEVFHYFKYSSKSDVWAFGILMWEVFSLGKQPYDLYDNSQVVLKVSQGHRLYRPHLASDTIYQIMYSCWHELPEKRPTFQQLLSSIEPLREKDKH
+P42679,MATK,MAGRGSLVSWRAFHGCDSAEELPRVSPRFLRAWHPPPVSARMPTRRWAPGTQCITKCEHTRPKPGELAFRKGDVVTILEACENKSWYRVKHHTSGQEGLLAAGALREREALSADPKLSLMPWFHGKISGQEAVQQLQPPEDGLFLVRESARHPGDYVLCVSFGRDVIHYRVLHRDGHLTIDEAVFFCNLMDMVEHYSKDKGAICTKLVRPKRKHGTKSAEEELARAGWLLNLQHLTLGAQIGEGEFGAVLQGEYLGQKVAVKNIKCDVTAQAFLDETAVMTKMQHENLVRLLGVILHQGLYIVMEHVSKGNLVNFLRTRGRALVNTAQLLQFSLHVAEGMEYLESKKLVHRDLAARNILVSEDLVAKVSDFGLAKAERKGLDSSRLPVKWTAPEALKHGKFTSKSDVWSFGVLLWEVFSYGRAPYPKMSLKEVSEAVEKGYRMEPPEGCPGPVHVLMSSCWEAEPARRPPFRKLAEKLARELRSAGAPASVSGQDADGSTSPRSQEP
+P42685,FRK,MSNICQRLWEYLEPYLPCLSTEADKSTVIENPGALCSPQSQRHGHYFVALFDYQARTAEDLSFRAGDKLQVLDTLHEGWWFARHLEKRRDGSSQQLQGYIPSNYVAEDRSLQAEPWFFGAIGRSDAEKQLLYSENKTGSFLIRESESQKGEFSLSVLDGAVVKHYRIKRLDEGGFFLTRRRIFSTLNEFVSHYTKTSDGLCVKLGKPCLKIQVPAPFDLSYKTVDQWEIDRNSIQLLKRLGSGQFGEVWEGLWNNTTPVAVKTLKPGSMDPNDFLREAQIMKNLRHPKLIQLYAVCTLEDPIYIITELMRHGSLQEYLQNDTGSKIHLTQQVDMAAQVASGMAYLESRNYIHRDLAARNVLVGEHNIYKVADFGLARVFKVDNEDIYESRHEIKLPVKWTAPEAIRSNKFSIKSDVWSFGILLYEIITYGKMPYSGMTGAQVIQMLAQNYRLPQPSNCPQQFYNIMLECWNAEPKERPTFETLRWKLEDYFETDSSYSDANNFIR
+Q9HC98,NEK6,MAGQPGHMPHGGSSNNLCHTLGPVHPPDPQRHPNTLSFRCSLADFQIEKKIGRGQFSEVYKATCLLDRKTVALKKVQIFEMMDAKARQDCVKEIGLLKQLNHPNIIKYLDSFIEDNELNIVLELADAGDLSQMIKYFKKQKRLIPERTVWKYFVQLCSAVEHMHSRRVMHRDIKPANVFITATGVVKLGDLGLGRFFSSETTAAHSLVGTPYYMSPERIHENGYNFKSDIWSLGCLLYEMAALQSPFYGDKMNLFSLCQKIEQCDYPPLPGEHYSEKLRELVSMCICPDPHQRPDIGYVHQVAKQMHIWMSST
+Q8TDX7,NEK7,MDEQSQGMQGPPVPQFQPQKALRPDMGYNTLANFRIEKKIGRGQFSEVYRAACLLDGVPVALKKVQIFDLMDAKARADCIKEIDLLKQLNHPNVIKYYASFIEDNELNIVLELADAGDLSRMIKHFKKQKRLIPERTVWKYFVQLCSALEHMHSRRVMHRDIKPANVFITATGVVKLGDLGLGRFFSSKTTAAHSLVGTPYYMSPERIHENGYNFKSDIWSLGCLLYEMAALQSPFYGDKMNLYSLCKKIEQCDYPPLPSDHYSEELRQLVNMCINPDPEKRPDVTYVYDVAKRMHACTASS
+Q2M2I8,AAK1,MKKFFDSRREQGGSGLGSGSSGGGGSTSGLGSGYIGRVFGIGRQQVTVDEVLAEGGFAIVFLVRTSNGMKCALKRMFVNNEHDLQVCKREIQIMRDLSGHKNIVGYIDSSINNVSSGDVWEVLILMDFCRGGQVVNLMNQRLQTGFTENEVLQIFCDTCEAVARLHQCKTPIIHRDLKVENILLHDRGHYVLCDFGSATNKFQNPQTEGVNAVEDEIKKYTTLSYRAPEMVNLYSGKIITTKADIWALGCLLYKLCYFTLPFGESQVAICDGNFTIPDNSRYSQDMHCLIRYMLEPDPDKRPDIYQVSYFSFKLLKKECPIPNVQNSPIPAKLPEPVKASEAAAKKTQPKARLTDPIPTTETSIAPRQRPKAGQTQPNPGILPIQPALTPRKRATVQPPPQAAGSSNQPGLLASVPQPKPQAPPSQPLPQTQAKQPQAPPTPQQTPSTQAQGLPAQAQATPQHQQQLFLKQQQQQQQPPPAQQQPAGTFYQQQQAQTQQFQAVHPATQKPAIAQFPVVSQGGSQQQLMQNFYQQQQQQQQQQQQQQLATALHQQQLMTQQAALQQKPTMAAGQQPQPQPAAAPQPAPAQEPAIQAPVRQQPKVQTTPPPAVQGQKVGSLTPPSSPKTQRAGHRRILSDVTHSAVFGVPASKSTQLLQAAAAEASLNKSKSATTTPSGSPRTSQQNVYNPSEGSTWNPFDDDNFSKLTAEELLNKDFAKLGEGKHPEKLGGSAESLIPGFQSTQGDAFATTSFSAGTAEKRKGGQTVDSGLPLLSVSDPFIPLQVPDAPEKLIEGLKSPDTSLLLPDLLPMTDPFGSTSDAVIEKADVAVESLIPGLEPPVPQRLPSQTESVTSNRTDSLTGEDSLLDCSLLSNPTTDLLEEFAPTAISAPVHKAAEDSNLISGFDVPEGSDKVAEDEFDPIPVLITKNPQGGHSRNSSGSSESSLPNLARSLLLVDQLIDL
+Q96QT4,TRPM7,MSQKSWIESTLTKRECVYIIPSSKDPHRCLPGCQICQQLVRCFCGRLVKQHACFTASLAMKYSDVKLGDHFNQAIEEWSVEKHTEQSPTDAYGVINFQGGSHSYRAKYVRLSYDTKPEVILQLLLKEWQMELPKLVISVHGGMQKFELHPRIKQLLGKGLIKAAVTTGAWILTGGVNTGVAKHVGDALKEHASRSSRKICTIGIAPWGVIENRNDLVGRDVVAPYQTLLNPLSKLNVLNNLHSHFILVDDGTVGKYGAEVRLRRELEKTINQQRIHARIGQGVPVVALIFEGGPNVILTVLEYLQESPPVPVVVCEGTGRAADLLAYIHKQTEEGGNLPDAAEPDIISTIKKTFNFGQNEALHLFQTLMECMKRKELITVFHIGSDEHQDIDVAILTALLKGTNASAFDQLILTLAWDRVDIAKNHVFVYGQQWLVGSLEQAMLDALVMDRVAFVKLLIENGVSMHKFLTIPRLEELYNTKQGPTNPMLFHLVRDVKQGNLPPGYKITLIDIGLVIEYLMGGTYRCTYTRKRFRLIYNSLGGNNRRSGRNTSSSTPQLRKSHESFGNRADKKEKMRHNHFIKTAQPYRPKIDTVMEEGKKKRTKDEIVDIDDPETKRFPYPLNELLIWACLMKRQVMARFLWQHGEESMAKALVACKIYRSMAYEAKQSDLVDDTSEELKQYSNDFGQLAVELLEQSFRQDETMAMKLLTYELKNWSNSTCLKLAVSSRLRPFVAHTCTQMLLSDMWMGRLNMRKNSWYKVILSILVPPAILLLEYKTKAEMSHIPQSQDAHQMTMDDSENNFQNITEEIPMEVFKEVRILDSNEGKNEMEIQMKSKKLPITRKFYAFYHAPIVKFWFNTLAYLGFLMLYTFVVLVQMEQLPSVQEWIVIAYIFTYAIEKVREIFMSEAGKVNQKIKVWFSDYFNISDTIAIISFFIGFGLRFGAKWNFANAYDNHVFVAGRLIYCLNIIFWYVRLLDFLAVNQQAGPYVMMIGKMVANMFYIVVIMALVLLSFGVPRKAILYPHEAPSWTLAKDIVFHPYWMIFGEVYAYEIDVCANDSVIPQICGPGTWLTPFLQAVYLFVQYIIMVNLLIAFFNNVYLQVKAISNIVWKYQRYHFIMAYHEKPVLPPPLIILSHIVSLFCCICKRRKKDKTSDGPKLFLTEEDQKKLHDFEEQCVEMYFNEKDDKFHSGSEERIRVTFERVEQMCIQIKEVGDRVNYIKRSLQSLDSQIGHLQDLSALTVDTLKTLTAQKASEASKVHNEITRELSISKHLAQNLIDDGPVRPSVWKKHGVVNTLSSSLPQGDLESNNPFHCNILMKDDKDPQCNIFGQDLPAVPQRKEFNFPEAGSSSGALFPSAVSPPELRQRLHGVELLKIFNKNQKLGSSSTSIPHLSSPPTKFFVSTPSQPSCKSHLETGTKDQETVCSKATEGDNTEFGAFVGHRDSMDLQRFKETSNKIKILSNNNTSENTLKRVSSLAGFTDCHRTSIPVHSKQAEKISRRPSTEDTHEVDSKAALIPDWLQDRPSNREMPSEEGTLNGLTSPFKPAMDTNYYYSAVERNNLMRLSQSIPFTPVPPRGEPVTVYRLEESSPNILNNSMSSWSQLGLCAKIEFLSKEEMGGGLRRAVKVQCTWSEHDILKSGHLYIIKSFLPEVVNTWSSIYKEDTVLHLCLREIQQQRAAQKLTFAFNQMKPKSIPYSPRFLEVFLLYCHSAGQWFAVEECMTGEFRKYNNNNGDEIIPTNTLEEIMLAFSHWTYEYTRGELLVLDLQGVGENLTDPSVIKAEEKRSCDMVFGPANLGEDAIKNFRAKHHCNSCCRKLKLPDLKRNDYTPDKIIFPQDEPSDLNLQPGNSTKESESTNSVRLML
+Q14289,PTK2B,MSGVSEPLSRVKLGTLRRPEGPAEPMVVVPVDVEKEDVRILKVCFYSNSFNPGKNFKLVKCTVQTEIREIITSILLSGRIGPNIRLAECYGLRLKHMKSDEIHWLHPQMTVGEVQDKYECLHVEAEWRYDLQIRYLPEDFMESLKEDRTTLLYFYQQLRNDYMQRYASKVSEGMALQLGCLELRRFFKDMPHNALDKKSNFELLEKEVGLDLFFPKQMQENLKPKQFRKMIQQTFQQYASLREEECVMKFFNTLAGFANIDQETYRCELIQGWNITVDLVIGPKGIRQLTSQDAKPTCLAEFKQIRSIRCLPLEEGQAVLQLGIEGAPQALSIKTSSLAEAENMADLIDGYCRLQGEHQGSLIIHPRKDGEKRNSLPQIPMLNLEARRSHLSESCSIESDIYAEIPDETLRRPGGPQYGIAREDVVLNRILGEGFFGEVYEGVYTNHKGEKINVAVKTCKKDCTLDNKEKFMSEAVIMKNLDHPHIVKLIGIIEEEPTWIIMELYPYGELGHYLERNKNSLKVLTLVLYSLQICKAMAYLESINCVHRDIAVRNILVASPECVKLGDFGLSRYIEDEDYYKASVTRLPIKWMSPESINFRRFTTASDVWMFAVCMWEILSFGKQPFFWLENKDVIGVLEKGDRLPKPDLCPPVLYTLMTRCWDYDPSDRPRFTELVCSLSDVYQMEKDIAMEQERNARYRTPKILEPTAFQEPPPKPSRPKYRPPPQTNLLAPKLQFQVPEGLCASSPTLTSPMEYPSPVNSLHTPPLHRHNVFKRHSMREEDFIQPSSREEAQQLWEAEKVKMRQILDKQQKQMVEDYQWLRQEEKSLDPMVYMNDKSPLTPEKEVGYLEFTGPPQKPPRLGAQSIQPTANLDRTDDLVYLNVMELVRAVLELKNELCQLPPEGYVVVVKNVGLTLRKLIGSVDDLLPSLPSSSRTEIEGTQKLLNKDLAELINKMRLAQQNAVTSLSEECKRQMLTASHTLAVDAKNLLDAVDQAKVLANLAHPPAE
+Q9H3Y6,SRMS,MEPFLRRRLAFLSFFWDKIWPAGGEPDHGTPGSLDPNTDPVPTLPAEPCSPFPQLFLALYDFTARCGGELSVRRGDRLCALEEGGGYIFARRLSGQPSAGLVPITHVAKASPETLSDQPWYFSGVSRTQAQQLLLSPPNEPGAFLIRPSESSLGGYSLSVRAQAKVCHYRVSMAADGSLYLQKGRLFPGLEELLTYYKANWKLIQNPLLQPCMPQKAPRQDVWERPHSEFALGRKLGEGYFGEVWEGLWLGSLPVAIKVIKSANMKLTDLAKEIQTLKGLRHERLIRLHAVCSGGEPVYIVTELMRKGNLQAFLGTPEGRALRLPPLLGFACQVAEGMSYLEEQRVVHRDLAARNVLVDDGLACKVADFGLARLLKDDIYSPSSSSKIPVKWTAPEAANYRVFSQKSDVWSFGVLLHEVFTYGQCPYEGMTNHETLQQIMRGYRLPRPAACPAEVYVLMLECWRSSPEERPSFATLREKLHAIHRCHP
+O94804,STK10,MAFANFRRILRLSTFEKRKSREYEHVRRDLDPNEVWEIVGELGDGAFGKVYKAKNKETGALAAAKVIETKSEEELEDYIVEIEILATCDHPYIVKLLGAYYHDGKLWIMIEFCPGGAVDAIMLELDRGLTEPQIQVVCRQMLEALNFLHSKRIIHRDLKAGNVLMTLEGDIRLADFGVSAKNLKTLQKRDSFIGTPYWMAPEVVMCETMKDTPYDYKADIWSLGITLIEMAQIEPPHHELNPMRVLLKIAKSDPPTLLTPSKWSVEFRDFLKIALDKNPETRPSAAQLLEHPFVSSITSNKALRELVAEAKAEVMEEIEDGRDEGEEEDAVDAASTLENHTQNSSEVSPPSLNADKPLEESPSTPLAPSQSQDSVNEPCSQPSGDRSLQTTSPPVVAPGNENGLAVPVPLRKSRPVSMDARIQVAQEKQVAEQGGDLSPAANRSQKASQSRPNSSALETLGGEKLANGSLEPPAQAAPGPSKRDSDCSSLCTSESMDYGTNLSTDLSLNKEMGSLSIKDPKLYKKTLKRTRKFVVDGVEVSITTSKIISEDEKKDEEMRFLRRQELRELRLLQKEEHRNQTQLSNKHELQLEQMHKRFEQEINAKKKFFDTELENLERQQKQQVEKMEQDHAVRRREEARRIRLEQDRDYTRFQEQLKLMKKEVKNEVEKLPRQQRKESMKQKMEEHTQKKQLLDRDFVAKQKEDLELAMKRLTTDNRREICDKERECLMKKQELLRDREAALWEMEEHQLQERHQLVKQQLKDQYFLQRHELLRKHEKEREQMQRYNQRMIEQLKVRQQQEKARLPKIQRSEGKTRMAMYKKSLHINGGGSAAEQREKIKQFSQQEEKRQKSERLQQQQKHENQMRDMLAQCESNMSELQQLQNEKCHLLVEHETQKLKALDESHNQNLKEWRDKLRPRKKALEEDLNQKKREQEMFFKLSEEAECPNPSTPSKAAKFFPYSSADAS
+Q8IVH8,MAP4K3,MNPGFDLSRRNPQEDFELIQRIGSGTYGDVYKARNVNTGELAAIKVIKLEPGEDFAVVQQEIIMMKDCKHPNIVAYFGSYLRRDKLWICMEFCGGGSLQDIYHVTGPLSELQIAYVSRETLQGLYYLHSKGKMHRDIKGANILLTDNGHVKLADFGVSAQITATIAKRKSFIGTPYWMAPEVAAVERKGGYNQLCDLWAVGITAIELAELQPPMFDLHPMRALFLMTKSNFQPPKLKDKMKWSNSFHHFVKMALTKNPKKRPTAEKLLQHPFVTQHLTRSLAIELLDKVNNPDHSTYHDFDDDDPEPLVAVPHRIHSTSRNVREEKTRSEITFGQVKFDPPLRKETEPHHELPDSDGFLDSSEEIYYTARSNLDLQLEYGQGHQGGYFLGANKSLLKSVEEELHQRGHVAHLEDDEGDDDESKHSTLKAKIPPPLPPKPKSIFIPQEMHSTEDENQGTIKRCPMSGSPAKPSQVPPRPPPPRLPPHKPVALGNGMSSFQLNGERDGSLCQQQNEHRGTNLSRKEKKDVPKPISNGLPPTPKVHMGACFSKVFNGCPLKIHCASSWINPDTRDQYLIFGAEEGIYTLNLNELHETSMEQLFPRRCTWLYVMNNCLLSISGKASQLYSHNLPGLFDYARQMQKLPVAIPAHKLPDRILPRKFSVSAKIPETKWCQKCCVVRNPYTGHKYLCGALQTSIVLLEWVEPMQKFMLIKHIDFPIPCPLRMFEMLVVPEQEYPLVCVGVSRGRDFNQVVRFETVNPNSTSSWFTESDTPQTNVTHVTQLERDTILVCLDCCIKIVNLQGRLKSSRKLSSELTFDFQIESIVCLQDSVLAFWKHGMQGRSFRSNEVTQEISDSTRIFRLLGSDRVVVLESRPTDNPTANSNLYILAGHENSY
+O95747,OXSR1,MSEDSSALPWSINRDDYELQEVIGSGATAVVQAAYCAPKKEKVAIKRINLEKCQTSMDELLKEIQAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLATGGDITRNKVRKTFVGTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETGVQDKEMLKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFFQKAKNKEFLQEKTLQRAPTISERAKKVRRVPGSSGRLHKTEDGGWEWSDDEFDEESEEGKAAISQLRSPRVKESISNSELFPTTDPVGTLLQVPEQISAHLPQPAGQIATQPTQVSLPPTAEPAKTAQALSSGSGSQETKIPISLVLRLRNSKKELNDIRFEFTPGRDTAEGVSQELISAGLVDGRDLVIVAANLQKIVEEPQSNRSVTFKLASGVEGSDIPDDGKLIGFAQLSIS
+Q9NQU5,PAK6,MFRKKKKKRPEISAPQNFQHRVHTSFDPKEGKFVGLPPQWQNILDTLRRPKPVVDPSRITRVQLQPMKTVVRGSAMPVDGYISGLLNDIQKLSVISSNTLRGRSPTSRRRAQSLGLLGDEHWATDPDMYLQSPQSERTDPHGLYLSCNGGTPAGHKQMPWPEPQSPRVLPNGLAAKAQSLGPAEFQGASQRCLQLGACLQSSPPGASPPTGTNRHGMKAAKHGSEEARPQSCLVGSATGRPGGEGSPSPKTRESSLKRRLFRSMFLSTAATAPPSSSKPGPPPQSKPNSSFRPPQKDNPPSLVAKAQSLPSDQPVGTFSPLTTSDTSSPQKSLRTAPATGQLPGRSSPAGSPRTWHAQISTSNLYLPQDPTVAKGALAGEDTGVVTHEQFKAALRMVVDQGDPRLLLDSYVKIGEGSTGIVCLAREKHSGRQVAVKMMDLRKQQRRELLFNEVVIMRDYQHFNVVEMYKSYLVGEELWVLMEFLQGGALTDIVSQVRLNEEQIATVCEAVLQALAYLHAQGVIHRDIKSDSILLTLDGRVKLSDFGFCAQISKDVPKRKSLVGTPYWMAPEVISRSLYATEVDIWSLGIMVIEMVDGEPPYFSDSPVQAMKRLRDSPPPKLKNSHKVSPVLRDFLERMLVRDPQERATAQELLDHPFLLQTGLPECLVPLIQLYRKQTSTC
+O96013,PAK4,MFGKRKKRVEISAPSNFEHRVHTGFDQHEQKFTGLPRQWQSLIEESARRPKPLVDPACITSIQPGAPKTIVRGSKGAKDGALTLLLDEFENMSVTRSNSLRRDSPPPPARARQENGMPEEPATTARGGPGKAGSRGRFAGHSEAGGGSGDRRRAGPEKRPKSSREGSGGPQESSRDKRPLSGPDVGTPQPAGLASGAKLAAGRPFNTYPRADTDHPSRGAQGEPHDVAPNGPSAGGLAIPQSSSSSSRPPTRARGAPSPGVLGPHASEPQLAPPACTPAAPAVPGPPGPRSPQREPQRVSHEQFRAALQLVVDPGDPRSYLDNFIKIGEGSTGIVCIATVRSSGKLVAVKKMDLRKQQRRELLFNEVVIMRDYQHENVVEMYNSYLVGDELWVVMEFLEGGALTDIVTHTRMNEEQIAAVCLAVLQALSVLHAQGVIHRDIKSDSILLTHDGRVKLSDFGFCAQVSKEVPRRKSLVGTPYWMAPELISRLPYGPEVDIWSLGIMVIEMVDGEPPYFNEPPLKAMKMIRDNLPPRLKNLHKVSPSLKGFLDRLLVRDPAQRATAAELLKHPFLAKAGPPASIVPLMRQNRTR
+Q9P289,STK26,MAHSPVAVQVPGMQNNIADPEELFTKLERIGKGSFGEVFKGIDNRTQQVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSSYVTKYYGSYLKGSKLWIIMEYLGGGSALDLLRAGPFDEFQIATMLKEILKGLDYLHSEKKIHRDIKAANVLLSEQGDVKLADFGVAGQLTDTQIKRNTFVGTPFWMAPEVIQQSAYDSKADIWSLGITAIELAKGEPPNSDMHPMRVLFLIPKNNPPTLVGDFTKSFKEFIDACLNKDPSFRPTAKELLKHKFIVKNSKKTSYLTELIDRFKRWKAEGHSDDESDSEGSDSESTSRENNTHPEWSFTTVRKKPDPKKVQNGAEQDLVQTLSCLSMIITPAFAELKQQDENNASRNQAIEELEKSIAVAEAACPGITDKMVKKLIEKFQKCSADESP
+Q9UEW8,STK39,MAEPSGSPVHVQLPQQAAPVTAAAAAAPAAATAAPAPAAPAAPAPAPAPAAQAVGWPICRDAYELQEVIGSGATAVVQAALCKPRQERVAIKRINLEKCQTSMDELLKEIQAMSQCSHPNVVTYYTSFVVKDELWLVMKLLSGGSMLDIIKYIVNRGEHKNGVLEEAIIATILKEVLEGLDYLHRNGQIHRDLKAGNILLGEDGSVQIADFGVSAFLATGGDVTRNKVRKTFVGTPCWMAPEVMEQVRGYDFKADMWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPTLETGVEDKEMMKKYGKSFRKLLSLCLQKDPSKRPTAAELLKCKFFQKAKNREYLIEKLLTRTPDIAQRAKKVRRVPGSSGHLHKTEDGDWEWSDDEMDEKSEEGKAAFSQEKSRRVKEENPEIAVSASTIPEQIQSLSVHDSQGPPNANEDYREASSCAVNLVLRLRNSRKELNDIRFEFTPGRDTADGVSQELFSAGLVDGHDVVIVAANLQKIVDDPKALKTLTFKLASGCDGSEIPDEVKLIGFAQLSVS
+Q7RTN6,STRADA,MSFLVSKPERIRRWVSEKFIVEGLRDLELFGEQPPGDTRRKTNDASSESIASFSKQEVMSSFLPEGGCYELLTVIGKGFEDLMTVNLARYKPTGEYVTVRRINLEACSNEMVTFLQGELHVSKLFNHPNIVPYRATFIADNELWVVTSFMAYGSAKDLICTHFMDGMNELAIAYILQGVLKALDYIHHMGYVHRSVKASHILISVDGKVYLSGLRSNLSMISHGQRQRVVHDFPKYSVKVLPWLSPEVLQQNLQGYDAKSDIYSVGITACELANGHVPFKDMPATQMLLEKLNGTVPCLLDTSTIPAEELTMSPSRSVANSGLSDSLTTSTPRPSNGDSPSHPYHRTFSPHFHHFVEQCLQRNPDARPSASTLLNHSFFKQIKRRASEALPELLRPVTPITNFEGSQSQDHSGIFGLVTNLEELEVDDWEF
+Q9C0K7,STRADB,MSLLDCFCTSRTQVESLRPEKQSETSIHQYLVDEPTLSWSRPSTRASEVLCSTNVSHYELQVEIGRGFDNLTSVHLARHTPTGTLVTIKITNLENCNEERLKALQKAVILSHFFRHPNITTYWTVFTVGSWLWVISPFMAYGSASQLLRTYFPEGMSETLIRNILFGAVRGLNYLHQNGCIHRSIKASHILISGDGLVTLSGLSHLHSLVKHGQRHRAVYDFPQFSTSVQPWLSPELLRQDLHGYNVKSDIYSVGITACELASGQVPFQDMHRTQMLLQKLKGPPYSPLDISIFPQSESRMKNSQSGVDSGIGESVLVSSGTHTVNSDRLHTPSSKTFSPAFFSLVQLCLQQDPEKRPSASSLLSHVFFKQMKEESQDSILSLLPPAYNKPSISLPPVLPWTEPECDFPDEKDSYWEF
+Q9H2K8,TAOK3,MRKGVLKDPEIADLFYKDDPEELFIGLHEIGHGSFGAVYFATNAHTSEVVAIKKMSYSGKQTHEKWQDILKEVKFLRQLKHPNTIEYKGCYLKEHTAWLVMEYCLGSASDLLEVHKKPLQEVEIAAITHGALHGLAYLHSHALIHRDIKAGNILLTEPGQVKLADFGSASMASPANSFVGTPYWMAPEVILAMDEGQYDGKVDIWSLGITCIELAERKPPLFNMNAMSALYHIAQNDSPTLQSNEWTDSFRRFVDYCLQKIPQERPTSAELLRHDFVRRDRPLRVLIDLIQRTKDAVRELDNLQYRKMKKILFQETRNGPLNESQEDEEDSEHGTSLNREMDSLGSNHSIPSMSVSTGSQSSSVNSMQEVMDESSSELVMMHDDESTINSSSSVVHKKDHVFIRDEAGHGDPRPEPRPTQSVQSQALHYRNRERFATIKSASLVTRQIHEHEQENELREQMSGYKRMRRQHQKQLIALENKLKAEMDEHRLKLQKEVETHANNSSIELEKLAKKQVAIIEKEAKVAAADEKKFQQQILAQQKKDLTTFLESQKKQYKICKEKIKEEMNEDHSTPKKEKQERISKHKENLQHTQAEEEAHLLTQQRLYYDKNCRFFKRKIMIKRHEVEQQNIREELNKKRTQKEMEHAMLIRHDESTRELEYRQLHTLQKLRMDLIRLQHQTELENQLEYNKRRERELHRKHVMELRQQPKNLKAMEMQIKKQFQDTCKVQTKQYKALKNHQLEVTPKNEHKTILKTLKDEQTRKLAILAEQYEQSINEMMASQALRLDEAQEAECQALRLQLQQEMELLNAYQSKIKMQTEAQHERELQKLEQRVSLRRAHLEQKIEEELAALQKERSERIKNLLERQEREIETFDMESLRMGFGNLVTLDFPKEDYR
+Q7L7X3,TAOK1,MPSTNRAGSLKDPEIAELFFKEDPEKLFTDLREIGHGSFGAVYFARDVRTNEVVAIKKMSYSGKQSTEKWQDIIKEVKFLQRIKHPNSIEYKGCYLREHTAWLVMEYCLGSASDLLEVHKKPLQEVEIAAITHGALQGLAYLHSHTMIHRDIKAGNILLTEPGQVKLADFGSASMASPANSFVGTPYWMAPEVILAMDEGQYDGKVDVWSLGITCIELAERKPPLFNMNAMSALYHIAQNESPTLQSNEWSDYFRNFVDSCLQKIPQDRPTSEELLKHIFVLRERPETVLIDLIQRTKDAVRELDNLQYRKMKKLLFQEAHNGPAVEAQEEEEEQDHGVGRTGTVNSVGSNQSIPSMSISASSQSSSVNSLPDVSDDKSELDMMEGDHTVMSNSSVIHLKPEEENYREEGDPRTRASDPQSPPQVSRHKSHYRNREHFATIRTASLVTRQMQEHEQDSELREQMSGYKRMRRQHQKQLMTLENKLKAEMDEHRLRLDKDLETQRNNFAAEMEKLIKKHQAAMEKEAKVMSNEEKKFQQHIQAQQKKELNSFLESQKREYKLRKEQLKEELNENQSTPKKEKQEWLSKQKENIQHFQAEEEANLLRRQRQYLELECRRFKRRMLLGRHNLEQDLVREELNKRQTQKDLEHAMLLRQHESMQELEFRHLNTIQKMRCELIRLQHQTELTNQLEYNKRRERELRRKHVMEVRQQPKSLKSKELQIKKQFQDTCKIQTRQYKALRNHLLETTPKSEHKAVLKRLKEEQTRKLAILAEQYDHSINEMLSTQALRLDEAQEAECQVLKMQLQQELELLNAYQSKIKMQAEAQHDRELRELEQRVSLRRALLEQKIEEEMLALQNERTERIRSLLERQAREIEAFDSESMRLGFSNMVLSNLSPEAFSHSYPGASGWSHNPTGGPGPHWGHPMGGPPQAWGHPMQGGPQPWGHPSGPMQGVPRGSSMGVRNSPQALRRTASGGRTEQGMSRSTSVTSQISNGSHMSYT
+O95819,MAP4K4,MANDSPAKSLVDIDLSSLRDPAGIFELVEVVGNGTYGQVYKGRHVKTGQLAAIKVMDVTEDEEEEIKLEINMLKKYSHHRNIATYYGAFIKKSPPGHDDQLWLVMEFCGAGSITDLVKNTKGNTLKEDWIAYISREILRGLAHLHIHHVIHRDIKGQNVLLTENAEVKLVDFGVSAQLDRTVGRRNTFIGTPYWMAPEVIACDENPDATYDYRSDLWSCGITAIEMAEGAPPLCDMHPMRALFLIPRNPPPRLKSKKWSKKFFSFIEGCLVKNYMQRPSTEQLLKHPFIRDQPNERQVRIQLKDHIDRTRKKRGEKDETEYEYSGSEEEEEEVPEQEGEPSSIVNVPGESTLRRDFLRLQQENKERSEALRRQQLLQEQQLREQEEYKRQLLAERQKRIEQQKEQRRRLEEQQRREREARRQQEREQRRREQEEKRRLEELERRRKEEEERRRAEEEKRRVEREQEYIRRQLEEEQRHLEVLQQQLLQEQAMLLECRWREMEEHRQAERLQRQLQQEQAYLLSLQHDHRRPHPQHSQQPPPPQQERSKPSFHAPEPKAHYEPADRAREVEDRFRKTNHSSPEAQSKQTGRVLEPPVPSRSESFSNGNSESVHPALQRPAEPQVPVRTTSRSPVLSRRDSPLQGSGQQNSQAGQRNSTSIEPRLLWERVEKLVPRPGSGSSSGSSNSGSQPGSHPGSQSGSGERFRVRSSSKSEGSPSQRLENAVKKPEDKKEVFRPLKPADLTALAKELRAVEDVRPPHKVTDYSSSSEESGTTDEEDDDVEQEGADESTSGPEDTRAASSLNLSNGETESVKTMIVHDDVESEPAMTPSKEGTLIVRQTQSASSTLQKHKSSSSFTPFIDPRLLQISPSSGTTVTSVVGFSCDGMRPEAIRQDPTRKGSVVNVNPTNTRPQSDTPEIRKYKKRFNSEILCAALWGVNLLVGTESGLMLLDRSGQGKVYPLINRRRFQQMDVLEGLNVLVTISGKKDKLRVYYLSWLRNKILHNDPEVEKKQGWTTVGDLEGCVHYKVVKYERIKFLVIALKSSVEVYAWAPKPYHKFMAFKSFGELVHKPLLVDLTVEEGQRLKVIYGSCAGFHAVDVDSGSVYDIYLPTHIQCSIKPHAIIILPNTDGMELLVCYEDEGVYVNTYGRITKDVVLQWGEMPTSVAYIRSNQTMGWGEKAIEIRSVETGHLDGVFMHKRAQRLKFLCERNDKVFFASVRSGGSSQVYFMTLGRTSLLSW
+Q9UKE5,TNIK,MASDSPARSLDEIDLSALRDPAGIFELVELVGNGTYGQVYKGRHVKTGQLAAIKVMDVTGDEEEEIKQEINMLKKYSHHRNIATYYGAFIKKNPPGMDDQLWLVMEFCGAGSVTDLIKNTKGNTLKEEWIAYICREILRGLSHLHQHKVIHRDIKGQNVLLTENAEVKLVDFGVSAQLDRTVGRRNTFIGTPYWMAPEVIACDENPDATYDFKSDLWSLGITAIEMAEGAPPLCDMHPMRALFLIPRNPAPRLKSKKWSKKFQSFIESCLVKNHSQRPATEQLMKHPFIRDQPNERQVRIQLKDHIDRTKKKRGEKDETEYEYSGSEEEEEENDSGEPSSILNLPGESTLRRDFLRLQLANKERSEALRRQQLEQQQRENEEHKRQLLAERQKRIEEQKEQRRRLEEQQRREKELRKQQEREQRRHYEEQMRREEERRRAEHEQEYIRRQLEEEQRQLEILQQQLLHEQALLLEYKRKQLEEQRQAERLQRQLKQERDYLVSLQHQRQEQRPVEKKPLYHYKEGMSPSEKPAWAKEVEERSRLNRQSSPAMPHKVANRISDPNLPPRSESFSISGVQPARTPPMLRPVDPQIPHLVAVKSQGPALTASQSVHEQPTKGLSGFQEALNVTSHRVEMPRQNSDPTSENPPLPTRIEKFDRSSWLRQEEDIPPKVPQRTTSISPALARKNSPGNGSALGPRLGSQPIRASNPDLRRTEPILESPLQRTSSGSSSSSSTPSSQPSSQGGSQPGSQAGSSERTRVRANSKSEGSPVLPHEPAKVKPEESRDITRPSRPASYKKAIDEDLTALAKELRELRIEETNRPMKKVTDYSSSSEESESSEEEEEDGESETHDGTVAVSDIPRLIPTGAPGSNEQYNVGMVGTHGLETSHADSFSGSISREGTLMIRETSGEKKRSGHSDSNGFAGHINLPDLVQQSHSPAGTPTEGLGRVSTHSQEMDSGTEYGMGSSTKASFTPFVDPRVYQTSPTDEDEEDEESSAAALFTSELLRQEQAKLNEARKISVVNVNPTNIRPHSDTPEIRKYKKRFNSEILCAALWGVNLLVGTENGLMLLDRSGQGKVYNLINRRRFQQMDVLEGLNVLVTISGKKNKLRVYYLSWLRNRILHNDPEVEKKQGWITVGDLEGCIHYKVVKYERIKFLVIALKNAVEIYAWAPKPYHKFMAFKSFADLQHKPLLVDLTVEEGQRLKVIFGSHTGFHVIDVDSGNSYDIYIPSHIQGNITPHAIVILPKTDGMEMLVCYEDEGVYVNTYGRITKDVVLQWGEMPTSVAYIHSNQIMGWGEKAIEIRSVETGHLDGVFMHKRAQRLKFLCERNDKVFFASVRSGGSSQVFFMTLNRNSMMNW
+Q8N4C8,MINK1,MGDPAPARSLDDIDLSALRDPAGIFELVEVVGNGTYGQVYKGRHVKTGQLAAIKVMDVTEDEEEEIKQEINMLKKYSHHRNIATYYGAFIKKSPPGNDDQLWLVMEFCGAGSVTDLVKNTKGNALKEDCIAYICREILRGLAHLHAHKVIHRDIKGQNVLLTENAEVKLVDFGVSAQLDRTVGRRNTFIGTPYWMAPEVIACDENPDATYDYRSDIWSLGITAIEMAEGAPPLCDMHPMRALFLIPRNPPPRLKSKKWSKKFIDFIDTCLIKTYLSRPPTEQLLKFPFIRDQPTERQVRIQLKDHIDRSRKKRGEKEETEYEYSGSEEEDDSHGEEGEPSSIMNVPGESTLRREFLRLQQENKSNSEALKQQQQLQQQQQRDPEAHIKHLLHQRQRRIEEQKEERRRVEEQQRREREQRKLQEKEQQRRLEDMQALRREEERRQAEREQEYKRKQLEEQRQSERLQRQLQQEHAYLKSLQQQQQQQQLQKQQQQQLLPGDRKPLYHYGRGMNPADKPAWAREVEERTRMNKQQNSPLAKSKPGSTGPEPPIPQASPGPPGPLSQTPPMQRPVEPQEGPHKSLVAHRVPLKPYAAPVPRSQSLQDQPTRNLAAFPASHDPDPAIPAPTATPSARGAVIRQNSDPTSEGPGPSPNPPAWVRPDNEAPPKVPQRTSSIATALNTSGAGGSRPAQAVRARPRSNSAWQIYLQRRAERGTPKPPGPPAQPPGPPNASSNPDLRRSDPGWERSDSVLPASHGHLPQAGSLERNRVGVSSKPDSSPVLSPGNKAKPDDHRSRPGRPADFVLLKERTLDEAPRPPKKAMDYSSSSEEVESSEDDEEEGEGGPAEGSRDTPGGRSDGDTDSVSTMVVHDVEEITGTQPPYGGGTMVVQRTPEEERNLLHADSNGYTNLPDVVQPSHSPTENSKGQSPPSKDGSGDYQSRGLVKAPGKSSFTMFVDLGIYQPGGSGDSIPITALVGGEGTRLDQLQYDVRKGSVVNVNPTNTRAHSETPEIRKYKKRFNSEILCAALWGVNLLVGTENGLMLLDRSGQGKVYGLIGRRRFQQMDVLEGLNLLITISGKRNKLRVYYLSWLRNKILHNDPEVEKKQGWTTVGDMEGCGHYRVVKYERIKFLVIALKSSVEVYAWAPKPYHKFMAFKSFADLPHRPLLVDLTVEEGQRLKVIYGSSAGFHAVDVDSGNSYDIYIPVHIQSQITPHAIIFLPNTDGMEMLLCYEDEGVYVNTYGRIIKDVVLQWGEMPTSVAYICSNQIMGWGEKAIEIRSVETGHLDGVFMHKRAQRLKFLCERNDKVFFASVRSGGSSQVYFMTLNRNCIMNW
+Q7Z2Y5,NRK,MAGPGGWRDREVTDLGHLPDPTGIFSLDKTIGLGTYGRIYLGLHEKTGAFTAVKVMNARKTPLPEIGRRVRVNKYQKSVGWRYSDEEEDLRTELNLLRKYSFHKNIVSFYGAFFKLSPPGQRHQLWMVMELCAAGSVTDVVRMTSNQSLKEDWIAYICREILQGLAHLHAHRVIHRDIKGQNVLLTHNAEVKLVDFGVSAQVSRTNGRRNSFIGTPYWMAPEVIDCDEDPRRSYDYRSDVWSVGITAIEMAEGAPPLCNLQPLEALFVILRESAPTVKSSGWSRKFHNFMEKCTIKNFLFRPTSANMLQHPFVRDIKNERHVVESLTRHLTGIIKKRQKKGIPLIFEREEAIKEQYTVRRFRGPSCTHELLRLPTSSRCRPLRVLHGEPSQPRWLPDREEPQVQALQQLQGAARVFMPLQALDSAPKPLKGQAQAPQRLQGAARVFMPLQAQVKAKASKPLQMQIKAPPRLRRAARVLMPLQAQVRAPRLLQVQSQVSKKQQAQTQTSEPQDLDQVPEEFQGQDQVPEQQRQGQAPEQQQRHNQVPEQELEQNQAPEQPEVQEQAAEPAQAETEAEEPESLRVNAQVFLPLLSQDHHVLLPLHLDTQVLIPVEGQTEGSPQAQAWTLEPPQAIGSVQALIEGLSRDLLRAPNSNNSKPLGPLQTLMENLSSNRFYSQPEQAREKKSKVSTLRQALAKRLSPKRFRAKSSWRPEKLELSDLEARRQRRQRRWEDIFNQHEEELRQVDKDKEDESSDNDEVFHSIQAEVQIEPLKPYISNPKKIEVQERSPSVPNNQDHAHHVKFSSSVPQRSLLEQAQKPIDIRQRSSQNRQNWLAASESSSEEESPVTGRRSQSSPPYSTIDQKLLVDIHVPDGFKVGKISPPVYLTNEWVGYNALSEIFRNDWLTPAPVIQPPEEDGDYVELYDASADTDGDDDDESNDTFEDTYDHANGNDDLDNQVDQANDVCKDHDDDNNKFVDDVNNNYYEAPSCPRASYGRDGSCKQDGYDGSRGKEEAYRGYGSHTANRSHGGSAASEDNAAIGDQEEHAANIGSERRGSEGDGGKGVVRTSEESGALGLNGEENCSETDGPGLKRPASQDFEYLQEEPGGGNEASNAIDSGAAPSAPDHESDNKDISESSTQSDFSANHSSPSKGSGMSADANFASAILYAGFVEVPEESPKQPSEVNVNPLYVSPACKKPLIHMYEKEFTSEICCGSLWGVNLLLGTRSNLYLMDRSGKADITKLIRRRPFRQIQVLEPLNLLITISGHKNRLRVYHLTWLRNKILNNDPESKRRQEEMLKTEEACKAIDKLTGCEHFSVLQHEETTYIAIALKSSIHLYAWAPKSFDESTAIKVCIDQSADSEGDYMSYQAYIRILAKIQAADPVNRFKRPDELLHLLKLKVFPTLDHKPVTVDLAIGSEKRLKIFFSSADGYHLIDAESEVMSDVTLPKNPLEIIIPQNIIILPDCLGIGMMLTFNAEALSVEANEQLFKKILEMWKDIPSSIAFECTQRTTGWGQKAIEVRSLQSRVLESELKRRSIKKLRFLCTRGDKLFFTSTLRNHHSRVYFMTLGKLEELQSNYDV
+O95835,LATS1,MKRSEKPEGYRQMRPKTFPASNYTVSSRQMLQEIRESLRNLSKPSDAAKAEHNMSKMSTEDPRQVRNPPKFGTHHKALQEIRNSLLPFANETNSSRSTSEVNPQMLQDLQAAGFDEDMVIQALQKTNNRSIEAAIEFISKMSYQDPRREQMAAAAARPINASMKPGNVQQSVNRKQSWKGSKESLVPQRHGPPLGESVAYHSESPNSQTDVGRPLSGSGISAFVQAHPSNGQRVNPPPPPQVRSVTPPPPPRGQTPPPRGTTPPPPSWEPNSQTKRYSGNMEYVISRISPVPPGAWQEGYPPPPLNTSPMNPPNQGQRGISSVPVGRQPIIMQSSSKFNFPSGRPGMQNGTGQTDFMIHQNVVPAGTVNRQPPPPYPLTAANGQSPSALQTGGSAAPSSYTNGSIPQSMMVPNRNSHNMELYNISVPGLQTNWPQSSSAPAQSSPSSGHEIPTWQPNIPVRSNSFNNPLGNRASHSANSQPSATTVTAITPAPIQQPVKSMRVLKPELQTALAPTHPSWIPQPIQTVQPSPFPEGTASNVTVMPPVAEAPNYQGPPPPYPKHLLHQNPSVPPYESISKPSKEDQPSLPKEDESEKSYENVDSGDKEKKQITTSPITVRKNKKDEERRESRIQSYSPQAFKFFMEQHVENVLKSHQQRLHRKKQLENEMMRVGLSQDAQDQMRKMLCQKESNYIRLKRAKMDKSMFVKIKTLGIGAFGEVCLARKVDTKALYATKTLRKKDVLLRNQVAHVKAERDILAEADNEWVVRLYYSFQDKDNLYFVMDYIPGGDMMSLLIRMGIFPESLARFYIAELTCAVESVHKMGFIHRDIKPDNILIDRDGHIKLTDFGLCTGFRWTHDSKYYQSGDHPRQDSMDFSNEWGDPSSCRCGDRLKPLERRAARQHQRCLAHSLVGTPNYIAPEVLLRTGYTQLCDWWSVGVILFEMLVGQPPFLAQTPLETQMKVINWQTSLHIPPQAKLSPEASDLIIKLCRGPEDRLGKNGADEIKAHPFFKTIDFSSDLRQQSASYIPKITHPTDTSNFDPVDPDKLWSDDNEEENVNDTLNGWYKNGKHPEHAFYEFTFRRFFDDNGYPYNYPKPIEYEYINSQGSEQQSDEDDQNTGSEIKNRDLVYV
+Q9NRM7,LATS2,MRPKTFPATTYSGNSRQRLQEIREGLKQPSKSSVQGLPAGPNSDTSLDAKVLGSKDATRQQQQMRATPKFGPYQKALREIRYSLLPFANESGTSAAAEVNRQMLQELVNAGCDQEMAGRALKQTGSRSIEAALEYISKMGYLDPRNEQIVRVIKQTSPGKGLMPTPVTRRPSFEGTGDSFASYHQLSGTPYEGPSFGADGPTALEEMPRPYVDYLFPGVGPHGPGHQHQHPPKGYGASVEAAGAHFPLQGAHYGRPHLLVPGEPLGYGVQRSPSFQSKTPPETGGYASLPTKGQGGPPGAGLAFPPPAAGLYVPHPHHKQAGPAAHQLHVLGSRSQVFASDSPPQSLLTPSRNSLNVDLYELGSTSVQQWPAATLARRDSLQKPGLEAPPRAHVAFRPDCPVPSRTNSFNSHQPRPGPPGKAEPSLPAPNTVTAVTAAHILHPVKSVRVLRPEPQTAVGPSHPAWVPAPAPAPAPAPAPAAEGLDAKEEHALALGGAGAFPLDVEYGGPDRRCPPPPYPKHLLLRSKSEQYDLDSLCAGMEQSLRAGPNEPEGGDKSRKSAKGDKGGKDKKQIQTSPVPVRKNSRDEEKRESRIKSYSPYAFKFFMEQHVENVIKTYQQKVNRRLQLEQEMAKAGLCEAEQEQMRKILYQKESNYNRLKRAKMDKSMFVKIKTLGIGAFGEVCLACKVDTHALYAMKTLRKKDVLNRNQVAHVKAERDILAEADNEWVVKLYYSFQDKDSLYFVMDYIPGGDMMSLLIRMEVFPEHLARFYIAELTLAIESVHKMGFIHRDIKPDNILIDLDGHIKLTDFGLCTGFRWTHNSKYYQKGSHVRQDSMEPSDLWDDVSNCRCGDRLKTLEQRARKQHQRCLAHSLVGTPNYIAPEVLLRKGYTQLCDWWSVGVILFEMLVGQPPFLAPTPTETQLKVINWENTLHIPAQVKLSPEARDLITKLCCSADHRLGRNGADDLKAHPFFSAIDFSSDIRKQPAPYVPTISHPMDTSNFDPVDEESPWNDASEGSTKAWDTLTSPNNKHPEHAFYEFTFRRFFDDNGYPFRCPKPSGAEASQAESSDLESSDLVDQTEGCQPVYV
+Q9BWU1,CDK19,MDYDFKAKLAAERERVEDLFEYEGCKVGRGTYGHVYKARRKDGKDEKEYALKQIEGTGISMSACREIALLRELKHPNVIALQKVFLSHSDRKVWLLFDYAEHDLWHIIKFHRASKANKKPMQLPRSMVKSLLYQILDGIHYLHANWVLHRDLKPANILVMGEGPERGRVKIADMGFARLFNSPLKPLADLDPVVVTFWYRAPELLLGARHYTKAIDIWAIGCIFAELLTSEPIFHCRQEDIKTSNPFHHDQLDRIFSVMGFPADKDWEDIRKMPEYPTLQKDFRRTTYANSSLIKYMEKHKVKPDSKVFLLLQKLLTMDPTKRITSEQALQDPYFQEDPLPTLDVFAGCQIPYPKREFLNEDDPEEKGDKNQQQQQNQHQQPTAPPQQAAAPPQAPPPQQNSTQTNGTAGGAGAGVGGTGAGLQHSQDSSLNQVPPNKKPRLGPSGANSGGPVMPSDYQHSSSRLNYQSSVQGSSQSQSTLGYSSSSQQSSQYHPSHQAHRY
+Q8IY84,NIM1K,MTAVYMNGGGLVNPHYARWDRRDSVESGCQTESSKEGEEGQPRQLTPFEKLTQDMSQDEKVVREITLGKRIGFYRIRGEIGSGNFSQVKLGIHSLTKEKVAIKILDKTKLDQKTQRLLSREISSMEKLHHPNIIRLYEVVETLSKLHLVMEYAGGGELFGKISTEGKLSEPESKLIFSQIVSAVKHMHENQIIHRDLKAENVFYTSNTCVKVGDFGFSTVSKKGEMLNTFCGSPPYAAPELFRDEHYIGIYVDIWALGVLLYFMVTGTMPFRAETVAKLKKSILEGTYSVPPHVSEPCHRLIRGVLQQIPTERYGIDCIMNDEWMQGVPYPTPLEPFQLDPKHLSETSTLKEEENEVKSTLEHLGITEEHIRNNQGRDARSSITGVYRIILHRVQRKKALESVPVMMLPDPKERDLKKGSRVYRGIRHTSKFCSIL
+Q6PHR2,ULK3,MAGPGWGPPRLDGFILTERLGSGTYATVYKAYAKKDTREVVAIKCVAKKSLNKASVENLLTEIEILKGIRHPHIVQLKDFQWDSDNIYLIMEFCAGGDLSRFIHTRRILPEKVARVFMQQLASALQFLHERNISHLDLKPQNILLSSLEKPHLKLADFGFAQHMSPWDEKHVLRGSPLYMAPEMVCQRQYDARVDLWSMGVILYEALFGQPPFASRSFSELEEKIRSNRVIELPLRPLLSRDCRDLLQRLLERDPSRRISFQDFFAHPWVDLEHMPSGESLGRATALVVQAVKKDQEGDSAAALSLYCKALDFFVPALHYEVDAQRKEAIKAKVGQYVSRAEELKAIVSSSNQALLRQGTSARDLLREMARDKPRLLAALEVASAAMAKEEAAGGEQDALDLYQHSLGELLLLLAAEPPGRRRELLHTEVQNLMARAEYLKEQVKMRESRWEADTLDKEGLSESVRSSCTLQ
+Q8N165,PDIK1L,MVSSQPKYDLIREVGRGSYGVVYEAVIRKTSARVAVKKIRCHAPENVELALREFWALSSIKSQHPNVIHLEECILQKDGMVQKMSHGSNSSLYLQLVETSLKGEIAFDPRSAYYLWFVMDFCDGGDMNEYLLSRKPNRKTNTSFMLQLSSALAFLHKNQIIHRDLKPDNILISQTRLDTSDLEPTLKVADFGLSKVCSASGQNPEEPVSVNKCFLSTACGTDFYMAPEVWEGHYTAKADIFALGIIIWAMLERITFIDTETKKELLGSYVKQGTEIVPVGEALLENPKMELLIPVKKKSMNGRMKQLIKEMLAANPQDRPDAFELELRLVQIAFKDSSWET
+Q6IQ55,TTBK2,MSGGGEQLDILSVGILVKERWKVLRKIGGGGFGEIYDALDMLTRENVALKVESAQQPKQVLKMEVAVLKKLQGKDHVCRFIGCGRNDRFNYVVMQLQGRNLADLRRSQSRGTFTISTTLRLGRQILESIESIHSVGFLHRDIKPSNFAMGRFPSTCRKCYMLDFGLARQFTNSCGDVRPPRAVAGFRGTVRYASINAHRNREMGRHDDLWSLFYMLVEFVVGQLPWRKIKDKEQVGSIKERYDHRLMLKHLPPEFSIFLDHISSLDYFTKPDYQLLTSVFDNSIKTFGVIESDPFDWEKTGNDGSLTTTTTSTTPQLHTRLTPAAIGIANATPIPGDLLRENTDEVFPDEQLSDGENGIPVGVSPDKLPGSLGHPRPQEKDVWEEMDANKNKIKLGICKAATEEENSHGQANGLLNAPSLGSPIRVRSEITQPDRDIPLVRKLRSIHSFELEKRLTLEPKPDTDKFLETCLEKMQKDTSAGKESILPALLHKPCVPAVSRTDHIWHYDEEYLPDASKPASANTPEQADGGGSNGFIAVNLSSCKQEIDSKEWVIVDKEQDLQDFRTNEAVGHKTTGSPSDEEPEVLQVLEASPQDEKLQLGPWAENDHLKKETSGVVLALSAEGPPTAASEQYTDRLELQPGAASQFIAATPTSLMEAQAEGPLTAITIPRPSVASTQSTSGSFHCGQQPEKKDLQPMEPTVELYSPRENFSGLVVTEGEPPSGGSRTDLGLQIDHIGHDMLPNIRESNKSQDLGPKELPDHNRLVVREFENLPGETEEKSILLESDNEDEKLSRGQHCIEISSLPGDLVIVEKDHSATTEPLDVTKTQTFSVVPNQDKNNEIMKLLTVGTSEISSRDIDPHVEGQIGQVAEMQKNKISKDDDIMSEDLPGHQGDLSTFLHQEGKREKITPRNGELFHCVSENEHGAPTRKDMVRSSFVTRHSRIPVLAQEIDSTLESSSPVSAKEKLLQKKAYQPDLVKLLVEKRQFKSFLGDLSSASDKLLEEKLATVPAPFCEEEVLTPFSRLTVDSHLSRSAEDSFLSPIISQSRKSKIPRPVSWVNTDQVNSSTSSQFFPRPPPGKPPTRPGVEARLRRYKVLGSSNSDSDLFSRLAQILQNGSQKPRSTTQCKSPGSPHNPKTPPKSPVVPRRSPSASPRSSSLPRTSSSSPSRAGRPHHDQRSSSPHLGRSKSPPSHSGSSSSRRSCQQEHCKPSKNGLKGSGSLHHHSASTKTPQGKSKPASKLSR
+Q96KG9,SCYL1,MWFFARDPVRDFPFELIPEPPEGGLPGPWALHRGRKKATGSPVSIFVYDVKPGAEEQTQVAKAAFKRFKTLRHPNILAYIDGLETEKCLHVVTEAVTPLGIYLKARVEAGGLKELEISWGLHQIVKALSFLVNDCSLIHNNVCMAAVFVDRAGEWKLGGLDYMYSAQGNGGGPPRKGIPELEQYDPPELADSSGRVVREKWSADMWRLGCLIWEVFNGPLPRAAALRNPGKIPKTLVPHYCELVGANPKVRPNPARFLQNCRAPGGFMSNRFVETNLFLEEIQIKEPAEKQKFFQELSKSLDAFPEDFCRHKVLPQLLTAFEFGNAGAVVLTPLFKVGKFLSAEEYQQKIIPVVVKMFSSTDRAMRIRLLQQMEQFIQYLDEPTVNTQIFPHVVHGFLDTNPAIREQTVKSMLLLAPKLNEANLNVELMKHFARLQAKDEQGPIRCNTTVCLGKIGSYLSASTRHRVLTSAFSRATRDPFAPSRVAGVLGFAATHNLYSMNDCAQKILPVLCGLTVDPEKSVRDQAFKAIRSFLSKLESVSEDPTQLEEVEKDVHAASSPGMGGAAASWAGWAVTGVSSLTSKLIRSHPTTAPTETNIPQRPTPEGVPAPAPTPVPATPTTSGHWETQEEDKDTAEDSSTADRWDDEDWGSLEQEAESVLAQQDDWSTGGQVSRASQVSNSDHKSSKSPESDWSSWEAEGSWEQGWQEPSSQEPPPDGTRLASEYNWGGPESSDKGDPFATLSARPSTQPRPDSWGEDNWEGLETDSRQVKAELARKKREERRREMEAKRAERKVAKGPMKLGARKLD
+Q96GX5,MASTL,MDPTAGSKKEPGGGAATEEGVNRIAVPKPPSIEEFSIVKPISRGAFGKVYLGQKGGKLYAVKVVKKADMINKNMTHQVQAERDALALSKSPFIVHLYYSLQSANNVYLVMEYLIGGDVKSLLHIYGYFDEEMAVKYISEVALALDYLHRHGIIHRDLKPDNMLISNEGHIKLTDFGLSKVTLNRDINMMDILTTPSMAKPRQDYSRTPGQVLSLISSLGFNTPIAEKNQDPANILSACLSETSQLSQGLVCPMSVDQKDTTPYSSKLLKSCLETVASNPGMPVKCLTSNLLQSRKRLATSSASSQSHTFISSVESECHSSPKWEKDCQESDEALGPTMMSWNAVEKLCAKSANAIETKGFNKKDLELALSPIHNSSALPTTGRSCVNLAKKCFSGEVSWEAVELDVNNINMDTDTSQLGFHQSNQWAVDSGGISEEHLGKRSLKRNFELVDSSPCKKIIQNKKTCVEYKHNEMTNCYTNQNTGLTVEVQDLKLSVHKSQQNDCANKENIVNSFTDKQQTPEKLPIPMIAKNLMCELDEDCEKNSKRDYLSSSFLCSDDDRASKNISMNSDSSFPGISIMESPLESQPLDSDRSIKESSFEESNIEDPLIVTPDCQEKTSPKGVENPAVQESNQKMLGPPLEVLKTLASKRNAVAFRSFNSHINASNNSEPSRMNMTSLDAMDISCAYSGSYPMAITPTQKRRSCMPHQQTPNQIKSGTPYRTPKSVRRGVAPVDDGRILGTPDYLAPELLLGRAHGPAVDWWALGVCLFEFLTGIPPFNDETPQQVFQNILKRDIPWPEGEEKLSDNAQSAVEILLTIDDTKRAGMKELKRHPLFSDVDWENLQHQTMPFIPQPDDETDTSYFEARNTAQHLTVSGFSL
+Q9BXM7,PINK1,MAVRQALGRGLQLGRALLLRFTGKPGRAYGLGRPGPAAGCVRGERPGWAAGPGAEPRRVGLGLPNRLRFFRQSVAGLAARLQRQFVVRAWGCAGPCGRAVFLAFGLGLGLIEEKQAESRRAVSACQEIQAIFTQKSKPGPDPLDTRRLQGFRLEEYLIGQSIGKGCSAAVYEATMPTLPQNLEVTKSTGLLPGRGPGTSAPGEGQERAPGAPAFPLAIKMMWNISAGSSSEAILNTMSQELVPASRVALAGEYGAVTYRKSKRGPKQLAPHPNIIRVLRAFTSSVPLLPGALVDYPDVLPSRLHPEGLGHGRTLFLVMKNYPCTLRQYLCVNTPSPRLAAMMLLQLLEGVDHLVQQGIAHRDLKSDNILVELDPDGCPWLVIADFGCCLADESIGLQLPFSSWYVDRGGNGCLMAPEVSTARPGPRAVIDYSKADAWAVGAIAYEIFGLVNPFYGQGKAHLESRSYQEAQLPALPESVPPDVRQLVRALLQREASKRPSARVAANVLHLSLWGEHILALKNLKLDKMVGWLLQQSAATLLANRLTEKCCVETKMKMLFLANLECETLCQAALLLCSWRAAL
+Q96C45,ULK4,MENFILYEEIGRGSKTVVYKGRRKGTINFVAILCTDKCKRPEITNWVRLTREIKHKNIVTFHEWYETSNHLWLVVELCTGGSLKTVIAQDENLPEDVVREFGIDLISGLHHLHKLGILFCDISPRKILLEGPGTLKFSNFCLAKVEGENLEEFFALVAAEEGGGDNGENVLKKSMKSRVKGSPVYTAPEVVRGADFSISSDLWSLGCLLYEMFSGKPPFFSESISELTEKILCEDPLPPIPKDSSRPKASSDFINLLDGLLQRDPQKRLTWTRLLQHSFWKKAFAGADQESSVEDLSLSRNTMECSGPQDSKELLQNSQSRQAKGHKSGQPLGHSFRLENPTEFRPKSTLEGQLNESMFLLSSRPTPRTSTAVEVSPGEDMTHCSPQKTSPLTKITSGHLSQQDLESQMRELIYTDSDLVVTPIIDNPKIMKQPPVKFDAKILHLPTYSVDKLLFLKDQDWNDFLQQVCSQIDSTEKSMGASRAKLNLLCYLCVVAGHQEVATRLLHSPLFQLLIQHLRIAPNWDIRAKVAHVIGLLASHTAELQENTPVVEAIVLLTELIRENFRNSKLKQCLLPTLGELIYLVATQEEKKKNPRECWAVPLAAYTVLMRCLREGEERVVNHMAAKIIENVCTTFSAQSQGFITGEIGPILWYLFRHSTADSLRITAVSALCRITRHSPTAFQNVIEKVGLNSVINSLASAICKVQQYMLTLFAAMLSCGIHLQRLIQEKGFVSTIIRLLDSPSTCIRAKAFLVLLYILIYNREMLLLSCQARLVMYIERDSRKTTPGKEQQSGNEYLSKCLDLLICHIVQELPRILGDILNSLANVSGRKHPSTVQVKQLKLCLPLMPVVLHLVTSQVFRPQVVTEEFLFSYGTILSHIKSVDSGETNIDGAIGLTASEEFIKITLSAFEAIIQYPILLKDYRSTVVDYILPPLVSLVQSQNVEWRLFSLRLLSETTSLLVNQEFGDGKEKASVDSDSNLLALIRDVLLPQYEHILLEPDPVPAYALKLLVAMTEHNPTFTRLVEESKLIPLIFEVTLEHQESILGNTMQSVIALLSNLVACKDSNMELLYEQGLVSHICNLLTETATLCLDVDNKNNNEMAAPLLFSLLDILHSMLTYTSGIVRLALQAQKSGSGEDPQAAEDLLLLNRPLTDLISLLIPLLPNEDPEIFDVSSKCLSILVQLYGGENPDSLSPENVEIFAHLLTSKEDPKEQKLLLRILRRMITSNEKHLESLKNAGSLLRALERLAPGSGSFADSAVAPLALEILQAVGH
+Q8NB16,MLKL,MENLKHIITLGQVIHKRCEEMKYCKKQCRRLGHRVLGLIKPLEMLQDQGKRSVPSEKLTTAMNRFKAALEEANGEIEKFSNRSNICRFLTASQDKILFKDVNRKLSDVWKELSLLLQVEQRMPVSPISQGASWAQEDQQDADEDRRAFQMLRRDNEKIEASLRRLEINMKEIKETLRQYLPPKCMQEIPQEQIKEIKKEQLSGSPWILLRENEVSTLYKGEYHRAPVAIKVFKKLQAGSIAIVRQTFNKEIKTMKKFESPNILRIFGICIDETVTPPQFSIVMEYCELGTLRELLDREKDLTLGKRMVLVLGAARGLYRLHHSEAPELHGKIRSSNFLVTQGYQVKLAGFELRKTQTSMSLGTTREKTDRVKSTAYLSPQELEDVFYQYDVKSEIYSFGIVLWEIATGDIPFQGCNSEKIRKLVAVKRQQEPLGEDCPSELREIIDECRAHDPSVRPSVDEILKKLSTFSK
+Q9C098,DCLK3,MGKEPLTLKSIQVAVEELYPNKARALTLAQHSRAPSPRLRSRLFSKALKGDHRCGETETPKSCSEVAGCKAAMRHQGKIPEELSLDDRARTQKKWGRGKWEPEPSSKPPREATLEERHARGEKHLGVEIEKTSGEIIRCEKCKRERELQQSLERERLSLGTSELDMGKGPMYDVEKLVRTRSCRRSPEANPASGEEGWKGDSHRSSPRNPTQELRRPSKSMDKKEDRGPEDQESHAQGAAKAKKDLVEVLPVTEEGLREVKKDTRPMSRSKHGGWLLREHQAGFEKLRRTRGEEKEAEKEKKPCMSGGRRMTLRDDQPAKLEKEPKTRPEENKPERPSGRKPRPMGIIAANVEKHYETGRVIGDGNFAVVKECRHRETRQAYAMKIIDKSRLKGKEDMVDSEILIIQSLSHPNIVKLHEVYETDMEIYLILEYVQGGDLFDAIIESVKFPEPDAALMIMDLCKALVHMHDKSIVHRDLKPENLLVQRNEDKSTTLKLADFGLAKHVVRPIFTVCGTPTYVAPEILSEKGYGLEVDMWAAGVILYILLCGFPPFRSPERDQDELFNIIQLGHFEFLPPYWDNISDAAKDLVSRLLVVDPKKRYTAHQVLQHPWIETAGKTNTVKRQKQVSPSSEGHFRSQHKRVVEQVS
+Q504Y2,PKDCC,MRRRRAAVAAGFCASFLLGSVLNVLFAPGSEPPRPGQSPEPSPAPGPGRRGGRGELARQIRARYEEVQRYSRGGPGPGAGRPERRRLMDLAPGGPGLPRPRPPWARPLSDGAPGWPPAPGPGSPGPGPRLGCAALRNVSGAQYMGSGYTKAVYRVRLPGGAAVALKAVDFSGHDLGSCVREFGVRRGCYRLAAHKLLKEMVLLERLRHPNVLQLYGYCYQDSEDIPDTLTTITELGAPVEMIQLLQTSWEDRFRICLSLGRLLHHLAHSPLGSVTLLDFRPRQFVLVDGELKVTDLDDARVEETPCAGSTDCILEFPARNFTLPCSAQGWCEGMNEKRNLYNAYRFFFTYLLPHSAPPSLRPLLDSIVNATGELAWGVDETLAQLEKVLHLYRSGQYLQNSTASSSTEYQCIPDSTIPQEDYRCWPSYHHGSCLLSVFNLAEAVDVCESHAQCRAFVVTNQTTWTGRQLVFFKTGWSQVVPDPNKTTYVKASG
+Q96Q40,CDK15,MGQELCAKTVQPGCSCYHCSEGGEAHSCRRSQPETTEAAFKLTDLKEASCSMTSFHPRGLQAARAQKFKSKRPRSNSDCFQEEDLRQGFQWRKSLPFGAASSYLNLEKLGEGSYATVYKGISRINGQLVALKVISMNAEEGVPFTAIREASLLKGLKHANIVLLHDIIHTKETLTFVFEYMHTDLAQYMSQHPGGLHPHNVRLFMFQLLRGLAYIHHQHVLHRDLKPQNLLISHLGELKLADFGLARAKSIPSQTYSSEVVTLWYRPPDALLGATEYSSELDIWGAGCIFIEMFQGQPLFPGVSNILEQLEKIWEVLGVPTEDTWPGVSKLPNYNPEWFPLPTPRSLHVVWNRLGRVPEAEDLASQMLKGFPRDRVSAQEALVHDYFSALPSQLYQLPDEESLFTVSGVRLKPEMCDLLASYQKGHHPAQFSKCW
+Q9BYT3,STK33,MADSGLDKKSTKCPDCSSASQKDVLCVCSSKTRVPPVLVVEMSQTSSIGSAESLISLERKKEKNINRDITSRKDLPSRTSNVERKASQQQWGRGNFTEGKVPHIRIENGAAIEEIYTFGRILGKGSFGIVIEATDKETETKWAIKKVNKEKAGSSAVKLLEREVNILKSVKHEHIIHLEQVFETPKKMYLVMELCEDGELKEILDRKGHFSENETRWIIQSLASAIAYLHNNDIVHRDLKLENIMVKSSLIDDNNEINLNIKVTDFGLAVKKQSRSEAMLQATCGTPIYMAPEVISAHDYSQQCDIWSIGVVMYMLLRGEPPFLASSEEKLFELIRKGELHFENAVWNSISDCAKSVLKQLMKVDPAHRITAKELLDNQWLTGNKLSSVRPTNVLEMMKEWKNNPESVEENTTEEKNKPSTEEKLKSYQPWGNVPDANYTSDEEEEKQSTAYEKQFPATSKDNFDMCSSSFTSSKLLPAEIKGEMEKTPVTPSQGTATKYPAKSGALSRTKKKL
+Q96S44,TP53RK,MAAARATTPADGEEPAPEAEALAAARERSSRFLSGLELVKQGAEARVFRGRFQGRAAVIKHRFPKGYRHPALEARLGRRRTVQEARALLRCRRAGISAPVVFFVDYASNCLYMEEIEGSVTVRDYIQSTMETEKTPQGLSNLAKTIGQVLARMHDEDLIHGDLTTSNMLLKPPLEQLNIVLIDFGLSFISALPEDKGVDLYVLEKAFLSTHPNTETVFEAFLKSYSTSSKKARPVLKKLDEVRLRGRKRSMVG
+Q8TD08,MAPK15,MCTVVDPRIVRRYLLRRQLGQGAYGIVWKAVDRRTGEVVAIKKIFDAFRDKTDAQRTFREITLLQEFGDHPNIISLLDVIRAENDRDIYLVFEFMDTDLNAVIRKGGLLQDVHVRSIFYQLLRATRFLHSGHVVHRDQKPSNVLLDANCTVKLCDFGLARSLGDLPEGPEDQAVTEYVATRWYRAPEVLLSSHRYTLGVDMWSLGCILGEMLRGRPLFPGTSTLHQLELILETIPPPSEEDLLALGSGCRASVLHQLGSRPRQTLDALLPPDTSPEALDLLRRLLVFAPDKRLSATQALQHPYVQRFHCPSDEWAREADVRPRAHEGVQLSVPEYRSRVYQMILECGGSSGTSREKGPEGVSPSQAHLHKPRADPQLPSRTPVQGPRPRPQSSPGHDPAEHESPRAAKNVPRQNSAPLLQTALLGNGERPPGAKEAPPLTLSLVKPSGRGAAPSLTSQAAAQVANQALIRGDWNRGGGVRVASVQQVPPRLPPEARPGRRMFSTSALQGAQGGARALLGGYSQAYGTVCHSALGHLPLLEGHHV
+Q5MAI5,CDKL4,MEKYEKLAKTGEGSYGVVFKCRNKTSGQVVAVKKFVESEDDPVVKKIALREIRMLKQLKHPNLVNLIEVFRRKRKMHLVFEYCDHTLLNELERNPNGVADGVIKSVLWQTLQALNFCHIHNCIHRDIKPENILITKQGIIKICDFGFAQILIPGDAYTDYVATRWYRAPELLVGDTQYGSSVDIWAIGCVFAELLTGQPLWPGKSDVDQLYLIIRTLGKLIPRHQSIFKSNGFFHGISIPEPEDMETLEEKFSDVHPVALNFMKGCLKMNPDDRLTCSQLLESSYFDSFQEAQIKRKARNEGRNRRRQQQAPKSAFPRLFLKTKICQVQRNETQTSGNQILPNGPILQNSMVTVMTNINSAVYQVTVLHLLSENFEVKS
+Q8IZE3,SCYL3,MGSENSALKSYTLREPPFTLPSGLAVYPAVLQDGKFASVFVYKRENEDKVNKAAKHLKTLRHPCLLRFLSCTVEADGIHLVTERVQPLEVALETLSSAEVCAGIYDILLALIFLHDRGHLTHNNVCLSSVFVSEDGHWKLGGMETVCKVSQATPEFLRSIQSIRDPASIPPEEMSPEFTTLPECHGHARDAFSFGTLVESLLTILNEQVSADVLSSFQQTLHSTLLNPIPKCRPALCTLLSHDFFRNDFLEVVNFLKSLTLKSEEEKTEFFKFLLDRVSCLSEELIASRLVPLLLNQLVFAEPVAVKSFLPYLLGPKKDHAQGETPCLLSPALFQSRVIPVLLQLFEVHEEHVRMVLLSHIEAYVEHFTQEQLKKVILPQVLLGLRDTSDSIVAITLHSLAVLVSLLGPEVVVGGERTKIFKRTAPSFTKNTDLSLEDSPMCVVCSHHSQISPILENPFSSIFPKCFFSGSTPINSKKHIQRDYYNTLLQTGDPFSQPIKFPINGLSDVKNTSEDSENFPSSSKKSEEWPDWSEPEEPENQTVNIQIWPREPCDDVKSQCTTLDVEESSWDDCEPSSLDTKVNPGGGITATKPVTSGEQKPIPALLSLTEESMPWKSSLPQKISLVQRGDDADQIEPPKVSSQERPLKVPSELGLGEEFTIQVKKKPVKDPEMDWFADMIPEIKPSAAFLILPELRTEMVPKKDDVSPVMQFSSKFAAAEITEGEAEGWEEEGELNWEDNNW
+Q86UX6,STK32C,MRSGAERRGSSAAASPGSPPPGRARPAGSDAPSALPPPAAGQPRARDSGDVRSQPRPLFQWSKWKKRMGSSMSAATARRPVFDDKEDVNFDHFQILRAIGKGSFGKVCIVQKRDTEKMYAMKYMNKQQCIERDEVRNVFRELEILQEIEHVFLVNLWYSFQDEEDMFMVVDLLLGGDLRYHLQQNVQFSEDTVRLYICEMALALDYLRGQHIIHRDVKPDNILLDERGHAHLTDFNIATIIKDGERATALAGTKPYMAPEIFHSFVNGGTGYSFEVDWWSVGVMAYELLRGWRPYDIHSSNAVESLVQLFSTVSVQYVPTWSKEMVALLRKLLTVNPEHRLSSLQDVQAAPALAGVLWDHLSEKRVEPGFVPNKGRLHCDPTFELEEMILESRPLHKKKKRLAKNKSRDNSRDSSQSENDYLQDCLDAIQQDFVIFNREKLKRSQDLPREPLPAPESRDAAEPVEDEAERSALPMCGPICPSAGSG
+Q8TD19,NEK9,MSVLGEYERHCDSINSDFGSESGGCGDSSPGPSASQGPRAGGGAAEQEELHYIPIRVLGRGAFGEATLYRRTEDDSLVVWKEVDLTRLSEKERRDALNEIVILALLQHDNIIAYYNHFMDNTTLLIELEYCNGGNLYDKILRQKDKLFEEEMVVWYLFQIVSAVSCIHKAGILHRDIKTLNIFLTKANLIKLGDYGLAKKLNSEYSMAETLVGTPYYMSPELCQGVKYNFKSDIWAVGCVIFELLTLKRTFDATNPLNLCVKIVQGIRAMEVDSSQYSLELIQMVHSCLDQDPEQRPTADELLDRPLLRKRRREMEEKVTLLNAPTKRPRSSTVTEAPIAVVTSRTSEVYVWGGGKSTPQKLDVIKSGCSARQVCAGNTHFAVVTVEKELYTWVNMQGGTKLHGQLGHGDKASYRQPKHVEKLQGKAIRQVSCGDDFTVCVTDEGQLYAFGSDYYGCMGVDKVAGPEVLEPMQLNFFLSNPVEQVSCGDNHVVVLTRNKEVYSWGCGEYGRLGLDSEEDYYTPQKVDVPKALIIVAVQCGCDGTFLLTQSGKVLACGLNEFNKLGLNQCMSGIINHEAYHEVPYTTSFTLAKQLSFYKIRTIAPGKTHTAAIDERGRLLTFGCNKCGQLGVGNYKKRLGINLLGGPLGGKQVIRVSCGDEFTIAATDDNHIFAWGNGGNGRLAMTPTERPHGSDICTSWPRPIFGSLHHVPDLSCRGWHTILIVEKVLNSKTIRSNSSGLSIGTVFQSSSPGGGGGGGGGEEEDSQQESETPDPSGGFRGTMEADRGMEGLISPTEAMGNSNGASSSCPGWLRKELENAEFIPMPDSPSPLSAAFSESEKDTLPYEELQGLKVASEAPLEHKPQVEASSPRLNPAVTCAGKGTPLTPPACACSSLQVEVERLQGLVLKCLAEQQKLQQENLQIFTQLQKLNKKLEGGQQVGMHSKGTQTAKEEMEMDPKPDLDSDSWCLLGTDSCRPSL
+Q96PN8,TSSK3,MEDFLLSNGYQLGKTIGEGTYSKVKEAFSKKHQRKVAIKVIDKMGGPEEFIQRFLPRELQIVRTLDHKNIIQVYEMLESADGKICLVMELAEGGDVFDCVLNGGPLPESRAKALFRQMVEAIRYCHGCGVAHRDLKCENALLQGFNLKLTDFGFAKVLPKSHRELSQTFCGSTAYAAPEVLQGIPHDSKKGDVWSMGVVLYVMLCASLPFDDTDIPKMLWQQQKGVSFPTHLSISADCQDLLKRLLEPDMILRPSIEEVSWHPWLAST
+Q9H093,NUAK2,MESLVFARRSGPTPSAAELARPLAEGLIKSPKPLMKKQAVKRHHHKHNLRHRYEFLETLGKGTYGKVKKARESSGRLVAIKSIRKDKIKDEQDLMHIRREIEIMSSLNHPHIIAIHEVFENSSKIVIVMEYASRGDLYDYISERQQLSEREARHFFRQIVSAVHYCHQNRVVHRDLKLENILLDANGNIKIADFGLSNLYHQGKFLQTFCGSPLYASPEIVNGKPYTGPEVDSWSLGVLLYILVHGTMPFDGHDHKILVKQISNGAYREPPKPSDACGLIRWLLMVNPTRRATLEDVASHWWVNWGYATRVGEQEAPHEGGHPGSDSARASMADWLRRSSRPLLENGAKVCSFFKQHAPGGGSTTPGLERQHSLKKSRKENDMAQSLHSDTADDTAHRPGKSNLKLPKGILKKKVSASAEGVQEDPPELSPIPASPGQAAPLLPKKGILKKPRQRESGYYSSPEPSESGELLDAGDVFVSGDPKEQKPPQASGLLLHRKGILKLNGKFSQTALELAAPTTFGSLDELAPPRPLARASRPSGAVSEDSILSSESFDQLDLPERLPEPPLRGCVSVDNLTGLEEPPSEGPGSCLRRWRQDPLGDSCFSLTDCQEVTATYRQALRVCSKLT
+Q9Y6S9,RPS6KL1,MSLVACECLPSPGLEPEPCSRARSQAHVYLEQIRNRVALGVPDMTKRDYLVDAATQIRLALERDVSEDYEAAFNHYQNGVDVLLRGIHVDPNKERREAVKLKITKYLRRAEEIFNCHLQRPLSSGASPSAGFSSLRLRPIRTLSSAVEQLRGCRVVGVIEKVQLVQDPATGGTFVVKSLPRCHMVSRERLTIIPHGVPYMTKLLRYFVSEDSIFLHLEHVQGGTLWSHLLSQAHSRHSGLSSGSTQERMKAQLNPHLNLLTPARLPSGHAPGQDRIALEPPRTSPNLLLAGEAPSTRPQREAEGEPTARTSTSGSSDLPKAPGGHLHLQARRAGQNSDAGPPRGLTWVPEGAGPVLGGCGRGMDQSCLSADGAGRGCGRATWSVREEQVKQWAAEMLVALEALHEQGVLCRDLHPGNLLLDQAGHIRLTYFGQWSEVEPQCCGEAVDNLYSAPEVGGISELTEACDWWSFGSLLYELLTGMALSQSHPSGIQAHTQLQLPEWLSRPAASLLTELLQFEPTRRLGMGEGGVSKLKSHPFFSTIQWSKLVG
+Q96PF2,TSSK2,MDDATVLRKKGYIVGINLGKGSYAKVKSAYSERLKFNVAVKIIDRKKTPTDFVERFLPREMDILATVNHGSIIKTYEIFETSDGRIYIIMELGVQGDLLEFIKCQGALHEDVARKMFRQLSSAVKYCHDLDIVHRDLKCENLLLDKDFNIKLSDFGFSKRCLRDSNGRIILSKTFCGSAAYAAPEVLQSIPYQPKVYDIWSLGVILYIMVCGSMPYDDSDIRKMLRIQKEHRVDFPRSKNLTCECKDLIYRMLQPDVSQRLHIDEILSHSWLQPPKPKATSSASFKREGEGKYRAECKLDTKTGLRPDHRPDHKLGAKTQHRLLVVPENENRMEDRLAETSRAKDHHISGAEVGKAST
+Q6P3W7,SCYL2,MESMLNKLKSTVTKVTADVTSAVMGNPVTREFDVGRHIASGGNGLAWKIFNGTKKSTKQEVAVFVFDKKLIDKYQKFEKDQIIDSLKRGVQQLTRLRHPRLLTVQHPLEESRDCLAFCTEPVFASLANVLGNWENLPSPISPDIKDYKLYDVETKYGLLQVSEGLSFLHSSVKMVHGNITPENIILNKSGAWKIMGFDFCVSSTNPSEQEPKFPCKEWDPNLPSLCLPNPEYLAPEYILSVSCETASDMYSLGTVMYAVFNKGKPIFEVNKQDIYKSFSRQLDQLSRLGSSSLTNIPEEVREHVKLLLNVTPTVRPDADQMTKIPFFDDVGAVTLQYFDTLFQRDNLQKSQFFKGLPKVLPKLPKRVIVQRILPCLTSEFVNPDMVPFVLPNVLLIAEECTKEEYVKLILPELGPVFKQQEPIQILLIFLQKMDLLLTKTPPDEIKNSVLPMVYRALEAPSIQIQELCLNIIPTFANLIDYPSMKNALIPRIKNACLQTSSLAVRVNSLVCLGKILEYLDKWFVLDDILPFLQQIPSKEPAVLMGILGIYKCTFTHKKLGITKEQLAGKVLPHLIPLSIENNLNLNQFNSFISVIKEMLNRLESEHKTKLEQLHIMQEQQKSLDIGNQMNVSEEMKVTNIGNQQIDKVFNNIGADLLTGSESENKEDGLQNKHKRASLTLEEKQKLAKEQEQAQKLKSQQPLKPQVHTPVATVKQTKDLTDTLMDNMSSLTSLSVSTPKSSASSTFTSVPSMGIGMMFSTPTDNTKRNLTNGLNANMGFQTSGFNMPVNTNQNFYSSPSTVGVTKMTLGTPPTLPNFNALSVPPAGAKQTQQRPTDMSALNNLFGPQKPKVSMNQLSQQKPNQWLNQFVPPQGSPTMGSSVMGTQMNVIGQSAFGMQGNPFFNPQNFAQPPTTMTNSSSASNDLKDLFG
+Q86SG6,NEK8,MEKYERIRVVGRGAFGIVHLCLRKADQKLVIIKQIPVEQMTKEERQAAQNECQVLKLLNHPNVIEYYENFLEDKALMIAMEYAPGGTLAEFIQKRCNSLLEEETILHFFVQILLALHHVHTHLILHRDLKTQNILLDKHRMVVKIGDFGISKILSSKSKAYTVVGTPCYISPELCEGKPYNQKSDIWALGCVLYELASLKRAFEAANLPALVLKIMSGTFAPISDRYSPELRQLVLSLLSLEPAQRPPLSHIMAQPLCIRALLNLHTDVGSVRMRRAEKSVAPSNTGSRTTSVRCRGIPRGPVRPAIPPPLSSVYAWGGGLGTPLRLPMLNTEVVQVAAGRTQKAGVTRSGRLILWEAPPLGAGGGSLLPGAVEQPQPQFISRFLEGQSGVTIKHVACGDFFTACLTDRGIIMTFGSGSNGCLGHGSLTDISQPTIVEALLGYEMVQVACGASHVLALSTERELFAWGRGDSGRLGLGTRESHSCPQQVPMPPGQEAQRVVCGIDSSMILTVPGQALACGSNRFNKLGLDHLSLGEEPVPHQQVEEALSFTLLGSAPLDQEPLLSIDLGTAHSAAVTASGDCYTFGSNQHGQLGTNTRRGSRAPCKVQGLEGIKMAMVACGDAFTVAIGAESEVYSWGKGARGRLGRRDEDAGLPRPVQLDETHPYTVTSVSCCHGNTLLAVRSVTDEPVPP
+P35626,ADRBK2,MADLEAVLADVSYLMAMEKSKATPAARASKRIVLPEPSIRSVMQKYLAERNEITFDKIFNQKIGFLLFKDFCLNEINEAVPQVKFYEEIKEYEKLDNEEDRLCRSRQIYDAYIMKELLSCSHPFSKQAVEHVQSHLSKKQVTSTLFQPYIEEICESLRGDIFQKFMESDKFTRFCQWKNVELNIHLTMNEFSVHRIIGRGGFGEVYGCRKADTGKMYAMKCLDKKRIKMKQGETLALNERIMLSLVSTGDCPFIVCMTYAFHTPDKLCFILDLMNGGDLHYHLSQHGVFSEKEMRFYATEIILGLEHMHNRFVVYRDLKPANILLDEHGHARISDLGLACDFSKKKPHASVGTHGYMAPEVLQKGTAYDSSADWFSLGCMLFKLLRGHSPFRQHKTKDKHEIDRMTLTVNVELPDTFSPELKSLLEGLLQRDVSKRLGCHGGGSQEVKEHSFFKGVDWQHVYLQKYPPPLIPPRGEVNAADAFDIGSFDEEDTKGIKLLDCDQELYKNFPLVISERWQQEVTETVYEAVNADTDKIEARKRAKNKQLGHEEDYALGKDCIMHGYMLKLGNPFLTQWQRRYFYLFPNRLEWRGEGESRQNLLTMEQILSVEETQIKDKKCILFRIKGGKQFVLQCESDPEFVQWKKELNETFKEAQRLLRRAPKFLNKPRSGTVELPKPSLCHRNSNGL
+Q9UHY1,NRBP1,MSEGESQTVLSSGSDPKVESSSSAPGLTSVSPPVTSTTSAASPEEEEESEDESEILEESPCGRWQKRREEVNQRNVPGIDSAYLAMDTEEGVEVVWNEVQFSERKNYKLQEEKVRAVFDNLIQLEHLNIVKFHKYWADIKENKARVIFITEYMSSGSLKQFLKKTKKNHKTMNEKAWKRWCTQILSALSYLHSCDPPIIHGNLTCDTIFIQHNGLIKIGSVAPDTINNHVKTCREEQKNLHFFAPEYGEVTNVTTAVDIYSFGMCALEMAVLEIQGNGESSYVPQEAISSAIQLLEDPLQREFIQKCLQSEPARRPTARELLFHPALFEVPSLKLLAAHCIVGHQHMIPENALEEITKNMDTSAVLAEIPAGPGREPVQTLYSQSPALELDKFLEDVRNGIYPLTAFGLPRPQQPQQEEVTSPVVPPSVKTPTPEPAEVETRKVVLMQCNIESVEEGVKHHLTLLLKLEDKLNRHLSCDLMPNENIPELAAELVQLGFISEADQSRLTSLLEETLNKFNFARNSTLNSAAVTVSS
+Q9BZL6,PRKD2,MATAPSYPAGLPGSPGPGSPPPPGGLELQSPPPLLPQIPAPGSGVSFHIQIGLTREFVLLPAASELAHVKQLACSIVDQKFPECGFYGLYDKILLFKHDPTSANLLQLVRSSGDIQEGDLVEVVLSASATFEDFQIRPHALTVHSYRAPAFCDHCGEMLFGLVRQGLKCDGCGLNYHKRCAFSIPNNCSGARKRRLSSTSLASGHSVRLGTSESLPCTAEELSRSTTELLPRRPPSSSSSSSASSYTGRPIELDKMLLSKVKVPHTFLIHSYTRPTVCQACKKLLKGLFRQGLQCKDCKFNCHKRCATRVPNDCLGEALINGDVPMEEATDFSEADKSALMDESEDSGVIPGSHSENALHASEEEEGEGGKAQSSLGYIPLMRVVQSVRHTTRKSSTTLREGWVVHYSNKDTLRKRHYWRLDCKCITLFQNNTTNRYYKEIPLSEILTVESAQNFSLVPPGTNPHCFEIVTANATYFVGEMPGGTPGGPSGQGAEAARGWETAIRQALMPVILQDAPSAPGHAPHRQASLSISVSNSQIQENVDIATVYQIFPDEVLGSGQFGVVYGGKHRKTGRDVAVKVIDKLRFPTKQESQLRNEVAILQSLRHPGIVNLECMFETPEKVFVVMEKLHGDMLEMILSSEKGRLPERLTKFLITQILVALRHLHFKNIVHCDLKPENVLLASADPFPQVKLCDFGFARIIGEKSFRRSVVGTPAYLAPEVLLNQGYNRSLDMWSVGVIMYVSLSGTFPFNEDEDINDQIQNAAFMYPASPWSHISAGAIDLINNLLQVKMRKRYSVDKSLSHPWLQEYQTWLDLRELEGKMGERYITHESDDARWEQFAAEHPLPGSGLPTDRDLGGACPPQDHDMQGLAERISVL
+Q9NY57,STK32B,MGGNHSHKPPVFDENEEVNFDHFQILRAIGKGSFGKVCIVQKRDTKKMYAMKYMNKQKCIERDEVRNVFRELQIMQGLEHPFLVNLWYSFQDEEDMFMVVDLLLGGDLRYHLQQNVHFTEGTVKLYICELALALEYLQRYHIIHRDIKPDNILLDEHGHVHITDFNIATVVKGAERASSMAGTKPYMAPEVFQVYMDRGPGYSYPVDWWSLGITAYELLRGWRPYEIHSVTPIDEILNMFKVERVHYSSTWCKGMVALLRKLLTKDPESRVSSLHDIQSVPYLADMNWDAVFKKALMPGFVPNKGRLNCDPTFELEEMILESKPLHKKKKRLAKNRSRDGTKDSCPLNGHLQHCLETVREEFIIFNREKLRRQQGQGSQLLDTDSRGGGQAQSKLQDGCNNNLLTHTCTRGCSS
+Q96RR4,CAMKK2,MSSCVSSQPSSNRAAPQDELGGRGSSSSESQKPCEALRGLSSLSIHLGMESFIVVTECEPGCAVDLGLARDRPLEADGQEVPLDTSGSQARPHLSGRKLSLQERSQGGLAAGGSLDMNGRCICPSLPYSPVSSPQSSPRLPRRPTVESHHVSITGMQDCVQLNQYTLKDEIGKGSYGVVKLAYNENDNTYYAMKVLSKKKLIRQAGFPRRPPPRGTRPAPGGCIQPRGPIEQVYQEIAILKKLDHPNVVKLVEVLDDPNEDHLYMVFELVNQGPVMEVPTLKPLSEDQARFYFQDLIKGIEYLHYQKIIHRDIKPSNLLVGEDGHIKIADFGVSNEFKGSDALLSNTVGTPAFMAPESLSETRKIFSGKALDVWAMGVTLYCFVFGQCPFMDERIMCLHSKIKSQALEFPDQPDIAEDLKDLITRMLDKNPESRIVVPEIKLHPWVTRHGAEPLPSEDENCTLVEVTEEEVENSVKHIPSLATVILVKTMIRKRSFGNPFEGSRREERSLSAPGNLLTKKPTRECESLSELKEARQRRQPPGHRPAPRGGGGSALVRGSPCVESCWAPAPGSPARMHPLRPEEAMEPE
+Q8IZL9,CDK20,MDQYCILGRIGEGAHGIVFKAKHVETGEIVALKKVALRRLEDGFPNQALREIKALQEMEDNQYVVQLKAVFPHGGGFVLAFEFMLSDLAEVVRHAQRPLAQAQVKSYLQMLLKGVAFCHANNIVHRDLKPANLLISASGQLKIADFGLARVFSPDGSRLYTHQVATRWYRAPELLYGARQYDQGVDLWSVGCIMGELLNGSPLFPGKNDIEQLCYVLRILGTPNPQVWPELTELPDYNKISFKEQVPMPLEEVLPDVSPQALDLLGQFLLYPPHQRIAASKALLHQYFFTAPLPAHPSELPIPQRLGGPAPKAHPGPPHIHDFHVDRPLEESLLNPELIRPFILEG
+Q9HAZ1,CLK4,MRHSKRTHCPDWDSRESWGHESYRGSHKRKRRSHSSTQENRHCKPHHQFKESDCHYLEARSLNERDYRDRRYVDEYRNDYCEGYVPRHYHRDIESGYRIHCSKSSVRSRRSSPKRKRNRHCSSHQSRSKSHRRKRSRSIEDDEEGHLICQSGDVLRARYEIVDTLGEGAFGKVVECIDHGMDGMHVAVKIVKNVGRYREAARSEIQVLEHLNSTDPNSVFRCVQMLEWFDHHGHVCIVFELLGLSTYDFIKENSFLPFQIDHIRQMAYQICQSINFLHHNKLTHTDLKPENILFVKSDYVVKYNSKMKRDERTLKNTDIKVVDFGSATYDDEHHSTLVSTRHYRAPEVILALGWSQPCDVWSIGCILIEYYLGFTVFQTHDSKEHLAMMERILGPIPQHMIQKTRKRKYFHHNQLDWDEHSSAGRYVRRRCKPLKEFMLCHDEEHEKLFDLVRRMLEYDPTQRITLDEALQHPFFDLLKKK
+Q9NYV4,CDK12,MPNSERHGGKKDGSGGASGTLQPSSGGGSSNSRERHRLVSKHKRHKSKHSKDMGLVTPEAASLGTVIKPLVEYDDISSDSDTFSDDMAFKLDRRENDERRGSDRSDRLHKHRHHQHRRSRDLLKAKQTEKEKSQEVSSKSGSMKDRISGSSKRSNEETDDYGKAQVAKSSSKESRSSKLHKEKTRKERELKSGHKDRSKSHRKRETPKSYKTVDSPKRRSRSPHRKWSDSSKQDDSPSGASYGQDYDLSPSRSHTSSNYDSYKKSPGSTSRRQSVSPPYKEPSAYQSSTRSPSPYSRRQRSVSPYSRRRSSSYERSGSYSGRSPSPYGRRRSSSPFLSKRSLSRSPLPSRKSMKSRSRSPAYSRHSSSHSKKKRSSSRSRHSSISPVRLPLNSSLGAELSRKKKERAAAAAAAKMDGKESKGSPVFLPRKENSSVEAKDSGLESKKLPRSVKLEKSAPDTELVNVTHLNTEVKNSSDTGKVKLDENSEKHLVKDLKAQGTRDSKPIALKEEIVTPKETETSEKETPPPLPTIASPPPPLPTTTPPPQTPPLPPLPPIPALPQQPPLPPSQPAFSQVPASSTSTLPPSTHSKTSAVSSQANSQPPVQVSVKTQVSVTAAIPHLKTSTLPPLPLPPLLPGDDDMDSPKETLPSKPVKKEKEQRTRHLLTDLPLPPELPGGDLSPPDSPEPKAITPPQQPYKKRPKICCPRYGERRQTESDWGKRCVDKFDIIGIIGEGTYGQVYKAKDKDTGELVALKKVRLDNEKEGFPITAIREIKILRQLIHRSVVNMKEIVTDKQDALDFKKDKGAFYLVFEYMDHDLMGLLESGLVHFSEDHIKSFMKQLMEGLEYCHKKNFLHRDIKCSNILLNNSGQIKLADFGLARLYNSEESRPYTNKVITLWYRPPELLLGEERYTPAIDVWSCGCILGELFTKKPIFQANLELAQLELISRLCGSPCPAVWPDVIKLPYFNTMKPKKQYRRRLREEFSFIPSAALDLLDHMLTLDPSKRCTAEQTLQSDFLKDVELSKMAPPDLPHWQDCHELWSKKRRRQRQSGVVVEEPPPSKTSRKETTSGTSTEPVKNSSPAPPQPAPGKVESGAGDAIGLADITQQLNQSELAVLLNLLQSQTDLSIPQMAQLLNIHSNPEMQQQLEALNQSISALTEATSQQQDSETMAPEESLKEAPSAPVILPSAEQTTLEASSTPADMQNILAVLLSQLMKTQEPAGSLEENNSDKNSGPQGPRRTPTMPQEEAAACPPHILPPEKRPPEPPGPPPPPPPPPLVEGDLSSAPQELNPAVTAALLQLLSQPEAEPPGHLPHEHQALRPMEYSTRPRPNRTYGNTDGPETGFSAIDTDERNSGPALTESLVQTLVKNRTFSGSLSHLGESSSYQGTGSVQFPGDQDLRFARVPLALHPVVGQPFLKAEGSSNSVVHAETKLQNYGELGPGTTGASSSGAGLHWGGPTQSSAYGKLYRGPTRVPPRGGRGRGVPY
+Q9UEE5,STK17A,MIPLEKPGSGGSSPGATSGSGRAGRGLSGPCRPPPPPQARGLLTEIRAVVRTEPFQDGYSLCPGRELGRGKFAVVRKCIKKDSGKEFAAKFMRKRRKGQDCRMEIIHEIAVLELAQDNPWVINLHEVYETASEMILVLEYAAGGEIFDQCVADREEAFKEKDVQRLMRQILEGVHFLHTRDVVHLDLKPQNILLTSESPLGDIKIVDFGLSRILKNSEELREIMGTPEYVAPEILSYDPISMATDMWSIGVLTYVMLTGISPFLGNDKQETFLNISQMNLSYSEEEFDVLSESAVDFIRTLLVKKPEDRATAEECLKHPWLTQSSIQEPSFRMEKALEEANALQEGHSVPEINSDTDKSETKESIVTEELIVVTSYTLGQCRQSEKEKMEQKAISKRFKFEEPLLQEIPGEFIY
+O94768,STK17B,MSRRRFDCRSISGLLTTTPQIPIKMENFNNFYILTSKELGRGKFAVVRQCISKSTGQEYAAKFLKKRRRGQDCRAEILHEIAVLELAKSCPRVINLHEVYENTSEIILILEYAAGGEIFSLCLPELAEMVSENDVIRLIKQILEGVYYLHQNNIVHLDLKPQNILLSSIYPLGDIKIVDFGMSRKIGHACELREIMGTPEYLAPEILNYDPITTATDMWNIGIIAYMLLTHTSPFVGEDNQETYLNISQVNVDYSEETFSSVSQLATDFIQSLLVKNPEKRPTAEICLSHSWLQQWDFENLFHPEETSSSSQTQDHSVRSSEDKTSKSSCNGTCGDREDKENIPEDSSMVSKRFRFDDSLPNPHELVSDLLC
+O43781,DYRK3,MGGTARGPGRKDAGPPGAGLPPQQRRLGDGVYDTFMMIDETKCPPCSNVLCNPSEPPPPRRLNMTTEQFTGDHTQHFLDGGEMKVEQLFQEFGNRKSNTIQSDGISDSEKCSPTVSQGKSSDCLNTVKSNSSSKAPKVVPLTPEQALKQYKHHLTAYEKLEIINYPEIYFVGPNAKKRHGVIGGPNNGGYDDADGAYIHVPRDHLAYRYEVLKIIGKGSFGQVARVYDHKLRQYVALKMVRNEKRFHRQAAEEIRILEHLKKQDKTGSMNVIHMLESFTFRNHVCMAFELLSIDLYELIKKNKFQGFSVQLVRKFAQSILQSLDALHKNKIIHCDLKPENILLKHHGRSSTKVIDFGSSCFEYQKLYTYIQSRFYRAPEIILGSRYSTPIDIWSFGCILAELLTGQPLFPGEDEGDQLACMMELLGMPPPKLLEQSKRAKYFINSKGIPRYCSVTTQADGRVVLVGGRSRRGKKRGPPGSKDWGTALKGCDDYLFIEFLKRCLHWDPSARLTPAQALRHPWISKSVPRPLTTIDKVSGKRVVNPASAFQGLGSKLPPVVGIANKLKANLMSETNGSIPLCSVLPKLIS
+O94806,PRKD3,MSANNSPPSAQKSVLPTAIPAVLPAASPCSSPKTGLSARLSNGSFSAPSLTNSRGSVHTVSFLLQIGLTRESVTIEAQELSLSAVKDLVCSIVYQKFPECGFFGMYDKILLFRHDMNSENILQLITSADEIHEGDLVEVVLSALATVEDFQIRPHTLYVHSYKAPTFCDYCGEMLWGLVRQGLKCEGCGLNYHKRCAFKIPNNCSGVRKRRLSNVSLPGPGLSVPRPLQPEYVALPSEESHVHQEPSKRIPSWSGRPIWMEKMVMCRVKVPHTFAVHSYTRPTICQYCKRLLKGLFRQGMQCKDCKFNCHKRCASKVPRDCLGEVTFNGEPSSLGTDTDIPMDIDNNDINSDSSRGLDDTEEPSPPEDKMFFLDPSDLDVERDEEAVKTISPSTSNNIPLMRVVQSIKHTKRKSSTMVKEGWMVHYTSRDNLRKRHYWRLDSKCLTLFQNESGSKYYKEIPLSEILRISSPRDFTNISQGSNPHCFEIITDTMVYFVGENNGDSSHNPVLAATGVGLDVAQSWEKAIRQALMPVTPQASVCTSPGQGKDHKDLSTSISVSNCQIQENVDISTVYQIFADEVLGSGQFGIVYGGKHRKTGRDVAIKVIDKMRFPTKQESQLRNEVAILQNLHHPGIVNLECMFETPERVFVVMEKLHGDMLEMILSSEKSRLPERITKFMVTQILVALRNLHFKNIVHCDLKPENVLLASAEPFPQVKLCDFGFARIIGEKSFRRSVVGTPAYLAPEVLRSKGYNRSLDMWSVGVIIYVSLSGTFPFNEDEDINDQIQNAAFMYPPNPWREISGEAIDLINNLLQVKMRKRYSVDKSLSHPWLQDYQTWLDLREFETRIGERYITHESDDARWEIHAYTHNLVYPKHFIMAPNPDDMEEDP
+Q9P2K8,EIF2AK4,MAGGRGAPGRGRDEPPESYPQRQDHELQALEAIYGADFQDLRPDACGPVKEPPEINLVLYPQGLTGEEVYVKVDLRVKCPPTYPDVVPEIELKNAKGLSNESVNLLKSRLEELAKKHCGEVMIFELAYHVQSFLSEHNKPPPKSFHEEMLERRAQEEQQRLLEAKRKEEQEQREILHEIQRRKEEIKEEKKRKEMAKQERLEIASLSNQDHTSKKDPGGHRTAAILHGGSPDFVGNGKHRANSSGRSRRERQYSVCNSEDSPGSCEILYFNMGSPDQLMVHKGKCIGSDEQLGKLVYNALETATGGFVLLYEWVLQWQKKMGPFLTSQEKEKIDKCKKQIQGTETEFNSLVKLSHPNVVRYLAMNLKEQDDSIVVDILVEHISGVSLAAHLSHSGPIPVHQLRRYTAQLLSGLDYLHSNSVVHKVLSASNVLVDAEGTVKITDYSISKRLADICKEDVFEQTRVRFSDNALPYKTGKKGDVWRLGLLLLSLSQGQECGEYPVTIPSDLPADFQDFLKKCVCLDDKERWSPQQLLKHSFINPQPKMPLVEQSPEDSEGQDYVETVIPSNRLPSAAFFSETQRQFSRYFIEFEELQLLGKGAFGAVIKVQNKLDGCCYAVKRIPINPASRQFRRIKGEVTLLSRLHHENIVRYYNAWIERHERPAGPGTPPPDSGPLAKDDRAARGQPASDTDGLDSVEAAAPPPILSSSVEWSTSGERSASARFPATGPGSSDDEDDDEDEHGGVFSQSFLPASDSESDIIFDNEDENSKSQNQDEDCNEKNGCHESEPSVTTEAVHYLYIQMEYCEKSTLRDTIDQGLYRDTVRLWRLFREILDGLAYIHEKGMIHRDLKPVNIFLDSDDHVKIGDFGLATDHLAFSADSKQDDQTGDLIKSDPSGHLTGMVGTALYVSPEVQGSTKSAYNQKVDLFSLGIIFFEMSYHPMVTASERIFVLNQLRDPTSPKFPEDFDDGEHAKQKSVISWLLNHDPAKRPTATELLKSELLPPPQMEESELHEVLHHTLTNVDGKAYRTMMAQIFSQRISPAIDYTYDSDILKGNFSIRTAKMQQHVCETIIRIFKRHGAVQLCTPLLLPRNRQIYEHNEAALFMDHSGMLVMLPFDLRIPFARYVARNNILNLKRYCIERVFRPRKLDRFHPKELLECAFDIVTSTTNSFLPTAEIIYTIYEIIQEFPALQERNYSIYLNHTMLLKAILLHCGIPEDKLSQVYIILYDAVTEKLTRREVEAKFCNLSLSSNSLCRLYKFIEQKGDLQDLMPTINSLIKQKTGIAQLVKYGLKDLEEVVGLLKKLGIKLQVLINLGLVYKVQQHNGIIFQFVAFIKRRQRAVPEILAAGGRYDLLIPQFRGPQALGPVPTAIGVSIAIDKISAAVLNMEESVTISSCDLLVVSVGQMSMSRAINLTQKLWTAGITAEIMYDWSQSQEELQEYCRHHEITYVALVSDKEGSHVKVKSFEKERQTEKRVLETELVDHVLQKLRTKVTDERNGREASDNLAVQNLKGSFSNASGLFEIHGATVVPIVSVLAPEKLSASTRRRYETQVQTRLQTSLANLHQKSSEIEILAVDLPKETILQFLSLEWDADEQAFNTTVKQLLSRLPKQRYLKLVCDEIYNIKVEKKVSVLFLYSYRDDYYRILF
+Q8N2I9,STK40,MKRRASDRGAGETSARAKALGSGISGNNAKRAGPFILGPRLGNSPVPSIVQCLARKDGTDDFYQLKILTLEERGDQGIESQEERQGKMLLHTEYSLLSLLHTQDGVVHHHGLFQDRTCEIVEDTESSRMVKKMKKRICLVLDCLCAHDFSDKTADLINLQHYVIKEKRLSERETVVIFYDVVRVVEALHQKNIVHRDLKLGNMVLNKRTHRITITNFCLGKHLVSEGDLLKDQRGSPAYISPDVLSGRPYRGKPSDMWALGVVLFTMLYGQFPFYDSIPQELFRKIKAAEYTIPEDGRVSENTVCLIRKLLVLDPQQRLAAADVLEALSAIIASWQSLSSLSGPLQVVPDIDDQMSNADSSQEAKVTEECSQYEFENYMRQQLLLAEEKSSIHDARSWVPKRQFGSAPPVRRLGHDAQPMTSLDTAILAQRYLRK
+Q8TDR2,STK35,MGHQESPLARAPAGGAAYVKRLCKGLSWREHVESHGSLGAQASPASAAAAEGSATRRARAATSRAARSRRQPGPGADHPQAGAPGGKRAARKWRCAGQVTIQGPAPPRPRAGRRDEAGGARAAPLLLPPPPAAMETGKDGARRGTQSPERKRRSPVPRAPSTKLRPAAAARAMDPVAAEAPGEAFLARRRPEGGGGSARPRYSLLAEIGRGSYGVVYEAVAGRSGARVAVKKIRCDAPENVELALAEFWALTSLKRRHQNVVQFEECVLQRNGLAQRMSHGNKSSQLYLRLVETSLKGERILGYAEEPCYLWFVMEFCEGGDLNQYVLSRRPDPATNKSFMLQLTSAIAFLHKNHIVHRDLKPDNILITERSGTPILKVADFGLSKVCAGLAPRGKEGNQDNKNVNVNKYWLSSACGSDFYMAPEVWEGHYTAKADIFALGIIIWAMIERITFIDSETKKELLGTYIKQGTEIVPVGEALLENPKMELHIPQKRRTSMSEGIKQLLKDMLAANPQDRPDAFELETRMDQVTCAA
+Q59H18,TNNI3K,MGNYKSRPTQTCTDEWKKKVSESYVITIERLEDDLQIKEKELTELRNIFGSDEAFSKVNLNYRTENGLSLLHLCCICGGKKSHIRTLMLKGLRPSRLTRNGFTALHLAVYKDNAELITSLLHSGADIQQVGYGGLTALHIATIAGHLEAADVLLQHGANVNIQDAVFFTPLHIAAYYGHEQVTRLLLKFGADVNVSGEVGDRPLHLASAKGFLNIAKLLMEEGSKADVNAQDNEDHVPLHFCSRFGHHDIVKYLLQSDLEVQPHVVNIYGDTPLHLACYNGKFEVAKEIIQISGTESLTKENIFSETAFHSACTYGKSIDLVKFLLDQNVININHQGRDGHTGLHSACYHGHIRLVQFLLDNGADMNLVACDPSRSSGEKDEQTCLMWAYEKGHDAIVTLLKHYKRPQDELPCNEYSQPGGDGSYVSVPSPLGKIKSMTKEKADILLLRAGLPSHFHLQLSEIEFHEIIGSGSFGKVYKGRCRNKIVAIKRYRANTYCSKSDVDMFCREVSILCQLNHPCVIQFVGACLNDPSQFAIVTQYISGGSLFSLLHEQKRILDLQSKLIIAVDVAKGMEYLHNLTQPIIHRDLNSHNILLYEDGHAVVADFGESRFLQSLDEDNMTKQPGNLRWMAPEVFTQCTRYTIKADVFSYALCLWEILTGEIPFAHLKPAAAAADMAYHHIRPPIGYSIPKPISSLLIRGWNACPEGRPEFSEVVMKLEECLCNIELMSPASSNSSGSLSPSSSSDCLVNRGGPGRSHVAALRSRFELEYALNARSYAALSQSAGQYSSQGLSLEEMKRSLQYTPIDKYGYVSDPMSSMHFHSCRNSSSFEDSS
+Q9H2X6,HIPK2,MAPVYEGMASHVQVFSPHTLQSSAFCSVKKLKIEPSSNWDMTGYGSHSKVYSQSKNIPLSQPATTTVSTSLPVPNPSLPYEQTIVFPGSTGHIVVTSASSTSVTGQVLGGPHNLMRRSTVSLLDTYQKCGLKRKSEEIENTSSVQIIEEHPPMIQNNASGATVATATTSTATSKNSGSNSEGDYQLVQHEVLCSMTNTYEVLEFLGRGTFGQVVKCWKRGTNEIVAIKILKNHPSYARQGQIEVSILARLSTESADDYNFVRAYECFQHKNHTCLVFEMLEQNLYDFLKQNKFSPLPLKYIRPVLQQVATALMKLKSLGLIHADLKPENIMLVDPSRQPYRVKVIDFGSASHVSKAVCSTYLQSRYYRAPEIILGLPFCEAIDMWSLGCVIAELFLGWPLYPGASEYDQIRYISQTQGLPAEYLLSAGTKTTRFFNRDTDSPYPLWRLKTPDDHEAETGIKSKEARKYIFNCLDDMAQVNMTTDLEGSDMLVEKADRREFIDLLKKMLTIDADKRITPIETLNHPFVTMTHLLDFPHSTHVKSCFQNMEICKRRVNMYDTVNQSKTPFITHVAPSTSTNLTMTFNNQLTTVHNQAPSSTSATISLANPEVSILNYPSTLYQPSAASMAAVAQRSMPLQTGTAQICARPDPFQQALIVCPPGFQGLQASPSKHAGYSVRMENAVPIVTQAPGAQPLQIQPGLLAQQAWPSGTQQILLPPAWQQLTGVATHTSVQHATVIPETMAGTQQLADWRNTHAHGSHYNPIMQQPALLTGHVTLPAAQPLNVGVAHVMRQQPTSTTSSRKSKQHQSSVRNVSTCEVSSSQAISSPQRSKRVKENTPPRCAMVHSSPACSTSVTCGWGDVASSTTRERQRQTIVIPDTPSPTVSVITISSDTDEEEEQKHAPTSTVSKQRKNVISCVTVHDSPYSDSSSNTSPYSVQQRAGHNNANAFDTKGSLENHCTGNPRTIIVPPLKTQASEVLVECDSLVPVNTSHHSSSYKSKSSSNVTSTSGHSSGSSSGAITYRQQRPGPHFQQQQPLNLSQAQQHITTDRTGSHRRQQAYITPTMAQAPYSFPHNSPSHGTVHPHLAAAAAAAHLPTQPHLYTYTAPAALGSTGTVAHLVASQGSARHTVQHTAYPASIVHQVPVSMGPRVLPSPTIHPSQYPAQFAHQTYISASPASTVYTGYPLSPAKVNQYPYI
+Q9BQI3,EIF2AK1,MQGGNSGVRKREEEGDGAGAVAAPPAIDFPAEGPDPEYDESDVPAEIQVLKEPLQQPTFPFAVANQLLLVSLLEHLSHVHEPNPLRSRQVFKLLCQTFIKMGLLSSFTCSDEFSSLRLHHNRAITHLMRSAKERVRQDPCEDISRIQKIRSREVALEAQTSRYLNEFEELAILGKGGYGRVYKVRNKLDGQYYAIKKILIKGATKTVCMKVLREVKVLAGLQHPNIVGYHTAWIEHVHVIQPRADRAAIELPSLEVLSDQEEDREQCGVKNDESSSSSIIFAEPTPEKEKRFGESDTENQNNKSVKYTTNLVIRESGELESTLELQENGLAGLSASSIVEQQLPLRRNSHLEESFTSTEESSEENVNFLGQTEAQYHLMLHIQMQLCELSLWDWIVERNKRGREYVDESACPYVMANVATKIFQELVEGVFYIHNMGIVHRDLKPRNIFLHGPDQQVKIGDFGLACTDILQKNTDWTNRNGKRTPTHTSRVGTCLYASPEQLEGSEYDAKSDMYSLGVVLLELFQPFGTEMERAEVLTGLRTGQLPESLRKRCPVQAKYIQHLTRRNSSQRPSAIQLLQSELFQNSGNVNLTLQMKIIEQEKEIAELKKQLNLLSQDKGVRDDGKDGGVG
+Q9UPZ9,ICK,MNRYTTIRQLGDGTYGSVLLGRSIESGELIAIKKMKRKFYSWEECMNLREVKSLKKLNHANVVKLKEVIRENDHLYFIFEYMKENLYQLIKERNKLFPESAIRNIMYQILQGLAFIHKHGFFHRDLKPENLLCMGPELVKIADFGLAREIRSKPPYTDYVSTRWYRAPEVLLRSTNYSSPIDVWAVGCIMAEVYTLRPLFPGASEIDTIFKICQVLGTPKKTDWPEGYQLSSAMNFRWPQCVPNNLKTLIPNASSEAVQLLRDMLQWDPKKRPTASQALRYPYFQVGHPLGSTTQNLQDSEKPQKGILEKAGPPPYIKPVPPAQPPAKPHTRISSRQHQASQPPLHLTYPYKAEVSRTDHPSHLQEDKPSPLLFPSLHNKHPQSKITAGLEHKNGEIKPKSRRRWGLISRSTKDSDDWADLDDLDFSPSLSRIDLKNKKRQSDDTLCRFESVLDLKPSEPVGTGNSAPTQTSYQRRDTPTLRSAAKQHYLKHSRYLPGISIRNGILSNPGKEFIPPNPWSSSGLSGKSSGTMSVISKVNSVGSSSTSSSGLTGNYVPSFLKKEIGSAMQRVHLAPIPDPSPGYSSLKAMRPHPGRPFFHTQPRSTPGLIPRPPAAQPVHGRTDWASKYASRR
+Q76MJ5,ERN2,MASAVRGSRPWPRLGLQLQFAALLLGTLSPQVHTLRPENLLLVSTLDGSLHALSKQTGDLKWTLRDDPVIEGPMYVTEMAFLSDPADGSLYILGTQKQQGLMKLPFTIPELVHASPCRSSDGVFYTGRKQDAWFVVDPESGETQMTLTTEGPSTPRLYIGRTQYTVTMHDPRAPALRWNTTYRRYSAPPMDGSPGKYMSHLASCGMGLLLTVDPGSGTVLWTQDLGVPVMGVYTWHQDGLRQLPHLTLARDTLHFLALRWGHIRLPASGPRDTATLFSTLDTQLLMTLYVGKDETGFYVSKALVHTGVALVPRGLTLAPADGPTTDEVTLQVSGEREGSPSTAVRYPSGSVALPSQWLLIGHHELPPVLHTTMLRVHPTLGSGTAETRPPENTQAPAFFLELLSLSREKLWDSELHPEEKTPDSYLGLGPQDLLAASLTAVLLGGWILFVMRQQQPQVVEKQQETPLAPADFAHISQDAQSLHSGASRRSQKRLQSPSKQAQPLDDPEAEQLTVVGKISFNPKDVLGRGAGGTFVFRGQFEGRAVAVKRLLRECFGLVRREVQLLQESDRHPNVLRYFCTERGPQFHYIALELCRASLQEYVENPDLDRGGLEPEVVLQQLMSGLAHLHSLHIVHRDLKPGNILITGPDSQGLGRVVLSDFGLCKKLPAGRCSFSLHSGIPGTEGWMAPELLQLLPPDSPTSAVDIFSAGCVFYYVLSGGSHPFGDSLYRQANILTGAPCLAHLEEEVHDKVVARDLVGAMLSPLPQPRPSAPQVLAHPFFWSRAKQLQFFQDVSDWLEKESEQEPLVRALEAGGCAVVRDNWHEHISMPLQTDLRKFRSYKGTSVRDLLRAVRNKKHHYRELPVEVRQALGQVPDGFVQYFTNRFPRLLLHTHRAMRSCASESLFLPYYPPDSEARRPCPGATGR
+Q96RG2,PASK,MEDGGLTAFEEDQRCLSQSLPLPVSAEGPAAQTTAEPSRSFSSAHRHLSRRNGLSRLCQSRTALSEDRWSSYCLSSLAAQNICTSKLHCPAAPEHTDPSEPRGSVSCCSLLRGLSSGWSSPLLPAPVCNPNKAIFTVDAKTTEILVANDKACGLLGYSSQDLIGQKLTQFFLRSDSDVVEALSEEHMEADGHAAVVFGTVVDIISRSGEKIPVSVWMKRMRQERRLCCVVVLEPVERVSTWVAFQSDGTVTSCDSLFAHLHGYVSGEDVAGQHITDLIPSVQLPPSGQHIPKNLKIQRSVGRARDGTTFPLSLKLKSQPSSEEATTGEAAPVSGYRASVWVFCTISGLITLLPDGTIHGINHSFALTLFGYGKTELLGKNITFLIPGFYSYMDLAYNSSLQLPDLASCLDVGNESGCGERTLDPWQGQDPAEGGQDPRINVVLAGGHVVPRDEIRKLMESQDIFTGTQTELIAGGQLLSCLSPQPAPGVDNVPEGSLPVHGEQALPKDQQITALGREEPVAIESPGQDLLGESRSEPVDVKPFASCEDSEAPVPAEDGGSDAGMCGLCQKAQLERMGVSGPSGSDLWAGAAVAKPQAKGQLAGGSLLMHCPCYGSEWGLWWRSQDLAPSPSGMAGLSFGTPTLDEPWLGVENDREELQTCLIKEQLSQLSLAGALDVPHAELVPTECQAVTAPVSSCDLGGRDLCGGCTGSSSACYALATDLPGGLEAVEAQEVDVNSFSWNLKELFFSDQTDQTSSNCSCATSELRETPSSLAVGSDPDVGSLQEQGSCVLDDRELLLLTGTCVDLGQGRRFRESCVGHDPTEPLEVCLVSSEHYAASDRESPGHVPSTLDAGPEDTCPSAEEPRLNVQVTSTPVIVMRGAAGLQREIQEGAYSGSCYHRDGLRLSIQFEVRRVELQGPTPLFCCWLVKDLLHSQRDSAARTRLFLASLPGSTHSTAAELTGPSLVEVLRARPWFEEPPKAVELEGLAACEGEYSQKYSTMSPLGSGAFGFVWTAVDKEKNKEVVVKFIKKEKVLEDCWIEDPKLGKVTLEIAILSRVEHANIIKVLDIFENQGFFQLVMEKHGSGLDLFAFIDRHPRLDEPLASYIFRQLVSAVGYLRLKDIIHRDIKDENIVIAEDFTIKLIDFGSAAYLERGKLFYTFCGTIEYCAPEVLMGNPYRGPELEMWSLGVTLYTLVFEENPFCELEETVEAAIHPPYLVSKELMSLVSGLLQPVPERRTTLEKLVTDPWVTQPVNLADYTWEEVFRVNKPESGVLSAASLEMGNRSLSDVAQAQELCGGPVPGEAPNGQGCLHPGDPRLLTS
+Q9Y2H1,STK38L,MAMTAGTTTTFPMSNHTRERVTVAKLTLENFYSNLILQHEERETRQKKLEVAMEEEGLADEEKKLRRSQHARKETEFLRLKRTRLGLDDFESLKVIGRGAFGEVRLVQKKDTGHIYAMKILRKSDMLEKEQVAHIRAERDILVEADGAWVVKMFYSFQDKRNLYLIMEFLPGGDMMTLLMKKDTLTEEETQFYISETVLAIDAIHQLGFIHRDIKPDNLLLDAKGHVKLSDFGLCTGLKKAHRTEFYRNLTHNPPSDFSFQNMNSKRKAETWKKNRRQLAYSTVGTPDYIAPEVFMQTGYNKLCDWWSLGVIMYEMLIGYPPFCSETPQETYRKVMNWKETLVFPPEVPISEKAKDLILRFCIDSENRIGNSGVEEIKGHPFFEGVDWEHIRERPAAIPIEIKSIDDTSNFDDFPESDILQPVPNTTEPDYKSKDWVFLNYTYKRFEGLTQRGSIPTYMKAGKL
+Q9Y2K2,SIK3,MAAAAASGAGGAAGAGTGGAGPAGRLLPPPAPGSPAAPAAVSPAAGQPRPPAPASRGPMPARIGYYEIDRTIGKGNFAVVKRATHLVTKAKVAIKIIDKTQLDEENLKKIFREVQIMKMLCHPHIIRLYQVMETERMIYLVTEYASGGEIFDHLVAHGRMAEKEARRKFKQIVTAVYFCHCRNIVHRDLKAENLLLDANLNIKIADFGFSNLFTPGQLLKTWCGSPPYAAPELFEGKEYDGPKVDIWSLGVVLYVLVCGALPFDGSTLQNLRARVLSGKFRIPFFMSTECEHLIRHMLVLDPNKRLSMEQICKHKWMKLGDADPNFDRLIAECQQLKEERQVDPLNEDVLLAMEDMGLDKEQTLQSLRSDAYDHYSAIYSLLCDRHKRHKTLRLGALPSMPRALAFQAPVNIQAEQAGTAMNISVPQVQLINPENQIVEPDGTLNLDSDEGEEPSPEALVRYLSMRRHTVGVADPRTEVMEDLQKLLPGFPGVNPQAPFLQVAPNVNFMHNLLPMQNLQPTGQLEYKEQSLLQPPTLQLLNGMGPLGRRASDGGANIQLHAQQLLKRPRGPSPLVTMTPAVPAVTPVDEESSDGEPDQEAVQSSTYKDSNTLHLPTERFSPVRRFSDGAASIQAFKAHLEKMGNNSSIKQLQQECEQLQKMYGGQIDERTLEKTQQQHMLYQQEQHHQILQQQIQDSICPPQPSPPLQAACENQPALLTHQLQRLRIQPSSPPPNHPNNHLFRQPSNSPPPMSSAMIQPHGAASSSQFQGLPSRSAIFQQQPENCSSPPNVALTCLGMQQPAQSQQVTIQVQEPVDMLSNMPGTAAGSSGRGISISPSAGQMQMQHRTNLMATLSYGHRPLSKQLSADSAEAHSLNVNRFSPANYDQAHLHPHLFSDQSRGSPSSYSPSTGVGFSPTQALKVPPLDQFPTFPPSAHQQPPHYTTSALQQALLSPTPPDYTRHQQVPHILQGLLSPRHSLTGHSDIRLPPTEFAQLIKRQQQQRQQQQQQQQQQEYQELFRHMNQGDAGSLAPSLGGQSMTERQALSYQNADSYHHHTSPQHLLQIRAQECVSQASSPTPPHGYAHQPALMHSESMEEDCSCEGAKDGFQDSKSSSTLTKGCHDSPLLLSTGGPGDPESLLGTVSHAQELGIHPYGHQPTAAFSKNKVPSREPVIGNCMDRSSPGQAVELPDHNGLGYPARPSVHEHHRPRALQRHHTIQNSDDAYVQLDNLPGMSLVAGKALSSARMSDAVLSQSSLMGSQQFQDGENEECGASLGGHEHPDLSDGSQHLNSSCYPSTCITDILLSYKHPEVSFSMEQAGV
+P57058,HUNK,MPAAAGDGLLGEPAAPGGGGGAEDAARPAAACEGSFLPAWVSGVPRERLRDFQHHKRVGNYLIGSRKLGEGSFAKVREGLHVLTGEKVAIKVIDKKRAKKDTYVTKNLRREGQIQQMIRHPNITQLLDILETENSYYLVMELCPGGNLMHKIYEKKRLEESEARRYIRQLISAVEHLHRAGVVHRDLKIENLLLDEDNNIKLIDFGLSNCAGILGYSDPFSTQCGSPAYAAPELLARKKYGPKIDVWSIGVNMYAMLTGTLPFTVEPFSLRALYQKMVDKEMNPLPTQLSTGAISFLRSLLEPDPVKRPNIQQALANRWLNENYTGKVPCNVTYPNRISLEDLSPSVVLHMTEKLGYKNSDVINTVLSNRACHILAIYFLLNKKLERYLSGKSDIQDSLCYKTRLYQIEKYRAPKESYEASLDTWTRDLEFHAVQDKKPKEQEKRGDFLHRPFSKKLDKNLPSHKQPSGSLMTQIQNTKALLKDRKASKSSFPDKDSFGCRNIFRKTSDSNCVASSSMEFIPVPPPRTPRIVKKPEPHQPGPGSTGIPHKEDPLMLDMVRSFESVDRDDHVEVLSPSHHYRILNSPVSLARRNSSERTLSPGLPSGSMSPLHTPLHPTLVSFAHEDKNSPPKEEGLCCPPPVPSNGPMQPLGSPNCVKSRGRFPMMGIGQMLRKRHQSLQPSADRPLEASLPPLQPLAPVNLAFDMADGVKTQC
+O95382,MAP3K6,MAGPCPRSGAERAGSCWQDPLAVALSRGRQLAAPPGRGCARSRPLSVVYVLTREPQPGLEPREGTEAEPLPLRCLREACAQVPRPRPPPQLRSLPFGTLELGDTAALDAFYNADVVVLEVSSSLVQPSLFYHLGVRESFSMTNNVLLCSQADLPDLQALREDVFQKNSDCVGSYTLIPYVVTATGRVLCGDAGLLRGLADGLVQAGVGTEALLTPLVGRLARLLEATPTDSCGYFRETIRRDIRQARERFSGPQLRQELARLQRRLDSVELLSPDIIMNLLLSYRDVQDYSAIIELVETLQALPTCDVAEQHNVCFHYTFALNRRNRPGDRAKALSVLLPLVQLEGSVAPDLYCMCGRIYKDMFFSSGFQDAGHREQAYHWYRKAFDVEPSLHSGINAAVLLIAAGQHFEDSKELRLIGMKLGCLLARKGCVEKMQYYWDVGFYLGAQILANDPTQVVLAAEQLYKLNAPIWYLVSVMETFLLYQHFRPTPEPPGGPPRRAHFWLHFLLQSCQPFKTACAQGDQCLVLVLEMNKVLLPAKLEVRGTDPVSTVTLSLLEPETQDIPSSWTFPVASICGVSASKRDERCCFLYALPPAQDVQLCFPSVGHCQWFCGLIQAWVTNPDSTAPAEEAEGAGEMLEFDYEYTETGERLVLGKGTYGVVYAGRDRHTRVRIAIKEIPERDSRFSQPLHEEIALHRRLRHKNIVRYLGSASQGGYLKIFMEEVPGGSLSSLLRSVWGPLKDNESTISFYTRQILQGLGYLHDNHIVHRDIKGDNVLINTFSGLLKISDFGTSKRLAGITPCTETFTGTLQYMAPEIIDQGPRGYGKAADIWSLGCTVIEMATGRPPFHELGSPQAAMFQVGMYKVHPPMPSSLSAEAQAFLLRTFEPDPRLRASAQTLLGDPFLQPGKRSRSPSSPRHAPRPSDAPSASPTPSANSTTQSQTFPCPQAPSQHPPSPPKRCLSYGGTSQLRVPEEPAAEEPASPEESSGLSLLHQESKRRAMLAAVLEQELPALAENLHQEQKQEQGARLGRNHVEELLRCLGAHIHTPNRRQLAQELRALQGRLRAQGLGPALLHRPLFAFPDAVKQILRKRQIRPHWMFVLDSLLSRAVRAALGVLGPEVEKEAVSPRSEELSNEGDSQQSPGQQSPLPVEPEQGPAPLMVQLSLLRAETDRLREILAGKEREYQALVQRALQRLNEEARTYVLAPEPPTALSTDQGLVQWLQELNVDSGTIQMLLNHSFTLHTLLTYATRDDLIYTRIRGGMVCRIWRAILAQRAGSTPVTSGP
+Q9UQ07,MOK,MKNYKAIGKIGEGTFSEVMKMQSLRDGNYYACKQMKQRFESIEQVNNLREIQALRRLNPHPNILMLHEVVFDRKSGSLALICELMDMNIYELIRGRRYPLSEKKIMHYMYQLCKSLDHIHRNGIFHRDVKPENILIKQDVLKLGDFGSCRSVYSKQPYTEYISTRWYRAPECLLTDGFYTYKMDLWSAGCVFYEIASLQPLFPGVNELDQISKIHDVIGTPAQKILTKFKQSRAMNFDFPFKKGSGIPLLTTNLSPQCLSLLHAMVAYDPDERIAAHQALQHPYFQEQRKTEKRALGSHRKAGFPEHPVAPEPLSNSCQISKEGRKQKQSLKQEEDRPKRRGPAYVMELPKLKLSGVVRLSSYSSPTLQSVLGSGTNGRVPVLRPLKCIPASKKTDPQKDLKPAPQQCRLPTIVRKGGR
+O75716,STK16,MGHALCVCSRGTVIIDNKRYLFIQKLGEGGFSYVDLVEGLHDGHFYALKRILCHEQQDREEAQREADMHRLFNHPNILRLVAYCLRERGAKHEAWLLLPFFKRGTLWNEIERLKDKGNFLTEDQILWLLLGICRGLEAIHAKGYAHRDLKPTNILLGDEGQPVLMDLGSMNQACIHVEGSRQALTLQDWAAQRCTISYRAPELFSVQSHCVIDERTDVWSLGCVLYAMMFGEGPYDMVFQKGDSVALAVQNQLSIPQSPRHSSALRQLLNSMMTVDPHQRPHIPLLLSQLEALQPPAPGQHTTQI
+Q9UPE1,SRPK3,MSASTGGGGDSGGSGGSSSSSQASCGPESSGSELALATPVPQMLQGLLGSDDEEQEDPKDYCKGGYHPVKIGDVFNGRYHVVRKLGWGHFSTVWLCWDIQRKRFVALKVVKSAGHYTETAVDEIKLLKCVRDSDPSDPKRETIVQLIDDFRISGVNGVHVCMVLEVLGHQLLKWIIKSNYQGLPVPCVKSIVRQVLHGLDYLHTKCKIIHTDIKPENILLCVGDAYIRRLAAEATEWQQAGAPPPSRSIVSTAPQEVLQTGKLSKNKRKKMRRKRKQQKRLLEERLRDLQRLEAMEAATQAEDSGLRLDGGSGSTSSSGCHPGGARAGPSPASSSPAPGGGRSLSAGSQTSGFSGSLFSPASCSILSGSSNQRETGGLLSPSTPFGASNLLVNPLEPQNADKIKIKIADLGNACWVHKHFTEDIQTRQYRAVEVLIGAEYGPPADIWSTACMAFELATGDYLFEPHSGEDYSRDEDHIAHIVELLGDIPPAFALSGRYSREFFNRRGELRHIHNLKHWGLYEVLMEKYEWPLEQATQFSAFLLPMMEYIPEKRASAADCLQHPWLNP
+Q9H4A3,WNK1,MSGGAAEKQSSTPGSLFLSPPAPAPKNGSSSDSSVGEKLGAAAADAVTGRTEEYRRRRHTMDKDSRGAAATTTTTEHRFFRRSVICDSNATALELPGLPLSLPQPSIPAAVPQSAPPEPHREETVTATATSQVAQQPPAAAAPGEQAVAGPAPSTVPSSTSKDRPVSQPSLVGSKEEPPPARSGSGGGSAKEPQEERSQQQDDIEELETKAVGMSNDGRFLKFDIEIGRGSFKTVYKGLDTETTVEVAWCELQDRKLTKSERQRFKEEAEMLKGLQHPNIVRFYDSWESTVKGKKCIVLVTELMTSGTLKTYLKRFKVMKIKVLRSWCRQILKGLQFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLKRASFAKSVIGTPEFMAPEMYEEKYDESVDVYAFGMCMLEMATSEYPYSECQNAAQIYRRVTSGVKPASFDKVAIPEVKEIIEGCIRQNKDERYSIKDLLNHAFFQEETGVRVELAEEDDGEKIAIKLWLRIEDIKKLKGKYKDNEAIEFSFDLERDVPEDVAQEMVESGYVCEGDHKTMAKAIKDRVSLIKRKREQRQLVREEQEKKKQEESSLKQQVEQSSASQTGIKQLPSASTGIPTASTTSASVSTQVEPEEPEADQHQQLQYQQPSISVLSDGTVDSGQGSSVFTESRVSSQQTVSYGSQHEQAHSTGTVPGHIPSTVQAQSQPHGVYPPSSVAQGQSQGQPSSSSLTGVSSSQPIQHPQQQQGIQQTAPPQQTVQYSLSQTSTSSEATTAQPVSQPQAPQVLPQVSAGKQLPVSQPVPTIQGEPQIPVATQPSVVPVHSGAHFLPVGQPLPTPLLPQYPVSQIPISTPHVSTAQTGFSSLPITMAAGITQPLLTLASSATTAAIPGVSTVVPSQLPTLLQPVTQLPSQVHPQLLQPAVQSMGIPANLGQAAEVPLSSGDVLYQGFPPRLPPQYPGDSNIAPSSNVASVCIHSTVLSPPMPTEVLATPGYFPTVVQPYVESNLLVPMGGVGGQVQVSQPGGSLAQAPTTSSQQAVLESTQGVSQVAPAEPVAVAQTQATQPTTLASSVDSAHSDVASGMSDGNENVPSSSGRHEGRTTKRHYRKSVRSRSRHEKTSRPKLRILNVSNKGDRVVECQLETHNRKMVTFKFDLDGDNPEEIATIMVNNDFILAIERESFVDQVREIIEKADEMLSEDVSVEPEGDQGLESLQGKDDYGFSGSQKLEGEFKQPIPASSMPQQIGIPTSSLTQVVHSAGRRFIVSPVPESRLRESKVFPSEITDTVAASTAQSPGMNLSHSASSLSLQQAFSELRRAQMTEGPNTAPPNFSHTGPTFPVVPPFLSSIAGVPTTAAATAPVPATSSPPNDISTSVIQSEVTVPTEEGIAGVATSTGVVTSGGLPIPPVSESPVLSSVVSSITIPAVVSISTTSPSLQVPTSTSEIVVSSTALYPSVTVSATSASAGGSTATPGPKPPAVVSQQAAGSTTVGATLTSVSTTTSFPSTASQLCIQLSSSTSTPTLAETVVVSAHSLDKTSHSSTTGLAFSLSAPSSSSSPGAGVSSYISQPGGLHPLVIPSVIASTPILPQAAGPTSTPLLPQVPSIPPLVQPVANVPAVQQTLIHSQPQPALLPNQPHTHCPEVDSDTQPKAPGIDDIKTLEEKLRSLFSEHSSSGAQHASVSLETSLVIESTVTPGIPTTAVAPSKLLTSTTSTCLPPTNLPLGTVALPVTPVVTPGQVSTPVSTTTSGVKPGTAPSKPPLTKAPVLPVGTELPAGTLPSEQLPPFPGPSLTQSQQPLEDLDAQLRRTLSPEMITVTSAVGPVSMAAPTAITEAGTQPQKGVSQVKEGPVLATSSGAGVFKMGRFQVSVAADGAQKEGKNKSEDAKSVHFESSTSESSVLSSSSPESTLVKPEPNGITIPGISSDVPESAHKTTASEAKSDTGQPTKVGRFQVTTTANKVGRFSVSKTEDKITDTKKEGPVASPPFMDLEQAVLPAVIPKKEKPELSEPSHLNGPSSDPEAAFLSRDVDDGSGSPHSPHQLSSKSLPSQNLSQSLSNSFNSSYMSSDNESDIEDEDLKLELRRLRDKHLKEIQDLQSRQKHEIESLYTKLGKVPPAVIIPPAAPLSGRRRRPTKSKGSKSSRSSSLGNKSPQLSGNLSGQSAASVLHPQQTLHPPGNIPESGQNQLLQPLKPSPSSDNLYSAFTSDGAISVPSLSAPGQGTSSTNTVGATVNSQAAQAQPPAMTSSRKGTFTDDLHKLVDNWARDAMNLSGRRGSKGHMNYEGPGMARKFSAPGQLCISMTSNLGGSAPISAASATSLGHFTKSMCPPQQYGFPATPFGAQWSGTGGPAPQPLGQFQPVGTASLQNFNISNLQKSISNPPGSNLRTT
+Q8IVW4,CDKL3,MEMYETLGKVGEGSYGTVMKCKHKNTGQIVAIKIFYERPEQSVNKIAMREIKFLKQFHHENLVNLIEVFRQKKKIHLVFEFIDHTVLDELQHYCHGLESKRLRKYLFQILRAIDYLHSNNIIHRDIKPENILVSQSGITKLCDFGFARTLAAPGDIYTDYVATRWYRAPELVLKDTSYGKPVDIWALGCMIIEMATGNPYLPSSSDLDLLHKIVLKVGNLSPHLQNIFSKSPIFAGVVLPQVQHPKNARKKYPKLNGLLADIVHACLQIDPADRISSSDLLHHEYFTRDGFIEKFMPELKAKLLQEAKVNSLIKPKESSKENELRKDERKTVYTNTLLSSSVLGKEIEKEKKPKEIKVRVIKVKGGRGDISEPKKKEYEGGLGQQDANENVHPMSPDTKLVTIEPPNPINPSTNCNGLKENPHCGGSVTMPPINLTNSNLMAANLSSNLFHPSVRLTERAKKRRTSSQSIGQVMPNSRQEDPGPIQSQMEKGIFNERTGHSDQMANENKRKLNFSRSDRKEFHFPELPVTIQSKDTKGMEVKQIKMLKRESKKTESSKIPTLLNVDQNQEKQEGGDGHCEGKNLKRNRFFFW
+Q9P286,PAK7,MFGKKKKKIEISGPSNFEHRVHTGFDPQEQKFTGLPQQWHSLLADTANRPKPMVDPSCITPIQLAPMKTIVRGNKPCKETSINGLLEDFDNISVTRSNSLRKESPPTPDQGASSHGPGHAEENGFITFSQYSSESDTTADYTTEKYREKSLYGDDLDPYYRGSHAAKQNGHVMKMKHGEAYYSEVKPLKSDFARFSADYHSHLDSLSKPSEYSDLKWEYQRASSSSPLDYSFQFTPSRTAGTSGCSKESLAYSESEWGPSLDDYDRRPKSSYLNQTSPQPTMRQRSRSGSGLQEPMMPFGASAFKTHPQGHSYNSYTYPRLSEPTMCIPKVDYDRAQMVLSPPLSGSDTYPRGPAKLPQSQSKSGYSSSSHQYPSGYHKATLYHHPSLQSSSQYISTASYLSSLSLSSSTYPPPSWGSSSDQQPSRVSHEQFRAALQLVVSPGDPREYLANFIKIGEGSTGIVCIATEKHTGKQVAVKKMDLRKQQRRELLFNEVVIMRDYHHDNVVDMYSSYLVGDELWVVMEFLEGGALTDIVTHTRMNEEQIATVCLSVLRALSYLHNQGVIHRDIKSDSILLTSDGRIKLSDFGFCAQVSKEVPKRKSLVGTPYWMAPEVISRLPYGTEVDIWSLGIMVIEMIDGEPPYFNEPPLQAMRRIRDSLPPRVKDLHKVSSVLRGFLDLMLVREPSQRATAQELLGHPFLKLAGPPSCIVPLMRQYRHH
+Q6P5Z2,PKN3,MEEGAPRQPGPSQWPPEDEKEVIRRAIQKELKIKEGVENLRRVATDRRHLGHVQQLLRSSNRRLEQLHGELRELHARILLPGPGPGPAEPVASGPRPWAEQLRARHLEALRRQLHVELKVKQGAENMTHTCASGTPKERKLLAAAQQMLRDSQLKVALLRMKISSLEASGSPEPGPELLAEELQHRLHVEAAVAEGAKNVVKLLSSRRTQDRKALAEAQAQLQESSQKLDLLRLALEQLLEQLPPAHPLRSRVTRELRAAVPGYPQPSGTPVKPTALTGTLQVRLLGCEQLLTAVPGRSPAAALASSPSEGWLRTKAKHQRGRGELASEVLAVLKVDNRVVGQTGWGQVAEQSWDQTFVIPLERARELEIGVHWRDWRQLCGVAFLRLEDFLDNACHQLSLSLVPQGLLFAQVTFCDPVIERRPRLQRQERIFSKRRGQDFLRASQMNLGMAAWGRLVMNLLPPCSSPSTISPPKGCPRTPTTLREASDPATPSNFLPKKTPLGEEMTPPPKPPRLYLPQEPTSEETPRTKRPHMEPRTRRGPSPPASPTRKPPRLQDFRCLAVLGRGHFGKVLLVQFKGTGKYYAIKALKKQEVLSRDEIESLYCEKRILEAVGCTGHPFLLSLLACFQTSSHACFVTEFVPGGDLMMQIHEDVFPEPQARFYVACVVLGLQFLHEKKIIYRDLKLDNLLLDAQGFLKIADFGLCKEGIGFGDRTSTFCGTPEFLAPEVLTQEAYTRAVDWWGLGVLLYEMLVGECPFPGDTEEEVFDCIVNMDAPYPGFLSVQGLEFIQKLLQKCPEKRLGAGEQDAEEIKVQPFFRTTNWQALLARTIQPPFVPTLCGPADLRYFEGEFTGLPPALTPPAPHSLLTARQQAAFRDFDFVSERFLEP
+Q9H0K1,SIK2,MVMADGPRHLQRGPVRVGFYDIEGTLGKGNFAVVKLGRHRITKTEVAIKIIDKSQLDAVNLEKIYREVQIMKMLDHPHIIKLYQVMETKSMLYLVTEYAKNGEIFDYLANHGRLNESEARRKFWQILSAVDYCHGRKIVHRDLKAENLLLDNNMNIKIADFGFGNFFKSGELLATWCGSPPYAAPEVFEGQQYEGPQLDIWSMGVVLYVLVCGALPFDGPTLPILRQRVLEGRFRIPYFMSEDCEHLIRRMLVLDPSKRLTIAQIKEHKWMLIEVPVQRPVLYPQEQENEPSIGEFNEQVLRLMHSLGIDQQKTIESLQNKSYNHFAAIYFLLVERLKSHRSSFPVEQRLDGRQRRPSTIAEQTVAKAQTVGLPVTMHSPNMRLLRSALLPQASNVEAFSFPASGCQAEAAFMEEECVDTPKVNGCLLDPVPPVLVRKGCQSLPSNMMETSIDEGLETEGEAEEDPAHAFEAFQSTRSGQRRHTLSEVTNQLVVMPGAGKIFSMNDSPSLDSVDSEYDMGSVQRDLNFLEDNPSLKDIMLANQPSPRMTSPFISLRPTNPAMQALSSQKREVHNRSPVSFREGRRASDTSLTQGIVAFRQHLQNLARTKGILELNKVQLLYEQIGPEADPNLAPAAPQLQDLASSCPQEEVSQQQESVSTLPASVHPQLSPRQSLETQYLQHRLQKPSLLSKAQNTCQLYCKEPPRSLEQQLQEHRLQQKRLFLQKQSQLQAYFNQMQIAESSYPQPSQQLPLPRQETPPPSQQAPPFSLTQPLSPVLEPSSEQMQYSPFLSQYQEMQLQPLPSTSGPRAAPPLPTQLQQQQPPPPPPPPPPRQPGAAPAPLQFSYQTCELPSAASPAPDYPTPCQYPVDGAQQSDLTGPDCPRSPGLQEAPSSYDPLALSELPGLFDCEMLDAVDPQHNGYVLVN
+Q96L34,MARK4,MSSRTVLAPGNDRNSDTHGTLGSGRSSDKGPSWSSRSLGARCRNSIASCPEEQPHVGNYRLLRTIGKGNFAKVKLARHILTGREVAIKIIDKTQLNPSSLQKLFREVRIMKGLNHPNIVKLFEVIETEKTLYLVMEYASAGEVFDYLVSHGRMKEKEARAKFRQIVSAVHYCHQKNIVHRDLKAENLLLDAEANIKIADFGFSNEFTLGSKLDTFCGSPPYAAPELFQGKKYDGPEVDIWSLGVILYTLVSGSLPFDGHNLKELRERVLRGKYRVPFYMSTDCESILRRFLVLNPAKRCTLEQIMKDKWINIGYEGEELKPYTEPEEDFGDTKRIEVMVGMGYTREEIKESLTSQKYNEVTATYLLLGRKTEEGGDRGAPGLALARVRAPSDTTNGTSSSKGTSHSKGQRSSSSTYHRQRRHSDFCGPSPAPLHPKRSPTSTGEAELKEERLPGRKASCSTAGSGSRGLPPSSPMVSSAHNPNKAEIPERRKDSTSTPNNLPPSMMTRRNTYVCTERPGAERPSLLPNGKENSSGTPRVPPASPSSHSLAPPSGERSRLARGSTIRSTFHGGQVRDRRAGGGGGGGVQNGPPASPTLAHEAAPLPAGRPRPTTNLFTKLTSKLTRRVADEPERIGGPEVTSCHLPWDQTETAPRLLRFPWSVKLTSSRPPEALMAALRQATAAARCRCRQPQPFLLACLHGGAGGPEPLSHFEVEVCQLPRPGLRGVLFRRVAGTALAFRTLVTRISNDLEL
+Q6XUX3,DSTYK,MEGDGVPWGSEPVSGPGPGGGGMIRELCRGFGRYRRYLGRLRQNLRETQKFFRDIKCSHNHTCLSSLTGGGGAERGPAGDVAETGLQAGQLSCISFPPKEEKYLQQIVDCLPCILILGQDCNVKCQLLNLLLGVQVLPTTKLGSEESCKLRRLRFTYGTQTRVSLALPGQYELVHTLVAHQGNWETIPEEDLEVQENNEDAAHVLAELEVTMHHALLQEVDVVVAPCQGLRPTVDVLGDLVNDFLPVITYALHKDELSERDEQELQEIRKYFSFPVFFFKVPKLGSEIIDSSTRRMESERSPLYRQLIDLGYLSSSHWNCGAPGQDTKAQSMLVEQSEKLRHLSTFSHQVLQTRLVDAAKALNLVHCHCLDIFINQAFDMQRDLQITPKRLEYTRKKENELYESLMNIANRKQEEMKDMIVETLNTMKEELLDDATNMEFKDVIVPENGEPVGTREIKCCIRQIQELIISRLNQAVANKLISSVDYLRESFVGTLERCLQSLEKSQDVSVHITSNYLKQILNAAYHVEVTFHSGSSVTRMLWEQIKQIIQRITWVSPPAITLEWKRKVAQEAIESLSASKLAKSICSQFRTRLNSSHEAFAASLRQLEAGHSGRLEKTEDLWLRVRKDHAPRLARLSLESCSLQDVLLHRKPKLGQELGRGQYGVVYLCDNWGGHFPCALKSVVPPDEKHWNDLALEFHYMRSLPKHERLVDLHGSVIDYNYGGGSSIAVLLIMERLHRDLYTGLKAGLTLETRLQIALDVVEGIRFLHSQGLVHRDIKLKNVLLDKQNRAKITDLGFCKPEAMMSGSIVGTPIHMAPELFTGKYDNSVDVYAFGILFWYICSGSVKLPEAFERCASKDHLWNNVRRGARPERLPVFDEECWQLMEACWDGDPLKRPLLGIVQPMLQGIMNRLCKSNSEQPNRGLDDST
+Q96S38,RPS6KC1,MTSYRERSADLARFYTVTEPQRHPRGYTVYKVTARVVSRRNPEDVQEIIVWKRYSDFKKLHKELWQIHKNLFRHSELFPPFAKGIVFGRFDETVIEERRQCAEDLLQFSANIPALYNSKQLEDFFKGGIINDSSELIGPAEAHSDSLIDTFPECSTEGFSSDSDLVSLTVDVDSLAELDDGMASNQNSPIRTFGLNLSSDSSALGAVASDSEQSKTEEERESRSLFPGSLKPKLGKRDYLEKAGELIKLALKKEEEDDYEAASDFYRKGVDLLLEGVQGESSPTRREAVKRRTAEYLMRAESISSLYGKPQLDDVSQPPGSLSSRPLWNLRSPAEELKAFRVLGVIDKVLLVMDTRTEQTFILKGLRKSSEYSRNRKTIIPRCVPNMVCLHKYIISEESVFLVLQHAEGGKLWSYISKFLNRSPEESFDIKEVKKPTLAKVHLQQPTSSPQDSSSFESRGSDGGSMLKALPLKSSLTPSSQDDSNQEDDGQDSSPKWPDSGSSSEEECTTSYLTLCNEYGQEKIEPGSLNEEPFMKTEGNGVDTKAIKSFPAHLAADSDSPSTQLRAHELKFFPNDDPEAVSSPRTSDSLSRSKNSPMEFFRIDSKDSASELLGLDFGEKLYSLKSEPLKPFFTLPDGDSASRSFNTSESKVEFKAQDTISRGSDDSVPVISFKDAAFDDVSGTDEGRPDLLVNLPGELESTREAAAMGPTKFTQTNIGIIENKLLEAPDVLCLRLSTEQCQAHEEKGIEELSDPSGPKSYSITEKHYAQEDPRMLFVAAVDHSSSGDMSLLPSSDPKFQGLGVVESAVTANNTEESLFRICSPLSGANEYIASTDTLKTEEVLLFTDQTDDLAKEEPTSLFQRDSETKGESGLVLEGDKEIHQIFEDLDKKLALASRFYIPEGCIQRWAAEMVVALDALHREGIVCRDLNPNNILLNDRGHIQLTYFSRWSEVEDSCDSDAIERMYCAPEVGAITEETEACDWWSLGAVLFELLTGKTLVECHPAGINTHTTLNMPECVSEEARSLIQQLLQFNPLERLGAGVAGVEDIKSHPFFTPVDWAELMR
+Q9UK32,RPS6KA6,MLPFAPQDEPWDREMEVFSGGGASSGEVNGLKMVDEPMEEGEADSCHDEGVVKEIPITHHVKEGYEKADPAQFELLKVLGQGSFGKVFLVRKKTGPDAGQLYAMKVLKKASLKVRDRVRTKMERDILVEVNHPFIVKLHYAFQTEGKLYLILDFLRGGDVFTRLSKEVLFTEEDVKFYLAELALALDHLHQLGIVYRDLKPENILLDEIGHIKLTDFGLSKESVDQEKKAYSFCGTVEYMAPEVVNRRGHSQSADWWSYGVLMFEMLTGTLPFQGKDRNETMNMILKAKLGMPQFLSAEAQSLLRMLFKRNPANRLGSEGVEEIKRHLFFANIDWDKLYKREVQPPFKPASGKPDDTFCFDPEFTAKTPKDSPGLPASANAHQLFKGFSFVATSIAEEYKITPITSANVLPIVQINGNAAQFGEVYELKEDIGVGSYSVCKRCIHATTNMEFAVKIIDKSKRDPSEEIEILMRYGQHPNIITLKDVFDDGRYVYLVTDLMKGGELLDRILKQKCFSEREASDILYVISKTVDYLHCQGVVHRDLKPSNILYMDESASADSIRICDFGFAKQLRGENGLLLTPCYTANFVAPEVLMQQGYDAACDIWSLGVLFYTMLAGYTPFANGPNDTPEEILLRIGNGKFSLSGGNWDNISDGAKDLLSHMLHMDPHQRYTAEQILKHSWITHRDQLPNDQPKRNDVSHVVKGAMVATYSALTHKTFQPVLEPVAASSLAQRRSMKKRTSTGL
+Q9NSY0,NRBP2,MAAPEPAPRRAREREREREDESEDESDILEESPCGRWQKRREQVNQGNMPGLQSTFLAMDTEEGVEVVWNELHFGDRKAFAAHEEKIQTVFEQLVLVDHPNIVKLHKYWLDTSEACARVIFITEYVSSGSLKQFLKKTKKNHKAMNARAWKRWCTQILSALSFLHACSPPIIHGNLTSDTIFIQHNGLIKIGSVWHRIFSNALPDDLRSPIRAEREELRNLHFFPPEYGEVADGTAVDIFSFGMCALEMAVLEIQTNGDTRVTEEAIARARHSLSDPNMREFILCCLARDPARRPSAHSLLFHRVLFEVHSLKLLAAHCFIQHQYLMPENVVEEKTKAMDLHAVLAELPRPRRPPLQWRYSEVSFMELDKFLEDVRNGIYPLMNFAATRPLGLPRVLAPPPEEVQKAKTPTPEPFDSETRKVIQMQCNLERSEDKARWHLTLLLVLEDRLHRQLTYDLLPTDSAQDLASELVHYGFLHEDDRMKLAAFLESTFLKYRGTQA
+Q8NE28,STKLD1,MLGPGSNRRRPTQGERGPGSPGEPMEKYQVLYQLNPGALGVNLVVEEMETKVKHVIKQVECMDDHYASQALEELMPLLKLRHAHISVYQELFITWNGEISSLYLCLVMEFNELSFQEVIEDKRKAKKIIDSEWMQNVLGQVLDALEYLHHLDIIHRNLKPSNIILISSDHCKLQDLSSNVLMTDKAKWNIRAEEDPFRKSWMAPEALNFSFSQKSDIWSLGCIILDMTSCSFMDGTEAMHLRKSLRQSPGSLKAVLKTMEEKQIPDVETFRNLLPLMLQIDPSDRITIKDVVHITFLRGSFKSSCVSLTLHRQMVPASITDMLLEGNVASILEVMQKFSGWPEVQLRAMKRLLKMPADQLGLPWPPELVEVVVTTMELHDRVLDVQLCACSLLLHLLGQALVHHPEAKAPCNQAITSTLLSALQSHPEEEPLLVMVYSLLAITTTQESESLSEELQNAGLLEHILEHLNSSLESRDVCASGLGLLWALLLDGIIVNKAPLEKVPDLISQVLATYPADGEMAEASCGVFWLLSLLGCIKEQQFEQVVALLLQSIRLCQDRALLVNNAYRGLASLVKVSELAAFKVVVQEEGGSGLSLIKETYQLHRDDPEVVENVGMLLVHLASYEEILPELVSSSMKALLQEIKERFTSSLVSDSSAFSKPGLPPGGSPQLGCTTSGGLE
+Q9HBY8,SGK2,MNSSPAGTPSPQPSRANGNINLGPSANPNAQPTDFDFLKVIGKGNYGKVLLAKRKSDGAFYAVKVLQKKSILKKKEQSHIMAERSVLLKNVRHPFLVGLRYSFQTPEKLYFVLDYVNGGELFFHLQRERRFLEPRARFYAAEVASAIGYLHSLNIIYRDLKPENILLDCQGHVVLTDFGLCKEGVEPEDTTSTFCGTPEYLAPEVLRKEPYDRAVDWWCLGAVLYEMLHGLPPFYSQDVSQMYENILHQPLQIPGGRTVAACDLLQSLLHKDQRQRLGSKADFLEIKNHVFFSPINWDDLYHKRLTPPFNPNVTGPADLKHFDPEFTQEAVSKSIGCTPDTVASSSGASSAFLGFSYAPEDDDILDC
+Q9BXA6,TSSK6,MSGDKLLSELGYKLGRTIGEGSYSKVKVATSKKYKGTVAIKVVDRRRAPPDFVNKFLPRELSILRGVRHPHIVHVFEFIEVCNGKLYIVMEAAATDLLQAVQRNGRIPGVQARDLFAQIAGAVRYLHDHHLVHRDLKCENVLLSPDERRVKLTDFGFGRQAHGYPDLSTTYCGSAAYASPEVLLGIPYDPKKYDVWSMGVVLYVMVTGCMPFDDSDIAGLPRRQKRGVLYPEGLELSERCKALIAELLQFSPSARPSAGQVARNCWLRAGDSG
+Q96BR1,SGK3,MQRDHTMDYKESCPSVSIPSSDEHREKKKRFTVYKVLVSVGRSEWFVFRRYAEFDKLYNTLKKQFPAMALKIPAKRIFGDNFDPDFIKQRRAGLNEFIQNLVRYPELYNHPDVRAFLQMDSPKHQSDPSEDEDERSSQKLHSTSQNINLGPSGNPHAKPTDFDFLKVIGKGSFGKVLLAKRKLDGKFYAVKVLQKKIVLNRKEQKHIMAERNVLLKNVKHPFLVGLHYSFQTTEKLYFVLDFVNGGELFFHLQRERSFPEHRARFYAAEIASALGYLHSIKIVYRDLKPENILLDSVGHVVLTDFGLCKEGIAISDTTTTFCGTPEYLAPEVIRKQPYDNTVDWWCLGAVLYEMLYGLPPFYCRDVAEMYDNILHKPLSLRPGVSLTAWSILEELLEKDRQNRLGAKEDFLEIQNHPFFESLSWADLVQKKIPPPFNPNVAGPDDIRNFDTAFTEETVPYSVCVSSDYSIVNASVLEADDAFVGFSYAPPSEDLFL
+Q5TCY1,TTBK1,MQCLAAALKDETNMSGGGEQADILPANYVVKDRWKVLKKIGGGGFGEIYEAMDLLTRENVALKVESAQQPKQVLKMEVAVLKKLQGKDHVCRFIGCGRNEKFNYVVMQLQGRNLADLRRSQPRGTFTLSTTLRLGKQILESIEAIHSVGFLHRDIKPSNFAMGRLPSTYRKCYMLDFGLARQYTNTTGDVRPPRNVAGFRGTVRYASVNAHKNREMGRHDDLWSLFYMLVEFAVGQLPWRKIKDKEQVGMIKEKYEHRMLLKHMPSEFHLFLDHIASLDYFTKPDYQLIMSVFENSMKERGIAENEAFDWEKAGTDALLSTSTSTPPQQNTRQTAAMFGVVNVTPVPGDLLRENTEDVLQGEHLSDQENAPPILPGRPSEGLGPSPHLVPHPGGPEAEVWEETDVNRNKLRINIGKSPCVEEEQSRGMGVPSSPVRAPPDSPTTPVRSLRYRRVNSPESERLSTADGRVELPERRSRMDLPGSPSRQACSSQPAQMLSVDTGHADRQASGRMDVSASVEQEALSNAFRSVPLAEEEDFDSKEWVIIDKETELKDFPPGAEPSTSGTTDEEPEELRPLPEEGEERRRLGAEPTVRPRGRSMQALAEEDLQHLPPQPLPPQLSQGDGRSETSQPPTPGSPSHSPLHSGPRPRRRESDPTGPQRQVFSVAPPFEVNGLPRAVPLSLPYQDFKRDLSDYRERARLLNRVRRVGFSHMLLTTPQVPLAPVQPQANGKEEEEEEEEDEEEEEEDEEEEEEEEEEEEEEEEEEEEEEEAAAAVALGEVLGPRSGSSSEGSERSTDRSQEGAPSTLLADDQKESRGRASMADGDLEPEEGSKTLVLVSPGDMKKSPVTAELAPDPDLGTLAALTPQHERPQPTGSQLDVSEPGTLSSVLKSEPKPPGPGAGLGAGTVTTGVGGVAVTSSPFTKVERTFVHIAEKTHLNVMSSGGQALRSEEFSAGGELGLELASDGGAVEEGARAPLENGLALSGLNGAEIEGSALSGAPRETPSEMATNSLPNGPALADGPAPVSPLEPSPEKVATISPRRHAMPGSRPRSRIPVLLSEEDTGSEPSGSLSAKERWSKRARPQQDLARLVMEKRQGRLLLRLASGASSSSSEEQRRASETLSGTGSEEDTPASEPAAALPRKSGRAAATRSRIPRPIGLRMPMPVAAQQPASRSHGAAPALDTAITSRLQLQTPPGSATAADLRPKQPPGRGLGPGRAQAGARPPAPRSPRLPASTSAARNASASPRSQSLSRRESPSPSHQARPGVPPPRGVPPARAQPDGTPSPGGSKKGPRGKLQAQRATTKGRAGGAEGRAGAR
+Q8N568,DCLK2,MASTRSIELEHFEERDKRPRPGSRRGAPSSSGGSSSSGPKGNGLIPSPAHSAHCSFYRTRTLQALSSEKKAKKARFYRNGDRYFKGLVFAISSDRFRSFDALLIELTRSLSDNVNLPQGVRTIYTIDGSRKVTSLDELLEGESYVCASNEPFRKVDYTKNINPNWSVNIKGGTSRALAAASSVKSEVKESKDFIKPKLVTVIRSGVKPRKAVRILLNKKTAHSFEQVLTDITEAIKLDSGVVKRLCTLDGKQVTCLQDFFGDDDVFIACGPEKFRYAQDDFVLDHSECRVLKSSYSRSSAVKYSGSKSPGPSRRSKSPASVNGTPSSQLSTPKSTKSSSSSPTSPGSFRGLKQISAHGRSSSNVNGGPELDRCISPEGVNGNRCSESSTLLEKYKIGKVIGDGNFAVVKECIDRSTGKEFALKIIDKAKCCGKEHLIENEVSILRRVKHPNIIMLVEEMETATELFLVMELVKGGDLFDAITSSTKYTERDGSAMVYNLANALRYLHGLSIVHRDIKPENLLVCEYPDGTKSLKLGDFGLATVVEGPLYTVCGTPTYVAPEIIAETGYGLKVDIWAAGVITYILLCGFPPFRSENNLQEDLFDQILAGKLEFPAPYWDNITDSAKELISQMLQVNVEARCTAGQILSHPWVSDDASQENNMQAEVTGKLKQHFNNALPKQNSTTTGVSVIMNTALDKEGQIFCSKHCQDSGRPGMEPISPVPPSVEEIPVPGEAVPAPTPPESPTPHPPPAAPGGERAGTWRRHRD
+Q7Z7A4,PXK,MAFMEKPPAGKVLLDDTVPLTAAIEASQSLQSHTEYIIRVQRGISVENSWQIVRRYSDFDLLNNSLQIAGLSLPLPPKKLIGNMDREFIAERQKGLQNYLNVITTNHILSNCELVKKFLDPNNYSANYTEIALQQVSMFFRSEPKWEVVEPLKDIGWRIRKKYFLMKIKNQPKERLVLSWADLGPDKYLSDKDFQCLIKLLPSCLHPYIYRVTFATANESSALLIRMFNEKGTLKDLIYKAKPKDPFLKKYCNPKKIQGLELQQIKTYGRQILEVLKFLHDKGFPYGHLHASNVMLDGDTCRLLDLENSLLGLPSFYRSYFSQFRKINTLESVDVHCFGHLLYEMTYGRPPDSVPVDSFPPAPSMAVVAVLESTLSCEACKNGMPTISRLLQMPLFSDVLLTTSEKPQFKIPTKLKEALRIAKECIEKRLIEEQKQIHQHRRLTRAQSHHGSEEERKKRKILARKKSKRSALENSEEHSAKYSNSNNSAGSGASSPLTSPSSPTPPSTSGISALPPPPPPPPPPAAPLPPASTEAPAQLSSQAVNGMSRGALLSSIQNFQKGTLRKAKTCDHSAPKIG
+Q96KB5,PBK,MEGISNFKTPSKLSEKKKSVLCSTPTINIPASPFMQKLGFGTGVNVYLMKRSPRGLSHSPWAVKKINPICNDHYRSVYQKRLMDEAKILKSLHHPNIVGYRAFTEANDGSLCLAMEYGGEKSLNDLIEERYKASQDPFPAAIILKVALNMARGLKYLHQEKKLLHGDIKSSNVVIKGDFETIKICDVGVSLPLDENMTVTDPEACYIGTEPWKPKEAVEENGVITDKADIFAFGLTLWEMMTLSIPHINLSNDDDDEDKTFDESDFDDEAYYAALGTRPPINMEELDESYQKVIELFSVCTNEDPKDRPSAAHIVEALETDV
+Q6J9G0,STYK1,MGMTRMLLECSLSDKLCVIQEKQYEVIIVPTLLVTIFLILLGVILWLFIREQRTQQQRSGPQGIAPVPPPRDLSWEAGHGGNVALPLKETSVENFLGATTPALAKLQVPREQLSEVLEQICSGSCGPIFRANMNTGDPSKPKSVILKALKEPAGLHEVQDFLGRIQFHQYLGKHKNLVQLEGCCTEKLPLYMVLEDVAQGDLLSFLWTCRRDVMTMDGLLYDLTEKQVYHIGKQVLLALEFLQEKHLFHGDVAARNILMQSDLTAKLCGLGLAYEVYTRGAISSTQTIPLKWLAPERLLLRPASIRADVWSFGILLYEMVTLGAPPYPEVPPTSILEHLQRRKIMKRPSSCTHTMYSIMKSCWRWREADRPSPRELRLRLEAAIKTADDEAVLQVPELVVPELYAAVAGIRVESLFYNYSML
+Q9UHD2,TBK1,MQSTSNHLWLLSDILGQGATANVFRGRHKKTGDLFAIKVFNNISFLRPVDVQMREFEVLKKLNHKNIVKLFAIEEETTTRHKVLIMEFCPCGSLYTVLEEPSNAYGLPESEFLIVLRDVVGGMNHLRENGIVHRDIKPGNIMRVIGEDGQSVYKLTDFGAARELEDDEQFVSLYGTEEYLHPDMYERAVLRKDHQKKYGATVDLWSIGVTFYHAATGSLPFRPFEGPRRNKEVMYKIITGKPSGAISGVQKAENGPIDWSGDMPVSCSLSRGLQVLLTPVLANILEADQEKCWGFDQFFAETSDILHRMVIHVFSLQQMTAHKIYIHSYNTATIFHELVYKQTKIISSNQELIYEGRRLVLEPGRLAQHFPKTTEENPIFVVSREPLNTIGLIYEKISLPKVHPRYDLDGDASMAKAITGVVCYACRIASTLLLYQELMRKGIRWLIELIKDDYNETVHKKTEVVITLDFCIRNIEKTVKVYEKLMKINLEAAELGEISDIHTKLLRLSSSQGTIETSLQDIDSRLSPGGSLADAWAHQEGTHPKDRNVEKLQVLLNCMTEIYYQFKKDKAERRLAYNEEQIHKFDKQKLYYHATKAMTHFTDECVKKYEAFLNKSEEWIRKMLHLRKQLLSLTNQCFDIEEEVSKYQEYTNELQETLPQKMFTASSGIKHTMTPIYPSSNTLVEMTLGMKKLKEEMEGVVKELAENNHILERFGSLTMDGGLRNVDCL
+Q96S53,TESK2,MDRSKRNSIAGFPPRVERLEEFEGGGGGEGNVSQVGRVWPSSYRALISAFSRLTRLDDFTCEKIGSGFFSEVFKVRHRASGQVMALKMNTLSSNRANMLKEVQLMNRLSHPNILRFMGVCVHQGQLHALTEYINSGNLEQLLDSNLHLPWTVRVKLAYDIAVGLSYLHFKGIFHRDLTSKNCLIKRDENGYSAVVADFGLAEKIPDVSMGSEKLAVVGSPFWMAPEVLRDEPYNEKADVFSYGIILCEIIARIQADPDYLPRTENFGLDYDAFQHMVGDCPPDFLQLTFNCCNMDPKLRPSFVEIGKTLEEILSRLQEEEQERDRKLQPTARGLLEKAPGVKRLSSLDDKIPHKSPCPRRTIWLSRSQSDIFSRKPPRTVSVLDPYYRPRDGAARTPKVNPFSARQDLMGGKIKFFDLPSKSVISLVFDLDAPGPGTMPLADWQEPLAPPIRRWRSLPGSPEFLHQEACPFVGREESLSDGPPPRLSSLKYRVKEIPPFRASALPAAQAHEAMDCSILQEENGFGSRPQGTSPCPAGASEEMEVEERPAGSTPATFSTSGIGLQTQGKQDG
+O60229,KALRN,MTDRFWDQWYLWYLRLLRLLDRGSFRNDGLKASDVLPILKEKVAFVSGGRDKRGGPILTFPARSNHDRIRQEDLRKLVTYLASVPSEDVCKRGFTVIIDMRGSKWDLIKPLLKTLQEAFPAEIHVALIIKPDNFWQKQKTNFGSSKFIFETSMVSVEGLTKLVDPSQLTEEFDGSLDYNHEEWIELRLSLEEFFNSAVHLLSRLEDLQEMLARKEFPVDVEGSRRLIDEHTQLKKKVLKAPVEELDREGQRLLQCIRCSDGFSGRNCIPGSADFQSLVPKITSLLDKLHSTRQHLHQMWHVRKLKLDQCFQLRLFEQDAEKMFDWISHNKELFLQSHTEIGVSYQYALDLQTQHNHFAMNSMNAYVNINRIMSVASRLSEAGHYASQQIKQISTQLDQEWKSFAAALDERSTILAMSAVFHQKAEQFLSGVDAWCKMCSEGGLPSEMQDLELAIHHHQTLYEQVTQAYTEVSQDGKALLDVLQRPLSPGNSESLTATANYSKAVHQVLDVVHEVLHHQRRLESIWQHRKVRLHQRLQLCVFQQDVQQVLDWIENHGEAFLSKHTGVGKSLHRARALQKRHDDFEEVAQNTYTNADKLLEAAEQLAQTGECDPEEIYKAARHLEVRIQDFVRRVEQRKLLLDMSVSFHTHTKELWTWMEDLQKEMLEDVCADSVDAVQELIKQFQQQQTATLDATLNVIKEGEDLIQQLRSAPPSLGEPSEARDSAVSNNKTPHSSSISHIESVLQQLDDAQVQMEELFHERKIKLDIFLQLRIFEQYTIEVTAELDAWNEDLLRQMNDFNTEDLTLAEQRLQRHTERKLAMNNMTFEVIQQGQDLHQYITEVQASGIELICEKDIDLAAQVQELLEFLHEKQHELELNAEQTHKRLEQCLQLRHLQAEVKQVLGWIRNGESMLNASLVNASSLSEAEQLQREHEQFQLAIESLFHATSLQKTHQSALQVQQKAEVLLQAGHYDADAIRECAEKVALHWQQLMLKMEDRLKLVNASVAFYKTSEQVCSVLESLEQEYRRDEDWCGGRDKLGPAAEIDHVIPLISKHLEQKEAFLKACTLARRNAEVFLKYIHRNNVSMPSVASHTRGPEQQVKAILSELLQRENRVLHFWTLKKRRLDQCQQYVVFERSAKQALDWIQETGEFYLSTHTSTGETTEETQELLKEYGEFRVPAKQTKEKVKLLIQLADSFVEKGHIHATEIRKWVTTVDKHYRDFSLRMGKYRYSLEKALGVNTEDNKDLELDIIPASLSDREVKLRDANHEVNEEKRKSARKKEFIMAELLQTEKAYVRDLHECLETYLWEMTSGVEEIPPGILNKEHIIFGNIQEIYDFHNNIFLKELEKYEQLPEDVGHCFVTWADKFQMYVTYCKNKPDSNQLILEHAGTFFDEIQQRHGLANSISSYLIKPVQRITKYQLLLKELLTCCEEGKGELKDGLEVMLSVPKKANDAMHVSMLEGFDENLDVQGELILQDAFQVWDPKSLIRKGRERHLFLFEISLVFSKEIKDSSGHTKYVYKNKLLTSELGVTEHVEGDPCKFALWSGRTPSSDNKTVLKASNIETKQEWIKNIREVIQERIIHLKGALKEPLQLPKTPAKQRNNSKRDGVEDIDSQGDGSSQPDTISIASRTSQNTVDSDKLSGGCELTVVLQDFSAGHSSELTIQVGQTVELLERPSERPGWCLVRTTERSPPLEGLVPSSALCISHSRSSVEMDCFFPLVKDAYSHSSSENGGKSESVANLQAQPSLNSIHSSPGPKRSTNTLKKWLTSPVRRLNSGKADGNIKKQKKVRDGRKSFDLGSPKPGDETTPQGDSADEKSKKGWGEDEPDEESHTPLPPPMKIFDNDPTQDEMSSSLLAARQASTEVPTAADLVNAIEKLVKNKLSLEGSSYRGSLKDPAGCLNEGMAPPTPPKNPEEEQKAKALRGRMFVLNELVQTEKDYVKDLGIVVEGFMKRIEEKGVPEDMRGKDKIVFGNIHQIYDWHKDFFLAELEKCIQEQDRLAQLFIKHERKLHIYVWYCQNKPRSEYIVAEYDAYFEEVKQEINQRLTLSDFLIKPIQRITKYQLLLKDFLRYSEKAGLECSDIEKAVELMCLVPKRCNDMMNLGRLQGFEGTLTAQGKLLQQDTFYVIELDAGMQSRTKERRVFLFEQIVIFSELLRKGSLTPGYMFKRSIKMNYLVLEENVDNDPCKFALMNRETSERVVLQAANADIQQAWVQDINQVLETQRDFLNALQSPIEYQRKERSTAVMRSQPARLPQASPRPYSSVPAGSEKPPKGSSYNPPLPPLKISTSNGSPGFEYHQPGDKFEASKQNDLGGCNGTSSMAVIKDYYALKENEICVSQGEVVQVLAVNQQNMCLVYQPASDHSPAAEGWVPGSILAPLTKATAAESSDGSIKKSCSWHTLRMRKRAEVENTGKNEATGPRKPKDILGNKVSVKETNSSEESECDDLDPNTSMEILNPNFIQEVAPEFLVPLVDVTCLLGDTVILQCKVCGRPKPTITWKGPDQNILDTDNSSATYTVSSCDSGEITLKICNLMPQDSGIYTCIATNDHGTTSTSATVKVQGVPAAPNRPIAQERSCTSVILRWLPPSSTGNCTISGYTVEYREEGSQIWQQSVASTLDTYLVIEDLSPGCPYQFRVSASNPWGISLPSEPSEFVRLPEYDAAADGATISWKENFDSAYTELNEIGRGRFSIVKKCIHKATRKDVAVKFVSKKMKKKEQAAHEAALLQHLQHPQYITLHDTYESPTSYILILELMDDGRLLDYLMNHDELMEEKVAFYIRDIMEALQYLHNCRVAHLDIKPENLLIDLRIPVPRVKLIDLEDAVQISGHFHIHHLLGNPEFAAPEVIQGIPVSLGTDIWSIGVLTYVMLSGVSPFLDESKEETCINVCRVDFSFPHEYFCGVSNAARDFINVILQEDFRRRPTAATCLQHPWLQPHNGSYSKIPLDTSRLACFIERRKHQNDVRPIPNVKSYIVNRVNQGT
+Q6SA08,TSSK4,MGKGDVLEAAPTTTAYHSLMDEYGYEVGKAIGHGSYGSVYEAFYTKQKVMVAVKIISKKKASDDYLNKFLPREIQVMKVLRHKYLINFYRAIESTSRVYIILELAQGGDVLEWIQRYGACSEPLAGKWFSQLTLGIAYLHSKSIVHRDLKLENLLLDKWENVKISDFGFAKMVPSNQPVGCSPSYRQVNCFSHLSQTYCGSFAYACPEILRGLPYNPFLSDTWSMGVILYTLVVAHLPFDDTNLKKLLRETQKEVTFPANHTISQECKNLILQMLRQATKRATILDIIKDSWVLKFQPEQPTHEIRLLEAMCQLHNTTKQHQSLQITT
+Q8IV63,VRK3,MISFCPDCGKSIQAAFKFCPYCGNSLPVEEHVGSQTFVNPHVSSFQGSKRGLNSSFETSPKKVKWSSTVTSPRLSLFSDGDSSESEDTLSSSERSKGSGSRPPTPKSSPQKTRKSPQVTRGSPQKTSCSPQKTRQSPQTLKRSRVTTSLEALPTGTVLTDKSGRQWKLKSFQTRDNQGILYEAAPTSTLTCDSGPQKQKFSLKLDAKDGRLFNEQNFFQRAAKPLQVNKWKKLYSTPLLAIPTCMGFGVHQDKYRFLVLPSLGRSLQSALDVSPKHVLSERSVLQVACRLLDALEFLHENEYVHGNVTAENIFVDPEDQSQVTLAGYGFAFRYCPSGKHVAYVEGSRSPHEGDLEFISMDLHKGCGPSRRSDLQSLGYCMLKWLYGFLPWTNCLPNTEDIMKQKQKFVDKPGPFVGPCGHWIRPSETLQKYLKVVMALTYEEKPPYAMLRNNLEALLQDLRVSPYDPIGLPMVP
+Q32MK0,MYLK3,MSGTSKESLGHGGLPGLGKTCLTTMDTKLNMLNEKVDQLLHFQEDVTEKLQSMCRDMGHLERGLHRLEASRAPGPGGADGVPHIDTQAGWPEVLELVRAMQQDAAQHGARLEALFRMVAAVDRAIALVGATFQKSKVADFLMQGRVPWRRGSPGDSPEENKERVEEEGGKPKHVLSTSGVQSDAREPGEESQKADVLEGTAERLPPIRASGLGADPAQAVVSPGQGDGVPGPAQAFPGHLPLPTKVEAKAPETPSENLRTGLELAPAPGRVNVVSPSLEVAPGAGQGASSSRPDPEPLEEGTRLTPGPGPQCPGPPGLPAQARATHSGGETPPRISIHIQEMDTPGEMLMTGRGSLGPTLTTEAPAAAQPGKQGPPGTGRCLQAPGTEPGEQTPEGARELSPLQESSSPGGVKAEEEQRAGAEPGTRPSLARSDDNDHEVGALGLQQGKSPGAGNPEPEQDCAARAPVRAEAVRRMPPGAEAGSVVLDDSPAPPAPFEHRVVSVKETSISAGYEVCQHEVLGGGRFGQVHRCTEKSTGLPLAAKIIKVKSAKDREDVKNEINIMNQLSHVNLIQLYDAFESKHSCTLVMEYVDGGELFDRITDEKYHLTELDVVLFTRQICEGVHYLHQHYILHLDLKPENILCVNQTGHQIKIIDFGLARRYKPREKLKVNFGTPEFLAPEVVNYEFVSFPTDMWSVGVITYMLLSGLSPFLGETDAETMNFIVNCSWDFDADTFEGLSEEAKDFVSRLLVKEKSCRMSATQCLKHEWLNNLPAKASRSKTRLKSQLLLQKYIAQRKWKKHFYVVTAANRLRKFPTSP
+Q15772,SPEG,MQKARGTRGEDAGTRAPPSPGVPPKRAKVGAGGGAPVAVAGAPVFLRPLKNAAVCAGSDVRLRVVVSGTPQPSLRWFRDGQLLPAPAPEPSCLWLRRCGAQDAGVYSCMAQNERGRASCEAVLTVLEVGDSETAEDDISDVQGTQRLELRDDGAFSTPTGGSDTLVGTSLDTPPTSVTGTSEEQVSWWGSGQTVLEQEAGSGGGTRRLPGSPRQAQATGAGPRHLGVEPLVRASRANLVGASWGSEDSLSVASDLYGSAFSLYRGRALSIHVSVPQSGLRREEPDLQPQLASEAPRRPAQPPPSKSALLPPPSPRVGKRSPPGPPAQPAATPTSPHRRTQEPVLPEDTTTEEKRGKKSKSSGPSLAGTAESRPQTPLSEASGRLSALGRSPRLVRAGSRILDKLQFFEERRRSLERSDSPPAPLRPWVPLRKARSLEQPKSERGAPWGTPGASQEELRAPGSVAERRRLFQQKAASLDERTRQRSPASDLELRFAQELGRIRRSTSREELVRSHESLRATLQRAPSPREPGEPPLFSRPSTPKTSRAVSPAAAQPPSPSSAEKPGDEPGRPRSRGPAGRTEPGEGPQQEVRRRDQFPLTRSRAIQECRSPVPPPAADPPEARTKAPPGRKREPPAQAVRFLPWATPGLEGAAVPQTLEKNRAGPEAEKRLRRGPEEDGPWGPWDRRGARSQGKGRRARPTSPELESSDDSYVSAGEEPLEAPVFEIPLQNVVVAPGADVLLKCIITANPPPQVSWHKDGSALRSEGRLLLRAEGERHTLLLREARAADAGSYMATATNELGQATCAASLTVRPGGSTSPFSSPITSDEEYLSPPEEFPEPGETWPRTPTMKPSPSQNRRSSDTGSKAPPTFKVSLMDQSVREGQDVIMSIRVQGEPKPVVSWLRNRQPVRPDQRRFAEEAEGGLCRLRILAAERGDAGFYTCKAVNEYGARQCEARLEVRAHPESRSLAVLAPLQDVDVGAGEMALFECLVAGPTDVEVDWLCRGRLLQPALLKCKMHFDGRKCKLLLTSVHEDDSGVYTCKLSTAKDELTCSARLTVRPSLAPLFTRLLEDVEVLEGRAARFDCKISGTPPPVVTWTHFGCPMEESENLRLRQDGGLHSLHIAHVGSEDEGLYAVSAVNTHGQAHCSAQLYVEEPRTAASGPSSKLEKMPSIPEEPEQGELERLSIPDFLRPLQDLEVGLAKEAMLECQVTGLPYPTISWFHNGHRIQSSDDRRMTQYRDVHRLVFPAVGPQHAGVYKSVIANKLGKAACYAHLYVTDVVPGPPDGAPQVVAVTGRMVTLTWNPPRSLDMAIDPDSLTYTVQHQVLGSDQWTALVTGLREPGWAATGLRKGVQHIFRVLSTTVKSSSKPSPPSEPVQLLEHGPTLEEAPAMLDKPDIVYVVEGQPASVTVTFNHVEAQVVWRSCRGALLEARAGVYELSQPDDDQYCLRICRVSRRDMGALTCTARNRHGTQTCSVTLELAEAPRFESIMEDVEVGAGETARFAVVVEGKPLPDIMWYKDEVLLTESSHVSFVYEENECSLVVLSTGAQDGGVYTCTAQNLAGEVSCKAELAVHSAQTAMEVEGVGEDEDHRGRRLSDFYDIHQEIGRGAFSYLRRIVERSSGLEFAAKFIPSQAKPKASARREARLLARLQHDCVLYFHEAFERRRGLVIVTELCTEELLERIARKPTVCESEIRAYMRQVLEGIHYLHQSHVLHLDVKPENLLVWDGAAGEQQVRICDFGNAQELTPGEPQYCQYGTPEFVAPEIVNQSPVSGVTDIWPVGVVAFLCLTGISPFVGENDRTTLMNIRNYNVAFEETTFLSLSREARGFLIKVLVQDRLRPTAEETLEHPWFKTQAKGAEVSTDHLKLFLSRRRWQRSQISYKCHLVLRPIPELLRAPPERVWVTMPRRPPPSGGLSSSSDSEEEELEELPSVPRPLQPEFSGSRVSLTDIPTEDEALGTPETGAATPMDWQEQGRAPSQDQEAPSPEALPSPGQEPAAGASPRRGELRRGSSAESALPRAGPRELGRGLHKAASVELPQRRSPSPGATRLARGGLGEGEYAQRLQALRQRLLRGGPEDGKVSGLRGPLLESLGGRARDPRMARAASSEAAPHHQPPLENRGLQKSSSFSQGEAEPRGRHRRAGAPLEIPVARLGARRLQESPSLSALSEAQPSSPARPSAPKPSTPKSAEPSATTPSDAPQPPAPQPAQDKAPEPRPEPVRASKPAPPPQALQTLALPLTPYAQIIQSLQLSGHAQGPSQGPAAPPSEPKPHAAVFARVASPPPGAPEKRVPSAGGPPVLAEKARVPTVPPRPGSSLSSSIENLESEAVFEAKFKRSRESPLSLGLRLLSRSRSEERGPFRGAEEEDGIYRPSPAGTPLELVRRPERSRSVQDLRAVGEPGLVRRLSLSLSQRLRRTPPAQRHPAWEARGGDGESSEGGSSARGSPVLAMRRRLSFTLERLSSRLQRSGSSEDSGGASGRSTPLFGRLRRATSEGESLRRLGLPHNQLAAQAGATTPSAESLGSEASATSGSSAPGESRSRLRWGFSRPRKDKGLSPPNLSASVQEELGHQYVRSESDFPPVFHIKLKDQVLLEGEAATLLCLPAACPAPHISWMKDKKSLRSEPSVIIVSCKDGRQLLSIPRAGKRHAGLYECSATNVLGSITSSCTVAVARVPGKLAPPEVPQTYQDTALVLWKPGDSRAPCTYTLERRVDGESVWHPVSSGIPDCYYNVTHLPVGVTVRFRVACANRAGQGPFSNSSEKVFVRGTQDSSAVPSAAHQEAPVTSRPARARPPDSPTSLAPPLAPAAPTPPSVTVSPSSPPTPPSQALSSLKAVGPPPQTPPRRHRGLQAARPAEPTLPSTHVTPSEPKPFVLDTGTPIPASTPQGVKPVSSSTPVYVVTSFVSAPPAPEPPAPEPPPEPTKVTVQSLSPAKEVVSSPGSSPRSSPRPEGTTLRQGPPQKPYTFLEEKARGRFGVVRACRENATGRTFVAKIVPYAAEGKRRVLQEYEVLRTLHHERIMSLHEAYITPRYLVLIAESCGNRELLCGLSDRFRYSEDDVATYMVQLLQGLDYLHGHHVLHLDIKPDNLLLAPDNALKIVDFGSAQPYNPQALRPLGHRTGTLEFMAPEMVKGEPIGSATDIWGAGVLTYIMLSGRSPFYEPDPQETEARIVGGRFDAFQLYPNTSQSATLFLRKVLSVHPWSRPSLQDCLAHPWLQDAYLMKLRRQTLTFTTNRLKEFLGEQRRRRAEAATRHKVLLRSYPGGP
+Q8N752,CSNK1A1L,MTNNSGSKAELVVGGKYKLVRKIGSGSFGDVYLGITTTNGEDVAVKLESQKVKHPQLLYESKLYTILQGGVGIPHMHWYGQEKDNNVLVMDLLGPSLEDLFNFCSRRFTMKTVLMLADQMISRIEYVHTKNFLHRDIKPDNFLMGTGRHCNKLFLIDFGLAKKYRDNRTRQHIPYREDKHLIGTVRYASINAHLGIEQSRRDDMESLGYVFMYFNRTSLPWQGLRAMTKKQKYEKISEKKMSTPVEVLCKGFPAEFAMYLNYCRGLRFEEVPDYMYLRQLFRILFRTLNHQYDYTFDWTMLKQKAAQQAASSSGQGQQAQTQTGKQTEKNKNNVKDN
+P57078,RIPK4,MEGDGGTPWALALLRTFDAGEFTGWEKVGSGGFGQVYKVRHVHWKTWLAIKCSPSLHVDDRERMELLEEAKKMEMAKFRYILPVYGICREPVGLVMEYMETGSLEKLLASEPLPWDLRFRIIHETAVGMNFLHCMAPPLLHLDLKPANILLDAHYHVKISDFGLAKCNGLSHSHDLSMDGLFGTIAYLPPERIREKSRLFDTKHDVYSFAIVIWGVLTQKKPFADEKNILHIMVKVVKGHRPELPPVCRARPRACSHLIRLMQRCWQGDPRVRPTFQGNGLNGELIRQVLAALLPVTGRWRSPGEGFRLESEVIIRVTCPLSSPQEITSETEDLCEKPDDEVKETAHDLDVKSPPEPRSEVVPARLKRASAPTFDNDYSLSELLSQLDSGVSQAVEGPEELSRSSSESKLPSSGSGKRLSGVSSVDSAFSSRGSLSLSFEREPSTSDLGTTDVQKKKLVDAIVSGDTSKLMKILQPQDVDLALDSGASLLHLAVEAGQEECAKWLLLNNANPNLSNRRGSTPLHMAVERRVRGVVELLLARKISVNAKDEDQWTALHFAAQNGDESSTRLLLEKNASVNEVDFEGRTPMHVACQHGQENIVRILLRRGVDVSLQGKDAWLPLHYAAWQGHLPIVKLLAKQPGVSVNAQTLDGRTPLHLAAQRGHYRVARILIDLCSDVNVCSLLAQTPLHVAAETGHTSTARLLLHRGAGKEAMTSDGYTALHLAARNGHLATVKLLVEEKADVLARGPLNQTALHLAAAHGHSEVVEELVSADVIDLFDEQGLSALHLAAQGRHAQTVETLLRHGAHINLQSLKFQGGHGPAATLLRRSKT
+Q6P3R8,NEK5,MDKYDVIKAIGQGAFGKAYLAKGKSDSKHCVIKEINFEKMPIQEKEASKKEVILLEKMKHPNIVAFFNSFQENGRLFIVMEYCDGGDLMKRINRQRGVLFSEDQILGWFVQISLGLKHIHDRKILHRDIKAQNIFLSKNGMVAKLGDFGIARVLNNSMELARTCIGTPYYLSPEICQNKPYNNKTDIWSLGCVLYELCTLKHPFEGNNLQQLVLKICQAHFAPISPGFSRELHSLISQLFQVSPRDRPSINSILKRPFLENLIPKYLTPEVIQEEFSHMLICRAGAPASRHAGKVVQKCKIQKVRFQGKCPPRSRISVPIKRNAILHRNEWRPPAGAQKARSIKMIERPKIAAVCGHYDYYYAQLDMLRRRAHKPSYHPIPQENTGVEDYGQETRHGPSPSQWPAEYLQRKFEAQQYKLKVEKQLGLRPSSAEPNYNQRQELRSNGEEPRFQELPFRKNEMKEQEYWKQLEEIRQQYHNDMKEIRKKMGREPEENSKISHKTYLVKKSNLPVHQDASEGEAPVQMEFRSCCPGWSAMARSWLTATSASQDIEKDLKQMRLQNTKESKNPEQKYKAKKGVKFEINLDKCISDENILQEEEAMDIPNETLTFEDGMKFKEYECVKEHGDYTDKAFEKLHCPEAGFSTQTVAAVGNRRQWDGGAPQTLLQMMAVADITSTCPTGPDSESVLSVSRQEGKTKDPYSPVLILM
+Q8IU85,CAMK1D,MARENGESSSSWKKQAEDIKKIFEFKETLGTGAFSEVVLAEEKATGKLFAVKCIPKKALKGKESSIENEIAVLRKIKHENIVALEDIYESPNHLYLVMQLVSGGELFDRIVEKGFYTEKDASTLIRQVLDAVYYLHRMGIVHRDLKPENLLYYSQDEESKIMISDFGLSKMEGKGDVMSTACGTPGYVAPEVLAQKPYSKAVDCWSIGVIAYILLCGYPPFYDENDSKLFEQILKAEYEFDSPYWDDISDSAKDFIRNLMEKDPNKRYTCEQAARHPWIAGDTALNKNIHESVSAQIRKNFAKSKWRQAFNATAVVRHMRKLHLGSSLDSSNASVSSSLSLASQKDCLAPSTLCSFISSSSGVSGVGAERRPRPTTVTAVHSGSK
+Q56UN5,MAP3K19,MSSMPKPERHAESLLDICHDTNSSPTDLMTVTKNQNIILQSISRSEEFDQDGDCSHSTLVNEEEDPSGGRQDWQPRTEGVEITVTFPRDVSPPQEMSQEDLKEKNLINSSLQEWAQAHAVSHPNEIETVELRKKKLTMRPLVLQKEESSRELCNVNLGFLLPRSCLELNISKSVTREDAPHFLKEQQRKSEEFSTSHMKYSGRSIKFLLPPLSLLPTRSGVLTIPQNHKFPKEKERNIPSLTSFVPKLSVSVRQSDELSPSNEPPGALVKSLMDPTLRSSDGFIWSRNMCSFPKTNHHRQCLEKEENWKSKEIEECNKIEITHFEKGQSLVSFENLKEGNIPAVREEDIDCHGSKTRKPEEENSQYLSSRKNESSVAKNYEQDPEIVCTIPSKFQETQHSEITPSQDEEMRNNKAASKRVSLHKNEAMEPNNILEECTVLKSLSSVVFDDPIDKLPEGCSSMETNIKISIAERAKPEMSRMVPLIHITFPVDGSPKEPVIAKPSLQTRKGTIHNNHSVNIPVHQENDKHKMNSHRSKLDSKTKTSKKTPQNFVISTEGPIKPTMHKTSIKTQIFPALGLVDPRPWQLPRFQKKMPQIAKKQSTHRTQKPKKQSFPCICKNPGTQKSCVPLSVQPTEPRLNYLDLKYSDMFKEINSTANGPGIYEMFGTPVYCHVRETERDENTYYREICSAPSGRRITNKCRSSHSERKSNIRTRLSQKKTHMKCPKTSFGIKQEHKVLISKEKSSKAVHSNLHDIENGDGISEPDWQIKSSGNEFLSSKDEIHPMNLAQTPEQSMKQNEFPPVSDLSIVEEVSMEESTGDRDISNNQILTTSLRDLQELEELHHQIPFIPSEDSWAVPSEKNSNKYVQQEKQNTASLSKVNASRILTNDLEFDSVSDHSKTLTNFSFQAKQESASSQTYQYWVHYLDHDSLANKSITYQMFGKTLSGTNSISQEIMDSVNNEELTDELLGCLAAELLALDEKDNNSCQKMANETDPENLNLVLRWRGSTPKEMGRETTKVKIQRHSSGLRIYDREEKFLISNEKKIFSENSLKSEEPILWTKGEILGKGAYGTVYCGLTSQGQLIAVKQVALDTSNKLAAEKEYRKLQEEVDLLKALKHVNIVAYLGTCLQENTVSIFMEFVPGGSISSIINRFGPLPEMVFCKYTKQILQGVAYLHENCVVHRDIKGNNVMLMPTGIIKLIDFGCARRLAWAGLNGTHSDMLKSMHGTPYWMAPEVINESGYGRKSDIWSIGCTVFEMATGKPPLASMDRMAAMFYIGAHRGLMPPLPDHFSENAADFVRMCLTRDQHERPSALQLLKHSFLERSH
+Q8NG66,NEK11,MLKFQEAAKCVSGSTAISTYPKTLIARRYVLQQKLGSGSFGTVYLVSDKKAKRGEELKVLKEISVGELNPNETVQANLEAQLLSKLDHPAIVKFHASFVEQDNFCIITEYCEGRDLDDKIQEYKQAGKIFPENQIIEWFIQLLLGVDYMHERRILHRDLKSKNVFLKNNLLKIGDFGVSRLLMGSCDLATTLTGTPHYMSPEALKHQGYDTKSDIWSLACILYEMCCMNHAFAGSNFLSIVLKIVEGDTPSLPERYPKELNAIMESMLNKNPSLRPSAIEILKIPYLDEQLQNLMCRYSEMTLEDKNLDCQKEAAHIINAMQKRIHLQTLRALSEVQKMTPRERMRLRKLQAADEKARKLKKIVEEKYEENSKRMQELRSRNFQQLSVDVLHEKTHLKGMEEKEEQPEGRLSCSPQDEDEERWQGREEESDEPTLENLPESQPIPSMDLHELESIVEDATSDLGYHEIPEDPLVAEEYYADAFDSYCEESDEEEEEIALERPEKEIRNEGSQPAYRTNQQDSDIEALARCLENVLGCTSLDTKTITTMAEDMSPGPPIFNSVMARTKMKRMRESAMQKLGTEVFEEVYNYLKRARHQNASEAEIRECLEKVVPQASDCFEVDQLLYFEEQLLITMGKEPTLQNHL
+Q8WTQ7,GRK7,MVDMGALDNLIANTAYLQARKPSDCDSKELQRRRRSLALPGLQGCAELRQKLSLNFHSLCEQQPIGRRLFRDFLATVPTFRKAATFLEDVQNWELAEEGPTKDSALQGLVATCASAPAPGNPQPFLSQAVATKCQAATTEEERVAAVTLAKAEAMAFLQEQPFKDFVTSAFYDKFLQWKLFEMQPVSDKYFTEFRVLGKGGFGEVCAVQVKNTGKMYACKKLDKKRLKKKGGEKMALLEKEILEKVSSPFIVSLAYAFESKTHLCLVMSLMNGGDLKFHIYNVGTRGLDMSRVIFYSAQIACGMLHLHELGIVYRDMKPENVLLDDLGNCRLSDLGLAVEMKGGKPITQRAGTNGYMAPEILMEKVSYSYPVDWFAMGCSIYEMVAGRTPFKDYKEKVSKEDLKQRTLQDEVKFQHDNFTEEAKDICRLFLAKKPEQRLGSREKSDDPRKHHFFKTINFPRLEAGLIEPPFVPDPSVVYAKDIAEIDDFSEVRGVEFDDKDKQFFKNFATGAVPIAWQEEIIETGLFEELNDPNRPTGCEEGNSSKSGVCLLL
+P0C263,SBK2,MPGKQSEEGPAEAGASEDSEEEGLGGLTLEELQQGQEAARALEDMMTLSAQTLVRAEVDELYEEVRPLGQGCYGRVLLVTHRQKGTPLALKQLPKPRTSLRGFLYEFCVGLSLGAHSAIVTAYGIGIESAHSYSFLTEPVLHGDLMAFIQPKVGLPQPAVHRCAAQLASALEYIHARGLVYRDLKPENVLVCDPACRRFKLTDFGHTRPRGTLLRLAGPPIPYTAPELCAPPPLPEGLPIQPALDAWALGVLLFCLLTGYFPWDRPLAEADPFYEDFLIWQASGQPRDRPQPWFGLAAAADALLRGLLDPHPRRRSAVIAIREHLGRPWRQREGEAEAVGAVEEEAGQ
+Q8NE63,HIPK4,MSTIQSETDCYDIIEVLGKGTFGEVAKGWRRSTGEMVAIKILKNDAYRNRIIKNELKLLHCMRGLDPEEAHVIRFLEFFHDALKFYLVFELLEQNLFEFQKENNFAPLPARHIRTVTLQVLTALARLKELAIIHADLKPENIMLVDQTRCPFRVKVIDFGSASIFSEVRYVKEPYIQSRFYRAPEILLGLPFCEKVDVWSLGCVMAELHLGWPLYPGNNEYDQVRYICETQGLPKPHLLHAACKAHHFFKRNPHPDAANPWQLKSSADYLAETKVRPLERRKYMLKSLDQIETVNGGSVASRLTFPDREALAEHADLKSMVELIKRMLTWESHERISPSAALRHPFVSMQQLRSAHETTHYYQLSLRSYRLSLQVEGKPPTPVVAAEDGTPYYCLAEEKEAAGMGSVAGSSPFFREEKAPGMQRAIDQLDDLSLQEAGHGLWGETCTNAVSDMMVPLKAAITGHHVPDSGPEPILAFYSSRLAGRHKARKPPAGSKSDSNFSNLIRLSQVSPEDDRPCRGSSWEEGEHLGASAEPLAILQRDEDGPNIDNMTMEAERPDPELFDPSSCPGEWLSEPDCTLESVRGPRAQGLPPRRSHQHGPPRGATSFLQHVTGHH
+Q8WXR4,MYO3B,MKHLYGLFHYNPMMLGLESLPDPTDTWEIIETIGKGTYGKVYKVTNKRDGSLAAVKILDPVSDMDEEIEAEYNILQFLPNHPNVVKFYGMFYKADHCVGGQLWLVLELCNGGSVTELVKGLLRCGQRLDEAMISYILYGALLGLQHLHNNRIIHRDVKGNNILLTTEGGVKLVDFGVSAQLTSTRLRRNTSVGTPFWMAPEVIACEQQYDSSYDARCDVWSLGITAIELGDGDPPLFDMHPVKTLFKIPRNPPPTLLHPEKWCEEFNHFISQCLIKDFERRPSVTHLLDHPFIKGVHGKVLFLQKQLAKVLQDQKHQNPVAKTRHERMHTRRPYHVEDAEKYCLEDDLVNLEVLDEDTIIHQLQKRYADLLIYTYVGDILIALNPFQNLSIYSPQFSRLYHGVKRASNPPHIFASADAAYQCMVTLSKDQCIVISGESGSGKTESAHLIVQHLTFLGKANNQTLREKILQVNSLVEAFGNSCTAINDNSSRFGKYLEMMFTPTGVVMGARISEYLLEKSRVIKQAAREKNFHIFYYIYAGLHHQKKLSDFRLPEEKPPRYIADETGRVMHDITSKESYRRQFEAIQHCFRIIGFTDKEVHSVYRILAGILNIGNIEFAAISSQHQTDKSEVPNAEALQNAASVLCISPEELQEALTSHCVVTRGETIIRANTVDRAADVRDAMSKALYGRLFSWIVNRINTLLQPDENICSAGGGMNVGILDIFGFENFQRNSFEQLCINIANEQIQYYFNQHVFALEQMEYQNEGIDAVPVEYEDNRPLLDMFLQKPLGLLALLDEESRFPQATDQTLVDKFEDNLRCKYFWRPKGVELCFGIQHYAGKVLYDASGVLEKNRDTLPADVVVVLRTSENKLLQQLFSIPLTKTGNLAQTRARITVASSSLPPHFSAGKAKVDTLEVIRHPEETTNMKRQTVASYFRYSLMDLLSKMVVGQPHFVRCIKPNDDREALQFSRERVLAQLRSTGILETVSIRRQGYSHRILFEEFVKRYYYLAFTAHQTPLASKESCVAILEKSRLDHWVLGKTKVFLKYYHVEQLNLLLREVIGRVVVLQAYTKGWLGARRYKRVREKREKGAIAIQSAWRGYDARRKFKKISNRRNESAAHNQAGDTSNQSSGPHSPVAAGTRGSAEVQDCSEPGDHKVLRGSVHRRSHSQAESNNGRTQTSSNSPAVTEKNGHSQAQSSPKGCDIFAGHANKHSVSGTDLLSSRICHPAPDQQGLSLWGAPQKPGSENGLAQKHRTPRRRCQQPKMLSSPEDTMYYNQLNGTLEYQGSKRKPRKLGQIKVLDGEDEYYKSLSPVDCIPEENNSAHPSFFSSSSKGDSFAQH
+Q96J92,WNK4,MLASPATETTVLMSQTEADLALRPPPPLGTAGQPRLGPPPRRARRFSGKAEPRPRSSRLSRRSSVDLGLLSSWSLPASPAPDPPDPPDSAGPGPARSPPPSSKEPPEGTWTEGAPVKAAEDSARPELPDSAVGPGSREPLRVPEAVALERRREQEEKEDMETQAVATSPDGRYLKFDIEIGRGSFKTVYRGLDTDTTVEVAWCELQTRKLSRAERQRFSEEVEMLKGLQHPNIVRFYDSWKSVLRGQVCIVLVTELMTSGTLKTYLRRFREMKPRVLQRWSRQILRGLHFLHSRVPPILHRDLKCDNVFITGPTGSVKIGDLGLATLKRASFAKSVIGTPEFMAPEMYEEKYDEAVDVYAFGMCMLEMATSEYPYSECQNAAQIYRKVTSGRKPNSFHKVKIPEVKEIIEGCIRTDKNERFTIQDLLAHAFFREERGVHVELAEEDDGEKPGLKLWLRMEDARRGGRPRDNQAIEFLFQLGRDAAEEVAQEMVALGLVCEADYQPVARAVRERVAAIQRKREKLRKARELEALPPEPGPPPATVPMAPGPPSVFPPEPEEPEADQHQPFLFRHASYSSTTSDCETDGYLSSSGFLDASDPALQPPGGVPSSLAESHLCLPSAFALSIPRSGPGSDFSPGDSYASDAASGLSDVGEGMGQMRRPPGRNLRRRPRSRLRVTSVSDQNDRVVECQLQTHNSKMVTFRFDLDGDSPEEIAAAMVYNEFILPSERDGFLRRIREIIQRVETLLKRDTGPMEAAEDTLSPQEEPAPLPALPVPLPDPSNEELQSSTSLEHRSWTAFSTSSSSPGTPLSPGNPFSPGTPISPGPIFPITSPPCHPSPSPFSPISSQVSSNPSPHPTSSPLPFSSSTPEFPVPLSQCPWSSLPTTSPPTFSPTCSQVTLSSPFFPPCPSTSSFPSTTAAPLLSLASAFSLAVMTVAQSLLSPSPGLLSQSPPAPPSPLPSLPLPPPVAPGGQESPSPHTAEVESEASPPPARPLPGEARLAPISEEGKPQLVGRFQVTSSKEPAEPLPLQPTSPTLSGSPKPSTPQLTSESSDTEDSAGGGPETREALAESDRAAEGLGAGVEEEGDDGKEPQVGGSPQPLSHPSPVWMNYSYSSLCLSSEESESSGEDEEFWAELQSLRQKHLSEVETLQTLQKKEIEDLYSRLGKQPPPGIVAPAAMLSSRQRRLSKGSFPTSRRNSLQRSEPPGPGIMRRNSLSGSSTGSQEQRASKGVTFAGDVGRM
+P0C264,SBK3,MERRASETPEDGDPEEDTATALQRLVELTTSRVTPVRSLRDQYHLIRKLGSGSYGRVLLAQPHQGGPAVALKLLRRDLVLRSTFLREFCVGRCVSAHPGLLQTLAGPLQTPRYFAFAQEYAPCGDLSGMLQERGLPELLVKRVVAQLAGALDFLHSRGLVHADVKPDNVLVFDPVCSRVALGDLGLTRPEGSPTPAPPVPLPTAPPELCLLLPPDTLPLRPAVDSWGLGVLLFCAATACFPWDVALAPNPEFEAFAGWVTTKPQPPQPPPPWDQFAPPALALLQGLLDLDPETRSPPLAVLDFLGDDWGLQGNREGPGVLGSAVSYEDREEGGSSLEEWTDEGDDSKSGGRTGTDGGAP
+Q8TDC3,BRSK1,MSSGAKEGGGGSPAYHLPHPHPHPPQHAQYVGPYRLEKTLGKGQTGLVKLGVHCITGQKVAIKIVNREKLSESVLMKVEREIAILKLIEHPHVLKLHDVYENKKYLYLVLEHVSGGELFDYLVKKGRLTPKEARKFFRQIVSALDFCHSYSICHRDLKPENLLLDEKNNIRIADFGMASLQVGDSLLETSCGSPHYACPEVIKGEKYDGRRADMWSCGVILFALLVGALPFDDDNLRQLLEKVKRGVFHMPHFIPPDCQSLLRGMIEVEPEKRLSLEQIQKHPWYLGGKHEPDPCLEPAPGRRVAMRSLPSNGELDPDVLESMASLGCFRDRERLHRELRSEEENQEKMIYYLLLDRKERYPSCEDQDLPPRNDVDPPRKRVDSPMLSRHGKRRPERKSMEVLSITDAGGGGSPVPTRRALEMAQHSQRSRSVSGASTGLSSSPLSSPRSPVFSFSPEPGAGDEARGGGSPTSKTQTLPSRGPRGGGAGEQPPPPSARSTPLPGPPGSPRSSGGTPLHSPLHTPRASPTGTPGTTPPPSPGGGVGGAAWRSRLNSIRNSFLGSPRFHRRKMQVPTAEEMSSLTPESSPELAKRSWFGNFISLDKEEQIFLVLKDKPLSSIKADIVHAFLSIPSLSHSVLSQTSFRAEYKASGGPSVFQKPVRFQVDISSSEGPEPSPRRDGSGGGGIYSVTFTLISGPSRRFKRVVETIQAQLLSTHDQPSVQALADEKNGAQTRPAGAPPRSLQPPPGRPDPELSSSPRRGPPKDKKLLATNGTPLP
+Q5VST9,OBSCN,MDQPQFSGAPRFLTRPKAFVVSVGKDATLSCQIVGNPTPQVSWEKDQQPVAAGARFRLAQDGDLYRLTILDLALGDSGQYVCRARNAIGEAFAAVGLQVDAEAACAEQAPHFLLRPTSIRVREGSEATFRCRVGGSPRPAVSWSKDGRRLGEPDGPRVRVEELGEASALRIRAARPRDGGTYEVRAENPLGAASAAAALVVDSDAADTASRPGTSTAALLAHLQRRREAMRAEGAPASPPSTGTRTCTVTEGKHARLSCYVTGEPKPETVWKKDGQLVTEGRRHVVYEDAQENFVLKILFCKQSDRGLYTCTASNLVGQTYSSVLVVVREPAVPFKKRLQDLEVREKESATFLCEVPQPSTEAAWFKEETRLWASAKYGIEEEGTERRLTVRNVSADDDAVYICETPEGSRTVAELAVQGNLLRKLPRKTAVRVGDTAMFCVELAVPVGPVHWLRNQEEVVAGGRVAISAEGTRHTLTISQCCLEDVGQVAFMAGDCQTSTQFCVSAPRKPPLQPPVDPVVKARMESSVILSWSPPPHGERPVTIDGYLVEKKKLGTYTWIRCHEAEWVATPELTVADVAEEGNFQFRVSALNSFGQSPYLEFPGTVHLAPKLAVRTPLKAVQAVEGGEVTFSVDLTVASAGEWFLDGQALKASSVYEIHCDRTRHTLTIREVPASLHGAQLKFVANGIESSIRMEVRAAPGLTANKPPAAAAREVLARLHEEAQLLAELSDQAAAVTWLKDGRTLSPGPKYEVQASAGRRVLLVRDVARDDAGLYECVSRGGRIAYQLSVQGLARFLHKDMAGSCVDAVAGGPAQFECETSEAHVHVHWYKDGMELGHSGERFLQEDVGTRHRLVAATVTRQDEGTYSCRVGEDSVDFRLRVSEPKVVFAKEQLARRKLQAEAGASATLSCEVAQAQTEVTWYKDGKKLSSSSKVCMEATGCTRRLVVQQAGQADAGEYSCEAGGQRLSFHLDVKEPKVVFAKDQVAHSEVQAEAGASATLSCEVAQAQTEVMWYKDGKKLSSSLKVHVEAKGCRRRLVVQQAGKTDAGDYSCEARGQRVSFRLHITEPKMMFAKEQSVHNEVQAEAGASAMLSCEVAQAQTEVTWYKDGKKLSSSSKVGMEVKGCTRRLVLPQAGKADAGEYSCEAGGQRVSFHLHITEPKGVFAKEQSVHNEVQAEAGTTAMLSCEVAQPQTEVTWYKDGKKLSSSSKVRMEVKGCTRRLVVQQVGKADAGEYSCEAGGQRVSFQLHITEPKAVFAKEQLVHNEVRTEAGASATLSCEVAQAQTEVTWYKDGKKLSSSSKVRIEAAGCMRQLVVQQAGQADAGEYTCEAGGQRLSFHLDVSEPKAVFAKEQLAHRKVQAEAGAIATLSCEVAQAQTEVTWYKDGKKLSSSSKVRMEAVGCTRRLVVQQACQADTGEYSCEAGGQRLSFSLDVAEPKVVFAKEQPVHREVQAQAGASTTLSCEVAQAQTEVMWYKDGKKLSFSSKVRMEAVGCTRRLVVQQAGQAVAGEYSCEAGSQRLSFHLHVAEPKAVFAKEQPASREVQAEAGTSATLSCEVAQAQTEVTWYKDGKKLSSSSKVRMEAVGCTRRLVVQEAGQADAGEYSCKAGDQRLSFHLHVAEPKVVFAKEQPAHREVQAEAGASATLSCEVAQAQTEVTWYKDGKKLSSSSKVRVEAVGCTRRLVVQQAGQAEAGEYSCEAGGQQLSFRLQVAELEPQISERPCRREPLVVKEHEDIILTATLATPSAATVTWLKDGVEIRRSKRHETASQGDTHTLTVHGAQVLDSAIYSCRVGAEGQDFPVQVEEVAAKFCRLLEPVCGELGGTVTLACELSPACAEVVWRCGNTQLRVGKRFQMVAEGPVRSLTVLGLRAEDAGEYVCESRDDHTSAQLTVSVPRVVKFMSGLSTVVAEEGGEATFQCVVSPSDVAVVWFRDGALLQPSEKFAISQSGASHSLTISDLVLEDAGQITVEAEGASSSAALRVREAPVLFKKKLEPQTVEERSSVTLEVELTRPWPELRWTRNATALAPGKNVEIHAEGARHRLVLHNVGFADRGFFGCETPDDKTQAKLTVEMRQVRLVRGLQAVEAREQGTATMEVQLSHADVDGSWTRDGLRFQQGPTCHLAVRGPMHTLTLSGLRPEDSGLMVFKAEGVHTSARLVVTELPVSFSRPLQDVVTTEKEKVTLECELSRPNVDVRWLKDGVELRAGKTMAIAAQGACRSLTIYRCEFADQGVYVCDAHDAQSSASVKVQGRTYTLIYRRVLAEDAGEIQFVAENAESRAQLRVKELPVTLVRPLRDKIAMEKHRGVLECQVSRASAQVRWFKGSQELQPGPKYELVSDGLYRKLIISDVHAEDEDTYTCDAGDVKTSAQFFVEEQSITIVRGLQDVTVMEPAPAWFECETSIPSVRPPKWLLGKTVLQAGGNVGLEQEGTVHRLMLRRTCSTMTGPVHFTVGKSRSSARLVVSDIPVVLTRPLEPKTGRELQSVVLSCDFRPAPKAVQWYKDDTPLSPSEKFKMSLEGQMAELRILRLMPADAGVYRCQAGSAHSSTEVTVEAREVTVTGPLQDAEATEEGWASFSCELSHEDEEVEWSLNGMPLYNDSFHEISHKGRRHTLVLKSIQRADAGIVRASSLKVSTSARLEVRVKPVVFLKALDDLSAEERGTLALQCEVSDPEAHVVWRKDGVQLGPSDKYDFLHTAGTRGLVVHDVSPEDAGLYTCHVGSEETRARVRVHDLHVGITKRLKTMEVLEGESCSFECVLSHESASDPAMWTVGGKTVGSSSRFQATRQGRKYILVVREAAPSDAGEVVFSVRGLTSKASLIVRERPAAIIKPLEDQWVAPGEDVELRCELSRAGTPVHWLKDRKAIRKSQKYDVVCEGTMAMLVIRGASLKDAGEYTCEVEASKSTASLHVEEKANCFTEELTNLQVEEKGTAVFTCKTEHPAATVTWRKGLLELRASGKHQPSQEGLTLRLTISALEKADSDTYTCDIGQAQSRAQLLVQGRRVHIIEDLEDVDVQEGSSATFRCRISPANYEPVHWFLDKTPLHANELNEIDAQPGGYHVLTLRQLALKDSGTIYFEAGDQRASAALRVTEKPSVFSRELTDATITEGEDLTLVCETSTCDIPVCWTKDGKTLRGSARCQLSHEGHRAQLLITGATLQDSGRYKCEAGGACSSSIVRVHARPVRFQEALKDLEVLEGGAATLRCVLSSVAAPVKWCYGNNVLRPGDKYSLRQEGAMLELVVRNLRPQDSGRYSCSFGDQTTSATLTVTALPAQFIGKLRNKEATEGATATLRCELSKAAPVEWRKGSETLRDGDRYCLRQDGAMCELQIRGLAMVDAAEYSCVCGEERTSASLTIRPMPAHFIGRLRHQESIEGATATLRCELSKAAPVEWRKGRESLRDGDRHSLRQDGAVCELQICGLAVADAGEYSCVCGEERTSATLTVKALPAKFTEGLRNEEAVEGATAMLWCELSKVAPVEWRKGPENLRDGDRYILRQEGTRCELQICGLAMADAGEYLCVCGQERTSATLTIRALPARFIEDVKNQEAREGATAVLQCELNSAAPVEWRKGSETLRDGDRYSLRQDGTKCELQIRGLAMADTGEYSCVCGQERTSAMLTVRALPIKFTEGLRNEEATEGATAVLRCELSKMAPVEWWKGHETLRDGDRHSLRQDGARCELQIRGLVAEDAGEYLCMCGKERTSAMLTVRAMPSKFIEGLRNEEATEGDTATLWCELSKAAPVEWRKGHETLRDGDRHSLRQDGSRCELQIRGLAVVDAGEYSCVCGQERTSATLTVRALPARFIEDVKNQEAREGATAVLQCELSKAAPVEWRKGSETLRGGDRYSLRQDGTRCELQIHGLSVADTGEYSCVCGQERTSATLTVRAPQPVFREPLQSLQAEEGSTATLQCELSEPTATVVWSKGGLQLQANGRREPRLQGCTAELVLQDLQREDTGEYTCTCGSQATSATLTVTAAPVRFLRELQHQEVDEGGTAHLCCELSRAGASVEWRKGSLQLFPCAKYQMVQDGAAAELLVRGVEQEDAGDYTCDTGHTQSMASLSVRVPRPKFKTRLQSLEQETGDIARLCCQLSDAESGAVVQWLKEGVELHAGPKYEMRSQGATRELLIHQLEAKDTGEYACVTGGQKTAASLRVTEPEVTIVRGLVDAEVTADEDVEFSCEVSRAGATGVQWCLQGLPLQSNEVTEVAVRDGRIHTLRLKGVTPEDAGTVSFHLGNHASSAQLTVRAPEVTILEPLQDVQLSEGQDASFQCRLSRASGQEARWALGGVPLQANEMNDITVEQGTLHLLTLHKVTLEDAGTVSFHVGTCSSEAQLKVTAKNTVVRGLENVEALEGGEALFECQLSQPEVAAHTWLLDDEPVHTSENAEVVFFENGLRHLLLLKNLRPQDSCRVTFLAGDMVTSAFLTVRGWRLEILEPLKNAAVRAGAQACFTCTLSEAVPVGEASWYINGAAVQPDDSDWTVTADGSHHALLLRSAQPHHAGEVTFACRDAVASARLTVLGLPDPPEDAEVVARSSHTVTLSWAAPMSDGGGGLCGYRVEVKEGATGQWRLCHELVPGPECVVDGLAPGETYRFRVAAVGPVGAGEPVHLPQTVRLAEPPKPVPPQPSAPESRQVAAGEDVSLELEVVAEAGEVIWHKGMERIQPGGRFEVVSQGRQQMLVIKGFTAEDQGEYHCGLAQGSICPAAATFQVALSPASVDEAPQPSLPPEAAQEGDLHLLWEALARKRRMSREPTLDSISELPEEDGRSQRLPQEAEEVAPDLSEGYSTADELARTGDADLSHTSSDDESRAGTPSLVTYLKKAGRPGTSPLASKVGAPAAPSVKPQQQQEPLAAVRPPLGDLSTKDLGDPSMDKAAVKIQAAFKGYKVRKEMKQQEGPMFSHTFGDTEAQVGDALRLECVVASKADVRARWLKDGVELTDGRHHHIDQLGDGTCSLLITGLDRADAGCYTCQVSNKFGQVTHSACVVVSGSESEAESSSGGELDDAFRRAARRLHRLFRTKSPAEVSDEELFLSADEGPAEPEEPADWQTYREDEHFICIRFEALTEARQAVTRFQEMFATLGIGVEIKLVEQGPRRVEMCISKETPAPVVPPEPLPSLLTSDAAPVFLTELQNQEVQDGYPVSFDCVVTGQPMPSVRWFKDGKLLEEDDHYMINEDQQGGHQLIITAVVPADMGVYRCLAENSMGVSSTKAELRVDLTSTDYDTAADATESSSYFSAQGYLSSREQEGTESTTDEGQLPQVVEELRDLQVAPGTRLAKFQLKVKGYPAPRLYWFKDGQPLTASAHIRMTDKKILHTLEIISVTREDSGQYAAYISNAMGAAYSSARLLVRGPDEPEEKPASDVHEQLVPPRMLERFTPKKVKKGSSITFSVKVEGRPVPTVHWLREEAERGVLWIGPDTPGYTVASSAQQHSLVLLDVGRQHQGTYTCIASNAAGQALCSASLHVSGLPKVEEQEKVKEALISTFLQGTTQAISAQGLETASFADLGGQRKEEPLAAKEALGHLSLAEVGTEEFLQKLTSQITEMVSAKITQAKLQVPGGDSDEDSKTPSASPRHGRSRPSSSIQESSSESEDGDARGEIFDIYVVTADYLPLGAEQDAITLREGQYVEVLDAAHPLRWLVRTKPTKSSPSRQGWVSPAYLDRRLKLSPEWGAAEAPEFPGEAVSEDEYKARLSSVIQELLSSEQAFVEELQFLQSHHLQHLERCPHVPIAVAGQKAVIFRNVRDIGRFHSSFLQELQQCDTDDDVAMCFIKNQAAFEQYLEFLVGRVQAESVVVSTAIQEFYKKYAEEALLAGDPSQPPPPPLQHYLEQPVERVQRYQALLKELIRNKARNRQNCALLEQAYAVVSALPQRAENKLHVSLMENYPGTLQALGEPIRQGHFIVWEGAPGARMPWKGHNRHVFLFRNHLVICKPRRDSRTDTVSYVFRNMMKLSSIDLNDQVEGDDRAFEVWQEREDSVRKYLLQARTAIIKSSWVKEICGIQQRLALPVWRPPDFEEELADCTAELGETVKLACRVTGTPKPVISWYKDGKAVQVDPHHILIEDPDGSCALILDSLTGVDSGQYMCFAASAAGNCSTLGKILVQVPPRFVNKVRASPFVEGEDAQFTCTIEGAPYPQIRWYKDGALLTTGNKFQTLSEPRSGLLVLVIRAASKEDLGLYECELVNRLGSARASAELRIQSPMLQAQEQCHREQLVAAVEDTTLERADQEVTSVLKRLLGPKAPGPSTGDLTGPGPCPRGAPALQETGSQPPVTGTSEAPAVPPRVPQPLLHEGPEQEPEAIARAQEWTVPIRMEGAAWPGAGTGELLWDVHSHVVRETTQRTYTYQAIDTHTARPPSMQVTIEDVQAQTGGTAQFEAIIEGDPQPSVTWYKDSVQLVDSTRLSQQQEGTTYSLVLRHVASKDAGVYTCLAQNTGGQVLCKAELLVLGGDNEPDSEKQSHRRKLHSFYEVKEEIGRGVFGFVKRVQHKGNKILCAAKFIPLRSRTRAQAYRERDILAALSHPLVTGLLDQFETRKTLILILELCSSEELLDRLYRKGVVTEAEVKVYIQQLVEGLHYLHSHGVLHLDIKPSNILMVHPAREDIKICDFGFAQNITPAELQFSQYGSPEFVSPEIIQQNPVSEASDIWAMGVISYLSLTCSSPFAGESDRATLLNVLEGRVSWSSPMAAHLSEDAKDFIKATLQRAPQARPSAAQCLSHPWFLKSMPAEEAHFINTKQLKFLLARSRWQRSLMSYKSILVMRSIPELLRGPPDSPSLGVARHLCRDTGGSSSSSSSSDNELAPFARAKSLPPSPVTHSPLLHPRGFLRPSASLPEEAEASERSTEAPAPPASPEGAGPPAAQGCVPRHSVIRSLFYHQAGESPEHGALAPGSRRHPARRRHLLKGGYIAGALPGLREPLMEHRVLEEEAAREEQATLLAKAPSFETALRLPASGTHLAPGHSHSLEHDSPSTPRPSSEACGEAQRLPSAPSGGAPIRDMGHPQGSKQLPSTGGHPGTAQPERPSPDSPWGQPAPFCHPKQGSAPQEGCSPHPAVAPCPPGSFPPGSCKEAPLVPSSPFLGQPQAPPAPAKASPPLDSKMGPGDISLPGRPKPGPCSSPGSASQASSSQVSSLRVGSSQVGTEPGPSLDAEGWTQEAEDLSDSTPTLQRPQEQATMRKFSLGGRGGYAGVAGYGTFAFGGDAGGMLGQGPMWARIAWAVSQSEEEEQEEARAESQSEEQQEARAESPLPQVSARPVPEVGRAPTRSSPEPTPWEDIGQVSLVQIRDLSGDAEAADTISLDISEVDPAYLNLSDLYDIKYLPFEFMIFRKVPKSAQPEPPSPMAEEELAEFPEPTWPWPGELGPHAGLEITEESEDVDALLAEAAVGRKRKWSSPSRSLFHFPGRHLPLDEPAELGLRERVKASVEHISRILKGRPEGLEKEGPPRKKPGLASFRLSGLKSWDRAPTFLRELSDETVVLGQSVTLACQVSAQPAAQATWSKDGAPLESSSRVLISATLKNFQLLTILVVVAEDLGVYTCSVSNALGTVTTTGVLRKAERPSSSPCPDIGEVYADGVLLVWKPVESYGPVTYIVQCSLEGGSWTTLASDIFDCCYLTSKLSRGGTYTFRTACVSKAGMGPYSSPSEQVLLGGPSHLASEEESQGRSAQPLPSTKTFAFQTQIQRGRFSVVRQCWEKASGRALAAKIIPYHPKDKTAVLREYEALKGLRHPHLAQLHAAYLSPRHLVLILELCSGPELLPCLAERASYSESEVKDYLWQMLSATQYLHNQHILHLDLRSENMIITEYNLLKVVDLGNAQSLSQEKVLPSDKFKDYLETMAPELLEGQGAVPQTDIWAIGVTAFIMLSAEYPVSSEGARDLQRGLRKGLVRLSRCYAGLSGGAVAFLRSTLCAQPWGRPCASSCLQCPWLTEEGPACSRPAPVTFPTARLRVFVRNREKRRALLYKRHNLAQVR
+Q96QS6,PSKH2,MGCGASRKVVPGPPALAWAKHEGQNQAGVGGAGPGPEAAAQAAQRIQVARFRAKFDPRVLARYDIKALIGTGSFSRVVRVEQKTTKKPFAIKVMETREREGREACVSELSVLRRVSHRYIVQLMEIFETEDQVYMVMELATGGELFDRLIAQGSFTERDAVRILQMVADGIRYLHALQITHRNLKPENLLYYHPGEESKILITDFGLAYSGKKSGDWTMKTLCGTPEYIAPEVLLRKPYTSAVDMWALGVITYALLSGFLPFDDESQTRLYRKILKGKYNYTGEPWPSISHLAKDFIDKLLILEAGHRMSAGQALDHPWVITMAAGSSMKNLQRAISRNLMQRASPHSQSPGSAQSSKSHYSHKSRHMWSKRNLRIVESPLSALL
+P57059,SIK1,MVIMSEFSADPAGQGQGQQKPLRVGFYDIERTLGKGNFAVVKLARHRVTKTQVAIKIIDKTRLDSSNLEKIYREVQLMKLLNHPHIIKLYQVMETKDMLYIVTEFAKNGEMFDYLTSNGHLSENEARKKFWQILSAVEYCHDHHIVHRDLKTENLLLDGNMDIKLADFGFGNFYKSGEPLSTWCGSPPYAAPEVFEGKEYEGPQLDIWSLGVVLYVLVCGSLPFDGPNLPTLRQRVLEGRFRIPFFMSQDCESLIRRMLVVDPARRITIAQIRQHRWMRAEPCLPGPACPAFSAHSYTSNLGDYDEQALGIMQTLGVDRQRTVESLQNSSYNHFAAIYYLLLERLKEYRNAQCARPGPARQPRPRSSDLSGLEVPQEGLSTDPFRPALLCPQPQTLVQSVLQAEMDCELQSSLQWPLFFPVDASCSGVFRPRPVSPSSLLDTAISEEARQGPGLEEEQDTQESLPSSTGRRHTLAEVSTRLSPLTAPCIVVSPSTTASPAEGTSSDSCLTFSASKSPAGLSGTPATQGLLGACSPVRLASPFLGSQSATPVLQAQGGLGGAVLLPVSFQEGRRASDTSLTQGLKAFRQQLRKTTRTKGFLGLNKIKGLARQVCQAPASRASRGGLSPFHAPAQSPGLHGGAAGSREGWSLLEEVLEQQRLLQLQHHPAAAPGCSQAPQPAPAPFVIAPCDGPGAAPLPSTLLTSGLPLLPPPLLQTGASPVASAAQLLDTHLHIGTGPTALPAVPPPRLARLAPGCEPLGLLQGDCEMEDLMPCSLGTFVLVQ
+Q6VAB6,KSR2,MDEENMTKSEEQQPLSLQKALQQCELVQNMIDLSISNLEGLRTKCATSNDLTQKEIRTLESKLVKYFSRQLSCKKKVALQERNAELDGFPQLRHWFRIVDVRKEVLEEISPGQLSLEDLLEMTDEQVCETVEKYGANREECARLNASLSCLRNVHMSGGNLSKQDWTIQWPTTETGKENNPVCPPEPTPWIRTHLSQSPRVPSKCVQHYCHTSPTPGAPVYTHVDRLTVDAYPGLCPPPPLESGHRSLPPSPRQRHAVRTPPRTPNIVTTVTPPGTPPMRKKNKLKPPGTPPPSSRKLIHLIPGFTALHRSKSHEFQLGHRVDEAHTPKAKKKSKPLNLKIHSSVGSCENIPSQQRSPLLSERSLRSFFVGHAPFLPSTPPVHTEANFSANTLSVPRWSPQIPRRDLGNSIKHRFSTKYWMSQTCTVCGKGMLFGLKCKNCKLKCHNKCTKEAPPCHLLIIHRGDPARLVRTESVPCDINNPLRKPPRYSDLHISQTLPKTNKINKDHIPVPYQPDSSSNPSSTTSSTPSSPAPPLPPSATPPSPLHPSPQCTRQQKNFNLPASHYYKYKQQFIFPDVVPVPETPTRAPQVILHPVTSNPILEGNPLLQIEVEPTSENEEVHDEAEESEDDFEEMNLSLLSARSFPRKASQTSIFLQEWDIPFEQLEIGELIGKGRFGQVYHGRWHGEVAIRLIDIERDNEDQLKAFKREVMAYRQTRHENVVLFMGACMSPPHLAIITSLCKGRTLYSVVRDAKIVLDVNKTRQIAQEIVKGMGYLHAKGILHKDLKSKNVFYDNGKVVITDFGLFSISGVLQAGRREDKLRIQNGWLCHLAPEIIRQLSPDTEEDKLPFSKHSDVFALGTIWYELHAREWPFKTQPAEAIIWQMGTGMKPNLSQIGMGKEISDILLFCWAFEQEERPTFTKLMDMLEKLPKRNRRLSHPGHFWKSAEL
+O14730,RIOK3,MDLVGVASPEPGTAAAWGPSKCPWAIPQNTISCSLADVMSEQLAKELQLEEEAAVFPEVAVAEGPFITGENIDTSSDLMLAQMLQMEYDREYDAQLRREEKKFNGDSKVSISFENYRKVHPYEDSDSSEDEVDWQDTRDDPYRPAKPVPTPKKGFIGKGKDITTKHDEVVCGRKNTARMENFAPEFQVGDGIGMDLKLSNHVFNALKQHAYSEERRSARLHEKKEHSTAEKAVDPKTRLLMYKMVNSGMLETITGCISTGKESVVFHAYGGSMEDEKEDSKVIPTECAIKVFKTTLNEFKNRDKYIKDDFRFKDRFSKLNPRKIIRMWAEKEMHNLARMQRAGIPCPTVVLLKKHILVMSFIGHDQVPAPKLKEVKLNSEEMKEAYYQTLHLMRQLYHECTLVHADLSEYNMLWHAGKVWLIDVSQSVEPTHPHGLEFLFRDCRNVSQFFQKGGVKEALSERELFNAVSGLNITADNEADFLAEIEALEKMNEDHVQKNGRKAASFLKDDGDPPLLYDE
+Q8NI60,ADCK3,MAAILGDTIMVAKGLVKLTQAAVETHLQHLGIGGELIMAARALQSTAVEQIGMFLGKVQGQDKHEEYFAENFGGPEGEFHFSVPHAAGASTDFSSASAPDQSAPPSLGHAHSEGPAPAYVASGPFREAGFPGQASSPLGRANGRLFANPRDSFSAMGFQRRFFHQDQSPVGGLTAEDIEKARQAKARPENKQHKQTLSEHARERKVPVTRIGRLANFGGLAVGLGFGALAEVAKKSLRSEDPSGKKAVLGSSPFLSEANAERIVRTLCKVRGAALKLGQMLSIQDDAFINPHLAKIFERVRQSADFMPLKQMMKTLNNDLGPNWRDKLEYFEERPFAAASIGQVHLARMKGGREVAMKIQYPGVAQSINSDVNNLMAVLNMSNMLPEGLFPEHLIDVLRRELALECDYQREAACARKFRDLLKGHPFFYVPEIVDELCSPHVLTTELVSGFPLDQAEGLSQEIRNEICYNILVLCLRELFEFHFMQTDPNWSNFFYDPQQHKVALLDFGATREYDRSFTDLYIQIIRAAADRDRETVRAKSIEMKFLTGYEVKVMEDAHLDAILILGEAFASDEPFDFGTQSTTEKIHNLIPVMLRHRLVPPPEETYSLHRKMGGSFLICSKLKARFPCKAMFEEAYSNYCKRQAQQ
+Q9BRS2,RIOK1,MDYRRLLMSRVVPGQFDDADSSDSENRDLKTVKEKDDILFEDLQDNVNENGEGEIEDEEEEGYDDDDDDWDWDEGVGKLAKGYVWNGGSNPQANRQTSDSSSAKMSTPADKVLRKFENKINLDKLNVTDSVINKVTEKSRQKEADMYRIKDKADRATVEQVLDPRTRMILFKMLTRGIITEINGCISTGKEANVYHASTANGESRAIKIYKTSILVFKDRDKYVSGEFRFRHGYCKGNPRKMVKTWAEKEMRNLIRLNTAEIPCPEPIMLRSHVLVMSFIGKDDMPAPLLKNVQLSESKARELYLQVIQYMRRMYQDARLVHADLSEFNMLYHGGGVYIIDVSQSVEHDHPHALEFLRKDCANVNDFFMRHSVAVMTVRELFEFVTDPSITHENMDAYLSKAMEIASQRTKEERSSQDHVDEEVFKRAYIPRTLNEVKNYERDMDIIMKLKEEDMAMNAQQDNILYQTVTGLKKDLSGVQKVPALLENQVEERTCSDSEDIGSSECSDTDSEEQGDHARPKKHTTDPDIDKKERKKMVKEAQREKRKNKIPKHVKKRKEKTAKTKKGK
+Q8WU08,STK32A,MGANTSRKPPVFDENEDVNFDHFEILRAIGKGSFGKVCIVQKNDTKKMYAMKYMNKQKCVERNEVRNVFKELQIMQGLEHPFLVNLWYSFQDEEDMFMVVDLLLGGDLRYHLQQNVHFKEETVKLFICELVMALDYLQNQRIIHRDMKPDNILLDEHGHVHITDFNIAAMLPRETQITTMAGTKPYMAPEMFSSRKGAGYSFAVDWWSLGVTAYELLRGRRPYHIRSSTSSKEIVHTFETTVVTYPSAWSQEMVSLLKKLLEPNPDQRFSQLSDVQNFPYMNDINWDAVFQKRLIPGFIPNKGRLNCDPTFELEEMILESKPLHKKKKRLAKKEKDMRKCDSSQTCLLQEHLDSVQKEFIIFNREKVNRDFNKRQPNLALEQTKDPQGEDGQNNNL
+Q9NRH2,SNRK,MAGFKRGYDGKIAGLYDLDKTLGRGHFAVVKLARHVFTGEKVAVKVIDKTKLDTLATGHLFQEVRCMKLVQHPNIVRLYEVIDTQTKLYLILELGDGGDMFDYIMKHEEGLNEDLAKKYFAQIVHAISYCHKLHVVHRDLKPENVVFFEKQGLVKLTDFGFSNKFQPGKKLTTSCGSLAYSAPEILLGDEYDAPAVDIWSLGVILFMLVCGQPPFQEANDSETLTMIMDCKYTVPSHVSKECKDLITRMLQRDPKRRASLEEIENHPWLQGVDPSPATKYNIPLVSYKNLSEEEHNSIIQRMVLGDIADRDAIVEALETNRYNHITATYFLLAERILREKQEKEIQTRSASPSNIKAQFRQSWPTKIDVPQDLEDDLTATPLSHATVPQSPARAADSVLNGHRSKGLCDSAKKDDLPELAGPALSTVPPASLKPTASGRKCLFRVEEDEEEDEEDKKPMSLSTQVVLRRKPSVTNRLTSRKSAPVLNQIFEEGESDDEFDMDENLPPKLSRLKMNIASPGTVHKRYHRRKSQGRGSSCSSSETSDDDSESRRRLDKDSGFTYSWHRRDSSEGPPGSEGDGGGQSKPSNASGGVDKASPSENNAGGGSPSSGSGGNPTNTSGTTRRCAGPSNSMQLASRSAGELVESLKLMSLCLGSQLHGSTKYIIDPQNGLSFSSVKVQEKSTWKMCISSTGNAGQVPAVGGIKFFSDHMADTTTELERIKSKNLKNNVLQLPLCEKTISVNIQRNPKEGLLCASSPASCCHVI
+Q5JZY3,EPHA10,METCAGPHPLRLFLCRMQLCLALLLGPWRPGTAEEVILLDSKASQAELGWTALPSNGWEEISGVDEHDRPIRTYQVCNVLEPNQDNWLQTGWISRGRGQRIFVELQFTLRDCSSIPGAAGTCKETFNVYYLETEADLGRGRPRLGGSRPRKIDTIAADESFTQGDLGERKMKLNTEVREIGPLSRRGFHLAFQDVGACVALVSVRVYYKQCRATVRGLATFPATAAESAFSTLVEVAGTCVAHSEGEPGSPPRMHCGADGEWLVPVGRCSCSAGFQERGDFCEACPPGFYKVSPRRPLCSPCPEHSRALENASTFCVCQDSYARSPTDPPSASCTRPPSAPRDLQYSLSRSPLVLRLRWLPPADSGGRSDVTYSLLCLRCGREGPAGACEPCGPRVAFLPRQAGLRERAATLLHLRPGARYTVRVAALNGVSGPAAAAGTTYAQVTVSTGPGAPWEEDEIRRDRVEPQSVSLSWREPIPAGAPGANDTEYEIRYYEKGQSEQTYSMVKTGAPTVTVTNLKPATRYVFQIRAASPGPSWEAQSFNPSIEVQTLGEAASGSRDQSPAIVVTVVTISALLVLGSVMSVLAIWRRPCSYGKGGGDAHDEEELYFHFKVPTRRTFLDPQSCGDLLQAVHLFAKELDAKSVTLERSLGGGRFGELCCGCLQLPGRQELLVAVHMLRDSASDSQRLGFLAEALTLGQFDHSHIVRLEGVVTRGSTLMIVTEYMSHGALDGFLRRHEGQLVAGQLMGLLPGLASAMKYLSEMGYVHRGLAARHVLVSSDLVCKISGFGRGPRDRSEAVYTTMSGRSPALWAAPETLQFGHFSSASDVWSFGIIMWEVMAFGERPYWDMSGQDVIKAVEDGFRLPPPRNCPNLLHRLMLDCWQKDPGERPRFSQIHSILSKMVQDPEPPKCALTTCPRPPTPLADRAFSTFPSFGSVGAWLEALDLCRYKDSFAAAGYGSLEAVAEMTAQDLVSLGISLAEHREALLSGISALQARVLQLQGQGVQV
+Q9H5K3,POMK,MEKQPQNSRRGLAPREVPPAVGLLLIMALMNTLLYLCLDHFFIAPRQSTVDPTHCPYGHFRIGQMKNCSPWLSCEELRTEVRQLKRVGEGAVKRVFLSEWKEHKVALSQLTSLEMKDDFLHGLQMLKSLQGTHVVTLLGYCEDDNTMLTEYHPLGSLSNLEETLNLSKYQNVNTWQHRLELAMDYVSIINYLHHSPVGTRVMCDSNDLPKTLSQYLLTSNFSILANDLDALPLVNHSSGMLVKCGHRELHGDFVAPEQLWPYGEDVPFHDDLMPSYDEKIDIWKIPDISSFLLGHIEGSDMVRFHLFDIHKACKSQTPSERPTAQDVLETYQKVLDTLRDAMMSQAREML
+Q8NEV4,MYO3A,MFPLIGKTIIFDNFPDPSDTWEITETIGKGTYGKVFKVLNKKNGQKAAVKILDPIHDIDEEIEAEYNILKALSDHPNVVRFYGIYFKKDKVNGDKLWLVLELCSGGSVTDLVKGFLKRGERMSEPLIAYILHEALMGLQHLHNNKTIHRDVKGNNILLTTEGGVKLVDFGVSAQLTSTRHRRNTSVGTPFWMAPEVIACEQQLDTTYDARCDTWSLGITAIELGDGDPPLADLHPMRALFKIPRNPPPKLRQPELWSAEFNDFISKCLTKDYEKRPTVSELLQHKFITQIEGKDVMLQKQLTEFIGIHQCMGGTEKARRERIHTKKGNFNRPLISNLKDVDDLATLEILDENTVSEQLEKCYSRDQIYVYVGDILIALNPFQSLGLYSTKHSKLYIGSKRTASPPHIFAMADLGYQSMITYNSDQCIVISGESGAGKTENAHLLVQQLTVLGKANNRTLQEKILQVNNLVEAFGNACTIINDNSSRFGKYLEMKFTSSGAVVGAQISEYLLEKSRVIHQAIGEKNFHIFYYIYAGLAEKKKLAHYKLPENKPPRYLQNDHLRTVQDIMNNSFYKSQYELIEQCFKVIGFTMEQLGSIYSILAAILNVGNIEFSSVATEHQIDKSHISNHTALENCASLLCIRADELQEALTSHCVVTRGETIIRPNTVEKATDVRDAMAKTLYGRLFSWIVNCINSLLKHDSSPSGNGDELSIGILDIFGFENFKKNSFEQLCINIANEQIQYYYNQHVFAWEQNEYLNEDVDARVIEYEDNWPLLDMFLQKPMGLLSLLDEESRFPKATDQTLVEKFEGNLKSQYFWRPKRMELSFGIHHYAGKVLYNASGFLAKNRDTLPTDIVLLLRSSDNSVIRQLVNHPLTKTGNLPHSKTKNVINYQMRTSEKLINLAKGDTGEATRHARETTNMKTQTVASYFRYSLMDLLSKMVVGQPHFVRCIKPNSERQARKYDKEKVLLQLRYTGILETARIRRLGFSHRILFANFIKRYYLLCYKSSEEPRMSPDTCATILEKAGLDNWALGKTKVFLKYYHVEQLNLMRKEAIDKLILIQACVRAFLCSRRYQKIQEKRKESAIIIQSAARGHLVRKQRKEIVDMKNTAVTTIQTSDQEFDYKKNFENTRESFVKKQAENAISANERFISAPNNKGSVSVVKTSTFKPEEETTNAVESNNRVYQTPKKMNNVYEEEVKQEFYLVGPEVSPKQKSVKDLEENSNLRKVEKEEAMIQSYYQRYTEERNCEESKAAYLERKAISERPSYPVPWLAENETSFKKTLEPTLSQRSIYQNANSMEKEKKTSVVTQRAPICSQEEGRGRLRHETVKERQVEPVTQAQEEEDKAAVFIQSKYRGYKRRQQLRKDKMSSFKHQRIVTTPTEVARNTHNLYSYPTKHEEINNIKKKDNKDSKATSEREACGLAIFSKQISKLSEEYFILQKKLNEMILSQQLKSLYLGVSHHKPINRRVSSQQCLSGVCKGEEPKILRPPRRPRKPKTLNNPEDSTYYYLLHKSIQEEKRRPRKDSQGKLLDLEDFYYKEFLPSRSGPKEHSPSLRERRPQQELQNQCIKANERCWAAESPEKEEEREPAANPYDFRRLLRKTSQRRRLVQQS
+Q9BYP7,WNK3,MATDSGDPASTEDSEKPDGISFENRVPQVAATLTVEARLKEKNSTFSASGETVERKRFFRKSVEMTEDDKVAESSPKDERIKAAMNIPRVDKLPSNVLRGGQEVKYEQCSKSTSEISKDCFKEKNEKEMEEEAEMKAVATSPSGRFLKFDIELGRGAFKTVYKGLDTETWVEVAWCELQDRKLTKAEQQRFKEEAEMLKGLQHPNIVRFYDSWESILKGKKCIVLVTELMTSGTLKTYLKRFKVMKPKVLRSWCRQILKGLQFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLMRTSFAKSVIGTPEFMAPEMYEEHYDESVDVYAFGMCMLEMATSEYPYSECQNAAQIYRKVTSGIKPASFNKVTDPEVKEIIEGCIRQNKSERLSIRDLLNHAFFAEDTGLRVELAEEDDCSNSSLALRLWVEDPKKLKGKHKDNEAIEFSFNLETDTPEEVAYEMVKSGFFHESDSKAVAKSIRDRVTPIKKTREKKPAGCLEERRDSQCKSMGNVFPQPQNTTLPLAPAQQTGAECEETEVDQHVRQQLLQRKPQQHCSSVTGDNLSEAGAASVIHSDTSSQPSVAYSSNQTMGSQMVSNIPQAEVNVPGQIYSSQQLVGHYQQVSGLQKHSKLTQPQILPLVQGQSTVLPVHVLGPTVVSQPQVSPLTVQKVPQIKPVSQPVGAEQQAALLKPDLVRSLNQDVATTKENVSSPDNPSGNGKQDRIKQRRASCPRPEKGTKFQLTVLQVSTSGDNMVECQLETHNNKMVTFKFDVDGDAPEDIADYMVEDNFVLESEKEKFVEELRAIVGQAQEILHVHFATERATGVDSITVDSNSSQTGSSEQVQINSTSTQTSNESAPQSSPVGRWRFCINQTIRNRETQSPPSLQHSMSAVPGRHPLPSPKNTSNKEISRDTLLTIENNPCHRALFTSKSEHKDVVDGKISECASVETKQPAILYQVEDNRQIMAPVTNSSSYSTTSVRAVPAECEGLTKQASIFIPVYPCHQTASQADALMSHPGESTQTSGNSLTTLAFDQKPQTLSVQQPAMDAEFISQEGETTVNTEASSPKTVIPTQTPGLEPTTLQPTTVLESDGERPPKLEFADNRIKTLDEKLRNLLYQEHSISSIYPESQKDTQSIDSPFSSSAEDTLSCPVTEVIAISHCGIKDSPVQSPNFQQTGSKLLSNVAASQPANISVFKRDLNVITSVPSELCLHEMSSDASLPGDPEAYPAAVSSGGAIHLQTGGGYFGLSFTCPSLKNPISKKSWTRKLKSWAYRLRQSTSFFKRSKVRQVETEEMRSAIAPDPIPLTRESTADTRALNRCKAMSGSFQRGRFQVITIPQQQSAKMTSFGIEHISVFSETNHSSEEAFIKTAKSQLVEIEPATQNPKTSFSYEKLQALQETCKENKGVPKQGDNFLSFSAACETDVSSVTPEKEFEETSATGSSMQSGSELLLKEREILTAGKQPSSDSEFSASLAGSGKSVAKTGPESNQCLPHHEEQAYAQTQSSLFYSPSSPMSSDDESEIEDEDLKVELQRLREKHIQEVVNLQTQQNKELQELYERLRSIKDSKTQSTEIPLPPASPRRPRSFKSKLRSRPQSLTHVDNGIVATGKSCLINELENPLCVESNAASCQQSPASKKGMFTDDLHKLVDDWTKEAVGNSLIKPSLNQLKQSQHKLETENWNKVSENTPSTMGYTSTWISSLSQIRGAVPTSLPQGLSLPSFPGPLSSYGMPHVCQYNAVAGAGYPVQWVGISGTTQQSVVIPAQSGGPFQPGMNMQAFPTSSVQNPATIPPGPK
+Q6ZWH5,NEK10,MPDQDKKVKTTEKSTDKQQEITIRDYSDLKRLRCLLNVQSSKQQLPAINFDSAQNSMTKSEPAIRAGGHRARGQWHESTEAVELENFSINYKNERNFSKHPQRKLFQEIFTALVKNRLISREWVNRAPSIHFLRVLICLRLLMRDPCYQEILHSLGGIENLAQYMEIVANEYLGYGEEQHTVDKLVNMTYIFQKLAAVKDQREWVTTSGAHKTLVNLLGARDTNVLLGSLLALASLAESQECREKISELNIVENLLMILHEYDLLSKRLTAELLRLLCAEPQVKEQVKLYEGIPVLLSLLHSDHLKLLWSIVWILVQVCEDPETSVEIRIWGGIKQLLHILQGDRNFVSDHSSIGSLSSANAAGRIQQLHLSEDLSPREIQENTFSLQAACCAALTELVLNDTNAHQVVQENGVYTIAKLILPNKQKNAAKSNLLQCYAFRALRFLFSMERNRPLFKRLFPTDLFEIFIDIGHYVRDISAYEELVSKLNLLVEDELKQIAENIESINQNKAPLKYIGNYAILDHLGSGAFGCVYKVRKHSGQNLLAMKEVNLHNPAFGKDKKDRDSSVRNIVSELTIIKEQLYHPNIVRYYKTFLENDRLYIVMELIEGAPLGEHFSSLKEKHHHFTEERLWKIFIQLCLALRYLHKEKRIVHRDLTPNNIMLGDKDKVTVTDFGLAKQKQENSKLTSVVGTILYSCPEVLKSEPYGEKADVWAVGCILYQMATLSPPFYSTNMLSLATKIVEAVYEPVPEGIYSEKVTDTISRCLTPDAEARPDIVEVSSMISDVMMKYLDNLSTSQLSLEKKLERERRRTQRYFMEANRNTVTCHHELAVLSHETFEKASLSSSSSGAASLKSELSESADLPPEGFQASYGKDEDRACDEILSDDNFNLENAEKDTYSEVDDELDISDNSSSSSSSPLKESTFNILKRSFSASGGERQSQTRDFTGGTGSRPRPALLPLDLLLKVPPHMLRAHIKEIEAELVTGWQSHSLPAVILRNLKDHGPQMGTFLWQASAGIAVSQRKVRQISDPIQQILIQLHKIIYITQLPPALHHNLKRRVIERFKKSLFSQQSNPCNLKSEIKKLSQGSPEPIEPNFFTADYHLLHRSSGGNSLSPNDPTGLPTSIELEEGITYEQMQTVIEEVLEESGYYNFTSNRYHSYPWGTKNHPTKR
+Q9UF33,EPHA6,MGGCEVREFLLQFGFFLPLLTAWPGDCSHVSNNQVVLLDTTTVLGELGWKTYPLNGWDAITEMDEHNRPIHTYQVCNVMEPNQNNWLRTNWISRDAAQKIYVEMKFTLRDCNSIPWVLGTCKETFNLFYMESDESHGIKFKPNQYTKIDTIAADESFTQMDLGDRILKLNTEIREVGPIERKGFYLAFQDIGACIALVSVRVFYKKCPFTVRNLAMFPDTIPRVDSSSLVEVRGSCVKSAEERDTPKLYCGADGDWLVPLGRCICSTGYEEIEGSCHACRPGFYKAFAGNTKCSKCPPHSLTYMEATSVCQCEKGYFRAEKDPPSMACTRPPSAPRNVVFNINETALILEWSPPSDTGGRKDLTYSVICKKCGLDTSQCEDCGGGLRFIPRHTGLINNSVIVLDFVSHVNYTFEIEAMNGVSELSFSPKPFTAITVTTDQDAPSLIGVVRKDWASQNSIALSWQAPAFSNGAILDYEIKYYEKEHEQLTYSSTRSKAPSVIITGLKPATKYVFHIRVRTATGYSGYSQKFEFETGDETSDMAAEQGQILVIATAAVGGFTLLVILTLFFLITGRCQWYIKAKMKSEEKRRNHLQNGHLRFPGIKTYIDPDTYEDPSLAVHEFAKEIDPSRIRIERVIGAGEFGEVCSGRLKTPGKREIPVAIKTLKGGHMDRQRRDFLREASIMGQFDHPNIIRLEGVVTKRSFPAIGVEAFCPSFLRAGFLNSIQAPHPVPGGGSLPPRIPAGRPVMIVVEYMENGSLDSFLRKHDGHFTVIQLVGMLRGIASGMKYLSDMGYVHRDLAARNILVNSNLVCKVSDFGLSRVLEDDPEAAYTTTGGKIPIRWTAPEAIAYRKFSSASDAWSYGIVMWEVMSYGERPYWEMSNQDVILSIEEGYRLPAPMGCPASLHQLMLHCWQKERNHRPKFTDIVSFLDKLIRNPSALHTLVEDILVMPESPGEVPEYPLFVTVGDWLDSIKMGQYKNNFVAAGFTTFDLISRMSIDDIRRIGVILIGHQRRIVSSIQTLRLHMMHIQEKGFHV
+Q9HCP0,CSNK1G1,MDHPSREKDERQRTTKPMAQRSAHCSRPSGSSSSSGVLMVGPNFRVGKKIGCGNFGELRLGKNLYTNEYVAIKLEPIKSRAPQLHLEYRFYKQLGSAGEGLPQVYYFGPCGKYNAMVLELLGPSLEDLFDLCDRTFTLKTVLMIAIQLLSRMEYVHSKNLIYRDVKPENFLIGRQGNKKEHVIHIIDFGLAKEYIDPETKKHIPYREHKSLTGTARYMSINTHLGKEQSRRDDLEALGHMFMYFLRGSLPWQGLKADTLKERYQKIGDTKRNTPIEALCENFPEEMATYLRYVRRLDFFEKPDYEYLRTLFTDLFEKKGYTFDYAYDWVGRPIPTPVGSVHVDSGASAITRESHTHRDRPSQQQPLRNQVVSSTNGELNVDDPTGAHSNAPITAHAEVEVVEEAKCCCFFKRKRKKTAQRHK
+Q9H792,PEAK1,MSACNTFTEHVWKPGECKNCFKPKSLHQLPPDPEKAPITHGNVKTNANHSNNHRIRNTGNFRPPVAKKPTIAVKPTMIVADGQSICGELSIQEHCENKPVIIGWNRNRAALSQKPLNNNNEDDEGISHVPKPYGNNDSAKKMSDNNNGLTEVLKEIAGLDTAPQIRGNETNSRETFLGRINDCYKRSLERKLPPSCMIGGIKETQGKHVILSGSTEVISNEGGRFCYPEFSSGEESEEDVLFSNMEEEHESWDESDEELLAMEIRMRGQPRFANFRANTLSPVRFFVDKKWNTIPLRNKSLQRICAVDYDDSYDEILNGYEENSVVSYGQGSIQSMVSSDSTSPDSSLTEESRSETASSLSQKICNGGLSPGNPGDSKDMKEIEPNYESPSSNNQDKDSSQASKSSIKVPETHKAVLALRLEEKDGKIAVQTEKEESKASTDVAGQAVTINLVPTEEQAKPYRVVNLEQPLCKPYTVVDVSAAMASEHLEGPVNSPKTKSSSSTPNSPVTSSSLTPGQISAHFQKSSAIRYQEVWTSSTSPRQKIPKVELITSGTGPNVPPRKNCHKSAPTSPTATNISSKTIPVKSPNLSEIKFNSYNNAGMPPFPIIIHDEPTYARSSKNAIKVPIVINPNAYDNLAIYKSFLGTSGELSVKEKTTSVISHTYEEIETESKVPDNTTSKTTDCLQTKGFSNSTEHKRGSVAQKVQEFNNCLNRGQSSPQRSYSSSHSSPAKIQRATQEPVAKIEGTQESQMVGSSSTREKASTVLSQIVASIQPPQSPPETPQSGPKACSVEELYAIPPDADVAKSTPKSTPVRPKSLFTSQPSGEAEAPQTTDSPTTKVQKDPSIKPVTPSPSKLVTSPQSEPPAPFPPPRSTSSPYHAGNLLQRHFTNWTKPTSPTRSTEAESVLHSEGSRRAADAKPKRWISFKSFFRRRKTDEEDDKEKEREKGKLVGLDGTVIHMLPPPPVQRHHWFTEAKGESSEKPAIVFMYRCDPAQGQLSVDQSKARTDQAAVMEKGRAENALLQDSEKKRSHSSPSQIPKKILSHMTHEVTEDFSPRDPRTVVGKQDGRGCTSVTTALSLPELEREDGKEDISDPMDPNPCSATYSNLGQSRAAMIPPKQPRQPKGAVDDAIAFGGKTDQEAPNASQPTPPPLPKKMIIRANTEPISKDLQKSMESSLCVMANPTYDIDPNWDASSAGSSISYELKGLDIESYDSLERPLRKERPVPSAANSISSLTTLSIKDRFSNSMESLSSRRGPSCRQGRGIQKPQRQALYRGLENREEVVGKIRSLHTDALKKLAVKCEDLFMAGQKDQLRFGVDSWSDFRLTSDKPCCEAGDAVYYTASYAKDPLNNYAVKICKSKAKESQQYYHSLAVRQSLAVHFNIQQDCGHFLAEVPNRLLPWEDPDDPEKDEDDMEETEEDAKGETDGKNPKPCSEAASSQKENQGVMSKKQRSHVVVITREVPCLTVADFVRDSLAQHGKSPDLYERQVCLLLLQLCSGLEHLKPYHVTHCDLRLENLLLVHYQPGGTAQGFGPAEPSPTSSYPTRLIVSNFSQAKQKSHLVDPEILRDQSRLAPEIITATQYKKCDEFQTGILIYEMLHLPNPFDENPELKEREYTRADLPRIPFRSPYSRGLQQLASCLLNPNPSERILISDAKGILQCLLWGPREDLFQTFTACPSLVQRNTLLQNWLDIKRTLLMIKFAEKSLDREGGISLEDWLCAQYLAFATTDSLSCIVKILQHR
+Q52WX2,SBK1,MSVGCPEPEPPRSLTCCGPGTAPGPGAGVPLLTEDMQALTLRTLAASDVTKHYELVRELGKGTYGKVDLVVYKGTGTKMALKFVNKSKTKLKNFLREVSITNSLSSSPFIIKVFDVVFETEDCYVFAQEYAPAGDLFDIIPPQVGLPEDTVKRCVQQLGLALDFMHGRQLVHRDIKPENVLLFDRECRRVKLADFGMTRRVGCRVKRVSGTIPYTAPEVCQAGRADGLAVDTGVDVWAFGVLIFCVLTGNFPWEAASGADAFFEEFVRWQRGRLPGLPSQWRRFTEPALRMFQRLLALEPERRGPAKEVFRFLKHELTSELRRRPSHRARKPPGDRPPAAGPLRLEAPGPLKRTVLTESGSGSRPAPPAVGSVPLPVPVPVPVPVPVPVPEPGLAPQGPPGRTDGRADKSKGQVVLATAIEICV
+Q9BXU1,STK31,MWVQGHSSRASATESVSFSGIVQMDEDTHYDKVEDVVGSHIEDAVTFWAQSINRNKDIMKIGCSLSEVCPQASSVLGNLDPNKIYGGLFSEDQCWYRCKVLKIISVEKCLVRYIDYGNTEILNRSDIVEIPLELQFSSVAKKYKLWGLHIPSDQEVTQFDQGTTFLGSLIFEKEIKMRIKATSEDGTVIAQAEYGSVDIGEEVLKKGFAEKCRLASRTDICEEKKLDPGQLVLRNLKSPIPLWGHRSNQSTFSRPKGHLSEKMTLDLKDENDAGNLITFPKESLAVGDFNLGSNVSLEKIKQDQKLIEENEKLKTEKDALLESYKALELKVEQIAQELQQEKAAAVDLTNHLEYTLKTYIDTRMKNLAAKMEILKEMRHVDISVRFGKDLSDAIQVLDEGCFTTPASLNGLEIIWAEYSLAQENIKTCEYVSEGNILIAQRNEMQQKLYMSVEDFILEVDESSLNKRLKTLQDLSVSLEAVYGQAKEGANSDEILKKFYDWKCDKREEFTSVRSETDASLHRLVAWFQRTLKVFDLSVEGSLISEDAMDNIDEILEKTESSVCKELEIALVDQGDADKEIISNTYSQVLQKIHSEERLIATVQAKYKDSIEFKKQLIEYLNKSPSVDHLLSIKKTLKSLKALLRWKLVEKSNLEESDDPDGSQIEKIKEEITQLRNNVFQEIYHEREEYEMLTSLAQKWFPELPLLHPEIGLLKYMNSGGLLTMSLERDLLDAEPMKELSSKRPLVRSEVNGQIILLKGYSVDVDTEAKVIERAATYHRAWREAEGDSGLLPLIFLFLCKSDPMAYLMVPYYPRANLNAVQANMPLNSEETLKVMKGVAQGLHTLHKADIIHGSLHQNNVFALNREQGIVGDFDFTKSVSQRASVNMMVGDLSLMSPELKMGKPASPGSDLYAYGCLLLWLSVQNQEFEINKDGIPKVDQFHLDDKVKSLLCSLICYRSSMTAEQVLNAECFLMPKEQSVPNPEKDTEYTLYKKEEEIKTENLDKCMEKTRNGEANFDC
+Q8NFD2,ANKK1,MAADPTELRLGSLPVFTRDDFEGDWRLVASGGFSQVFQARHRRWRTEYAIKCAPCLPPDAASSDVNYLIEEAAKMKKIKFQHIVSIYGVCKQPLGIVMEFMANGSLEKVLSTHSLCWKLRFRIIHETSLAMNFLHSIKPPLLHLDLKPGNILLDSNMHVKISDFGLSKWMEQSTRMQYIERSALRGMLSYIPPEMFLESNKAPGPKYDVYSFAIVIWELLTQKKPYSGFNMMMIIIRVAAGMRPSLQPVSDQWPSEAQQMVDLMKRCWDQDPKKRPCFLDITIETDILLSLLQSRVAVPESKALARKVSCKLSLRQPGEVNEDISQELMDSDSGNYLKRALQLSDRKNLVPRDEELCIYENKVTPLHFLVAQGSVEQVRLLLAHEVDVDCQTASGYTPLLIAAQDQQPDLCALLLAHGADANRVDEDGWAPLHFAAQNGDDGTARLLLDHGACVDAQEREGWTPLHLAAQNNFENVARLLVSRQADPNLHEAEGKTPLHVAAYFGHVSLVKLLTSQGAELDAQQRNLRTPLHLAVERGKVRAIQHLLKSGAVPDALDQSGYGPLHTAAARGKYLICKMLLRYGASLELPTHQGWTPLHLAAYKGHLEIIHLLAESHANMGALGAVNWTPLHLAARHGEEAVVSALLQCGADPNAAEQSGWTPLHLAVQRSTFLSVINLLEHHANVHARNKVGWTPAHLAALKGNTAILKVLVEAGAQLDVQDGVSCTPLQLALRSRKQGIMSFLEGKEPSVATLGGSKPGAEMEI
+Q8TAS1,UHMK1,MAGSGCAWGAEPPRFLEAFGRLWQVQSRLGSGSSASVYRVRCCGNPGSPPGALKQFLPPGTTGAAASAAEYGFRKERAALEQLQGHRNIVTLYGVFTIHFSPNVPSRCLLLELLDVSVSELLLYSSHQGCSMWMIQHCARDVLEALAFLHHEGYVHADLKPRNILWSAENECFKLIDFGLSFKEGNQDVKYIQTDGYRAPEAELQNCLAQAGLQSDTECTSAVDLWSLGIILLEMFSGMKLKHTVRSQEWKANSSAIIDHIFASKAVVNAAIPAYHLRDLIKSMLHDDPSRRIPAEMALCSPFFSIPFAPHIEDLVMLPTPVLRLLNVLDDDYLENEEEYEDVVEDVKEECQKYGPVVSLLVPKENPGRGQVFVEYANAGDSKAAQKLLTGRMFDGKFVVATFYPLSAYKRGYLYQTLL
+Q6P2M8,PNCK,MLLLKKHTEDISSVYEIRERLGSGAFSEVVLAQERGSAHLVALKCIPKKALRGKEALVENEIAVLRRISHPNIVALEDVHESPSHLYLAMELVTGGELFDRIMERGSYTEKDASHLVGQVLGAVSYLHSLGIVHRDLKPENLLYATPFEDSKIMVSDFGLSKIQAGNMLGTACGTPGYVAPELLEQKPYGKAVDVWALGVISYILLCGYPPFYDESDPELFSQILRASYEFDSPFWDDISESAKDFIRHLLERDPQKRFTCQQALRHLWISGDTAFDRDILGSVSEQIRKNFARTHWKRAFNATSFLRHIRKLGQIPEGEGASEQGMARHSHSGLRAGQPPKW
+Q8TEA7,TBCK,MFPLKDAEMGAFTFFASALPHDVCGSNGLPLTPNSIKILGRFQILKTITHPRLCQYVDISRGKHERLVVVAEHCERSLEDLLRERKPVSCSTVLCIAFEVLQGLQYMNKHGIVHRALSPHNILLDRKGHIKLAKFGLYHMTAHGDDVDFPIGYPSYLAPEVIAQGIFKTTDHMPSKKPLPSGPKSDVWSLGIILFELCVGRKLFQSLDISERLKFLLTLDCVDDTLIVLAEEHGCLDIIKELPETVIDLLNKCLTFHPSKRPTPDQLMKDKVFSEVSPLYTPFTKPASLFSSSLRCADLTLPEDISQLCKDINNDYLAERSIEEVYYLWCLAGGDLEKELVNKEIIRSKPPICTLPNFLFEDGESFGQGRDRSSLLDDTTVTLSLCQLRNRLKDVGGEAFYPLLEDDQSNLPHSNSNNELSAAATLPLIIREKDTEYQLNRIILFDRLLKAYPYKKNQIWKEARVDIPPLMRGLTWAALLGVEGAIHAKYDAIDKDTPIPTDRQIEVDIPRCHQYDELLSSPEGHAKFRRVLKAWVVSHPDLVYWQGLDSLCAPFLYLNFNNEALAYACMSAFIPKYLYNFFLKDNSHVIQEYLTVFSQMIAFHDPELSNHLNEIGFIPDLYAIPWFLTMFTHVFPLHKIFHLWDTLLLGNSSFPFCIGVAILQQLRDRLLANGFNECILLFSDLPEIDIERCVRESINLFCWTPKSATYRQHAQPPKPSSDSSGGRSSAPYFSAECPDPPKTDLSRESIPLNDLKSEVSPRISAEDLIDLCELTVTGHFKTPSKKTKSSKPKLLVVDIRNSEDFIRGHISGSINIPFSAAFTAEGELTQGPYTAMLQNFKGKVIVIVGHVAKHTAEFAAHLVKMKYPRICILDGGINKIKPTGLLTIPSPQI
+Q96Q15,SMG1,MSRRAPGSRLSSGGGGGGTKYPRSWNDWQPRTDSASADPDNLKYSSSRDRGGSSSYGLQPSNSAVVSRQRHDDTRVHADIQNDEKGGYSVNGGSGENTYGRKSLGQELRVNNVTSPEFTSVQHGSRALATKDMRKSQERSMSYSDESRLSNLLRRITREDDRDRRLATVKQLKEFIQQPENKLVLVKQLDNILAAVHDVLNESSKLLQELRQEGACCLGLLCASLSYEAEKIFKWIFSKFSSSAKDEVKLLYLCATYKALETVGEKKAFSSVMQLVMTSLQSILENVDTPELLCKCVKCILLVARCYPHIFSTNFRDTVDILVGWHIDHTQKPSLTQQVSGWLQSLEPFWVADLAFSTTLLGQFLEDMEAYAEDLSHVASGESVDEDVPPPSVSLPKLAALLRVFSTVVRSIGERFSPIRGPPITEAYVTDVLYRVMRCVTAANQVFFSEAVLTAANECVGVLLGSLDPSMTIHCDMVITYGLDQLENCQTCGTDYIISVLNLLTLIVEQINTKLPSSFVEKLFIPSSKLLFLRYHKEKEVVAVAHAVYQAVLSLKNIPVLETAYKLILGEMTCALNNLLHSLQLPEACSEIKHEAFKNHVFNVDNAKFVVIFDLSALTTIGNAKNSLIGMWALSPTVFALLSKNLMIVHSDLAVHFPAIQYAVLYTLYSHCTRHDHFISSSLSSSSPSLFDGAVISTVTTATKKHFSIILNLLGILLKKDNLNQDTRKLLMTWALEAAVLMKKSETYAPLFSLPSFHKFCKGLLANTLVEDVNICLQACSSLHALSSSLPDDLLQRCVDVCRVQLVHSGTRIRQAFGKLLKSIPLDVVLSNNNHTEIQEISLALRSHMSKAPSNTFHPQDFSDVISFILYGNSHRTGKDNWLERLFYSCQRLDKRDQSTIPRNLLKTDAVLWQWAIWEAAQFTVLSKLRTPLGRAQDTFQTIEGIIRSLAAHTLNPDQDVSQWTTADNDEGHGNNQLRLVLLLQYLENLEKLMYNAYEGCANALTSPPKVIRTFFYTNRQTCQDWLTRIRLSIMRVGLLAGQPAVTVRHGFDLLTEMKTTSLSQGNELEVTIMMVVEALCELHCPEAIQGIAVWSSSIVGKNLLWINSVAQQAEGRFEKASVEYQEHLCAMTGVDCCISSFDKSVLTLANAGRNSASPKHSLNGESRKTVLSKPTDSSPEVINYLGNKACECYISIADWAAVQEWQNAIHDLKKSTSSTSLNLKADFNYIKSLSSFESGKFVECTEQLELLPGENINLLAGGSKEKIDMKKLLPNMLSPDPRELQKSIEVQLLRSSVCLATALNPIEQDQKWQSITENVVKYLKQTSRIAIGPLRLSTLTVSQSLPVLSTLQLYCSSALENTVSNRLSTEDCLIPLFSEALRSCKQHDVRPWMQALRYTMYQNQLLEKIKEQTVPIRSHLMELGLTAAKFARKRGNVSLATRLLAQCSEVQLGKTTTAQDLVQHFKKLSTQGQVDEKWGPELDIEKTKLLYTAGQSTHAMEMLSSCAISFCKSVKAEYAVAKSILTLAKWIQAEWKEISGQLKQVYRAQHQQNFTGLSTLSKNILTLIELPSVNTMEEEYPRIESESTVHIGVGEPDFILGQLYHLSSVQAPEVAKSWAALASWAYRWGRKVVDNASQGEGVRLLPREKSEVQNLLPDTITEEEKERIYGILGQAVCRPAGIQDEDITLQITESEDNEEDDMVDVIWRQLISSCPWLSELDESATEGVIKVWRKVVDRIFSLYKLSCSAYFTFLKLNAGQIPLDEDDPRLHLSHRVEQSTDDMIVMATLRLLRLLVKHAGELRQYLEHGLETTPTAPWRGIIPQLFSRLNHPEVYVRQSICNLLCRVAQDSPHLILYPAIVGTISLSSESQASGNKFSTAIPTLLGNIQGEELLVSECEGGSPPASQDSNKDEPKSGLNEDQAMMQDCYSKIVDKLSSANPTMVLQVQMLVAELRRVTVLWDELWLGVLLQQHMYVLRRIQQLEDEVKRVQNNNTLRKEEKIAIMREKHTALMKPIVFALEHVRSITAAPAETPHEKWFQDNYGDAIENALEKLKTPLNPAKPGSSWIPFKEIMLSLQQRAQKRASYILRLEEISPWLAAMTNTEIALPGEVSARDTVTIHSVGGTITILPTKTKPKKLLFLGSDGKSYPYLFKGLEDLHLDERIMQFLSIVNTMFATINRQETPRFHARHYSVTPLGTRSGLIQWVDGATPLFGLYKRWQQREAALQAQKAQDSYQTPQNPGIVPRPSELYYSKIGPALKTVGLSLDVSRRDWPLHVMKAVLEELMEATPPNLLAKELWSSCTTPDEWWRVTQSYARSTAVMSMVGYIIGLGDRHLDNVLIDMTTGEVVHIDYNVCFEKGKSLRVPEKVPFRMTQNIETALGVTGVEGVFRLSCEQVLHIMRRGRETLLTLLEAFVYDPLVDWTAGGEAGFAGAVYGGGGQQAESKQSKREMEREITRSLFSSRVAEIKVNWFKNRDEMLVVLPKLDGSLDEYLSLQEQLTDVEKLQGKLLEEIEFLEGAEGVDHPSHTLQHRYSEHTQLQTQQRAVQEAIQVKLNEFEQWITHYQAAFNNLEATQLASLLQEISTQMDLGPPSYVPATAFLQNAGQAHLISQCEQLEGEVGALLQQRRSVLRGCLEQLHHYATVALQYPKAIFQKHRIEQWKTWMEELICNTTVERCQELYRKYEMQYAPQPPPTVCQFITATEMTLQRYAADINSRLIRQVERLKQEAVTVPVCEDQLKEIERCIKVFLHENGEEGSLSLASVIISALCTLTRRNLMMEGAASSAGEQLVDLTSRDGAWFLEELCSMSGNVTCLVQLLKQCHLVPQDLDIPNPMEASETVHLANGVYTSLQELNSNFRQIIFPEALRCLMKGEYTLESMLHELDGLIEQTTDGVPLQTLVESLQAYLRNAAMGLEEETHAHYIDVARLLHAQYGELIQPRNGSVDETPKMSAGQMLLVAFDGMFAQVETAFSLLVEKLNKMEIPIAWRKIDIIREARSTQVNFFDDDNHRQVLEEIFFLKRLQTIKEFFRLCGTFSKTLSGSSSLEDQNTVNGPVQIVNVKTLFRNSCFSEDQMAKPIKAFTADFVRQLLIGLPNQALGLTLCSFISALGVDIIAQVEAKDFGAESKVSVDDLCKKAVEHNIQIGKFSQLVMNRATVLASSYDTAWKKHDLVRRLETSISSCKTSLQRVQLHIAMFQWQHEDLLINRPQAMSVTPPPRSAILTSMKKKLHTLSQIETSIATVQEKLAALESSIEQRLKWAGGANPALAPVLQDFEATIAERRNLVLKESQRASQVTFLCSNIIHFESLRTRTAEALNLDAALFELIKRCQQMCSFASQFNSSVSELELRLLQRVDTGLEHPIGSSEWLLSAHKQLTQDMSTQRAIQTEKEQQIETVCETIQNLVDNIKTVLTGHNRQLGDVKHLLKAMAKDEEAALADGEDVPYENSVRQFLGEYKSWQDNIQTVLFTLVQAMGQVRSQEHVEMLQEITPTLKELKTQSQSIYNNLVSFASPLVTDATNECSSPTSSATYQPSFAAAVRSNTGQKTQPDVMSQNARKLIQKNLATSADTPPSTVPGTGKSVACSPKKAVRDPKTGKAVQERNSYAVSVWKRVKAKLEGRDVDPNRRMSVAEQVDYVIKEATNLDNLAQLYEGWTAWV
+Q9H1R3,MYLK2,MATENGAVELGIQNPSTDKAPKGPTGERPLAAGKDPGPPDPKKAPDPPTLKKDAKAPASEKGDGTLAQPSTSSQGPKGEGDRGGGPAEGSAGPPAALPQQTATPETSVKKPKAEQGASGSQDPGKPRVGKKAAEGQAAARRGSPAFLHSPSCPAIISSSEKLLAKKPPSEASELTFEGVPMTHSPTDPRPAKAEEGKNILAESQKEVGEKTPGQAGQAKMQGDTSRGIEFQAVPSEKSEVGQALCLTAREEDCFQILDDCPPPPAPFPHRMVELRTGNVSSEFSMNSKEALGGGKFGAVCTCMEKATGLKLAAKVIKKQTPKDKEMVLLEIEVMNQLNHRNLIQLYAAIETPHEIVLFMEYIEGGELFERIVDEDYHLTEVDTMVFVRQICDGILFMHKMRVLHLDLKPENILCVNTTGHLVKIIDFGLARRYNPNEKLKVNFGTPEFLSPEVVNYDQISDKTDMWSMGVITYMLLSGLSPFLGDDDTETLNNVLSGNWYFDEETFEAVSDEAKDFVSNLIVKDQRARMNAAQCLAHPWLNNLAEKAKRCNRRLKSQILLKKYLMKRRWKKNFIAVSAANRFKKISSSGALMALGV
+Q6ZN16,MAP3K15,MESGGGNAPAGALGAASESPQCPPPPGVEGAAGPAEPDGAAEGAAGGSGEGESGGGPRRALRAVYVRSESSQGGAAGGPEAGARQCLLRACEAEGAHLTSVPFGELDFGETAVLDAFYDADVAVVDMSDVSRQPSLFYHLGVRESFDMANNVILYHDTDADTALSLKDMVTQKNTASSGNYYFIPYIVTPCADYFCCESDAQRRASEYMQPNWDNILGPLCMPLVDRFISLLKDIHVTSCVYYKETLLNDIRKAREKYQGEELAKELARIKLRMDNTEVLTSDIIINLLLSYRDIQDYDAMVKLVETLEMLPTCDLADQHNIKFHYAFALNRRNSTGDREKALQIMLQVLQSCDHPGPDMFCLCGRIYKDIFLDSDCKDDTSRDSAIEWYRKGFELQSSLYSGINLAVLLIVAGQQFETSLELRKIGVRLNSLLGRKGSLEKMNNYWDVGQFFSVSMLAHDVGKAVQAAERLFKLKPPVWYLRSLVQNLLLIRRFKKTIIEHSPRQERLNFWLDIIFEATNEVTNGLRFPVLVIEPTKVYQPSYVSINNEAEERTVSLWHVSPTEMKQMHEWNFTASSIKGISLSKFDERCCFLYVHDNSDDFQIYFSTEEQCSRFFSLVKEMITNTAGSTVELEGETDGDTLEYEYDHDANGERVVLGKGTYGIVYAGRDLSNQVRIAIKEIPERDSRYSQPLHEEIALHKYLKHRNIVQYLGSVSENGYIKIFMEQVPGGSLSALLRSKWGPMKEPTIKFYTKQILEGLKYLHENQIVHRDIKGDNVLVNTYSGVVKISDFGTSKRLAGVNPCTETFTGTLQYMAPEIIDQGPRGYGAPADIWSLGCTIIEMATSKPPFHELGEPQAAMFKVGMFKIHPEIPEALSAEARAFILSCFEPDPHKRATTAELLREGFLRQVNKGKKNRIAFKPSEGPRGVVLALPTQGEPMATSSSEHGSVSPDSDAQPDALFERTRAPRHHLGHLLSVPDESSALEDRGLASSPEDRDQGLFLLRKDSERRAILYKILWEEQNQVASNLQECVAQSSEELHLSVGHIKQIIGILRDFIRSPEHRVMATTISKLKVDLDFDSSSISQIHLVLFGFQDAVNKILRNHLIRPHWMFAMDNIIRRAVQAAVTILIPELRAHFEPTCETEGVDKDMDEAEEGYPPATGPGQEAQPHQQHLSLQLGELRQETNRLLEHLVEKEREYQNLLRQTLEQKTQELYHLQLKLKSNCITENPAGPYGQRTDKELIDWLRLQGADAKTIEKIVEEGYTLSDILNEITKEDLRYLRLRGGLLCRLWSAVSQYRRAQEASETKDKA
+Q5S007,LRRK2,MASGSCQGCEEDEETLKKLIVRLNNVQEGKQIETLVQILEDLLVFTYSERASKLFQGKNIHVPLLIVLDSYMRVASVQQVGWSLLCKLIEVCPGTMQSLMGPQDVGNDWEVLGVHQLILKMLTVHNASVNLSVIGLKTLDLLLTSGKITLLILDEESDIFMLIFDAMHSFPANDEVQKLGCKALHVLFERVSEEQLTEFVENKDYMILLSALTNFKDEEEIVLHVLHCLHSLAIPCNNVEVLMSGNVRCYNIVVEAMKAFPMSERIQEVSCCLLHRLTLGNFFNILVLNEVHEFVVKAVQQYPENAALQISALSCLALLTETIFLNQDLEEKNENQENDDEGEEDKLFWLEACYKALTWHRKNKHVQEAACWALNNLLMYQNSLHEKIGDEDGHFPAHREVMLSMLMHSSSKEVFQASANALSTLLEQNVNFRKILLSKGIHLNVLELMQKHIHSPEVAESGCKMLNHLFEGSNTSLDIMAAVVPKILTVMKRHETSLPVQLEALRAILHFIVPGMPEESREDTEFHHKLNMVKKQCFKNDIHKLVLAALNRFIGNPGIQKCGLKVISSIVHFPDALEMLSLEGAMDSVLHTLQMYPDDQEIQCLGLSLIGYLITKKNVFIGTGHLLAKILVSSLYRFKDVAEIQTKGFQTILAILKLSASFSKLLVHHSFDLVIFHQMSSNIMEQKDQQFLNLCCKCFAKVAMDDYLKNVMLERACDQNNSIMVECLLLLGADANQAKEGSSLICQVCEKESSPKLVELLLNSGSREQDVRKALTISIGKGDSQIISLLLRRLALDVANNSICLGGFCIGKVEPSWLGPLFPDKTSNLRKQTNIASTLARMVIRYQMKSAVEEGTASGSDGNFSEDVLSKFDEWTFIPDSSMDSVFAQSDDLDSEGSEGSFLVKKKSNSISVGEFYRDAVLQRCSPNLQRHSNSLGPIFDHEDLLKRKRKILSSDDSLRSSKLQSHMRHSDSISSLASEREYITSLDLSANELRDIDALSQKCCISVHLEHLEKLELHQNALTSFPQQLCETLKSLTHLDLHSNKFTSFPSYLLKMSCIANLDVSRNDIGPSVVLDPTVKCPTLKQFNLSYNQLSFVPENLTDVVEKLEQLILEGNKISGICSPLRLKELKILNLSKNHISSLSENFLEACPKVESFSARMNFLAAMPFLPPSMTILKLSQNKFSCIPEAILNLPHLRSLDMSSNDIQYLPGPAHWKSLNLRELLFSHNQISILDLSEKAYLWSRVEKLHLSHNKLKEIPPEIGCLENLTSLDVSYNLELRSFPNEMGKLSKIWDLPLDELHLNFDFKHIGCKAKDIIRFLQQRLKKAVPYNRMKLMIVGNTGSGKTTLLQQLMKTKKSDLGMQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGREEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSDEKQRKACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRDQLVVGQLIPDCYVELEKIILSERKNVPIEFPVIDRKRLLQLVRENQLQLDENELPHAVHFLNESGVLLHFQDPALQLSDLYFVEPKWLCKIMAQILTVKVEGCPKHPKGIISRRDVEKFLSKKRKFPKNYMSQYFKLLEKFQIALPIGEEYLLVPSSLSDHRPVIELPHCENSEIIIRLYEMPYFPMGFWSRLINRLLEISPYMLSGRERALRPNRMYWRQGIYLNWSPEAYCLVGSEVLDNHPESFLKITVPSCRKGCILLGQVVDHIDSLMEEWFPGLLEIDICGEGETLLKKWALYSFNDGEEHQKILLDDLMKKAEEGDLLVNPDQPRLTIPISQIAPDLILADLPRNIMLNNDELEFEQAPEFLLGDGSFGSVYRAAYEGEEVAVKIFNKHTSLRLLRQELVVLCHLHHPSLISLLAAGIRPRMLVMELASKGSLDRLLQQDKASLTRTLQHRIALHVADGLRYLHSAMIIYRDLKPHNVLLFTLYPNAAIIAKIADYGIAQYCCRMGIKTSEGTPGFRAPEVARGNVIYNQQADVYSFGLLLYDILTTGGRIVEGLKFPNEFDELEIQGKLPDPVKEYGCAPWPMVEKLIKQCLKENPQERPTSAQVFDILNSAELVCLTRRILLPKNVIVECMVATHHNSRNASIWLGCGHTDRGQLSFLDLNTEGYTSEEVADSRILCLALVHLPVEKESWIVSGTQSGTLLVINTEDGKKRHTLEKMTDSVTCLYCNSFSKQSKQKNFLLVGTADGKLAIFEDKTVKLKGAAPLKILNIGNVSTPLMCLSESTNSTERNVMWGGCGTKIFSFSNDFTIQKLIETRTSQLFSYAAFSDSNIITVVVDTALYIAKQNSPVVEVWDKKTEKLCGLIDCVHFLREVMVKENKESKHKMSYSGRVKTLCLQKNTALWIGTGGGHILLLDLSTRRLIRVIYNFCNSVRVMMTAQLGSLKNVMLVLGYNRKNTEGTQKQKEIQSCLTVWDINLPHEVQNLEKHIEVRKELAEKMRRTSVE
+Q8TF76,GSG2,MAASLPGPGSRLFRTYGAADGRRQRRPGREAAQWFPPQDRRRFFNSSGSSDASIGDPSQSDDPDDPDDPDFPGSPVRRRRRRPGGRVPKDRPSLTVTPKRWKLRARPSLTVTPRRLGLRARPPQKCSTPCGPLRLPPFPSRDSGRLSPDLSVCGQPRDGDELGISASLFSSLASPCPGSPTPRDSVISIGTSACLVAASAVPSGLHLPEVSLDRASLPCSQEEATGGAKDTRMVHQTRASLRSVLFGLMNSGTPEDSEFRADGKNMRESCCKRKLVVGNGPEGPGLSSTGKRRATGQDSCQERGLQEAVRREHQEASVPKGRIVPRGIDRLERTRSSRKSKHQEATETSLLHSHRFKKGQKLGKDSFPTQDLTPLQNVCFWTKTRASFSFHKKKIVTDVSEVCSIYTTATSLSGSLLSECSNRPVMNRTSGAPSSWHSSSMYLLSPLNTLSISNKKASDAEKVYGECSQKGPVPFSHCLPTEKLQRCEKIGEGVFGEVFQTIADHTPVAIKIIAIEGPDLVNGSHQKTFEEILPEIIISKELSLLSGEVCNRTEGFIGLNSVHCVQGSYPPLLLKAWDHYNSTKGSANDRPDFFKDDQLFIVLEFEFGGIDLEQMRTKLSSLATAKSILHQLTASLAVAEASLRFEHRDLHWGNVLLKKTSLKKLHYTLNGKSSTIPSCGLQVSIIDYTLSRLERDGIVVFCDVSMDEDLFTGDGDYQFDIYRLMKKENNNRWGEYHPYSNVLWLHYLTDKMLKQMTFKTKCNTPAMKQIKRKIQEFHRTMLNFSSATDLLCQHSLFK
+Q96RU7,TRIB3,MRATPLAAPAGSLSRKKRLELDDNLDTERPVQKRARSGPQPRLPPCLLPLSPPTAPDRATAVATASRLGPYVLLEPEEGGRAYQALHCPTGTEYTCKVYPVQEALAVLEPYARLPPHKHVARPTEVLAGTQLLYAFFTRTHGDMHSLVRSRHRIPEPEAAVLFRQMATALAHCHQHGLVLRDLKLCRFVFADRERKKLVLENLEDSCVLTGPDDSLWDKHACPAYVGPEILSSRASYSGKAADVWSLGVALFTMLAGHYPFQDSEPVLLFGKIRRGAYALPAGLSAPARCLVRCLLRREPAERLTATGILLHPWLRQDPMPLAPTRSHLWEAAQVVPDGLGLDEAREEEGDREVVLYG
+O14578,CIT,MLKFKYGARNPLDAGAAEPIASRASRLNLFFQGKPPFMTQQQMSPLSREGILDALFVLFEECSQPALMKIKHVSNFVRKYSDTIAELQELQPSAKDFEVRSLVGCGHFAEVQVVREKATGDIYAMKVMKKKALLAQEQVSFFEEERNILSRSTSPWIPQLQYAFQDKNHLYLVMEYQPGGDLLSLLNRYEDQLDENLIQFYLAELILAVHSVHLMGYVHRDIKPENILVDRTGHIKLVDFGSAAKMNSNKMVNAKLPIGTPDYMAPEVLTVMNGDGKGTYGLDCDWWSVGVIAYEMIYGRSPFAEGTSARTFNNIMNFQRFLKFPDDPKVSSDFLDLIQSLLCGQKERLKFEGLCCHPFFSKIDWNNIRNSPPPFVPTLKSDDDTSNFDEPEKNSWVSSSPCQLSPSGFSGEELPFVGFSYSKALGILGRSESVVSGLDSPAKTSSMEKKLLIKSKELQDSQDKCHKMEQEMTRLHRRVSEVEAVLSQKEVELKASETQRSLLEQDLATYITECSSLKRSLEQARMEVSQEDDKALQLLHDIREQSRKLQEIKEQEYQAQVEEMRLMMNQLEEDLVSARRRSDLYESELRESRLAAEEFKRKATECQHKLLKAKDQGKPEVGEYAKLEKINAEQQLKIQELQEKLEKAVKASTEATELLQNIRQAKERAERELEKLQNREDSSEGIRKKLVEAEELEEKHREAQVSAQHLEVHLKQKEQHYEEKIKVLDNQIKKDLADKETLENMMQRHEEEAHEKGKILSEQKAMINAMDSKIRSLEQRIVELSEANKLAANSSLFTQRNMKAQEEMISELRQQKFYLETQAGKLEAQNRKLEEQLEKISHQDHSDKNRLLELETRLREVSLEHEEQKLELKRQLTELQLSLQERESQLTALQAARAALESQLRQAKTELEETTAEAEEEIQALTAHRDEIQRKFDALRNSCTVITDLEEQLNQLTEDNAELNNQNFYLSKQLDEASGANDEIVQLRSEVDHLRREITEREMQLTSQKQTMEALKTTCTMLEEQVMDLEALNDELLEKERQWEAWRSVLGDEKSQFECRVRELQRMLDTEKQSRARADQRITESRQVVELAVKEHKAEILALQQALKEQKLKAESLSDKLNDLEKKHAMLEMNARSLQQKLETERELKQRLLEEQAKLQQQMDLQKNHIFRLTQGLQEALDRADLLKTERSDLEYQLENIQVLYSHEKVKMEGTISQQTKLIDFLQAKMDQPAKKKKGLFSRRKEDPALPTQVPLQYNELKLALEKEKARCAELEEALQKTRIELRSAREEAAHRKATDHPHPSTPATARQQIAMSAIVRSPEHQPSAMSLLAPPSSRRKESSTPEEFSRRLKERMHHNIPHRFNVGLNMRATKCAVCLDTVHFGRQASKCLECQVMCHPKCSTCLPATCGLPAEYATHFTEAFCRDKMNSPGLQTKEPSSSLHLEGWMKVPRNNKRGQQGWDRKYIVLEGSKVLIYDNEAREAGQRPVEEFELCLPDGDVSIHGAVGASELANTAKADVPYILKMESHPHTTCWPGRTLYLLAPSFPDKQRWVTALESVVAGGRVSREKAEADAKLLGNSLLKLEGDDRLDMNCTLPFSDQVVLVGTEEGLYALNVLKNSLTHVPGIGAVFQIYIIKDLEKLLMIAGEERALCLVDVKKVKQSLAQSHLPAQPDISPNIFEAVKGCHLFGAGKIENGLCICAAMPSKVVILRYNENLSKYCIRKEIETSEPCSCIHFTNYSILIGTNKFYEIDMKQYTLEEFLDKNDHSLAPAVFAASSNSFPVSIVQVNSAGQREEYLLCFHEFGVFVDSYGRRSRTDDLKWSRLPLAFAYREPYLFVTHFNSLEVIEIQARSSAGTPARAYLDIPNPRYLGPAISSGAIYLASSYQDKLRVICCKGNLVKESGTEHHRGPSTSRSSPNKRGPPTYNEHITKRVASSPAPPEGPSHPREPSTPHRYREGRTELRRDKSPGRPLEREKSPGRMLSTRRERSPGRLFEDSSRGRLPAGAVRTPLSQVNKVWDQSSV
+Q8N5S9,CAMKK1,MEGGPAVCCQDPRAELVERVAAIDVTHLEEADGGPEPTRNGVDPPPRARAASVIPGSTSRLLPARPSLSARKLSLQERPAGSYLEAQAGPYATGPASHISPRAWRRPTIESHHVAISDAEDCVQLNQYKLQSEIGKGAYGVVRLAYNESEDRHYAMKVLSKKKLLKQYGFPRRPPPRGSQAAQGGPAKQLLPLERVYQEIAILKKLDHVNVVKLIEVLDDPAEDNLYLVFDLLRKGPVMEVPCDKPFSEEQARLYLRDVILGLEYLHCQKIVHRDIKPSNLLLGDDGHVKIADFGVSNQFEGNDAQLSSTAGTPAFMAPEAISDSGQSFSGKALDVWATGVTLYCFVYGKCPFIDDFILALHRKIKNEPVVFPEEPEISEELKDLILKMLDKNPETRIGVPDIKLHPWVTKNGEEPLPSEEEHCSVVEVTEEEVKNSVRLIPSWTTVILVKSMLRKRSFGNPFEPQARREERSMSAPGNLLVKEGFGEGGKSPELPGVQEDEAAS
+Q38SD2,LRRK1,MAGMSQRPPSMYWCVGPEESAVCPERAMETLNGAGDTGGKPSTRGGDPAARSRRTEGIRAAYRRGDRGGARDLLEEACDQCASQLEKGQLLSIPAAYGDLEMVRYLLSKRLVELPTEPTDDNPAVVAAYFGHTAVVQELLESLPGPCSPQRLLNWMLALACQRGHLGVVKLLVLTHGADPESYAVRKNEFPVIVRLPLYAAIKSGNEDIAIFLLRHGAYFCSYILLDSPDPSKHLLRKYFIEASPLPSSYPGKTALRVKWSHLRLPWVDLDWLIDISCQITELDLSANCLATLPSVIPWGLINLRKLNLSDNHLGELPGVQSSDEIICSRLLEIDISSNKLSHLPPGFLHLSKLQKLTASKNCLEKLFEEENATNWIGLRKLQELDISDNKLTELPALFLHSFKSLNSLNVSRNNLKVFPDPWACPLKCCKASRNALECLPDKMAVFWKNHLKDVDFSENALKEVPLGLFQLDALMFLRLQGNQLAALPPQEKWTCRQLKTLDLSRNQLGKNEDGLKTKRIAFFTTRGRQRSGTEAASVLEFPAFLSESLEVLCLNDNHLDTVPPSVCLLKSLSELYLGNNPGLRELPPELGQLGNLWQLDTEDLTISNVPAEIQKEGPKAMLSYLRAQLRKAEKCKLMKMIIVGPPRQGKSTLLEILQTGRAPQVVHGEATIRTTKWELQRPAGSRAKVESVEFNVWDIGGPASMATVNQCFFTDKALYVVVWNLALGEEAVANLQFWLLNIEAKAPNAVVLVVGTHLDLIEAKFRVERIATLRAYVLALCRSPSGSRATGFPDITFKHLHEISCKSLEGQEGLRQLIFHVTCSMKDVGSTIGCQRLAGRLIPRSYLSLQEAVLAEQQRRSRDDDVQYLTDRQLEQLVEQTPDNDIKDYEDLQSAISFLIETGTLLHFPDTSHGLRNLYFLDPIWLSECLQRIFNIKGSRSVAKNGVIRAEDLRMLLVGTGFTQQTEEQYFQFLAKFEIALPVANDSYLLPHLLPSKPGLDTHGMRHPTANTIQRVFKMSFVPVGFWQRFIARMLISLAEMDLQLFENKKNTKSRNRKVTIYSFTGNQRNRCSTFRVKRNQTIYWQEGLLVTFDGGYLSVESSDVNWKKKKSGGMKIVCQSEVRDFSAMAFITDHVNSLIDQWFPALTATESDGTPLMEQYVPCPVCETAWAQHTDPSEKSEDVQYFDMEDCVLTAIERDFISCPRHPDLPVPLQELVPELFMTDFPARLFLENSKLEHSEDEGSVLGQGGSGTVIYRARYQGQPVAVKRFHIKKFKNFANVPADTMLRHLRATDAMKNFSEFRQEASMLHALQHPCIVALIGISIHPLCFALELAPLSSLNTVLSENARDSSFIPLGHMLTQKIAYQIASGLAYLHKKNIIFCDLKSDNILVWSLDVKEHINIKLSDYGISRQSFHEGALGVEGTPGYQAPEIRPRIVYDEKVDMFSYGMVLYELLSGQRPALGHHQLQIAKKLSKGIRPVLGQPEEVQFRRLQALMMECWDTKPEKRPLALSVVSQMKDPTFATFMYELCCGKQTAFFSSQGQEYTVVFWDGKEESRNYTVVNTEKGLMEVQRMCCPGMKVSCQLQVQRSLWTATEDQKIYIYTLKGMCPLNTPQQALDTPAVVTCFLAVPVIKKNSYLVLAGLADGLVAVFPVVRGTPKDSCSYLCSHTANRSKFSIADEDARQNPYPVKAMEVVNSGSEVWYSNGPGLLVIDCASLEICRRLEPYMAPSMVTSVVCSSEGRGEEVVWCLDDKANSLVMYHSTTYQLCARYFCGVPSPLRDMFPVRPLDTEPPAASHTANPKVPEGDSIADVSIMYSEELGTQILIHQESLTDYCSMSSYSSSPPRQAARSPSSLPSSPASSSSVPFSTDCEDSDMLHTPGAASDRSEHDLTPMDGETFSQHLQAVKILAVRDLIWVPRRGGDVIVIGLEKDSGAQRGRVIAVLKARELTPHGVLVDAAVVAKDTVVCTFENENTEWCLAVWRGWGAREFDIFYQSYEELGRLEACTRKRR
+Q8IWB6,TEX14,MSRAVRLPVPCPVQLGTLRNDSLEAQLHEYVKQGNYVKVKKILKKGIYVDAVNSLGQTALFVAALLGLRKFVDVLVDYGSDPNHRCFDGSTPVHAAAFSGNQWILSKLLDAGGDLRLHDERGQNPKTWALTAGKERSTQIVEFMQRCASHMQAIIQGFSYDLLKKIDSPQRLVYSPSWCGGLVQGNPNGSPNRLLKAGVISAQNIYSFGFGKAMPWFQFYLTGATQMAYLGSLPVIGEKEVIQADDEPTFSFFSGPYMVMTNLVWNGSRVTVKELNLPTHPHCSRLRLADLLIAEQEHSSKLRHPYLLQLMAVCLSQDLEKTRLVYERITIGTLFSVLHERRSQFPVLHMEVIVHLLLQISDALRYLHFQGFIHRSLSSYAVHIISPGEARLTNLEYMLESEDRGVQRDLTRVPLPTQLYNWAAPEVILQKAATVKSDIYSFSMIMQEILTDDIPWKGLDGSVVKKAVVSGNYLEADVRLPKPYYDIVKSGIHVKQKDRTMNLQDIRYILKNDLKDFTGAQRTQPTESPRVQRYGLHPDVNVYLGLTSEHPRETPDMEIIELKEMGSQPHSPRVHSLFTEGTLDPQAPDPCLMARETQNQDAPCPAPFMAEEASSPSTGQPSLCSFEINEIYSGCLILEDDIEEPPGAASSLEADGPNQVDELKSMEEELDKMEREACCFGSEDESSSKAETEYSFDDWDWQNGSLSSLSLPESTREAKSNLNNMSTTEEYLISKCVLDLKIMQTIMHENDDRLRNIEQILDEVEMKQKEQEERMSLWATSREFTNAYKLPLAVGPPSLNYIPPVLQLSGGQKPDTSGNYPTLPRFPRMLPTLCDPGKQNTDEQFQCTQGAKDSLETSRIQNTSSQGRPRESTAQAKATQFNSALFTLSSHRQGPSASPSCHWDSTRMSVEPVSSEIYNAESRNKDDGKVHLKWKMEVKEMAKKAATGQLTVPPWHPQSSLTLESEAENEPDALLQPPIRSPENTDWQRVIEYHRENDEPRGNGKFDKTGNNDCDSDQHGRQPRLGSFTSIRHPSPRQKEQPEHSEAFQASSDTLVAVEKSYSHQSMQSTCSPESSEDITDEFLTPDGEYFYSSTAQENLALETSSPIEEDFEGIQGAFAQPQVSGEEKFQMRKILGKNAEILPRSQFQPVRSTEDEQEETSKESPKELKEKDISLTDIQDLSSISYEPDSSFKEASCKTPKINHAPTSVSTPLSPGSVSSAASQYKDCLESITFQVKTEFASCWNSQEFIQTLSDDFISVRERAKKLDSLLTSSETPPSRLTGLKRLSSFIGAGSPSLVKACDSSPPHATQRRSLPKVEAFSQHHIDELPPPSQELLDDIELLKQQQGSSTVLHENTASDGGGTANDQRHLEEQETDSKKEDSSMLLSKETEDLGEDTERAHSTLDEDLERWLQPPEESVELQDLPKGSERETNIKDQKVGEEKRKREDSITPERRKSEGVLGTSEEDELKSCFWKRLGWSESSRIIVLDQSDLSD
+O15021,MAST4,MGEKVSEAPEPVPRGCSGHGSRTPASALVAASSPGASSAESSSGSETLSEEGEPGGFSREHQPPPPPPLGGTLGARAPAAWAPASVLLERGVLALPPPLPGGAVPPAPRGSSASQEEQDEELDHILSPPPMPFRKCSNPDVASGPGKSLKYKRQLSEDGRQLRRGSLGGALTGRYLLPNPVAGQAWPASAETSNLVRMRSQALGQSAPSLTASLKELSLPRRGSFCRTSNRKSLIGNGQSPALPRPHSPLSAHAGNSPQDSPRNFSPSASAHFSFARRTDGRRWSLASLPSSGYGTNTPSSTVSSSCSSQEKLHQLPYQPTPDELHFLSKHFCTTESIATENRCRNTPMRPRSRSLSPGRSPACCDHEIIMMNHVYKERFPKATAQMEERLKEIITSYSPDNVLPLADGVLSFTHHQIIELARDCLDKSHQGLITSRYFLELQHKLDKLLQEAHDRSESGELAFIKQLVRKILIVIARPARLLECLEFDPEEFYYLLEAAEGHAKEGQGIKTDIPRYIISQLGLNKDPLEEMAHLGNYDSGTAETPETDESVSSSNASLKLRRKPRESDFETIKLISNGAYGAVYFVRHKESRQRFAMKKINKQNLILRNQIQQAFVERDILTFAENPFVVSMYCSFETRRHLCMVMEYVEGGDCATLMKNMGPLPVDMARMYFAETVLALEYLHNYGIVHRDLKPDNLLVTSMGHIKLTDFGLSKVGLMSMTTNLYEGHIEKDAREFLDKQVCGTPEYIAPEVILRQGYGKPVDWWAMGIILYEFLVGCVPFFGDTPEELFGQVISDEINWPEKDEAPPPDAQDLITLLLRQNPLERLGTGGAYEVKQHRFFRSLDWNSLLRQKAEFIPQLESEDDTSYFDTRSEKYHHMETEEEDDTNDEDFNVEIRQFSSCSHRFSKVFSSIDRITQNSAEEKEDSVDKTKSTTLPSTETLSWSSEYSEMQQLSTSNSSDTESNRHKLSSGLLPKLAISTEGEQDEAASCPGDPHEEPGKPALPPEECAQEEPEVTTPASTISSSTLSVGSFSEHLDQINGRSECVDSTDNSSKPSSEPASHMARQRLESTEKKKISGKVTKSLSASALSLMIPGDMFAVSPLGSPMSPHSLSSDPSSSRDSSPSRDSSAASASPHQPIVIHSSGKNYGFTIRAIRVYVGDSDIYTVHHIVWNVEEGSPACQAGLKAGDLITHINGEPVHGLVHTEVIELLLKSGNKVSITTTPFENTSIKTGPARRNSYKSRMVRRSKKSKKKESLERRRSLFKKLAKQPSPLLHTSRSFSCLNRSLSSGESLPGSPTHSLSPRSPTPSYRSTPDFPSGTNSSQSSSPSSSAPNSPAGSGHIRPSTLHGLAPKLGGQRYRSGRRKSAGNIPLSPLARTPSPTPQPTSPQRSPSPLLGHSLGNSKIAQAFPSKMHSPPTIVRHIVRPKSAEPPRSPLLKRVQSEEKLSPSYGSDKKHLCSRKHSLEVTQEEVQREQSQREAPLQSLDENVCDVPPLSRARPVEQGCLKRPVSRKVGRQESVDDLDRDKLKAKVVVKKADGFPEKQESHQKSHGPGSDLENFALFKLEEREKKVYPKAVERSSTFENKASMQEAPPLGSLLKDALHKQASVRASEGAMSDGRVPAEHRQGGGDFRRAPAPGTLQDGLCHSLDRGISGKGEGTEKSSQAKELLRCEKLDSKLANIDYLRKKMSLEDKEDNLCPVLKPKMTAGSHECLPGNPVRPTGGQQEPPPASESRAFVSSTHAAQMSAVSFVPLKALTGRVDSGTEKPGLVAPESPVRKSPSEYKLEGRSVSCLKPIEGTLDIALLSGPQASKTELPSPESAQSPSPSGDVRASVPPVLPSSSGKKNDTTSARELSPSSLKMNKSYLLEPWFLPPSRGLQNSPAVSLPDPEFKRDRKGPHPTARSPGTVMESNPQQREGSSPKHQDHTTDPKLLTCLGQNLHSPDLARPRCPLPPEASPSREKPGLRESSERGPPTARSERSAARADTCREPSMELCFPETAKTSDNSKNLLSVGRTHPDFYTQTQAMEKAWAPGGKTNHKDGPGEARPPPRDNSSLHSAGIPCEKELGKVRRGVEPKPEALLARRSLQPPGIESEKSEKLSSFPSLQKDGAKEPERKEQPLQRHPSSIPPPPLTAKDLSSPAARQHCSSPSHASGREPGAKPSTAEPSSSPQDPPKPVAAHSESSSHKPRPGPDPGPPKTKHPDRSLSSQKPSVGATKGKEPATQSLGGSSREGKGHSKSGPDVFPATPGSQNKASDGIGQGEGGPSVPLHTDRAPLDAKPQPTSGGRPLEVLEKPVHLPRPGHPGPSEPADQKLSAVGEKQTLSPKHPKPSTVKDCPTLCKQTDNRQTDKSPSQPAANTDRRAEGKKCTEALYAPAEGDKLEAGLSFVHSENRLKGAERPAAGVGKGFPEARGKGPGPQKPPTEADKPNGMKRSPSATGQSSFRSTALPEKSLSCSSSFPETRAGVREASAASSDTSSAKAAGGMLELPAPSNRDHRKAQPAGEGRTHMTKSDSLPSFRVSTLPLESHHPDPNTMGGASHRDRALSVTATVGETKGKDPAPAQPPPARKQNVGRDVTKPSPAPNTDRPISLSNEKDFVVRQRRGKESLRSSPHKKAL
+Q13557,CAMK2D,MASTTTCTRFTDEYQLFEELGKGAFSVVRRCMKIPTGQEYAAKIINTKKLSARDHQKLEREARICRLLKHPNIVRLHDSISEEGFHYLVFDLVTGGELFEDIVAREYYSEADASHCIQQILESVNHCHLNGIVHRDLKPENLLLASKSKGAAVKLADFGLAIEVQGDQQAWFGFAGTPGYLSPEVLRKDPYGKPVDMWACGVILYILLVGYPPFWDEDQHRLYQQIKAGAYDFPSPEWDTVTPEAKDLINKMLTINPAKRITASEALKHPWICQRSTVASMMHRQETVDCLKKFNARRKLKGAILTTMLATRNFSAAKSLLKKPDGVKESTESSNTTIEDEDVKARKQEIIKVTEQLIEAINNGDFEAYTKICDPGLTAFEPEALGNLVEGMDFHRFYFENALSKSNKPIHTIILNPHVHLVGDDAACIAYIRLTQYMDGSGMPKTMQSEETRVWHRRDGKWQNVHFHRSGSPTVPIKPPCIPNGKENFSGGTSLWQNI
+Q9NSY1,BMP2K,MKKFSRMPKSEGGSGGGAAGGGAGGAGAGAGCGSGGSSVGVRVFAVGRHQVTLEESLAEGGFSTVFLVRTHGGIRCALKRMYVNNMPDLNVCKREITIMKELSGHKNIVGYLDCAVNSISDNVWEVLILMEYCRAGQVVNQMNKKLQTGFTEPEVLQIFCDTCEAVARLHQCKTPIIHRDLKVENILLNDGGNYVLCDFGSATNKFLNPQKDGVNVVEEEIKKYTTLSYRAPEMINLYGGKPITTKADIWALGCLLYKLCFFTLPFGESQVAICDGNFTIPDNSRYSRNIHCLIRFMLEPDPEHRPDIFQVSYFAFKFAKKDCPVSNINNSSIPSALPEPMTASEAAARKSQIKARITDTIGPTETSIAPRQRPKANSATTATPSVLTIQSSATPVKVLAPGEFGNHRPKGALRPGNGPEILLGQGPPQQPPQQHRVLQQLQQGDWRLQQLHLQHRHPHQQQQQQQQQQQQQQQQQQQQQQQQQQQHHHHHHHHLLQDAYMQQYQHATQQQQMLQQQFLMHSVYQPQPSASQYPTMMPQYQQAFFQQQMLAQHQPSQQQASPEYLTSPQEFSPALVSYTSSLPAQVGTIMDSSYSANRSVADKEAIANFTNQKNISNPPDMSGWNPFGEDNFSKLTEEELLDREFDLLRSNRLEERASSDKNVDSLSAPHNHPPEDPFGSVPFISHSGSPEKKAEHSSINQENGTANPIKNGKTSPASKDQRTGKKTSVQGQVQKGNDESESDFESDPPSPKSSEEEEQDDEEVLQGEQGDFNDDDTEPENLGHRPLLMDSEDEEEEEKHSSDSDYEQAKAKYSDMSSVYRDRSGSGPTQDLNTILLTSAQLSSDVAVETPKQEFDVFGAVPFFAVRAQQPQQEKNEKNLPQHRFPAAGLEQEEFDVFTKAPFSKKVNVQECHAVGPEAHTIPGYPKSVDVFGSTPFQPFLTSTSKSESNEDLFGLVPFDEITGSQQQKVKQRSLQKLSSRQRRTKQDMSKSNGKRHHGTPTSTKKTLKPTYRTPERARRHKKVGRRDSQSSNEFLTISDSKENISVALTDGKDRGNVLQPEESLLDPFGAKPFHSPDLSWHPPHQGLSDIRADHNTVLPGRPRQNSLHGSFHSADVLKMDDFGAVPFTELVVQSITPHQSQQSQPVELDPFGAAPFPSKQ
+Q9BXA7,TSSK1B,MDDAAVLKRRGYLLGINLGEGSYAKVKSAYSERLKFNVAIKIIDRKKAPADFLEKFLPREIEILAMLNHCSIIKTYEIFETSHGKVYIVMELAVQGDLLELIKTRGALHEDEARKKFHQLSLAIKYCHDLDVVHRDLKCDNLLLDKDFNIKLSDFSFSKRCLRDDSGRMALSKTFCGSPAYAAPEVLQGIPYQPKVYDIWSLGVILYIMVCGSMPYDDSNIKKMLRIQKEHRVNFPRSKHLTGECKDLIYHMLQPDVNRRLHIDEILSHCWMQPKARGSPSVAINKEGESSRGTEPLWTPEPGSDKKSATKLEPEGEAQPQAQPETKPEGTAMQMSRQSEILGFPSKPSTMETEEGPPQQPPETRAQ
+Q86YV6,MYLK4,MLKVKRLEEFNTCYNSNQLEKMAFFQCREEVEKVKCFLEKNSGDQDSRSGHNEAKEVWSNADLTERMPVKSKRTSALAVDIPAPPAPFDHRIVTAKQGAVNSFYTVSKTEILGGGRFGQVHKCEETATGLKLAAKIIKTRGMKDKEEVKNEISVMNQLDHANLIQLYDAFESKNDIVLVMEYVDGGELFDRIIDESYNLTELDTILFMKQICEGIRHMHQMYILHLDLKPENILCVNRDAKQIKIIDFGLARRYKPREKLKVNFGTPEFLAPEVVNYDFVSFPTDMWSVGVIAYMLLSGLSPFLGDNDAETLNNILACRWDLEDEEFQDISEEAKEFISKLLIKEKSWRISASEALKHPWLSDHKLHSRLNAQKKKNRGSDAQDFVTK
+Q7Z695,ADCK2,MVAPWRVSVRVCLSHLRCFELRQGLSLLRPSECPRDARLCWLLLGTLPKVVSLCGDVGEGAPDVLSRRRVRCSGAAGAGPAESLPRAGPLGGVFLHLRLWLRAGALLVKFFPLLLLYPLTYLAPSVSTLWLHLLLKATETSGPTYIKLGQWASTRRDLFSEAFCAQFSKLHVRVTPHPWTHTERFLRQAFGDDWGSILSFENREPVGSGCVAQVYKAYANTAFLETDSVQRLGRASCLPPFSHTGAVGGLRELFGYLGNGRKPPENLADQSFLERLLLPKADLVGSNAGVSRAQVPGHQPEATNLISVAVKVLHPGLLAQVHMDLLLMKIGSRVLGVLPGIKWLSLPEIVEEFEKLMVQQIDLRYEAQNLEHFQVNFRNVKAVKFPTPLRPFVTREVLVETYEESVPVSSYQQAGIPVDLKRKIARLGINMLLKMIFVDNFVHADLHPGNILVQGANGLSSSQEAQLQQADICDTLVVAVPSSLCPLRLVLLDAGIVAELQAPDLRNFRAVFMAVVMGQGQRVAELILHHARASECRDVEGFKTEMAMLVTQARKNTITLEKLHVSSLLSSVFKLLMTHKVKLESNFASIVFAIMVLEGLGRSLDPKLDILEAARPFLLTGPVCPP
+O43293,DAPK3,MSTFRQEDVEDHYEMGEELGSGQFAIVRKCRQKGTGKEYAAKFIKKRRLSSSRRGVSREEIEREVNILREIRHPNIITLHDIFENKTDVVLILELVSGGELFDFLAEKESLTEDEATQFLKQILDGVHYLHSKRIAHFDLKPENIMLLDKNVPNPRIKLIDFGIAHKIEAGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLTNISAVNYDFDEEYFSNTSELAKDFIRRLLVKDPKRRMTIAQSLEHSWIKAIRRRNVRGEDSGRKPERRRLKTTRLKEYTIKSHSSLPPNNSYADFERFSKVLEEAAAAEEGLRELQRSRRLCHEDVEALAAIYEEKEAWYREESDSLGQDLRRLRQELLKTEALKRQAQEEAKGALLGTSGLKRRFSRLENRYEALAKQVASEMRFVQDLVRALEQEKLQGVECGLR
+P0C1S8,WEE2,MDDKDIDKELRQKLNFSYCEETEIEGQKKVEESREASSQTPEKGEVQDSEAKGTPPWTPLSNVHELDTSSEKDKESPDQILRTPVSHPLKCPETPAQPDSRSKLLPSDSPSTPKTMLSRLVISPTGKLPSRGPKHLKLTPAPLKDEMTSLALVNINPFTPESYKKLFLQSGGKRKIRGDLEEAGPEEGKGGLPAKRCVLRETNMASRYEKEFLEVEKIGVGEFGTVYKCIKRLDGCVYAIKRSMKTFTELSNENSALHEVYAHAVLGHHPHVVRYYSSWAEDDHMIIQNEYCNGGSLQAAISENTKSGNHFEEPKLKDILLQISLGLNYIHNSSMVHLDIKPSNIFICHKMQSESSGVIEEVENEADWFLSANVMYKIGDLGHATSINKPKVEEGDSRFLANEILQEDYRHLPKADIFALGLTIAVAAGAESLPTNGAAWHHIRKGNFPDVPQELSESFSSLLKNMIQPDAEQRPSAAALARNTVLRPSLGKTEELQQQLNLEKFKTATLERELREAQQAQSPQGYTHHGDTGVSGTHTGSRSTKRLVGGKSARSSSFTSGEREPLH
+Q05823,RNASEL,MESRDHNNPQEGPTSSSGRRAAVEDNHLLIKAVQNEDVDLVQQLLEGGANVNFQEEEGGWTPLHNAVQMSREDIVELLLRHGADPVLRKKNGATPFILAAIAGSVKLLKLFLSKGADVNECDFYGFTAFMEAAVYGKVKALKFLYKRGANVNLRRKTKEDQERLRKGGATALMDAAEKGHVEVLKILLDEMGADVNACDNMGRNALIHALLSSDDSDVEAITHLLLDHGADVNVRGERGKTPLILAVEKKHLGLVQRLLEQEHIEINDTDSDGKTALLLAVELKLKKIAELLCKRGASTDCGDLVMTARRNYDHSLVKVLLSHGAKEDFHPPAEDWKPQSSHWGAALKDLHRIYRPMIGKLKFFIDEKYKIADTSEGGIYLGFYEKQEVAVKTFCEGSPRAQREVSCLQSSRENSHLVTFYGSESHRGHLFVCVTLCEQTLEACLDVHRGEDVENEEDEFARNVLSSIFKAVQELHLSCGYTHQDLQPQNILIDSKKAAHLADFDKSIKWAGDPQEVKRDLEDLGRLVLYVVKKGSISFEDLKAQSNEEVVQLSPDEETKDLIHRLFHPGEHVRDCLSDLLGHPFFWTWESRYRTLRNVGNESDIKTRKSESEILRLLQPGPSEHSKSFDKWTTKINECVMKKMNKFYEKRGNFYQNTVGDLLKFIRNLGEHIDEEKHKKMKLKIGDPSLYFQKTFPDLVIYVYTKLQNTEYRKHFPQTHSPNKPQCDGAGGASGLASPGC
+Q9BX84,TRPM6,MKEQPVLERLQSQKSWIKGVFDKRECSTIIPSSKNPHRCTPVCQVCQNLIRCYCGRLIGDHAGIDYSWTISAAKGKESEQWSVEKHTTKSPTDTFGTINFQDGEHTHHAKYIRTSYDTKLDHLLHLMLKEWKMELPKLVISVHGGIQNFTMPSKFKEIFSQGLVKAAETTGAWIITEGINTGVSKHVGDALKSHSSHSLRKIWTVGIPPWGVIENQRDLIGKDVVCLYQTLDNPLSKLTTLNSMHSHFILSDDGTVGKYGNEMKLRRNLEKYLSLQKIHCRSRQGVPVVGLVVEGGPNVILSVWETVKDKDPVVVCEGTGRAADLLAFTHKHLADEGMLRPQVKEEIICMIQNTFNFSLKQSKHLFQILMECMVHRDCITIFDADSEEQQDLDLAILTALLKGTNLSASEQLNLAMAWDRVDIAKKHILIYEQHWKPDALEQAMSDALVMDRVDFVKLLIEYGVNLHRFLTIPRLEELYNTKQGPTNTLLHHLVQDVKQHTLLSGYRITLIDIGLVVEYLIGRAYRSNYTRKHFRALYNNLYRKYKHQRHSSGNRNESAESTLHSQFIRTAQPYKFKEKSIVLHKSRKKSKEQNVSDDPESTGFLYPYNDLLVWAVLMKRQKMAMFFWQHGEEATVKAVIACILYRAMAHEAKESHMVDDASEELKNYSKQFGQLALDLLEKAFKQNERMAMTLLTYELRNWSNSTCLKLAVSGGLRPFVSHTCTQMLLTDMWMGRLKMRKNSWLKIIISIILPPTILTLEFKSKAEMSHVPQSQDFQFMWYYSDQNASSSKESASVKEYDLERGHDEKLDENQHFGLESGHQHLPWTRKVYEFYSAPIVKFWFYTMAYLAFLMLFTYTVLVEMQPQPSVQEWLVSIYIFTNAIEVVREICISEPGKFTQKVKVWISEYWNLTETVAIGLFSAGFVLRWGDPPFHTAGRLIYCIDIIFWFSRLLDFFAVNQHAGPYVTMIAKMTANMFYIVIIMAIVLLSFGVARKAILSPKEPPSWSLARDIVFEPYWMIYGEVYAGEIDVCSSQPSCPPGSFLTPFLQAVYLFVQYIIMVNLLIAFFNNVYLDMESISNNLWKYNRYRYIMTYHEKPWLPPPLILLSHVGLLLRRLCCHRAPHDQEEGDVGLKLYLSKEDLKKLHDFEEQCVEKYFHEKMEDVNCSCEERIRVTSERVTEMYFQLKEMNEKVSFIKDSLLSLDSQVGHLQDLSALTVDTLKVLSAVDTLQEDEALLAKRKHSTCKKLPHSWSNVICAEVLGSMEIAGEKKYQYYSMPSSLLRSLAGGRHPPRVQRGALLEITNSKREATNVRNDQERQETQSSIVVSGVSPNRQAHSKYGQFLLVPSNLKRVPFSAETVLPLSRPSVPDVLATEQDIQTEVLVHLTGQTPVVSDWASVDEPKEKHEPIAHLLDGQDKAEQVLPTLSCTPEPMTMSSPLSQAKIMQTGGGYVNWAFSEGDETGVFSIKKKWQTCLPSTCDSDSSRSEQHQKQAQDSSLSDNSTRSAQSSECSEVGPWLQPNTSFWINPLRRYRPFARSHSFRFHKEEKLMKICKIKNLSGSSEIGQGAWVKAKMLTKDRRLSKKKKNTQGLQVPIITVNACSQSDQLNPEPGENSISEEEYSKNWFTVSKFSHTGVEPYIHQKMKTKEIGQCAIQISDYLKQSQEDLSKNSLWNSRSTNLNRNSLLKSSIGVDKISASLKSPQEPHHHYSAIERNNLMRLSQTIPFTPVQLFAGEEITVYRLEESSPLNLDKSMSSWSQRGRAAMIQVLSREEMDGGLRKAMRVVSTWSEDDILKPGQVFIVKSFLPEVVRTWHKIFQESTVLHLCLREIQQQRAAQKLIYTFNQVKPQTIPYTPRFLEVFLIYCHSANQWLTIEKYMTGEFRKYNNNNGDEITPTNTLEELMLAFSHWTYEYTRGELLVLDLQGVGENLTDPSVIKPEVKQSRGMVFGPANLGEDAIRNFIAKHHCNSCCRKLKLPDLKRNDYSPERINSTFGLEIKIESAEEPPARETGRNSPEDDMQL
+Q9BVS4,RIOK2,MGKVNVAKLRYMSRDDFRVLTAVEMGMKNHEIVPGSLIASIASLKHGGCNKVLRELVKHKLIAWERTKTVQGYRLTNAGYDYLALKTLSSRQVVESVGNQMGVGKESDIYIVANEEGQQFALKLHRLGRTSFRNLKNKRDYHKHRHNVSWLYLSRLSAMKEFAYMKALYERKFPVPKPIDYNRHAVVMELINGYPLCQIHHVEDPASVYDEAMELIVKLANHGLIHGDFNEFNLILDESDHITMIDFPQMVSTSHPNAEWYFDRDVKCIKDFFMKRFSYESELFPTFKDIRREDTLDVEVSASGYTKEMQADDELLHPLGPDDKNIETKEGSEFSFSDGEVAEKAEVYGSENESERNCLEESEGCYCRSSGDPEQIKEDSLSEESADARSFEMTEFNQALEEIKGQVVENNSVTEFSEEKNRTENYNRQDGQRVQGGVPAGSDEYEDECPHLIALSSLNREFRPFRDEENVGAMNQYRTRTLSITSSGSAVSCSTIPPELVKQKVKRQLTKQQKSAVRRRLQKGEANIFTKQRRENMQNIKSSLEAASFWGE
+Q86TB3,ALPK2,MKDSEGPQRPPLCFLSTLLSQKVPEKSDAVLRCIISGQPKPEVTWYKNGQAIDGSGIISNYEFFENQYIHVLHLSCCTKNDAAVYQISAKNSFGMICCSASVEVECSSENPQLSPNLEDDRDRGWKHETGTHEEERANQIDEKEHPYKEEESISPGTPRSADSSPSKSNHSLSLQSLGNLDISVSSSENPLGVKGTRHTGEAYDPSNTEEIANGLLFLNSSHIYEKQDRCCHKTVHSMASKFTDGDLNNDGPHDEGLRSSQQNPKVQKYISFSLPLSEATAHIYPGDSAVANKQPSPQLSSEDSDSDYELCPEITLTYTEEFSDDDLEYLECSDVMTDYSNAVWQRNLLGTEHVFLLESDDEEMEFGEHCLGGCEHFLSGMGCGSRVSGDAGPMVATAGFCGHHSQPQEVGVRSSRVSKHGPSSPQTGMTLILGPHQDGTSSVTEQGRYKLPTAPEAAENDYPGIQGETRDSHQAREEFASDNLLNMDESVRETEMKLLSGESENSGMSQCWETAADKRVGGKDLWSKRGSRKSARVRQPGMKGNPKKPNANLRESTTEGTLHLCSAKESAEPPLTQSDKRETSHTTAAATGRSSHADARECAISTQAEQEAKTLQTSTDSVSKEGNTNCKGEGMQVNTLFETSQVPDWSDPPQVQVQETVRETISCSQMPAFSEPAGEESPFTGTTTISFSNLGGVHKENASLAQHSEVKPCTCGPQHEEKQDRDGNIPDNFREDLKYEQSISEANDETMSPGVFSRHLPKDARADFREPVAVSVASPEPTDTALTLENVCDEPRDREAVCAMECFEAGDQGTCFDTIDSLVGRPVDKYSPQEICSVDTELAEGQNKVSDLCSSNDKTLEVFFQTQVSETSVSTCKSSKDGNSVMSPLFTSTFTLNISHTASEGATGENLAKVENSTYPLASTVHAGQEQPSPSNSGGLDETQLLSSENNPLVQFKEGGDKSPSPSAADTTATPASYSSIVSFPWEKPTTLTANNECFQATRETEDTSTVTIATEVHPAKYLAVSIPEDKHAGGTEERFPRASHEKVSQFPSQVQLDHILSGATIKSTKELLCRAPSVPGVPHHVLQLPEGEGFCSNSPLQVDNLSGDKSQTVDRADFRSYEENFQERGSETKQGVQQQSLSQQGSLSAPDFQQSLPTTSAAQEERNLVPTAHSPASSREGAGQRSGWGTRVSVVAETAGEEDSQALSNVPSLSDILLEESKEYRPGNWEAGNKLKIITLEASASEIWPPRQLTNSESKASDGGLIIPDKVWAVPDSLKADAVVPELAPSEIAALAHSPEDAESALADSRESHKGEEPTISVHWRSLSSRGFSQPRLLESSVDPVDEKELSVTDSLSAASETGGKENVNNVSQDQEEKQLKMDHTAFFKKFLTCPKILESSVDPIDEISVIEYTRAGKPEPSETTPQGAREGGQSNDGNMGHEAEIQPAILQVPCLQGTILSENRISRSQEGSMKQEAEQIQPEEAKTAIWQVLQPSEGGERIPSGCSIGQIQESSDGSLGEAEQSKKDKAELISPTSPLSSCLPIMTHASLGVDTHNSTGQIHDVPENDIVEPRKRQYVFPVSQKRGTIENERGKPLPSSPDLTRFPCTSSPEGNVTDFLISHKMEEPKIEVLQIGETKPPSSSSSSAKTLAFISGERELEKAPKLLQDPCQKGTLGCAKKSREREKSLEARAGKSPGTLTAVTGSEEVKRKPEAPGSGHLAEGVKKKILSRVAALRLKLEEKENIRKNSAFLKKMPKLETSLSHTEEKQDPKKPSCKREGRAPVLLKKIQAEMFPEHSGNVKLSCQFAEIHEDSTICWTKDSKSIAQVQRSAGDNSTVSFAIVQASPKDQGLYYCCIKNSYGKVTAEFNLTAEVLKQLSSRQDTKGCEEIEFSQLIFKEDFLHDSYFGGRLRGQIATEELHFGEGVHRKAFRSTVMHGLMPVFKPGHACVLKVHNAIAYGTRNNDELIQRNYKLAAQECYVQNTARYYAKIYAAEAQPLEGFGEVPEIIPIFLIHRPENNIPYATVEEELIGEFVKYSIRDGKEINFLRRESEAGQKCCTFQHWVYQKTSGCLLVTDMQGVGMKLTDVGIATLAKGYKGFKGNCSMTFIDQFKALHQCNKYCKMLGLKSLQNNNQKQKQPSIGKSKVQTNSMTIKKAGPETPGEKKT
+Q96QP1,ALPK1,MNNQKVVAVLLQECKQVLDQLLLEAPDVSEEDKSEDQRCRALLPSELRTLIQEAKEMKWPFVPEKWQYKQAVGPEDKTNLKDVIGAGLQQLLASLRASILARDCAAAAAIVFLVDRFLYGLDVSGKLLQVAKGLHKLQPATPIAPQVVIRQARISVNSGKLLKAEYILSSLISNNGATGTWLYRNESDKVLVQSVCIQIRGQILQKLGMWYEAAELIWASIVGYLALPQPDKKGLSTSLGILADIFVSMSKNDYEKFKNNPQINLSLLKEFDHHLLSAAEACKLAAAFSAYTPLFVLTAVNIRGTCLLSYSSSNDCPPELKNLHLCEAKEAFEIGLLTKRDDEPVTGKQELHSFVKAAFGLTTVHRRLHGETGTVHAASQLCKEAMGKLYNFSTSSRSQDREALSQEVMSVIAQVKEHLQVQSFSNVDDRSYVPESFECRLDKLILHGQGDFQKILDTYSQHHTSVCEVFESDCGNNKNEQKDAKTGVCITALKTEIKNIDTVSTTQEKPHCQRDTGISSSLMGKNVQRELRRGGRRNWTHSDAFRVSLDQDVETETEPSDYSNGEGAVFNKSLSGSQTSSAWSNLSGFSSSASWEEVNYHVDDRSARKEPGKEHLVDTQCSTALSEELENDREGRAMHSLHSQLHDLSLQEPNNDNLEPSQNQPQQQMPLTPFSPHNTPGIFLAPGAGLLEGAPEGIQEVRNMGPRNTSAHSRPSYRSASWSSDSGRPKNMGTHPSVQKEEAFEIIVEFPETNCDVKDRQGKEQGEEISERGAGPTFKASPSWVDPEGETAESTEDAPLDFHRVLHNSLGNISMLPCSSFTPNWPVQNPDSRKSGGPVAEQGIDPDASTVDEEGQLLDSMDVPCTNGHGSHRLCILRQPPGQRAETPNSSVSGNILFPVLSEDCTTTEEGNQPGNMLNCSQNSSSSSVWWLKSPAFSSGSSEGDSPWSYLNSSGSSWVSLPGKMRKEILEARTLQPDDFEKLLAGVRHDWLFQRLENTGVFKPSQLHRAHSALLLKYSKKSELWTAQETIVYLGDYLTVKKKGRQRNAFWVHHLHQEEILGRYVGKDYKEQKGLWHHFTDVERQMTAQHYVTEFNKRLYEQNIPTQIFYIPSTILLILEDKTIKGCISVEPYILGEFVKLSNNTKVVKTEYKATEYGLAYGHFSYEFSNHRDVVVDLQGWVTGNGKGLIYLTDPQIHSVDQKVFTTNFGKRGIFYFFNNQHVECNEICHRLSLTRPSMEKPCT
+P25440,BRD2,MLQNVTPHNKLPGEGNAGLLGLGPEAAAPGKRIRKPSLLYEGFESPTMASVPALQLTPANPPPPEVSNPKKPGRVTNQLQYLHKVVMKALWKHQFAWPFRQPVDAVKLGLPDYHKIIKQPMDMGTIKRRLENNYYWAASECMQDFNTMFTNCYIYNKPTDDIVLMAQTLEKIFLQKVASMPQEEQELVVTIPKNSHKKGAKLAALQGSVTSAHQVPAVSSVSHTALYTPPPEIPTTVLNIPHPSVISSPLLKSLHSAGPPLLAVTAAPPAQPLAKKKGVKRKADTTTPTPTAILAPGSPASPPGSLEPKAARLPPMRRESGRPIKPPRKDLPDSQQQHQSSKKGKLSEQLKHCNGILKELLSKKHAAYAWPFYKPVDASALGLHDYHDIIKHPMDLSTVKRKMENRDYRDAQEFAADVRLMFSNCYKYNPPDHDVVAMARKLQDVFEFRYAKMPDEPLEPGPLPVSTAMPPGLAKSSSESSSEESSSESSSEEEEEEDEEDEEEEESESSDSEEERAHRLAELQEQLRAVHEQLAALSQGPISKPKRKREKKEKKKKRKAEKHRGRAGADEDDKGPRAPRPPQPKKSKKASGSGGGSAALGPSGFGPSGGSGTKLPKKATKTAPPALPTGYDSEEEEESRPMSYDEKRQLSLDINKLPGEKLGRVVHIIQAREPSLRDSNPEEIEIDFETLKPSTLRELERYVLSCLRKKPRKPYTIKKPVGKTKEELALEKKRELEKRLQDVSGQLNSTKKPPKKANEKTESSSAQQVAVSRLSASSSSSDSSSSSSSSSSSDTSDSDSG
+Q15059,BRD3,MSTATTVAPAGIPATPGPVNPPPPEVSNPSKPGRKTNQLQYMQNVVVKTLWKHQFAWPFYQPVDAIKLNLPDYHKIIKNPMDMGTIKKRLENNYYWSASECMQDFNTMFTNCYIYNKPTDDIVLMAQALEKIFLQKVAQMPQEEVELLPPAPKGKGRKPAAGAQSAGTQQVAAVSSVSPATPFQSVPPTVSQTPVIAATPVPTITANVTSVPVPPAAAPPPPATPIVPVVPPTPPVVKKKGVKRKADTTTPTTSAITASRSESPPPLSDPKQAKVVARRESGGRPIKPPKKDLEDGEVPQHAGKKGKLSEHLRYCDSILREMLSKKHAAYAWPFYKPVDAEALELHDYHDIIKHPMDLSTVKRKMDGREYPDAQGFAADVRLMFSNCYKYNPPDHEVVAMARKLQDVFEMRFAKMPDEPVEAPALPAPAAPMVSKGAESSRSSEESSSDSGSSDSEEERATRLAELQEQLKAVHEQLAALSQAPVNKPKKKKEKKEKEKKKKDKEKEKEKHKVKAEEEKKAKVAPPAKQAQQKKAPAKKANSTTTAGRQLKKGGKQASASYDSEEEEEGLPMSYDEKRQLSLDINRLPGEKLGRVVHIIQSREPSLRDSNPDEIEIDFETLKPTTLRELERYVKSCLQKKQRKPFSASGKKQAAKSKEELAQEKKKELEKRLQDVSGQLSSSKKPARKEKPGSAPSGGPSRLSSSSSSESGSSSSSGSSSDSSDSE
+O60885,BRD4,MSAESGPGTRLRNLPVMGDGLETSQMSTTQAQAQPQPANAASTNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTEETEIMIVQAKGRGRGRKETGTAKPGVSTVPNTTQASTPPQTQTPQPNPPPVQATPHPFPAVTPDLIVQTPVMTVVPPQPLQTPPPVPPQPQPPPAPAPQPVQSHPPIIAATPQPVKTKKGVKRKADTTTPTTIDPIHEPPSLPPEPKTTKLGQRRESSRPVKPPKKDVPDSQQHPAPEKSSKVSEQLKCCSGILKEMFAKKHAAYAWPFYKPVDVEALGLHDYCDIIKHPMDMSTIKSKLEAREYRDAQEFGADVRLMFSNCYKYNPPDHEVVAMARKLQDVFEMRFAKMPDEPEEPVVAVSSPAVPPPTKVVAPPSSSDSSSDSSSDSDSSTDDSEEERAQRLAELQEQLKAVHEQLAALSQPQQNKPKKKEKDKKEKKKEKHKRKEEVEENKKSKAKEPPPKKTKKNNSSNSNVSKKEPAPMKSKPPPTYESEEEDKCKPMSYEEKRQLSLDINKLPGEKLGRVVHIIQSREPSLKNSNPDEIEIDFETLKPSTLRELERYVTSCLRKKRKPQAEKVDVIAGSSKMKGFSSSESESSSESSSSDSEDSETEMAPKSKKKGHPGREQKKHHHHHHQQMQQAPAPVPQQPPPPPQQPPPPPPPQQQQQPPPPPPPPSMPQQAAPAMKSSPPPFIATQVPVLEPQLPGSVFDPIGHFTQPILHLPQPELPPHLPQPPEHSTPPHLNQHAVVSPPALHNALPQQPSRPSNRAAALPPKPARPPAVSPALTQTPLLPQPPMAQPPQVLLEDEEPPAPPLTSMQMQLYLQQLQKVQPPTPLLPSVKVQSQPPPPLPPPPHPSVQQQLQQQPPPPPPPQPQPPPQQQHQPPPRPVHLQPMQFSTHIQQPPPPQGQQPPHPPPGQQPPPPQPAKPQQVIQHHHSPRHHKSDPYSTGHLREAPSPLMIHSPQMSQFQSLTHQSPPQQNVQPKKQELRAASVVQPQPLVVVKEEKIHSPIIRSEPFSPSLRPEPPKHPESIKAPVHLPQRPEMKPVDVGRPVIRPPEQNAPPPGAPDKDKQKQEPKTPVAPKKDLKIKNMGSWASLVQKHPTTPSSTAKSSSDSFEQFRRAAREKEEREKALKAQAEHAEKEKERLRQERMRSREDEDALEQARRAHEEARRRQEQQQQQRQEQQQQQQQQAAAVAAAATPQAQSSQPQSMLDQQRELARKREQERRRREAMAATIDMNFQSDLLSIFEENLF
+Q58F21,BRDT,MSLPSRQTAIIVNPPPPEYINTKKNGRLTNQLQYLQKVVLKDLWKHSFSWPFQRPVDAVKLQLPDYYTIIKNPMDLNTIKKRLENKYYAKASECIEDFNTMFSNCYLYNKPGDDIVLMAQALEKLFMQKLSQMPQEEQVVGVKERIKKGTQQNIAVSSAKEKSSPSATEKVFKQQEIPSVFPKTSISPLNVVQGASVNSSSQTAAQVTKGVKRKADTTTPATSAVKASSEFSPTFTEKSVALPPIKENMPKNVLPDSQQQYNVVKTVKVTEQLRHCSEILKEMLAKKHFSYAWPFYNPVDVNALGLHNYYDVVKNPMDLGTIKEKMDNQEYKDAYKFAADVRLMFMNCYKYNPPDHEVVTMARMLQDVFETHFSKIPIEPVESMPLCYIKTDITETTGRENTNEASSEGNSSDDSEDERVKRLAKLQEQLKAVHQQLQVLSQVPFRKLNKKKEKSKKEKKKEKVNNSNENPRKMCEQMRLKEKSKRNQPKKRKQQFIGLKSEDEDNAKPMNYDEKRQLSLNINKLPGDKLGRVVHIIQSREPSLSNSNPDEIEIDFETLKASTLRELEKYVSACLRKRPLKPPAKKIMMSKEELHSQKKQELEKRLLDVNNQLNSRKRQTKSDKTQPSKAVENVSRLSESSSSSSSSSESESSSSDLSSSDSSDSESEMFPKFTEVKPNDSPSKENVKKMKNECIPPEGRTGVTQIGYCVQDTTSANTTLVHQTTPSHVMPPNHHQLAFNYQELEHLQTVKNISPLQILPPSGDSEQLSNGITVMHPSGDSDTTMLESECQAPVQKDIKIKNADSWKSLGKPVKPSGVMKSSDELFNQFRKAAIEKEVKARTQELIRKHLEQNTKELKASQENQRDLGNGLTVESFSNKIQNKCSGEEQKEHQQSSEAQDKSKLWLLKDRDLARQKEQERRRREAMVGTIDMTLQSDIMTMFENNFD
+Q96L96,ALPK3,MGSRRAPSRGWGAGGRSGAGGDGEDDGPVWIPSPASRSYLLSVRPETSLSSNRLSHPSSGRSTFCSIIAQLTEETQPLFETTLKSRSVSEDSDVRFTCIVTGYPEPEVTWYKDDTELDRYCGLPKYEITHQGNRHTLQLYRCREEDAAIYQASAQNSKGIVSCSGVLEVGTMTEYKIHQRWFAKLKRKAAAKLREIEQSWKHEKAVPGEVDTLRKLSPDRFQRKRRLSGAQAPGPSVPTREPEGGTLAAWQEGETETAQHSGLGLINSFASGEVTTNGEAAPENGEDGEHGLLTYICDAMELGPQRALKEESGAKKKKKDEESKQGLRKPELEKAAQSRRSSENCIPSSDEPDSCGTQGPVGVEQVQTQPRGRAARGPGSSGTDSTRKPASAVGTPDKAQKAPGPGPGQEVYFSLKDMYLENTQAVRPLGEEGPQTLSVRAPGESPKGKAPLRARSEGVPGAPGQPTHSLTPQPTRPFNRKRFAPPKPKGEATTDSKPISSLSQAPECGAQSLGKAPPQASVQVPTPPARRRHGTRDSTLQGQAGHRTPGEVLECQTTTAPTMSASSSSDVASIGVSTSGSQGIIEPMDMETQEDGRTSANQRTGSKKNVQADGKIQVDGRTRGDGTQTAQRTRADRKTQVDAGTQESKRPQSDRSAQKGMMTQGRAETQLETTQAGEKIQEDRKAQADKGTQEDRRMQGEKGMQGEKGTQSEGSAPTAMEGQSEQEVATSLGPPSRTPKLPPTAGPRAPLNIECFVQTPEGSCFPKKPGCLPRSEEAVVTASRNHEQTVLGPLSGNLMLPAQPPHEGSVEQVGGERCRGPQSSGPVEAKQEDSPFQCPKEERPGGVPCMDQGGCPLAGLSQEVPTMPSLPGTGLTASPKAGPCSTPTSQHGSTATFLPSEDQVLMSSAPTLHLGLGTPTQSHPPETMATSSEGACAQVPDVEGRTPGPRSCDPGLIDSLKNYLLLLLKLSSTETSGAGGESQVGAATGGLVPSATLTPTVEVAGLSPRTSRRILERVENNHLVQSAQTLLLSPCTSRRLTGLLDREVQAGRQALAAARGSWGPGPSSLTVPAIVVDEEDPGLASEGASEGEGEVSPEGPGLLGASQESSMAGRLGEAGGQAAPGQGPSAESIAQEPSQEEKFPGEALTGLPAATPEELALGARRKRFLPKVRAAGDGEATTPEERESPTVSPRGPRKSLVPGSPGTPGRERRSPTQGRKASMLEVPRAEEELAAGDLGPSPKAGGLDTEVALDEGKQETLAKPRKAKDLLKAPQVIRKIRVEQFPDASGSLKLWCQFFNILSDSVLTWAKDQRPVGEVGRSAGDEGPAALAIVQASPVDCGVYRCTIHNEHGSASTDFCLSPEVLSGFISREEGEVGEEIEMTPMVFAKGLADSGCWGDKLFGRLVSEELRGGGYGCGLRKASQAKVIYGLEPIFESGRTCIIKVSSLLVFGPSSETSLVGRNYDVTIQGCKIQNMSREYCKIFAAEARAAPGFGEVPEIIPLYLIYRPANNIPYATLEEDLGKPLESYCSREWGCAEAPTASGSSEAMQKCQTFQHWLYQWTNGSFLVTDLAGVDWKMTDVQIATKLRGYQGLKESCFPALLDRFASSHQCNAYCELLGLTPLKGPEAAHPQAKAKGSKSPSAGRKGSQLSPQPQKKGLPSPQGTRKSAPSSKATPQASEPVTTQLLGQPPTQEEGSKAQGMR
+Q3MIX3,ADCK5,MWRPVQLCHFHSALLHSRQKPWPSPAVFFRRNVRGLPPRFSSPTPLWRKVLSTAVVGAPLLLGARYVMAEAREKRRMRLVVDGMGRFGRSLKVGLQISLDYWWCTNVVLRGVEENSPGYLEVMSACHQRAADALVAGAISNGGLYVKLGQGLCSFNHLLPPEYTRTLRVLEDRALKRGFQEVDELFLEDFQALPHELFQEFDYQPIAAASLAQVHRAKLHDGTSVAVKVQYIDLRDRFDGDIHTLELLLRLVEVMHPSFGFSWVLQDLKGTLAQELDFENEGRNAERCARELAHFPYVVVPRVHWDKSSKRVLTADFCAGCKVNDVEAIRSQGLAVHDIAEKLIKAFAEQIFYTGFIHSDPHPGNVLVRKGPDGKAELVLLDHGLYQFLEEKDRAALCQLWRAIILRDDAAMRAHAAALGVQDYLLFAEMLMQRPVRLGQLWGSHLLSREEAAYMVDMARERFEAVMAVLRELPRPMLLVLRNINTVRAINVALGAPVDRYFLMAKRAVRGWSRLAGATYRGVYGTSLLRHAKVVWEMLKFEVALRLETLAMRLTALLARALVHLSLVPPAEELYQYLET
+O15164,TRIM24,MEVAVEKAVAAAAAASAAASGGPSAAPSGENEAESRQGPDSERGGEAARLNLLDTCAVCHQNIQSRAPKLLPCLHSFCQRCLPAPQRYLMLPAPMLGSAETPPPVPAPGSPVSGSSPFATQVGVIRCPVCSQECAERHIIDNFFVKDTTEVPSSTVEKSNQVCTSCEDNAEANGFCVECVEWLCKTCIRAHQRVKFTKDHTVRQKEEVSPEAVGVTSQRPVFCPFHKKEQLKLYCETCDKLTCRDCQLLEHKEHRYQFIEEAFQNQKVIIDTLITKLMEKTKYIKFTGNQIQNRIIEVNQNQKQVEQDIKVAIFTLMVEINKKGKALLHQLESLAKDHRMKLMQQQQEVAGLSKQLEHVMHFSKWAVSSGSSTALLYSKRLITYRLRHLLRARCDASPVTNNTIQFHCDPSFWAQNIINLGSLVIEDKESQPQMPKQNPVVEQNSQPPSGLSSNQLSKFPTQISLAQLRLQHMQQQVMAQRQQVQRRPAPVGLPNPRMQGPIQQPSISHQQPPPRLINFQNHSPKPNGPVLPPHPQQLRYPPNQNIPRQAIKPNPLQMAFLAQQAIKQWQISSGQGTPSTTNSTSSTPSSPTITSAAGYDGKAFGSPMIDLSSPVGGSYNLPSLPDIDCSSTIMLDNIVRKDTNIDHGQPRPPSNRTVQSPNSSVPSPGLAGPVTMTSVHPPIRSPSASSVGSRGSSGSSSKPAGADSTHKVPVVMLEPIRIKQENSGPPENYDFPVVIVKQESDEESRPQNANYPRSILTSLLLNSSQSSTSEETVLRSDAPDSTGDQPGLHQDNSSNGKSEWLDPSQKSPLHVGETRKEDDPNEDWCAVCQNGGELLCCEKCPKVFHLSCHVPTLTNFPSGEWICTFCRDLSKPEVEYDCDAPSHNSEKKKTEGLVKLTPIDKRKCERLLLFLYCHEMSLAFQDPVPLTVPDYYKIIKNPMDLSTIKKRLQEDYSMYSKPEDFVADFRLIFQNCAEFNEPDSEVANAGIKLENYFEELLKNLYPEKRFPKPEFRNESEDNKFSDDSDDDFVQPRKKRLKSIEERQLLK
+Q13263,TRIM28,MAASAAAASAAAASAASGSPGPGEGSAGGEKRSTAPSAAASASASAAASSPAGGGAEALELLEHCGVCRERLRPEREPRLLPCLHSACSACLGPAAPAAANSSGDGGAAGDGTVVDCPVCKQQCFSKDIVENYFMRDSGSKAATDAQDANQCCTSCEDNAPATSYCVECSEPLCETCVEAHQRVKYTKDHTVRSTGPAKSRDGERTVYCNVHKHEPLVLFCESCDTLTCRDCQLNAHKDHQYQFLEDAVRNQRKLLASLVKRLGDKHATLQKSTKEVRSSIRQVSDVQKRVQVDVKMAILQIMKELNKRGRVLVNDAQKVTEGQQERLERQHWTMTKIQKHQEHILRFASWALESDNNTALLLSKKLIYFQLHRALKMIVDPVEPHGEMKFQWDLNAWTKSAEAFGKIVAERPGTNSTGPAPMAPPRAPGPLSKQGSGSSQPMEVQEGYGFGSGDDPYSSAEPHVSGVKRSRSGEGEVSGLMRKVPRVSLERLDLDLTADSQPPVFKVFPGSTTEDYNLIVIERGAAAAATGQPGTAPAGTPGAPPLAGMAIVKEEETEAAIGAPPTATEGPETKPVLMALAEGPGAEGPRLASPSGSTSSGLEVVAPEGTSAPGGGPGTLDDSATICRVCQKPGDLVMCNQCEFCFHLDCHLPALQDVPGEEWSCSLCHVLPDLKEEDGSLSLDGADSTGVVAKLSPANQRKCERVLLALFCHEPCRPLHQLATDSTFSLDQPGGTLDLTLIRARLQEKLSPPYSSPQEFAQDVGRMFKQFNKLTEDKADVQSIIGLQRFFETRMNEAFGDTKFSAVLVEPPPMSLPGAGLSSQELSGGPGDGP
+Q9UPN9,TRIM33,MAENKGGGEAESGGGGSGSAPVTAGAAGPAAQEAEPPLTAVLVEEEEEEGGRAGAEGGAAGPDDGGVAAASSGSAQAASSPAASVGTGVAGGAVSTPAPAPASAPAPGPSAGPPPGPPASLLDTCAVCQQSLQSRREAEPKLLPCLHSFCLRCLPEPERQLSVPIPGGSNGDIQQVGVIRCPVCRQECRQIDLVDNYFVKDTSEAPSSSDEKSEQVCTSCEDNASAVGFCVECGEWLCKTCIEAHQRVKFTKDHLIRKKEDVSESVGASGQRPVFCPVHKQEQLKLFCETCDRLTCRDCQLLEHKEHRYQFLEEAFQNQKGAIENLLAKLLEKKNYVHFAATQVQNRIKEVNETNKRVEQEIKVAIFTLINEINKKGKSLLQQLENVTKERQMKLLQQQNDITGLSRQVKHVMNFTNWAIASGSSTALLYSKRLITFQLRHILKARCDPVPAANGAIRFHCDPTFWAKNVVNLGNLVIESKPAPGYTPNVVVGQVPPGTNHISKTPGQINLAQLRLQHMQQQVYAQKHQQLQQMRMQQPPAPVPTTTTTTQQHPRQAAPQMLQQQPPRLISVQTMQRGNMNCGAFQAHQMRLAQNAARIPGIPRHSGPQYSMMQPHLQRQHSNPGHAGPFPVVSVHNTTINPTSPTTATMANANRGPTSPSVTAIELIPSVTNPENLPSLPDIPPIQLEDAGSSSLDNLLSRYISGSHLPPQPTSTMNPSPGPSALSPGSSGLSNSHTPVRPPSTSSTGSRGSCGSSGRTAEKTSLSFKSDQVKVKQEPGTEDEICSFSGGVKQEKTEDGRRSACMLSSPESSLTPPLSTNLHLESELDALASLENHVKIEPADMNESCKQSGLSSLVNGKSPIRSLMHRSARIGGDGNNKDDDPNEDWCAVCQNGGDLLCCEKCPKVFHLTCHVPTLLSFPSGDWICTFCRDIGKPEVEYDCDNLQHSKKGKTAQGLSPVDQRKCERLLLYLYCHELSIEFQEPVPASIPNYYKIIKKPMDLSTVKKKLQKKHSQHYQIPDDFVADVRLIFKNCERFNEMMKVVQVYADTQEINLKADSEVAQAGKAVALYFEDKLTEIYSDRTFAPLPEFEQEEDDGEVTEDSDEDFIQPRRKRLKSDERPVHIK
+Q58A45,PAN3,MNSGGGLPPPSAAASPSSSSLAAAVAVVAPPGVGGVPGGAAVGVKLKYCRYYAKDKTCFYGEECQFLHEDPAAGAAPGLGLHSNSVPLALAGAPVAGFPPGAVAGGGAGPPPGPKKPDLGDPGTGAAAGGGGSSGGLDGPRLAIPGMDGGALTDTSLTDSYFSTSFIGVNGFGSPVETKYPLMQRMTNSSSSPSLLNDSAKPYSAHDPLTSPASSLFNDFGALNISQRRKPRKYRLGMLEERLVPMGSKARKAKNPIGCLADRCKSGVPINMVWWNRVTENNLQTPNPTASEFIPKGGSTSRLSNVSQSNMSAFSQVFSHPSMGSPATAGLAPGMSLSAGSSPLHSPKITPHTSPAPRRRSHTPNPASYMVPSSASTSVNNPVSQTPSSGQVIQKETVGGTTYFYTDTTPAPLTGMVFPNYHIYPPTAPHVAYMQPKANAPSFFMADELRQELINRHLITMAQIDQADMPAVPTEVDSYHSLFPLEPLPPPNRIQKSSNFGYITSCYKAVNSKDDLPYCLRRIHGFRLVNTKCMVLVDMWKKIQHSNIVTLREVFTTKAFAEPSLVFAYDFHAGGETMMSRHFNDPNADAYFTKRKWGQHEGPLPRQHAGLLPESLIWAYIVQLSSALRTIHTAGLACRVMDPTKILITGKTRLRVNCVGVFDVLTFDNSQNNNPLALMAQYQQADLISLGKVVLALACNSLAGIQRENLQKAMELVTINYSSDLKNLILYLLTDQNRMRSVNDIMPMIGARFYTQLDAAQMRNDVIEEDLAKEVQNGRLFRLLAKLGTINERPEFQKDPTWSETGDRYLLKLFRDHLFHQVTEAGAPWIDLSHIISCLNKLDAGVPEKISLISRDEKSVLVVTYSDLKRCFENTFQELIAAANGQL
+Q14296,FASTK,MRRPRGEPGPRAPRPTEGATCAGPGESWSPSPNSMLRVLLSAQTSPARLSGLLLIPPVQPCCLGPSKWGDRPVGGGPSAGPVQGLQRLLEQAKSPGELLRWLGQNPSKVRAHHYSVALRRLGQLLGSRPRPPPVEQVTLQDLSQLIIRNCPSFDIHTIHVCLHLAVLLGFPSDGPLVCALEQERRLRLPPKPPPPLQPLLRGGQGLEAALSCPRFLRYPRQHLISSLAEARPEELTPHVMVLLAQHLARHRLREPQLLEAIAHFLVVQETQLSSKVVQKLVLPFGRLNYLPLEQQFMPCLERILAREAGVAPLATVNILMSLCQLRCLPFRALHFVFSPGFINYISGTPHALIVRRYLSLLDTAVELELPGYRGPRLPRRQQVPIFPQPLITDRARCKYSHKDIVAEGLRQLLGEEKYRQDLTVPPGYCTDFLLCASSSGAVLPVRTQDPFLPYPPRSCPQGQAASSATTRDPAQRVVLVLRERWHFCRDGRVLLGSRALRERHLGLMGYQLLPLPFEELESQRGLPQLKSYLRQKLQALGLRWGPEGG
+P49842,STK19,MSWKRHHLIPETFGVKRRRKRGPVESDPLRGEPGSARAAVSELMQLFPRGLFEDALPPIVLRSQVYSLVPDRTVADRQLKELQEQGEIRIVQLGFDLDAHGIIFTEDYRTRVLKACDGRPYAGAVQKFLASVLPACGDLSFQQDQMTQTFGFRDSEITHLVNAGVLTVRDAGSWWLAVPGAGRFIKYFVKGRQAVLSMVRKAKYRELLLSELLGRRAPVVVRLGLTYHVHDLIGAQLVDCISTTSGTLLRLPET
+P21675,TAF1,MGPGCDLLLRTAATITAAAIMSDTDSDEDSAGGGPFSLAGFLFGNINGAGQLEGESVLDDECKKHLAGLGALGLGSLITELTANEELTGTDGALVNDEGWVRSTEDAVDYSDINEVAEDESRRYQQTMGSLQPLCHSDYDEDDYDADCEDIDCKLMPPPPPPPGPMKKDKDQDSITGVSENGEGIILPSIIAPSSLASEKVDFSSSSDSESEMGPQEATQAESEDGKLTLPLAGIMQHDATKLLPSVTELFPEFRPGKVLRFLRLFGPGKNVPSVWRSARRKRKKKHRELIQEEQIQEVECSVESEVSQKSLWNYDYAPPPPPEQCLSDDEITMMAPVESKFSQSTGDIDKVTDTKPRVAEWRYGPARLWYDMLGVPEDGSGFDYGFKLRKTEHEPVIKSRMIEEFRKLEENNGTDLLADENFLMVTQLHWEDDIIWDGEDVKHKGTKPQRASLAGWLPSSMTRNAMAYNVQQGFAATLDDDKPWYSIFPIDNEDLVYGRWEDNIIWDAQAMPRLLEPPVLTLDPNDENLILEIPDEKEEATSNSPSKESKKESSLKKSRILLGKTGVIKEEPQQNMSQPEVKDPWNLSNDEYYYPKQQGLRGTFGGNIIQHSIPAVELRQPFFPTHMGPIKLRQFHRPPLKKYSFGALSQPGPHSVQPLLKHIKKKAKMREQERQASGGGEMFFMRTPQDLTGKDGDLILAEYSEENGPLMMQVGMATKIKNYYKRKPGKDPGAPDCKYGETVYCHTSPFLGSLHPGQLLQAFENNLFRAPIYLHKMPETDFLIIRTRQGYYIRELVDIFVVGQQCPLFEVPGPNSKRANTHIRDFLQVFIYRLFWKSKDRPRRIRMEDIKKAFPSHSESSIRKRLKLCADFKRTGMDSNWWVLKSDFRLPTEEEIRAMVSPEQCCAYYSMIAAEQRLKDAGYGEKSFFAPEEENEEDFQMKIDDEVRTAPWNTTRAFIAAMKGKCLLEVTGVADPTGCGEGFSYVKIPNKPTQQKDDKEPQPVKKTVTGTDADLRRLSLKNAKQLLRKFGVPEEEIKKLSRWEVIDVVRTMSTEQARSGEGPMSKFARGSRFSVAEHQERYKEECQRIFDLQNKVLSSTEVLSTDTDSSSAEDSDFEEMGKNIENMLQNKKTSSQLSREREEQERKELQRMLLAAGSAASGNNHRDDDTASVTSLNSSATGRCLKIYRTFRDEEGKEYVRCETVRKPAVIDAYVRIRTTKDEEFIRKFALFDEQHREEMRKERRRIQEQLRRLKRNQEKEKLKGPPEKKPKKMKERPDLKLKCGACGAIGHMRTNKFCPLYYQTNAPPSNPVAMTEEQEEELEKTVIHNDNEELIKVEGTKIVLGKQLIESADEVRRKSLVLKFPKQQLPPKKKRRVGTTVHCDYLNRPHKSIHRRRTDPMVTLSSILESIINDMRDLPNTYPFHTPVNAKVVKDYYKIITRPMDLQTLRENVRKRLYPSREEFREHLELIVKNSATYNGPKHSLTQISQSMLDLCDEKLKEKEDKLARLEKAINPLLDDDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKVIVNPMDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNVCYQTLTEYDEHLTQLEKDICTAKEAALEEAELESLDPMTPGPYTPQPPDLYDTNTSLSMSRDASVFQDESNMSVLDIPSATPEKQVTQEGEDGDGDLADEEEGTVQQPQASVLYEDLLMSEGEDDEEDAGSDEEGDNPFSAIQLSESGSDSDVGSGGIRPKQPRMLQENTRMDMENEESMMSYEGDGGEASHGLEDSNISYGSYEEPDPKSNTQDTSFSSIGGYEVSEEEEDEEEEEQRSGPSVLSQVHLSEDEEDSEDFHSIAGDSDLDSDE
+Q8IZX4,TAF1L,MRPGCDLLLRAAATVTAAIMSDSDSEEDSSGGGPFTLAGILFGNISGAGQLEGESVLDDECKKHLAGLGALGLGSLITELTANEELTGTGGALVNDEGWIRSTEDAVDYSDINEVAEDESQRHQQTMGSLQPLYHSDYDEDDYDADCEDIDCKLMPPPPPPPGPMKKDKDQDAITCVSESGEDIILPSIIAPSFLASEKVDFSSYSDSESEMGPQEATQAESEDGKLTLPLAGIMQHDATKLLPSVTELFPEFRPGKVLRFLHLFGPGKNVPSVWRSARRKRKKHRELIQEEQIQEVECSVESEVSQKSLWNYDYAPPPPPEQCLADDEITMMVPVESKFSQSTGDVDKVTDTKPRVAEWRYGPARLWYDMLGVSEDGSGFDYGFKLRKTQHEPVIKSRMMEEFRKLEESNGTDLLADENFLMVTQLHWEDSIIWDGEDIKHKGTKPQGASLAGWLPSIKTRNVMAYNVQQGFAPTLDDDKPWYSIFPIDNEDLVYGRWEDNIIWDAQAMPRLLEPPVLALDPNDENLILEIPDEKEEATSNSPSKESKKESSLKKSRILLGKTGVIREEPQQNMSQPEVKDPWNLSNDEYYFPKQQGLRGTFGGNIIQHSIPAMELWQPFFPTHMGPIKIRQFHRPPLKKYSFGALSQPGPHSVQPLLKHIKKKAKMREQERQASGGGELFFMRTPQDLTGKDGDLILAEYSEENGPLMMQVGMATKIKNYYKRKPGKDPGAPDCKYGETVYCHTSPFLGSLHPGQLLQALENNLFRAPVYLHKMPETDFLIIRTRQGYYIRELVDIFVVGQQCPLFEVPGPNSRRANMHIRDFLQVFIYRLFWKSKDRPRRIRMEDIKKAFPSHSESSIRKRLKLCADFKRTGMDSNWWVLKSDFRLPTEEEIRAKVSPEQCCAYYSMIAAKQRLKDAGYGEKSFFAPEEENEEDFQMKIDDEVHAAPWNTTRAFIAAMKGKCLLEVTGVADPTGCGEGFSYVKIPNKPTQQKDDKEPQAVKKTVTGTDADLRRLSLKNAKQLLRKFGVPEEEIKKLSRWEVIDVVRTMSTEQAHSGEGPMSKFARGSRFSVAEHQERYKEECQRIFDLQNKVLSSTEVLSTDTDSISAEDSDFEEMGKNIENMLQNKKTSSQLSREWEEQERKELRRMLLVAGSAASGNNHRDDVTASMTSLKSSATGHCLKIYRTFRDEEGKEYVRCETVRKPAVIDAYVRIRTTKDEKFIQKFALFDEKHREEMRKERRRIQEQLRRLKRNQEKEKLKGPPEKKPKKMKERPDLKLKCGACGAIGHMRTNKFCPLYYQTNVPPSKPVAMTEEQEEELEKTVIHNDNEELIKVEGTKIVFGKQLIENVHEVRRKSLVLKFPKQQLPPKKKRRVGTTVHCDYLNIPHKSIHRRRTDPMVTLSSILESIINDMRDLPNTHPFHTPVNAKVVKDYYKIITRPMDLQTLRENVRKCLYPSREEFREHLELIVKNSATYNGPKHSLTQISQSMLDLCDEKLKEKEDKLARLEKAINPLLDDDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKMIVNPVDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNICYQTITEYDEHLTQLEKDICTAKEAALEEAELESLDPMTPGPYTSQPPDMYDTNTSLSTSRDASVFQDESNLSVLDISTATPEKQMCQGQGRLGEEDSDVDVEGYDDEEEDGKPKPPAPEGGDGDLADEEEGTVQQPEASVLYEDLLISEGEDDEEDAGSDEEGDNPFSAIQLSESGSDSDVGYGGIRPKQPFMLQHASGEHKDGHGK
+P11274,BCR,MVDPVGFAEAWKAQFPDSEPPRMELRSVGDIEQELERCKASIRRLEQEVNQERFRMIYLQTLLAKEKKSYDRQRWGFRRAAQAPDGASEPRASASRPQPAPADGADPPPAEEPEARPDGEGSPGKARPGTARRPGAAASGERDDRGPPASVAALRSNFERIRKGHGQPGADAEKPFYVNVEFHHERGLVKVNDKEVSDRISSLGSQAMQMERKKSQHGAGSSVGDASRPPYRGRSSESSCGVDGDYEDAELNPRFLKDNLIDANGGSRPPWPPLEYQPYQSIYVGGMMEGEGKGPLLRSQSTSEQEKRLTWPRRSYSPRSFEDCGGGYTPDCSSNENLTSSEEDFSSGQSSRVSPSPTTYRMFRDKSRSPSQNSQQSFDSSSPPTPQCHKRHRHCPVVVSEATIVGVRKTGQIWPNDGEGAFHGDADGSFGTPPGYGCAADRAEEQRRHQDGLPYIDDSPSSSPHLSSKGRGSRDALVSGALESTKASELDLEKGLEMRKWVLSGILASEETYLSHLEALLLPMKPLKAAATTSQPVLTSQQIETIFFKVPELYEIHKEFYDGLFPRVQQWSHQQRVGDLFQKLASQLGVYRAFVDNYGVAMEMAEKCCQANAQFAEISENLRARSNKDAKDPTTKNSLETLLYKPVDRVTRSTLVLHDLLKHTPASHPDHPLLQDALRISQNFLSSINEEITPRRQSMTVKKGEHRQLLKDSFMVELVEGARKLRHVFLFTDLLLCTKLKKQSGGKTQQYDCKWYIPLTDLSFQMVDELEAVPNIPLVPDEELDALKIKISQIKNDIQREKRANKGSKATERLKKKLSEQESLLLLMSPSMAFRVHSRNGKSYTFLISSDYERAEWRENIREQQKKCFRSFSLTSVELQMLTNSCVKLQTVHSIPLTINKEDDESPGLYGFLNVIVHSATGFKQSSNLYCTLEVDSFGYFVNKAKTRVYRDTAEPNWNEEFEIELEGSQTLRILCYEKCYNKTKIPKEDGESTDRLMGKGQVQLDPQALQDRDWQRTVIAMNGIEVKLSVKFNSREFSLKRMPSRKQTGVFGVKIAVVTKRERSKVPYIVRQCVEEIERRGMEEVGIYRVSGVATDIQALKAAFDVNNKDVSVMMSEMDVNAIAGTLKLYFRELPEPLFTDEFYPNFAEGIALSDPVAKESCMLNLLLSLPEANLLTFLFLLDHLKRVAEKEAVNKMSLHNLATVFGPTLLRPSEKESKLPANPSQPITMTDSWSLEVMSQVQVLLYFLQLEAIPAPDSKRQSILFSTEV
+Q12979,ABR,MEPLSHRGLPRLSWIDTLYSNFSYGTDEYDGEGNEEQKGPPEGSETMPYIDESPTMSPQLSARSQGGGDGVSPTPPEGLAPGVEAGKGLEMRKLVLSGFLASEEIYINQLEALLLPMKPLKATATTSQPVLTIQQIETIFYKIQDIYEIHKEFYDNLCPKVQQWDSQVTMGHLFQKLASQLGVYKAFVDNYKVALETAEKCSQSNNQFQKISEELKVKGPKDSKDSHTSVTMEALLYKPIDRVTRSTLVLHDLLKHTPVDHPDYPLLQDALRISQNFLSSINEDIDPRRTAVTTPKGETRQLVKDGFLVEVSESSRKLRHVFLFTDVLLCAKLKKTSAGKHQQYDCKWYIPLADLVFPSPEESEASPQVHPFPDHELEDMKMKISALKSEIQKEKANKGQSRAIERLKKKMFENEFLLLLNSPTIPFRIHNRNGKSYLFLLSSDYERSEWREAIQKLQKKDLQAFVLSSVELQVLTGSCFKLRTVHNIPVTSNKDDDESPGLYGFLHVIVHSAKGFKQSANLYCTLEVDSFGYFVSKAKTRVFRDTAEPKWDEEFEIELEGSQSLRILCYEKCYDKTKVNKDNNEIVDKIMGKGQIQLDPQTVETKNWHTDVIEMNGIKVEFSMKFTSRDMSLKRTPSKKQTGVFGVKISVVTKRERSKVPYIVRQCVEEVEKRGIEEVGIYRISGVATDIQALKAVFDANNKDILLMLSDMDINAIAGTLKLYFRELPEPLLTDRLYPAFMEGIALSDPAAKENCMMHLLRSLPDPNLITFLFLLEHLKRVAEKEPINKMSLHNLATVFGPTLLRPSEVESKAHLTSAADIWSHDVMAQVQVLLYYLQHPPISFAELKRNTLYFSTDV
+B5MCJ9,TRIM66,XLLRKDCFQGLIQELGQIAKAHETVADATA
+Q9Y5P4,COL4A3BP,MSDNQSWNSSGSEEDPETESGPPVERCGVLSKWTNYIHGWQDRWVVLKNNALSYYKSEDETEYGCRGSICLSKAVITPHDFDECRFDISVNDSVWYLRAQDPDHRQQWIDAIEQHKTESGYGSESSLRRHGSMVSLVSGASGYSATSTSSFKKGHSLREKLAEMETFRDILCRQVDTLQKYFDACADAVSKDELQRDKVVEDDEDDFPTTRSDGDFLHSTNGNKEKLFPHVTPKGINGIDFKGEAITFKATTAGILATLSHCIELMVKREDSWQKRLDKETEKKRRTEEAYKNAMTELKKKSHFGGPDYEEGPNSLINEEEFFDAVEAALDRQDKIEEQSQSEKVRLHWPTSLPSGDAFSSVGTHRFVQKPYSRSSSMSSIDLVSASDDVHRFSSQVEEMVQNHMTYSLQDVGGDANWQLVVEEGEMKVYRREVEENGIVLDPLKATHAVKGVTGHEVCNYFWNVDVRNDWETTIENFHVVETLADNAIIIYQTHKRVWPASQRDVLYLSVIRKIPALTENDPETWIVCNFSVDHDSAPLNNRCVRAKINVAMICQTLVSPPEGNQEISRDNILCKITYVANVNPGGWAPASVLRAVAKREYPKFLKRFTSYVQEKTAGKPILF
+P53004,BLVRA,MNAEPERKFGVVVVGVGRAGSVRMRDLRNPHPSSAFLNLIGFVSRRELGSIDGVQQISLEDALSSQEVEVAYICSESSSHEDYIRQFLNAGKHVLVEYPMTLSLAAAQELWELAEQKGKVLHEEHVELLMEEFAFLKKEVVGKDLLKGSLLFTAGPLEEERFGFPAFSGISRLTWLVSLFGELSLVSATLEERKEDQYMKMTVCLETEKKSPLSWIEEKGPGLKRNRYLSFHFKSGSLENVPNVGVNKNIFLKDQNIFVQKLLGQFSEKELAAEKKRILHCLGLAEEIQKYCCSRK
+Q9NRL2,BAZ1A,MPLLHRKPFVRQKPPADLRPDEEVFYCKVTNEIFRHYDDFFERTILCNSLVWSCAVTGRPGLTYQEALESEKKARQNLQSFPEPLIIPVLYLTSLTHRSRLHEICDDIFAYVKDRYFVEETVEVIRNNGARLQCRILEVLPPSHQNGFANGHVNSVDGETIIISDSDDSETQSCSFQNGKKKDAIDPLLFKYKVQPTKKELHESAIVKATQISRRKHLFSRDKLKLFLKQHCEPQDGVIKIKASSLSTYKIAEQDFSYFFPDDPPTFIFSPANRRRGRPPKRIHISQEDNVANKQTLASYRSKATKERDKLLKQEEMKSLAFEKAKLKREKADALEAKKKEKEDKEKKREELKKIVEEERLKKKEEKERLKVEREKEREKLREEKRKYVEYLKQWSKPREDMECDDLKELPEPTPVKTRLPPEIFGDALMVLEFLNAFGELFDLQDEFPDGVTLEVLEEALVGNDSEGPLCELLFFFLTAIFQAIAEEEEEVAKEQLTDADTKDLTEALDEDADPTKSALSAVASLAAAWPQLHQGCSLKSLDLDSCTLSEILRLHILASGADVTSANAKYRYQKRGGFDATDDACMELRLSNPSLVKKLSSTSVYDLTPGEKMKILHALCGKLLTLVSTRDFIEDYVDILRQAKQEFRELKAEQHRKEREEAAARIRKRKEEKLKEQEQKMKEKQEKLKEDEQRNSTADISIGEEEREDFDTSIESKDTEQKELDQDMVTEDEDDPGSHKRGRRGKRGQNGFKEFTRQEQINCVTREPLTADEEEALKQEHQRKEKELLEKIQSAIACTNIFPLGRDRMYRRYWIFPSIPGLFIEEDYSGLTEDMLLPRPSSFQNNVQSQDPQVSTKTGEPLMSESTSNIDQGPRDHSVQLPKPVHKPNRWCFYSSCEQLDQLIEALNSRGHRESALKETLLQEKSRICAQLARFSEEKFHFSDKPQPDSKPTYSRGRSSNAYDPSQMCAEKQLELRLRDFLLDIEDRIYQGTLGAIKVTDRHIWRSALESGRYELLSEENKENGIIKTVNEDVEEMEIDEQTKVIVKDRLLGIKTETPSTVSTNASTPQSVSSVVHYLAMALFQIEQGIERRFLKAPLDASDSGRSYKTVLDRWRESLLSSASLSQVFLHLSTLDRSVIWSKSILNARCKICRKKGDAENMVLCDGCDRGHHTYCVRPKLKTVPEGDWFCPECRPKQRSRRLSSRQRPSLESDEDVEDSMGGEDDEVDGDEEEGQSEEEEYEVEQDEDDSQEEEEVSLPKRGRPQVRLPVKTRGKLSSSFSSRGQQQEPGRYPSRSQQSTPKTTVSSKTGRSLRKINSAPPTETKSLRIASRSTRHSHGPLQADVFVELLSPRRKRRGRKSANNTPENSPNFPNFRVIATKSSEQSRSVNIASKLSLQESESKRRCRKRQSPEPSPVTLGRRSSGRQGGVHELSAFEQLVVELVRHDDSWPFLKLVSKIQVPDYYDIIKKPIALNIIREKVNKCEYKLASEFIDDIELMFSNCFEYNPRNTSEAKAGTRLQAFFHIQAQKLGLHVTPSNVDQVSTPPAAKKSRI
+Q9UIG0,BAZ1B,MAPLLGRKPFPLVKPLPGEEPLFTIPHTQEAFRTREEYEARLERYSERIWTCKSTGSSQLTHKEAWEEEQEVAELLKEEFPAWYEKLVLEMVHHNTASLEKLVDTAWLEIMTKYAVGEECDFEVGKEKMLKVKIVKIHPLEKVDEEATEKKSDGACDSPSSDKENSSQIAQDHQKKETVVKEDEGRRESINDRARRSPRKLPTSLKKGERKWAPPKFLPHKYDVKLQNEDKIISNVPADSLIRTERPPNKEIVRYFIRHNALRAGTGENAPWVVEDELVKKYSLPSKFSDFLLDPYKYMTLNPSTKRKNTGSPDRKPSKKSKTDNSSLSSPLNPKLWCHVHLKKSLSGSPLKVKNSKNSKSPEEHLEEMMKMMSPNKLHTNFHIPKKGPPAKKPGKHSDKPLKAKGRSKGILNGQKSTGNSKSPKKGLKTPKTKMKQMTLLDMAKGTQKMTRAPRNSGGTPRTSSKPHKHLPPAALHLIAYYKENKDREDKRSALSCVISKTARLLSSEDRARLPEELRSLVQKRYELLEHKKRWASMSEEQRKEYLKKKREELKKKLKEKAKERREKEMLERLEKQKRYEDQELTGKNLPAFRLVDTPEGLPNTLFGDVAMVVEFLSCYSGLLLPDAQYPITAVSLMEALSADKGGFLYLNRVLVILLQTLLQDEIAEDYGELGMKLSEIPLTLHSVSELVRLCLRRSDVQEESEGSDTDDNKDSAAFEDNEVQDEFLEKLETSEFFELTSEEKLQILTALCHRILMTYSVQDHMETRQQMSAELWKERLAVLKEENDKKRAEKQKRKEMEAKNKENGKVENGLGKTDRKKEIVKFEPQVDTEAEDMISAVKSRRLLAIQAKKEREIQEREMKVKLERQAEEERIRKHKAAAEKAFQEGIAKAKLVMRRTPIGTDRNHNRYWLFSDEVPGLFIEKGWVHDSIDYRFNHHCKDHTVSGDEDYCPRSKKANLGKNASMNTQHGTATEVAVETTTPKQGQNLWFLCDSQKELDELLNCLHPQGIRESQLKERLEKRYQDIIHSIHLARKPNLGLKSCDGNQELLNFLRSDLIEVATRLQKGGLGYVEETSEFEARVISLEKLKDFGECVIALQASVIKKFLQGFMAPKQKRRKLQSEDSAKTEEVDEEKKMVEEAKVASALEKWKTAIREAQTFSRMHVLLGMLDACIKWDMSAENARCKVCRKKGEDDKLILCDECNKAFHLFCLRPALYEVPDGEWQCPACQPATARRNSRGRNYTEESASEDSEDDESDEEEEEEEEEEEEEDYEVAGLRLRPRKTIRGKHSVIPPAARSGRRPGKKPHSTRRSQPKAPPVDDAEVDELVLQTKRSSRRQSLELQKCEEILHKIVKYRFSWPFREPVTRDEAEDYYDVITHPMDFQTVQNKCSCGSYRSVQEFLTDMKQVFTNAEVYNCRGSHVLSCMVKTEQCLVALLHKHLPGHPYVRRKRKKFPDRLAEDEGDSEPEAVGQSRGRRQKK
diff --git a/data/kinhub_uniprot_merge.csv b/data/kinhub_uniprot_merge.csv
new file mode 100644
index 0000000..ce9fe7e
--- /dev/null
+++ b/data/kinhub_uniprot_merge.csv
@@ -0,0 +1,518 @@
+index,HGNC Name,xName,Manning Name,Kinase Name,Group,Family,SubFamily,hgnc_name,canonical_sequence,family,full_name,gene_name,group,iuphar,kinase_ID,name,pocket,species,subfamily,domain_name,start,end,protein_length,pfam_accession,in_alphafold
+P00519,ABL1,ABL1,ABL,Tyrosine-protein kinase ABL1,TK,Abl,nan,ABL1,MLEICLKLVGCKSKKGLSSSSSCYLEEALQRPVASDFEPQGLSEAARWNSKENLLAGPSENDPNLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVNSLEKHSWYHGPVSRNAAEYLLSSGINGSFLVRESESSPGQRSISLRYEGRVYHYRINTASDGKLYVSSESRFNTLAELVHHHSTVADGLITTLHYPAPKRNKPTVYGVSPNYDKWEMERTDITMKHKLGGGQYGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSISDEVEKELGKQGVRGAVSTLLQAPELPTKTRTSRRAAEHRDTTDVPEMPHSKGQGESDPLDHEPAVSPLLPRKERGPPEGGLNEDERLLPKDKKTNLFSALIKKKKKTAPTPPKRSSSFREMDGQPERRGAGEEEGRDISNGALAFTPLDTADPAKSPKPSNGAGVPNGALRESGGSGFRSPHLWKKSSTLTSSRLATGEEEGGGSSSKRFLRSCSASCVPHGAKDTEWRSVTLPRDLQSTGRQFDSSTFGGHKSEKPALPRKRAGENRSDQVTRGTVTPPPRLVKKNEEAADEVFKDIMESSPGSSPPNLTPKPLRRQVTVAPASGLPHKEEAGKGSALGTPAAAEPVTPTSKAGSGAPGGTSKGPAEESRVRRHKHSSESPGRDKGKLSRLKPAPPPPPAASAGKAGGKPSQSPSQEAAGEAVLGAKTKATSLVDAVNSDAAKPSQPGEGLKKPVLPATPKPQSAKPSGTPISPAPVPSTLPSASSALAGDQPSSTAFIPLISTRVSLRKTRQPPERIASGAITKGVVLDSTEALCLAISRNSEQMASHSAVLEAGKNLYTFCVSYVDSIQQMRNKFAFREAINKLENNLRELQICPATAGSGPAATQDFSKLLSSVKEISDIVQR,Abl,"ABL proto-oncogene 1, non-receptor tyrosine kinase",ABL1,TK,1923,392,ABL1,HKLGGGQYGEVYEVAVKTLEFLKEAAVMKEIKPNLVQLLGVYIITEFMTYGNLLDYLREYLEKKNFIHRDLAARNCLVVADFGLS,Human,,Protein tyrosine and serine/threonine kinase,242.0,492.0,1130.0,PF07714,True
+Q07912,TNK2,ACK,ACK,Activated CDC42 kinase 1,TK,Ack,nan,TNK2,MQPEEGTGWLLELLSEVQLQQYFLRLRDDLNVTRLSHFEYVKNEDLEKIGMGRPGQRRLWEAVKRRKALCKRKSWMSKVFSGKRLEAEFPPHHSQSTFRKTSPAPGGPAGEGPLQSLTCLIGEKDLRLLEKLGDGSFGVVRRGEWDAPSGKTVSVAVKCLKPDVLSQPEAMDDFIREVNAMHSLDHRNLIRLYGVVLTPPMKMVTELAPLGSLLDRLRKHQGHFLLGTLSRYAVQVAEGMGYLESKRFIHRDLAARNLLLATRDLVKIGDFGLMRALPQNDDHYVMQEHRKVPFAWCAPESLKTRTFSHASDTWMFGVTLWEMFTYGQEPWIGLNGSQILHKIDKEGERLPRPEDCPQDIYNVMVQCWAHKPEDRPTFVALRDFLLEAQPTDMRALQDFEEPDKLHIQMNDVITVIEGRAENYWWRGQNTRTLCVGPFPRNVVTSVAGLSAQDISQPLQNSFIHTGHGDSDPRHCWGFPDRIDELYLGNPMDPPDLLSVELSTSRPPQHLGGVKKPTYDPVSEDQDPLSSDFKRLGLRKPGLPRGLWLAKPSARVPGTKASRGSGAEVTLIDFGEEPVVPALRPCAPSLAQLAMDACSLLDETPPQSPTRALPRPLHPTPVVDWDARPLPPPPAYDDVAQDEDDFEICSINSTLVGAGVPAGPSQGQTNYAFVPEQARPPPPLEDNLFLPPQGGGKPPSSAQTAEIFQALQQECMRQLQAPAGSPAPSPSPGGDDKPQVPPRVPIPPRPTRPHVQLSPAPPGEEETSQWPGPASPPRVPPREPLSPQGSRTPSPLVPPGSSPLPPRLSSSPGKTMPTTQSFASDPKYATPQVIQAPGPRAGPCILPIVRDGKKVSSTHYYLLPERPSYLERYQRFLREAQSPEEPTPLPVPLLLPPPSTPAPAAPTATVRPMPQAALDPKANFSTNNSNPGARPPPPRATARLPQRGCPGDGPEAGRPADKIQMAMVHGVTTEECQAALQCHGWSVQRAAQYLKVEQLFGLGLRPRGECHKVLEMFDWNLEQAGCHLLGSWGPAHHKR,Ack,"tyrosine kinase, non-receptor, 2",TNK2,TK,2246,394,ACK,EKLGDGSFGVVRRVAVKCLDFIREVNAMHSLDRNLIRLYGVKMVTELAPLGSLLDRLRKYLESKRFIHRDLAARNLLLIGDFGLM,Human,,Protein tyrosine and serine/threonine kinase,127.0,384.0,1038.0,PF07714,True
+P27037,ACVR2A,ACTR2,ACTR2,Activin receptor type-2A,TKL,STKR,STKR2,ACVR2A,MGAAAKLAFAVFLISCSSGAILGRSETQECLFFNANWEKDRTNQTGVEPCYGDKDKRRHCFATWKNISGSIEIVKQGCWLDDINCYDRTDCVEKKDSPEVYFCCCEGNMCNEKFSYFPEMEVTQPTSNPVTPKPPYYNILLYSLVPLMLIAGIVICAFWVYRHHKMAYPPVLVPTQDPGPPPPSPLLGLKPLQLLEVKARGRFGCVWKAQLLNEYVAVKIFPIQDKQSWQNEYEVYSLPGMKHENILQFIGAEKRGTSVDVDLWLITAFHEKGSLSDFLKANVVSWNELCHIAETMARGLAYLHEDIPGLKDGHKPAISHRDIKSKNVLLKNNLTACIADFGLALKFEAGKSAGDTHGQVGTRRYMAPEVLEGAINFQRDAFLRIDMYAMGLVLWELASRCTAADGPVDEYMLPFEEEIGQHPSLEDMQEVVVHKKKRPVLRDYWQKHAGMAMLCETIEECWDHDAEARLSAGCVGERITQMQRLTNIITTEDIVTVVTMVTNVDFPPKESSL,STKR,activin A receptor type IIA,ACVR2A,TKL,1791,523,ACTR2,EVKARGRFGCVWKVAVKIFSWQNEYEVYSLPGENILQFIGAWLITAFHEKGSLSDFLKADGHKPAISHRDIKSKNVLLIADFGLA,Human,Type2,Protein kinase domain,200.0,472.0,513.0,PF00069,True
+Q13705,ACVR2B,ACTR2B,ACTR2B,Activin receptor type-2B,TKL,STKR,STKR2,ACVR2B,MTAPWVALALLWGSLCAGSGRGEAETRECIYYNANWELERTNQSGLERCEGEQDKRLHCYASWRNSSGTIELVKKGCWLDDFNCYDRQECVATEENPQVYFCCCEGNFCNERFTHLPEAGGPEVTYEPPPTAPTLLTVLAYSLLPIGGLSLIVLLAFWMYRHRKPPYGHVDIHEDPGPPPPSPLVGLKPLQLLEIKARGRFGCVWKAQLMNDFVAVKIFPLQDKQSWQSEREIFSTPGMKHENLLQFIAAEKRGSNLEVELWLITAFHDKGSLTDYLKGNIITWNELCHVAETMSRGLSYLHEDVPWCRGEGHKPSIAHRDFKSKNVLLKSDLTAVLADFGLAVRFEPGKPPGDTHGQVGTRRYMAPEVLEGAINFQRDAFLRIDMYAMGLVLWELVSRCKAADGPVDEYMLPFEEEIGQHPSLEELQEVVVHKKMRPTIKDHWLKHPGLAQLCVTIEECWDHDAEARLSAGCVEERVSLIRRSVNGTTSDCLVSLVTSVTNVDLPPKESSI,STKR,activin A receptor type IIB,ACVR2B,TKL,1792,524,ACTR2B,EIKARGRFGCVWKVAVKIFSWQSEREIFSTPGENLLQFIAAWLITAFHDKGSLTDYLKGEGHKPSIAHRDFKSKNVLLLADFGLA,Human,Type2,Protein kinase domain,198.0,471.0,512.0,PF00069,True
+Q96D53,ADCK4,ADCK4,ADCK4,Uncharacterized aarF domain-containing protein kinase 4,Atypical,ABC1,ABC1-A,ADCK4,MWLKVGGLLRGTGGQLGQTVGWPCGALGPGPHRWGPCGGSWAQKFYQDGPGRGLGEEDIRRAREARPRKTPRPQLSDRSRERKVPASRISRLANFGGLAVGLGLGVLAEMAKKSMPGGRLQSEGGSGLDSSPFLSEANAERIVQTLCTVRGAALKVGQMLSIQDNSFISPQLQHIFERVRQSADFMPRWQMLRVLEEELGRDWQAKVASLEEVPFAAASIGQVHQGLLRDGTEVAVKIQYPGIAQSIQSDVQNLLAVLKMSAALPAGLFAEQSLQALQQELAWECDYRREAACAQNFRQLLANDPFFRVPAVVKELCTTRVLGMELAGGVPLDQCQGLSQDLRNQICFQLLTLCLRELFEFRFMQTDPNWANFLYDASSHQVTLLDFGASREFGTEFTDHYIEVVKAAADGDRDCVLQKSRDLKFLTGFETKAFSDAHVEAVMILGEPFATQGPYDFGSGETARRIQDLIPVLLRHRLCPPPEETYALHRKLAGAFLACAHLRAHIACRDLFQDTYHRYWASRQPDAATAGSLPTKGDSWVDPS,ABC1,"Atypical kinase COQ8B, mitochondrial",COQ8B,Atypical,1928,71,ADCK4,VPFAAASIGQVHQVAVKIQDYRREAACAQNFRFRVPAVVKETRVLGMELGVPLDQCQGLELFEFRFMQTDPNWANFLYLLDFGAS,Human,ABC1-,,,,,,
+Q96RU8,TRIB1,Trb1,Trb1,Tribbles homolog 1,CAMK,Trbl,nan,TRIB1,MRVGPVRSAMSGASQPRGPALLFPATRGVPAKRLLDADDAAAVAAKCPRLSECSSPPDYLSPPGSPCSPQPPPAAPGAGGGSGSAPGPSRIADYLLLPLAEREHVSRALCIHTGRELRCKVFPIKHYQDKIRPYIQLPSHSNITGIVEVILGETKAYVFFEKDFGDMHSYVRSRKRLREEEAARLFKQIVSAVAHCHQSAIVLGDLKLRKFVFSTEERTQLRLESLEDTHIMKGEDDALSDKHGCPAYVSPEILNTTGTYSGKAADVWSLGVMLYTLLVGRYPFHDSDPSALFSKIRRGQFCIPEHISPKARCLIRSLLRREPSERLTAPEILLHPWFESVLEPGYIDSEIGTSDQIVPEYQEDSDISSFFC,Trbl,tribbles pseudokinase 1,TRIB1,CAMK,0,170,Trb1,LLLPLAEREHVSRLRCKVFYQDKIRPYIQLPSSNITGIVEVYVFFEKDF-GDMHSYVRSHCHQSAIVLGDLKLRKFVFLRLESLE,Human,,Protein kinase domain,135.0,338.0,372.0,PF00069,True
+Q8IWQ3,BRSK2,BRSK2,BRSK2,Serine/threonine-protein kinase BRSK2,CAMK,CAMKL,BRSK,BRSK2,MTSTGKDGGAQHAQYVGPYRLEKTLGKGQTGLVKLGVHCVTCQKVAIKIVNREKLSESVLMKVEREIAILKLIEHPHVLKLHDVYENKKYLYLVLEHVSGGELFDYLVKKGRLTPKEARKFFRQIISALDFCHSHSICHRDLKPENLLLDEKNNIRIADFGMASLQVGDSLLETSCGSPHYACPEVIRGEKYDGRKADVWSCGVILFALLVGALPFDDDNLRQLLEKVKRGVFHMPHFIPPDCQSLLRGMIEVDAARRLTLEHIQKHIWYIGGKNEPEPEQPIPRKVQIRSLPSLEDIDPDVLDSMHSLGCFRDRNKLLQDLLSEEENQEKMIYFLLLDRKERYPSQEDEDLPPRNEIDPPRKRVDSPMLNRHGKRRPERKSMEVLSVTDGGSPVPARRAIEMAQHGQRSRSISGASSGLSTSPLSSPRVTPHPSPRGSPLPTPKGTPVHTPKESPAGTPNPTPPSSPSVGGVPWRARLNSIKNSFLGSPRFHRRKLQVPTPEEMSNLTPESSPELAKKSWFGNFISLEKEEQIFVVIKDKPLSSIKADIVHAFLSIPSLSHSVISQTSFRAEYKATGGPAVFQKPVKFQVDITYTEGGEAQKENGIYSVTFTLLSGPSRRFKRVVETIQAQLLSTHDPPAAQHLSDTTNCMEMMTGRLSKCGSPLSNFFDVIKQLFSDEKNGQAAQAPSTPAKRSAHGPLGDSAAAGPGPGGDAEYPTGKDTAKMGPPTARREQP,CAMKL,BR serine/threonine kinase 2,BRSK2,CAMK,1947,119,BRSK2,KTLGKGQTGLVKLVAIKIVKVEREIAILKLIEPHVLKLHDVYLVLEHVSGGELFDYLVKFCHSHSICHRDLKPENLLLIADFGMA,Human,BRSK,Protein kinase domain,19.0,269.0,736.0,PF00069,True
+Q9Y3S1,WNK2,Wnk2,Wnk2,Serine/threonine-protein kinase WNK2,Other,WNK,nan,WNK2,MDGDGGRRDVPGTLMEPGRGAGPAGMAEPRAKAARPGPQRFLRRSVVESDQEEPPGLEAAEAPGPQPPQPLQRRVLLLCKTRRLIAERARGRPAAPAPAALVAQPGAPGAPADAGPEPVGTQEPGPDPIAAAVETAPAPDGGPREEAAATVRKEDEGAAEAKPEPGRTRRDEPEEEEDDEDDLKAVATSLDGRFLKFDIELGRGSFKTVYKGLDTETWVEVAWCELQDRKLTKLERQRFKEEAEMLKGLQHPNIVRFYDFWESSAKGKRCIVLVTELMTSGTLKTYLKRFKVMKPKVLRSWCRQILKGLLFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLKRASFAKSVIGTPEFMAPEMYEEHYDESVDVYAFGMCMLEMATSEYPYSECQNAAQIYRKVTCGIKPASFEKVHDPEIKEIIGECICKNKEERYEIKDLLSHAFFAEDTGVRVELAEEDHGRKSTIALRLWVEDPKKLKGKPKDNGAIEFTFDLEKETPDEVAQEMIESGFFHESDVKIVAKSIRDRVALIQWRRERIWPALQPKEQQDVGSPDKARGPPVPLQVQVTYHAQAGQPGPPEPEEPEADQHLLPPTLPTSATSLASDSTFDSGQGSTVYSDSQSSQQSVMLGSLADAAPSPAQCVCSPPVSEGPVLPQSLPSLGAYQQPTAAPGLPVGSVPAPACPPSLQQHFPDPAMSFAPVLPPPSTPMPTGPGQPAPPGQQPPPLAQPTPLPQVLAPQPVVPLQPVPPHLPPYLAPASQVGAPAQLKPLQMPQAPLQPLAQVPPQMPPIPVVPPITPLAGIDGLPPALPDLPTATVPPVPPPQYFSPAVILPSLAAPLPPASPALPLQAVKLPHPPGAPLAMPCRTIVPNAPATIPLLAVAPPGVAALSIHSAVAQLPGQPVYPAAFPQMAPTDVPPSPHHTVQNMRATPPQPALPPQPTLPPQPVLPPQPTLPPQPVLPPQPTRPPQPVLPPQPMLPPQPVLPPQPALPVRPEPLQPHLPEQAAPAATPGSQILLGHPAPYAVDVAAQVPTVPVPPAAVLSPPLPEVLLPAAPELLPQFPSSLATVSASVQSVPTQTATLLPPANPPLPGGPGIASPCPTVQLTVEPVQEEQASQDKPPGLPQSCESYGGSDVTSGKELSDSCEGAFGGGRLEGRAARKHHRRSTRARSRQERASRPRLTILNVCNTGDKMVECQLETHNHKMVTFKFDLDGDAPDEIATYMVEHDFILQAERETFIEQMKDVMDKAEDMLSEDTDADRGSDPGTSPPHLSTCGLGTGEESRQSQANAPVYQQNVLHTGKRWFIICPVAEHPAPEAPESSPPLPLSSLPPEASQGPCRGLTLPCLPWRRAACGAVFLSLFSAESAQSKQPPDSAPYKDQLSSKEQPSFLASQQLLSQAGPSNPPGAPPAPLAPSSPPVTALPQDGAAPATSTMPEPASGTASQAGGPGTPQGLTSELETSQPLAETHEAPLAVQPLVVGLAPCTPAPEAASTRDASAPREPLPPPAPEPSPHSGTPQPALGQPAPLLPAAVGAVSLATSQLPSPPLGPTVPPQPPSALESDGEGPPPRVGFVDSTIKSLDEKLRTLLYQEHVPTSSASAGTPVEVGDRDFTLEPLRGDQPRSEVCGGDLALPPVPKEAVSGRVQLPQPLVEKSELAPTRGAVMEQGTSSSMTAESSPRSMLGYDRDGRQVASDSHVVPSVPQDVPAFVRPARVEPTDRDGGEAGESSAEPPPSDMGTVGGQASHPQTLGARALGSPRKRPEQQDVSSPAKTVGRFSVVSTQDEWTLASPHSLRYSAPPDVYLDEAPSSPDVKLAVRRAQTASSIEVGVGEPVSSDSGDEGPRARPPVQKQASLPVSGSVAGDFVKKATAFLQRPSRAGSLGPETPSRVGMKVPTISVTSFHSQSSYISSDNDSELEDADIKKELQSLREKHLKEISELQSQQKQEIEALYRRLGKPLPPNVGFFHTAPPTGRRRKTSKSKLKAGKLLNPLVRQLKVVASSTGHLADSSRGPPAKDPAQASVGLTADSTGLSGKAVQTQQPCSVRASLSSDICSGLASDGGGARGQGWTVYHPTSERVTYKSSSKPRARFLSGPVSVSIWSALKRLCLGKEHSSRSSTSSLAPGPEPGPQPALHVQAQVNNSNNKKGTFTDDLHKLVDEWTSKTVGAAQLKPTLNQLKQTQKLQDMEAQAGWAAPGEARAMTAPRAGVGMPRLPPAPGPLSTTVIPGAAPTLSVPTPDGALGTARRNQVWFGLRVPPTACCGHSTQPRGGQRVGSKTASFAASDPVRS,WNK,WNK lysine deficient protein kinase 2,WNK2,Other,0,339,Wnk2,IELGRGSFKTVYKVAWCELRFKEEAEMLKGLQPNIVRFYDFVLVTELMTSGTLKTYLKRHTRTPPIIHRDLKCDNIFIIGDLGLA,Human,,Protein kinase domain,200.0,453.0,2297.0,PF00069,True
+P31749,AKT1,AKT1,AKT1,RAC-alpha serine/threonine-protein kinase,AGC,Akt,nan,AKT1,MSDVAIVKEGWLHKRGEYIKTWRPRYFLLKNDGTFIGYKERPQDVDQREAPLNNFSVAQCQLMKTERPRPNTFIIRCLQWTTVIERTFHVETPEEREEWTTAIQTVADGLKKQEEEEMDFRSGSPSDNSGAEEMEVSLAKPKHRVTMNEFEYLKLLGKGTFGKVILVKEKATGRYYAMKILKKEVIVAKDEVAHTLTENRVLQNSRHPFLTALKYSFQTHDRLCFVMEYANGGELFFHLSRERVFSEDRARFYGAEIVSALDYLHSEKNVVYRDLKLENLMLDKDGHIKITDFGLCKEGIKDGATMKTFCGTPEYLAPEVLEDNDYGRAVDWWGLGVVMYEMMCGRLPFYNQDHEKLFELILMEEIRFPRTLGPEAKSLLSGLLKKDPKQRLGGGSEDAKEIMQHRFFAGIVWQHVYEKKLSPPFKPQVTSETDTRYFDEEFTAQMITITPPDQDDSMECVDSERRPHFPQFSYSASGTA,Akt,v-akt murine thymoma viral oncogene homolog 1,AKT1,AGC,1479,1,AKT1,KLLGKGTFGKVILYAMKILHTLTENRVLQNSRPFLTALKYSCFVMEYANGGELFFHLSRLHSEKNVVYRDLKLENLMLITDFGLC,Human,,Protein kinase domain,151.0,408.0,480.0,PF00069,True
+P31751,AKT2,AKT2,AKT2,RAC-beta serine/threonine-protein kinase,AGC,Akt,nan,AKT2,MNEVSVIKEGWLHKRGEYIKTWRPRYFLLKSDGSFIGYKERPEAPDQTLPPLNNFSVAECQLMKTERPRPNTFVIRCLQWTTVIERTFHVDSPDEREEWMRAIQMVANSLKQRAPGEDPMDYKCGSPSDSSTTEEMEVAVSKARAKVTMNDFDYLKLLGKGTFGKVILVREKATGRYYAMKILRKEVIIAKDEVAHTVTESRVLQNTRHPFLTALKYAFQTHDRLCFVMEYANGGELFFHLSRERVFTEERARFYGAEIVSALEYLHSRDVVYRDIKLENLMLDKDGHIKITDFGLCKEGISDGATMKTFCGTPEYLAPEVLEDNDYGRAVDWWGLGVVMYEMMCGRLPFYNQDHERLFELILMEEIRFPRTLSPEAKSLLAGLLKKDPKQRLGGGPSDAKEVMEHRFFLSINWQDVVQKKLLPPFKPQVTSEVDTRYFDDEFTAQSITITPPDRYDSLGLLELDQRTHFPQFSYSASIRE,Akt,v-akt murine thymoma viral oncogene homolog 2,AKT2,AGC,1480,2,AKT2,KLLGKGTFGKVILYAMKILHTVTESRVLQNTRPFLTALKYACFVMEYANGGELFFHLSRYLHSRDVVYRDIKLENLMLITDFGLC,Human,,Protein kinase domain,154.0,409.0,481.0,PF00069,True
+Q9Y243,AKT3,AKT3,AKT3,RAC-gamma serine/threonine-protein kinase,AGC,Akt,nan,AKT3,MSDVTIVKEGWVQKRGEYIKNWRPRYFLLKTDGSFIGYKEKPQDVDLPYPLNNFSVAKCQLMKTERPKPNTFIIRCLQWTTVIERTFHVDTPEEREEWTEAIQAVADRLQRQEEERMNCSPTSQIDNIGEEEMDASTTHHKRKTMNDFDYLKLLGKGTFGKVILVREKASGKYYAMKILKKEVIIAKDEVAHTLTESRVLKNTRHPFLTSLKYSFQTKDRLCFVMEYVNGGELFFHLSRERVFSEDRTRFYGAEIVSALDYLHSGKIVYRDLKLENLMLDKDGHIKITDFGLCKEGITDAATMKTFCGTPEYLAPEVLEDNDYGRAVDWWGLGVVMYEMMCGRLPFYNQDHEKLFELILMEDIKFPRTLSSDAKSLLSGLLIKDPNKRLGGGPDDAKEIMRHSFFSGVNWQDVYDKKLVPPFKPQVTSETDTRYFDEEFTAQTITITPPEKYDEDGMDCMDNERRPHFPQFSYSASGRE,Akt,v-akt murine thymoma viral oncogene homolog 3,AKT3,AGC,2286,3,AKT3,KLLGKGTFGKVILYAMKILHTLTESRVLKNTRPFLTSLKYSCFVMEYVNGGELFFHLSRYLHSGKIVYRDLKLENLMLITDFGLC,Human,,Protein kinase domain,150.0,405.0,479.0,PF00069,True
+Q96NX5,CAMK1G,CaMK1g,CaMK1g,Calcium/calmodulin-dependent protein kinase type 1G,CAMK,CAMK1,nan,CAMK1G,MGRKEEDDCSSWKKQTTNIRKTFIFMEVLGSGAFSEVFLVKQRLTGKLFALKCIKKSPAFRDSSLENEIAVLKKIKHENIVTLEDIYESTTHYYLVMQLVSGGELFDRILERGVYTEKDASLVIQQVLSAVKYLHENGIVHRDLKPENLLYLTPEENSKIMITDFGLSKMEQNGIMSTACGTPGYVAPEVLAQKPYSKAVDCWSIGVITYILLCGYPPFYEETESKLFEKIKEGYYEFESPFWDDISESAKDFICHLLEKDPNERYTCEKALSHPWIDGNTALHRDIYPSVSLQIQKNFAKSKWRQAFNAAAVVHHMRKLHMNLHSPGVRPEVENRPPETQASETSRPSSPEITITEAPVLDHSVALPALTQLPCQHGRRPTAPGGRSLNCLVNGSLHISSSLVPMHQGSLAAGPCGCCSSCLNIGSKGKSSYCSEPTLLKKANKKQNFKSEVMVPVKASGSSHCRAGQTGVCLIM,CAMK1,calcium/calmodulin dependent protein kinase IG,CAMK1G,CAMK,1954,111,CaMK1g,EVLGSGAFSEVFLFALKCISLENEIAVLKKIKENIVTLEDIYLVMQLVSGGELFDRILEYLHENGIVHRDLKPENLLYITDFGLS,Human,,Protein kinase domain,26.0,277.0,476.0,PF00069,True
+Q9UM73,ALK,ALK,ALK,ALK tyrosine kinase receptor,TK,ALK,nan,ALK,MGAIGLLWLLPLLLSTAAVGSGMGTGQRAGSPAAGPPLQPREPLSYSRLQRKSLAVDFVVPSLFRVYARDLLLPPSSSELKAGRPEARGSLALDCAPLLRLLGPAPGVSWTAGSPAPAEARTLSRVLKGGSVRKLRRAKQLVLELGEEAILEGCVGPPGEAAVGLLQFNLSELFSWWIRQGEGRLRIRLMPEKKASEVGREGRLSAAIRASQPRLLFQIFGTGHSSLESPTNMPSPSPDYFTWNLTWIMKDSFPFLSHRSRYGLECSFDFPCELEYSPPLHDLRNQSWSWRRIPSEEASQMDLLDGPGAERSKEMPRGSFLLLNTSADSKHTILSPWMRSSSEHCTLAVSVHRHLQPSGRYIAQLLPHNEAAREILLMPTPGKHGWTVLQGRIGRPDNPFRVALEYISSGNRSLSAVDFFALKNCSEGTSPGSKMALQSSFTCWNGTVLQLGQACDFHQDCAQGEDESQMCRKLPVGFYCNFEDGFCGWTQGTLSPHTPQWQVRTLKDARFQDHQDHALLLSTTDVPASESATVTSATFPAPIKSSPCELRMSWLIRGVLRGNVSLVLVENKTGKEQGRMVWHVAAYEGLSLWQWMVLPLLDVSDRFWLQMVAWWGQGSRAIVAFDNISISLDCYLTISGEDKILQNTAPKSRNLFERNPNKELKPGENSPRQTPIFDPTVHWLFTTCGASGPHGPTQAQCNNAYQNSNLSVEVGSEGPLKGIQIWKVPATDTYSISGYGAAGGKGGKNTMMRSHGVSVLGIFNLEKDDMLYILVGQQGEDACPSTNQLIQKVCIGENNVIEEEIRVNRSVHEWAGGGGGGGGATYVFKMKDGVPVPLIIAAGGGGRAYGAKTDTFHPERLENNSSVLGLNGNSGAAGGGGGWNDNTSLLWAGKSLQEGATGGHSCPQAMKKWGWETRGGFGGGGGGCSSGGGGGGYIGGNAASNNDPEMDGEDGVSFISPLGILYTPALKVMEGHGEVNIKHYLNCSHCEVDECHMDPESHKVICFCDHGTVLAEDGVSCIVSPTPEPHLPLSLILSVVTSALVAALVLAFSGIMIVYRRKHQELQAMQMELQSPEYKLSKLRTSTIMTDYNPNYCFAGKTSSISDLKEVPRKNITLIRGLGHGAFGEVYEGQVSGMPNDPSPLQVAVKTLPEVCSEQDELDFLMEALIISKFNHQNIVRCIGVSLQSLPRFILLELMAGGDLKSFLRETRPRPSQPSSLAMLDLLHVARDIACGCQYLEENHFIHRDIAARNCLLTCPGPGRVAKIGDFGMARDIYRASYYRKGGCAMLPVKWMPPEAFMEGIFTSKTDTWSFGVLLWEIFSLGYMPYPSKSNQEVLEFVTSGGRMDPPKNCPGPVYRIMTQCWQHQPEDRPNFAIILERIEYCTQDPDVINTALPIEYGPLVEEEEKVPVRPKDPEGVPPLLVSQQAKREEERSPAAPPPLPTTSSGKAAKKPTAAEISVRVPRGPAVEGGHVNMAFSQSNPPSELHKVHGSRNKPTSLWNPTYGSWFTEKPTKKNNPIAKKEPHDRGNLGLEGSCTVPPNVATGRLPGASLLLEPSSLTANMKEVPLFRLRHFPCGNVNYGYQQQGLPLEAATAPGAGHYEDTILKSKNSMNQPGP,ALK,anaplastic lymphoma receptor tyrosine kinase,ALK,TK,1839,396,ALK,RGLGHGAFGEVYEVAVKTLDFLMEALIISKFNQNIVRCIGVFILLELMAGGDLKSFLREYLEENHFIHRDIAARNCLLIGDFGMA,Human,,Protein tyrosine and serine/threonine kinase,1116.0,1382.0,1620.0,PF07714,True
+P37023,ACVRL1,ALK1,ALK1,Serine/threonine-protein kinase receptor R3,TKL,STKR,STKR1,ACVRL1,MTLGSPRKGLLMLLMALVTQGDPVKPSRGPLVTCTCESPHCKGPTCRGAWCTVVLVREEGRHPQEHRGCGNLHRELCRGRPTEFVNHYCCDSHLCNHNVSLVLEATQPPSEQPGTDGQLALILGPVLALLALVALGVLGLWHVRRRQEKQRGLHSELGESSLILKASEQGDSMLGDLLDSDCTTGSGSGLPFLVQRTVARQVALVECVGKGRYGEVWRGLWHGESVAVKIFSSRDEQSWFRETEIYNTVLLRHDNILGFIASDMTSRNSSTQLWLITHYHEHGSLYDFLQRQTLEPHLALRLAVSAACGLAHLHVEIFGTQGKPAIAHRDFKSRNVLVKSNLQCCIADLGLAVMHSQGSDYLDIGNNPRVGTKRYMAPEVLDEQIRTDCFESYKWTDIWAFGLVLWEIARRTIVNGIVEDYRPPFYDVVPNDPSFEDMKKVVCVDQQTPTIPNRLAADPVLSGLAQMMRECWYPNPSARLTALRIKKTLQKISNSPEKPKVIQ,STKR,activin A receptor type IL,ACVRL1,TKL,1784,518,ALK1,ECVGKGRYGEVWRVAVKIFSWFRETEIYNTVLDNILGFIASWLITHYHEHGSLYDFLQRTQGKPAIAHRDFKSRNVLVIADLGLA,Human,Type1,Protein tyrosine and serine/threonine kinase,204.0,488.0,503.0,PF07714,True
+Q04771,ACVR1,ALK2,ALK2,Activin receptor type-1,TKL,STKR,STKR1,ACVR1,MVDGVMILPVLIMIALPSPSMEDEKPKVNPKLYMCVCEGLSCGNEDHCEGQQCFSSLSINDGFHVYQKGCFQVYEQGKMTCKTPPSPGQAVECCQGDWCNRNITAQLPTKGKSFPGTQNFHLEVGLIILSVVFAVCLLACLLGVALRKFKRRNQERLNPRDVEYGTIEGLITTNVGDSTLADLLDHSCTSGSGSGLPFLVQRTVARQITLLECVGKGRYGEVWRGSWQGENVAVKIFSSRDEKSWFRETELYNTVMLRHENILGFIASDMTSRHSSTQLWLITHYHEMGSLYDYLQLTTLDTVSCLRIVLSIASGLAHLHIEIFGTQGKPAIAHRDLKSKNILVKKNGQCCIADLGLAVMHSQSTNQLDVGNNPRVGTKRYMAPEVLDETIQVDCFDSYKRVDIWAFGLVLWEVARRMVSNGIVEDYKPPFYDVVPNDPSFEDMRKVVCVDQQRPNIPNRWFSDPTLTSLAKLMKECWYQNPSARLTALRIKKTLTKIDNSLDKLKTDC,STKR,activin A receptor type I,ACVR1,TKL,1785,516,ALK2,ECVGKGRYGEVWRVAVKIFSWFRETELYNTVMENILGFIASWLITHYHEMGSLYDYLQLTQGKPAIAHRDLKSKNILVIADLGLA,Human,Type1,Protein kinase domain,211.0,493.0,509.0,PF00069,True
+P36894,BMPR1A,BMPR1A,BMPR1A,Bone morphogenetic protein receptor type-1A,TKL,STKR,STKR1,BMPR1A,MPQLYIYIRLLGAYLFIISRVQGQNLDSMLHGTGMKSDSDQKKSENGVTLAPEDTLPFLKCYCSGHCPDDAINNTCITNGHCFAIIEEDDQGETTLASGCMKYEGSDFQCKDSPKAQLRRTIECCRTNLCNQYLQPTLPPVVIGPFFDGSIRWLVLLISMAVCIIAMIIFSSCFCYKHYCKSISSRRRYNRDLEQDEAFIPVGESLKDLIDQSQSSGSGSGLPLLVQRTIAKQIQMVRQVGKGRYGEVWMGKWRGEKVAVKVFFTTEEASWFRETEIYQTVLMRHENILGFIAADIKGTGSWTQLYLITDYHENGSLYDFLKCATLDTRALLKLAYSAACGLCHLHTEIYGTQGKPAIAHRDLKSKNILIKKNGSCCIADLGLAVKFNSDTNEVDVPLNTRVGTKRYMAPEVLDESLNKNHFQPYIMADIYSFGLIIWEMARRCITGGIVEEYQLPYYNMVPSDPSYEDMREVVCVKRLRPIVSNRWNSDECLRAVLKLMSECWAHNPASRLTALRIKKTLAKMVESQDVKI,STKR,bone morphogenetic protein receptor type 1A,BMPR1A,TKL,1786,519,BMPR1A,RQVGKGRYGEVWMVAVKVFSWFRETEIYQTVLENILGFIAAYLITDYHENGSLYDFLKCTQGKPAIAHRDLKSKNILIIADLGLA,Human,Type1,Protein kinase domain,236.0,519.0,532.0,PF00069,True
+P36896,ACVR1B,ALK4,ALK4,Activin receptor type-1B,TKL,STKR,STKR1,ACVR1B,MAESAGASSFFPLVVLLLAGSGGSGPRGVQALLCACTSCLQANYTCETDGACMVSIFNLDGMEHHVRTCIPKVELVPAGKPFYCLSSEDLRNTHCCYTDYCNRIDLRVPSGHLKEPEHPSMWGPVELVGIIAGPVFLLFLIIIIVFLVINYHQRVYHNRQRLDMEDPSCEMCLSKDKTLQDLVYDLSTSGSGSGLPLFVQRTVARTIVLQEIIGKGRFGEVWRGRWRGGDVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTIEGMIKLALSAASGLAHLHMEIVGTQGKPGIAHRDLKSKNILVKKNGMCAIADLGLAVRHDAVTDTIDIAPNQRVGTKRYMAPEVLDETINMKHFDSFKCADIYALGLVYWEIARRCNSGGVHEEYQLPYYDLVPSDPSIEEMRKVVCDQKLRPNIPNWWQSYEALRVMGKMMRECWYANGAARLTALRIKKTLSQLSVQEDVKI,STKR,activin A receptor type IB,ACVR1B,TKL,1787,517,ALK4,EIIGKGRFGEVWRVAVKIFSWFREAEIYQTVMENILGFIAAWLVSDYHEHGSLFDYLNRTQGKPGIAHRDLKSKNILVIADLGLA,Human,Type1,Protein kinase domain,209.0,491.0,505.0,PF00069,True
+P36897,TGFBR1,TGFbR1,TGFbR1,TGF-beta receptor type-1,TKL,STKR,STKR1,TGFBR1,MEAAVAAPRPRLLLLVLAAAAAAAAALLPGATALQCFCHLCTKDNFTCVTDGLCFVSVTETTDKVIHNSMCIAEIDLIPRDRPFVCAPSSKTGSVTTTYCCNQDHCNKIELPTTVKSSPGLGPVELAAVIAGPVCFVCISLMLMVYICHNRTVIHHRVPNEEDPSLDRPFISEGTTLKDLIYDMTTSGSGSGLPLLVQRTIARTIVLQESIGKGRFGEVWRGKWRGEEVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTVEGMIKLALSTASGLAHLHMEIVGTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVRHDSATDTIDIAPNHRVGTKRYMAPEVLDDSINMKHFESFKRADIYAMGLVFWEIARRCSIGGIHEDYQLPYYDLVPSDPSVEEMRKVVCEQKLRPNIPNRWQSCEALRVMAKIMRECWYANGAARLTALRIKKTLSQLSQQEGIKM,STKR,transforming growth factor beta receptor I,TGFBR1,TKL,1788,521,TGFbR1,ESIGKGRFGEVWRVAVKIFSWFREAEIYQTVMENILGFIAAWLVSDYHEHGSLFDYLNRTQGKPAIAHRDLKSKNILVIADLGLA,Human,Type1,Protein kinase domain,207.0,489.0,503.0,PF00069,True
+O00238,BMPR1B,BMPR1B,BMPR1B,Bone morphogenetic protein receptor type-1B,TKL,STKR,STKR1,BMPR1B,MLLRSAGKLNVGTKKEDGESTAPTPRPKVLRCKCHHHCPEDSVNNICSTDGYCFTMIEEDDSGLPVVTSGCLGLEGSDFQCRDTPIPHQRRSIECCTERNECNKDLHPTLPPLKNRDFVDGPIHHRALLISVTVCSLLLVLIILFCYFRYKRQETRPRYSIGLEQDETYIPPGESLRDLIEQSQSSGSGSGLPLLVQRTIAKQIQMVKQIGKGRYGEVWMGKWRGEKVAVKVFFTTEEASWFRETEIYQTVLMRHENILGFIAADIKGTGSWTQLYLITDYHENGSLYDYLKSTTLDAKSMLKLAYSSVSGLCHLHTEIFSTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVKFISDTNEVDIPPNTRVGTKRYMPPEVLDESLNRNHFQSYIMADMYSFGLILWEVARRCVSGGIVEEYQLPYHDLVPSDPSYEDMREIVCIKKLRPSFPNRWSSDECLRQMGKLMTECWAHNPASRLTALRVKKTLAKMSESQDIKL,STKR,bone morphogenetic protein receptor type 1B,BMPR1B,TKL,1789,520,BMPR1B,KQIGKGRYGEVWMVAVKVFSWFRETEIYQTVLENILGFIAAYLITDYHENGSLYDYLKSTQGKPAIAHRDLKSKNILVIADLGLA,Human,Type1,Protein tyrosine and serine/threonine kinase,204.0,489.0,502.0,PF07714,True
+Q13131,PRKAA1,AMPKa1,AMPKa1,5'-AMP-activated protein kinase catalytic subunit alpha-1,CAMK,CAMKL,AMPK,PRKAA1,MRRLSSWRKMATAEKQKHDGRVKIGHYILGDTLGVGTFGKVKVGKHELTGHKVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGEFLRTSCGSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKICDGIFYTPQYLNPSVISLLKHMLQVDPMKRATIKDIREHEWFKQDLPKYLFPEDPSYSSTMIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRIMNEAKDFYLATSPPDSFLDDHHLTRPHPERVPFLVAETPRARHTLDELNPQKSKHQGVRKAKWHLGIRSQSRPNDIMAEVCRAIKQLDYEWKVVNPYYLRVRRKNPVTSTYSKMSLQLYQVDSRTYLLDFRSIDDEITEAKSGTATPQRSGSVSNYRSCQRSDSDAEAQGKSSEVSLTSSVTSLDSSPVDLTPRPGSHTIEFFEMCANLIKILAQ,CAMKL,protein kinase AMP-activated catalytic subunit alpha 1,PRKAA1,CAMK,1541,117,AMPKa1,DTLGVGTFGKVKVVAVKILKIRREIQNLKLFRPHIIKLYQVFMVMEYVSGGELFDYICKYCHRHMVVHRDLKPENVLLIADFGLS,Human,AMPK,Protein kinase domain,29.0,279.0,559.0,PF00069,True
+P54646,PRKAA2,AMPKa2,AMPKa2,5'-AMP-activated protein kinase catalytic subunit alpha-2,CAMK,CAMKL,AMPK,PRKAA2,MAEKQKHDGRVKIGHYVLGDTLGVGTFGKVKIGEHQLTGHKVAVKILNRQKIRSLDVVGKIKREIQNLKLFRHPHIIKLYQVISTPTDFFMVMEYVSGGELFDYICKHGRVEEMEARRLFQQILSAVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGEFLRTSCGSPNYAAPEVISGRLYAGPEVDIWSCGVILYALLCGTLPFDDEHVPTLFKKIRGGVFYIPEYLNRSVATLLMHMLQVDPLKRATIKDIREHEWFKQDLPSYLFPEDPSYDANVIDDEAVKEVCEKFECTESEVMNSLYSGDPQDQLAVAYHLIIDNRRIMNQASEFYLASSPPSGSFMDDSAMHIPPGLKPHPERMPPLIADSPKARCPLDALNTTKPKSLAVKKAKWHLGIRSQSKPYDIMAEVYRAMKQLDFEWKVVNAYHLRVRRKNPVTGNYVKMSLQLYLVDNRSYLLDFKSIDDEVVEQRSGSSTPQRSCSAAGLHRPRSSFDSTTAESHSLSGSLTGSLTGSTLSSVSPRLGSHTMDFFEMCASLITTLAR,CAMKL,protein kinase AMP-activated catalytic subunit alpha 2,PRKAA2,CAMK,1542,118,AMPKa2,DTLGVGTFGKVKIVAVKILKIKREIQNLKLFRPHIIKLYQVFMVMEYVSGGELFDYICKYCHRHMVVHRDLKPENVLLIADFGLS,Human,AMPK,Protein kinase domain,16.0,268.0,552.0,PF00069,True
+P16066,NPR1,ANPa,ANPa,Atrial natriuretic peptide receptor 1,RGC,RGC,nan,NPR1,MPGPRRPAGSRLRLLLLLLLPPLLLLLRGSHAGNLTVAVVLPLANTSYPWSWARVGPAVELALAQVKARPDLLPGWTVRTVLGSSENALGVCSDTAAPLAAVDLKWEHNPAVFLGPGCVYAAAPVGRFTAHWRVPLLTAGAPALGFGVKDEYALTTRAGPSYAKLGDFVAALHRRLGWERQALMLYAYRPGDEEHCFFLVEGLFMRVRDRLNITVDHLEFAEDDLSHYTRLLRTMPRKGRVIYICSSPDAFRTLMLLALEAGLCGEDYVFFHLDIFGQSLQGGQGPAPRRPWERGDGQDVSARQAFQAAKIITYKDPDNPEYLEFLKQLKHLAYEQFNFTMEDGLVNTIPASFHDGLLLYIQAVTETLAHGGTVTDGENITQRMWNRSFQGVTGYLKIDSSGDRETDFSLWDMDPENGAFRVVLNYNGTSQELVAVSGRKLNWPLGYPPPDIPKCGFDNEDPACNQDHLSTLEVLALVGSLSLLGILIVSFFIYRKMQLEKELASELWRVRWEDVEPSSLERHLRSAGSRLTLSGRGSNYGSLLTTEGQFQVFAKTAYYKGNLVAVKRVNRKRIELTRKVLFELKHMRDVQNEHLTRFVGACTDPPNICILTEYCPRGSLQDILENESITLDWMFRYSLTNDIVKGMLFLHNGAICSHGNLKSSNCVVDGRFVLKITDYGLESFRDLDPEQGHTVYAKKLWTAPELLRMASPPVRGSQAGDVYSFGIILQEIALRSGVFHVEGLDLSPKEIIERVTRGEQPPFRPSLALQSHLEELGLLMQRCWAEDPQERPPFQQIRLTLRKFNRENSSNILDNLLSRMEQYANNLEELVEERTQAYLEEKRKAEALLYQILPHSVAEQLKRGETVQAEAFDSVTIYFSDIVGFTALSAESTPMQVVTLLNDLYTCFDAVIDNFDVYKVETIGDAYMVVSGLPVRNGRLHACEVARMALALLDAVRSFRIRHRPQEQLRLRIGIHTGPVCAGVVGLKMPRYCLFGDTVNTASRMESNGEALKIHLSSETKAVLEEFGGFELELRGDVEMKGKGKVRTYWLLGERGSSTRG,RGC,natriuretic peptide receptor 1,NPR1,RGC,1747,343,ANPa,TLSGRGSNYGSLLVAVKRVKVLFELKHMRDVQEHLTRFVGACILTEYCPRGSLQDILENLHNGAICSHGNLKSSNCVVITDYGLE,Human,,Protein tyrosine and serine/threonine kinase,555.0,799.0,1061.0,PF07714,True
+P20594,NPR2,ANPb,ANPb,Atrial natriuretic peptide receptor 2,RGC,RGC,nan,NPR2,MALPSLLLLVAALAGGVRPPGARNLTLAVVLPEHNLSYAWAWPRVGPAVALAVEALGRALPVDLRFVSSELEGACSEYLAPLSAVDLKLYHDPDLLLGPGCVYPAASVARFASHWRLPLLTAGAVASGFSAKNDHYRTLVRTGPSAPKLGEFVVTLHGHFNWTARAALLYLDARTDDRPHYFTIEGVFEALQGSNLSVQHQVYAREPGGPEQATHFIRANGRIVYICGPLEMLHEILLQAQRENLTNGDYVFFYLDVFGESLRAGPTRATGRPWQDNRTREQAQALREAFQTVLVITYREPPNPEYQEFQNRLLIRAREDFGVELGPSLMNLIAGCFYDGILLYAEVLNETIQEGGTREDGLRIVEKMQGRRYHGVTGLVVMDKNNDRETDFVLWAMGDLDSGDFQPAAHYSGAEKQIWWTGRPIPWVKGAPPSDNPPCAFDLDDPSCDKTPLSTLAIVALGTGITFIMFGVSSFLIFRKLMLEKELASMLWRIRWEELQFGNSERYHKGAGSRLTLSLRGSSYGSLMTAHGKYQIFANTGHFKGNVVAIKHVNKKRIELTRQVLFELKHMRDVQFNHLTRFIGACIDPPNICIVTEYCPRGSLQDILENDSINLDWMFRYSLINDLVKGMAFLHNSIISSHGSLKSSNCVVDSRFVLKITDYGLASFRSTAEPDDSHALYAKKLWTAPELLSGNPLPTTGMQKADVYSFGIILQEIALRSGPFYLEGLDLSPKEIVQKVRNGQRPYFRPSIDRTQLNEELVLLMERCWAQDPAERPDFGQIKGFIRRFNKEGGTSILDNLLLRMEQYANNLEKLVEERTQAYLEEKRKAEALLYQILPHSVAEQLKRGETVQAEAFDSVTIYFSDIVGFTALSAESTPMQVVTLLNDLYTCFDAIIDNFDVYKVETIGDAYMVVSGLPGRNGQRHAPEIARMALALLDAVSSFRIRHRPHDQLRLRIGVHTGPVCAGVVGLKMPRYCLFGDTVNTASRMESNGQALKIHVSSTTKDALDELGCFQLELRGDVEMKGKGKMRTYWLLGERKGPPGLL,RGC,natriuretic peptide receptor 2,NPR2,RGC,0,344,ANPb,TLSLRGSSYGSLMVAIKHVQVLFELKHMRDVQNHLTRFIGACIVTEYCPRGSLQDILENLHNSIISSHGSLKSSNCVVITDYGLA,Human,,Protein tyrosine and serine/threonine kinase,540.0,783.0,1047.0,PF07714,True
+P10398,ARAF,ARAF,ARAF,Serine/threonine-protein kinase A-Raf,TKL,RAF,nan,ARAF,MEPPRGPPANGAEPSRAVGTVKVYLPNKQRTVVTVRDGMSVYDSLDKALKVRGLNQDCCVVYRLIKGRKTVTAWDTAIAPLDGEELIVEVLEDVPLTMHNFVRKTFFSLAFCDFCLKFLFHGFRCQTCGYKFHQHCSSKVPTVCVDMSTNRQQFYHSVQDLSGGSRQHEAPSNRPLNELLTPQGPSPRTQHCDPEHFPFPAPANAPLQRIRSTSTPNVHMVSTTAPMDSNLIQLTGQSFSTDAAGSRGGSDGTPRGSPSPASVSSGRKSPHSKSPAEQRERKSLADDKKKVKNLGYRDSGYYWEVPPSEVQLLKRIGTGSFGTVFRGRWHGDVAVKVLKVSQPTAEQAQAFKNEMQVLRKTRHVNILLFMGFMTRPGFAIITQWCEGSSLYHHLHVADTRFDMVQLIDVARQTAQGMDYLHAKNIIHRDLKSNNIFLHEGLTVKIGDFGLATVKTRWSGAQPLEQPSGSVLWMAAEVIRMQDPNPYSFQSDVYAYGVVLYELMTGSLPYSHIGCRDQIIFMVGRGYLSPDLSKISSNCPKAMRRLLSDCLKFQREERPLFPQILATIELLQRSLPKIERSASEPSLHRTQADELPACLLSAARLVP,RAF,"A-Raf proto-oncogene, serine/threonine kinase",ARAF,TKL,1933,508,ARAF,KRIGTGSFGTVFRVAVKVLAFKNEMQVLRKTRVNILLFMGFAIITQWCEGSSLYHHLHVYLHAKNIIHRDLKSNNIFLIGDFGLA,Human,RAF,Protein tyrosine and serine/threonine kinase,311.0,565.0,606.0,PF07714,True
+P42684,ABL2,ABL2,ARG,Abelson tyrosine-protein kinase 2,TK,Abl,nan,ABL2,MGQQVGRVGEAPGLQQPQPRGIRGSSAARPSGRRRDPAGRTTETGFNIFTQHDHFASCVEDGFEGDKTGGSSPEALHRPYGCDVEPQALNEAIRWSSKENLLGATESDPNLFVALYDFVASGDNTLSITKGEKLRVLGYNQNGEWSEVRSKNGQGWVPSNYITPVNSLEKHSWYHGPVSRSAAEYLLSSLINGSFLVRESESSPGQLSISLRYEGRVYHYRINTTADGKVYVTAESRFSTLAELVHHHSTVADGLVTTLHYPAPKCNKPTVYGVSPIHDKWEMERTDITMKHKLGGGQYGEVYVGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTLEPPFYIVTEYMPYGNLLDYLRECNREEVTAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHVVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNTFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYDLLEKGYRMEQPEGCPPKVYELMRACWKWSPADRPSFAETHQAFETMFHDSSISEEVAEELGRAASSSSVVPYLPRLPILPSKTRTLKKQVENKENIEGAQDATENSASSLAPGFIRGAQASSGSPALPRKQRDKSPSSLLEDAKETCFTRDRKGGFFSSFMKKRNAPTPPKRSSSFREMENQPHKKYELTGNFSSVASLQHADGFSFTPAQQEANLVPPKCYGGSFAQRNLCNDDGGGGGGSGTAGGGWSGITGFFTPRLIKKTLGLRAGKPTASDDTSKPFPRSNSTSSMSSGLPEQDRMAMTLPRNCQRSKLQLERTVSTSSQPEENVDRANDMLPKKSEESAAPSRERPKAKLLPRGATALPLRTPSGDLAITEKDPPGVGVAGVAAAPKGKEKNGGARLGMAGVPEDGEQPGWPSPAKAAPVLPTTHNHKVPVLISPTLKHTPADVQLIGTDSQGNKFKLLSEHQVTSSGDKDRPRRVKPKCAPPPPPVMRLLQHPSICSDPTEEPTALTAGQSTSETQEGGKKAALGAVPISGKAGRPVMPPPQVPLPTSSISPAKMANGTAGTKVALRKTKQAAEKISADKISKEALLECADLLSSALTEPVPNSQLVDTGHQLLDYCSGYVDCIPQTRNKFAFREAVSKLELSLQELQVSSAAAGVPGTNPVLNNLLSCVQEISDVVQR,Abl,"ABL proto-oncogene 2, non-receptor tyrosine kinase",ABL2,TK,1924,393,ABL2,HKLGGGQYGEVYVVAVKTLEFLKEAAVMKEIKPNLVQLLGVYIVTEYMPYGNLLDYLREYLEKKNFIHRDLAARNCLVVADFGLS,Human,,Protein tyrosine and serine/threonine kinase,288.0,538.0,1182.0,PF07714,True
+Q13315,ATM,ATM,ATM,Serine-protein kinase ATM,Atypical,PIKK,ATM,ATM,MSLVLNDLLICCRQLEHDRATERKKEVEKFKRLIRDPETIKHLDRHSDSKQGKYLNWDAVFRFLQKYIQKETECLRIAKPNVSASTQASRQKKMQEISSLVKYFIKCANRRAPRLKCQELLNYIMDTVKDSSNGAIYGADCSNILLKDILSVRKYWCEISQQQWLELFSVYFRLYLKPSQDVHRVLVARIIHAVTKGCCSQTDGLNSKFLDFFSKAIQCARQEKSSSGLNHILAALTIFLKTLAVNFRIRVCELGDEILPTLLYIWTQHRLNDSLKEVIIELFQLQIYIHHPKGAKTQEKGAYESTKWRSILYNLYDLLVNEISHIGSRGKYSSGFRNIAVKENLIELMADICHQVFNEDTRSLEISQSYTTTQRESSDYSVPCKRKKIELGWEVIKDHLQKSQNDFDLVPWLQIATQLISKYPASLPNCELSPLLMILSQLLPQQRHGERTPYVLRCLTEVALCQDKRSNLESSQKSDLLKLWNKIWCITFRGISSEQIQAENFGLLGAIIQGSLVEVDREFWKLFTGSACRPSCPAVCCLTLALTTSIVPGTVKMGIEQNMCEVNRSFSLKESIMKWLLFYQLEGDLENSTEVPPILHSNFPHLVLEKILVSLTMKNCKAAMNFFQSVPECEHHQKDKEELSFSEVEELFLQTTFDKMDFLTIVRECGIEKHQSSIGFSVHQNLKESLDRCLLGLSEQLLNNYSSEITNSETLVRCSRLLVGVLGCYCYMGVIAEEEAYKSELFQKAKSLMQCAGESITLFKNKTNEEFRIGSLRNMMQLCTRCLSNCTKKSPNKIASGFFLRLLTSKLMNDIADICKSLASFIKKPFDRGEVESMEDDTNGNLMEVEDQSSMNLFNDYPDSSVSDANEPGESQSTIGAINPLAEEYLSKQDLLFLDMLKFLCLCVTTAQTNTVSFRAADIRRKLLMLIDSSTLEPTKSLHLHMYLMLLKELPGEEYPLPMEDVLELLKPLSNVCSLYRRDQDVCKTILNHVLHVVKNLGQSNMDSENTRDAQGQFLTVIGAFWHLTKERKYIFSVRMALVNCLKTLLEADPYSKWAILNVMGKDFPVNEVFTQFLADNHHQVRMLAAESINRLFQDTKGDSSRLLKALPLKLQQTAFENAYLKAQEGMREMSHSAENPETLDEIYNRKSVLLTLIAVVLSCSPICEKQALFALCKSVKENGLEPHLVKKVLEKVSETFGYRRLEDFMASHLDYLVLEWLNLQDTEYNLSSFPFILLNYTNIEDFYRSCYKVLIPHLVIRSHFDEVKSIANQIQEDWKSLLTDCFPKILVNILPYFAYEGTRDSGMAQQRETATKVYDMLKSENLLGKQIDHLFISNLPEIVVELLMTLHEPANSSASQSTDLCDFSGDLDPAPNPPHFPSHVIKATFAYISNCHKTKLKSILEILSKSPDSYQKILLAICEQAAETNNVYKKHRILKIYHLFVSLLLKDIKSGLGGAWAFVLRDVIYTLIHYINQRPSCIMDVSLRSFSLCCDLLSQVCQTAVTYCKDALENHLHVIVGTLIPLVYEQVEVQKQVLDLLKYLVIDNKDNENLYITIKLLDPFPDHVVFKDLRITQQKIKYSRGPFSLLEEINHFLSVSVYDALPLTRLEGLKDLRRQLELHKDQMVDIMRASQDNPQDGIMVKLVVNLLQLSKMAINHTGEKEVLEAVGSCLGEVGPIDFSTIAIQHSKDASYTKALKLFEDKELQWTFIMLTYLNNTLVEDCVKVRSAAVTCLKNILATKTGHSFWEIYKMTTDPMLAYLQPFRTSRKKFLEVPRFDKENPFEGLDDINLWIPLSENHDIWIKTLTCAFLDSGGTKCEILQLLKPMCEVKTDFCQTVLPYLIHDILLQDTNESWRNLLSTHVQGFFTSCLRHFSQTSRSTTPANLDSESEHFFRCCLDKKSQRTMLAVVDYMRRQKRPSSGTIFNDAFWLDLNYLEVAKVAQSCAAHFTALLYAEIYADKKSMDDQEKRSLAFEEGSQSTTISSLSEKSKEETGISLQDLLLEIYRSIGEPDSLYGCGGGKMLQPITRLRTYEHEAMWGKALVTYDLETAIPSSTRQAGIIQALQNLGLCHILSVYLKGLDYENKDWCPELEELHYQAAWRNMQWDHCTSVSKEVEGTSYHESLYNALQSLRDREFSTFYESLKYARVKEVEEMCKRSLESVYSLYPTLSRLQAIGELESIGELFSRSVTHRQLSEVYIKWQKHSQLLKDSDFSFQEPIMALRTVILEILMEKEMDNSQRECIKDILTKHLVELSILARTFKNTQLPERAIFQIKQYNSVSCGVSEWQLEEAQVFWAKKEQSLALSILKQMIKKLDASCAANNPSLKLTYTECLRVCGNWLAETCLENPAVIMQTYLEKAVEVAGNYDGESSDELRNGKMKAFLSLARFSDTQYQRIENYMKSSEFENKQALLKRAKEEVGLLREHKIQTNRYTVKVQRELELDELALRALKEDRKRFLCKAVENYINCLLSGEEHDMWVFRLCSLWLENSGVSEVNGMMKRDGMKIPTYKFLPLMYQLAARMGTKMMGGLGFHEVLNNLISRISMDHPHHTLFIILALANANRDEFLTKPEVARRSRITKNVPKQSSQLDEDRTEAANRIICTIRSRRPQMVRSVEALCDAYIILANLDATQWKTQRKGINIPADQPITKLKNLEDVVVPTMEIKVDHTGEYGNLVTIQSFKAEFRLAGGVNLPKIIDCVGSDGKERRQLVKGRDDLRQDAVMQQVFQMCNTLLQRNTETRKRKLTICTYKVVPLSQRSGVLEWCTGTVPIGEFLVNNEDGAHKRYRPNDFSAFQCQKKMMEVQKKSFEEKYEVFMDVCQNFQPVFRYFCMEKFLDPAIWFEKRLAYTRSVATSSIVGYILGLGDRHVQNILINEQSAELVHIDLGVAFEQGKILPTPETVPFRLTRDIVDGMGITGVEGVFRRCCEKTMEVMRNSQETLLTIVEVLLYDPLFDWTMNPLKALYLQQRPEDETELHPTLNADDQECKRNLSDIDQSFNKVAERVLMRLQEKLKGVEEGTVLSVGGQVNLLIQQAIDPKNLSRLFPGWKAWV,PIKK,Serine-protein kinase ATM,ATM,Atypical,1934,94,ATM,LAGGVNLPKIIDCQLVKGRDLRQDAVMQQVFQLTICTYKVVSGVLEWCTTVPIGEFLVNVGYI--LGLGDRHVQNILIHIDLGVA,Human,ATM,,,,,,
+Q13535,ATR,ATR,ATR,Serine/threonine-protein kinase ATR,Atypical,PIKK,ATR,ATR,MGEHGLELASMIPALRELGSATPEEYNTVVQKPRQILCQFIDRILTDVNVVAVELVKKTDSQPTSVMLLDFIQHIMKSSPLMFVNVSGSHEAKGSCIEFSNWIITRLLRIAATPSCHLLHKKICEVICSLLFLFKSKSPAIFGVLTKELLQLFEDLVYLHRRNVMGHAVEWPVVMSRFLSQLDEHMGYLQSAPLQLMSMQNLEFIEVTLLMVLTRIIAIVFFRRQELLLWQIGCVLLEYGSPKIKSLAISFLTELFQLGGLPAQPASTFFSSFLELLKHLVEMDTDQLKLYEEPLSKLIKTLFPFEAEAYRNIEPVYLNMLLEKLCVMFEDGVLMRLKSDLLKAALCHLLQYFLKFVPAGYESALQVRKVYVRNICKALLDVLGIEVDAEYLLGPLYAALKMESMEIIEEIQCQTQQENLSSNSDGISPKRRRLSSSLNPSKRAPKQTEEIKHVDMNQKSILWSALKQKAESLQISLEYSGLKNPVIEMLEGIAVVLQLTALCTVHCSHQNMNCRTFKDCQHKSKKKPSVVITWMSLDFYTKVLKSCRSLLESVQKLDLEATIDKVVKIYDALIYMQVNSSFEDHILEDLCGMLSLPWIYSHSDDGCLKLTTFAANLLTLSCRISDSYSPQAQSRCVFLLTLFPRRIFLEWRTAVYNWALQSSHEVIRASCVSGFFILLQQQNSCNRVPKILIDKVKDDSDIVKKEFASILGQLVCTLHGMFYLTSSLTEPFSEHGHVDLFCRNLKATSQHECSSSQLKASVCKPFLFLLKKKIPSPVKLAFIDNLHHLCKHLDFREDETDVKAVLGTLLNLMEDPDKDVRVAFSGNIKHILESLDSEDGFIKELFVLRMKEAYTHAQISRNNELKDTLILTTGDIGRAAKGDLVPFALLHLLHCLLSKSASVSGAAYTEIRALVAAKSVKLQSFFSQYKKPICQFLVESLHSSQMTALPNTPCQNADVRKQDVAHQREMALNTLSEIANVFDFPDLNRFLTRTLQVLLPDLAAKASPAASALIRTLGKQLNVNRREILINNFKYIFSHLVCSCSKDELERALHYLKNETEIELGSLLRQDFQGLHNELLLRIGEHYQQVFNGLSILASFASSDDPYQGPRDIISPELMADYLQPKLLGILAFFNMQLLSSSVGIEDKKMALNSLMSLMKLMGPKHVSSVRVKMMTTLRTGLRFKDDFPELCCRAWDCFVRCLDHACLGSLLSHVIVALLPLIHIQPKETAAIFHYLIIENRDAVQDFLHEIYFLPDHPELKKIKAVLQEYRKETSESTDLQTTLQLSMKAIQHENVDVRIHALTSLKETLYKNQEKLIKYATDSETVEPIISQLVTVLLKGCQDANSQARLLCGECLGELGAIDPGRLDFSTTETQGKDFTFVTGVEDSSFAYGLLMELTRAYLAYADNSRAQDSAAYAIQELLSIYDCREMETNGPGHQLWRRFPEHVREILEPHLNTRYKSSQKSTDWSGVKKPIYLSKLGSNFAEWSASWAGYLITKVRHDLASKIFTCCSIMMKHDFKVTIYLLPHILVYVLLGCNQEDQQEVYAEIMAVLKHDDQHTINTQDIASDLCQLSTQTVFSMLDHLTQWARHKFQALKAEKCPHSKSNRNKVDSMVSTVDYEDYQSVTRFLDLIPQDTLAVASFRSKAYTRAVMHFESFITEKKQNIQEHLGFLQKLYAAMHEPDGVAGVSAIRKAEPSLKEQILEHESLGLLRDATACYDRAIQLEPDQIIHYHGVVKSMLGLGQLSTVITQVNGVHANRSEWTDELNTYRVEAAWKLSQWDLVENYLAADGKSTTWSVRLGQLLLSAKKRDITAFYDSLKLVRAEQIVPLSAASFERGSYQRGYEYIVRLHMLCELEHSIKPLFQHSPGDSSQEDSLNWVARLEMTQNSYRAKEPILALRRALLSLNKRPDYNEMVGECWLQSARVARKAGHHQTAYNALLNAGESRLAELYVERAKWLWSKGDVHQALIVLQKGVELCFPENETPPEGKNMLIHGRAMLLVGRFMEETANFESNAIMKKYKDVTACLPEWEDGHFYLAKYYDKLMPMVTDNKMEKQGDLIRYIVLHFGRSLQYGNQFIYQSMPRMLTLWLDYGTKAYEWEKAGRSDRVQMRNDLGKINKVITEHTNYLAPYQFLTAFSQLISRICHSHDEVFVVLMEIIAKVFLAYPQQAMWMMTAVSKSSYPMRVNRCKEILNKAIHMKKSLEKFVGDATRLTDKLLELCNKPVDGSSSTLSMSTHFKMLKKLVEEATFSEILIPLQSVMIPTLPSILGTHANHASHEPFPGHWAYIAGFDDMVEILASLQKPKKISLKGSDGKFYIMMCKPKDDLRKDCRLMEFNSLINKCLRKDAESRRRELHIRTYAVIPLNDECGIIEWVNNTAGLRPILTKLYKEKGVYMTGKELRQCMLPKSAALSEKLKVFREFLLPRHPPIFHEWFLRTFPDPTSWYSSRSAYCRSTAVMSMVGYILGLGDRHGENILFDSLTGECVHVDFNCLFNKGETFEVPEIVPFRLTHNMVNGMGPMGTEGLFRRACEVTMRLMRDQREPLMSVLKTFLHDPLVEWSKPVKGHSKAPLNETGEVVNEKAKTHVLDIEQRLQGVIKTRNRVTGLPLSIEGHVHYLIQEATDENLLCQMYLGWTPYM,PIKK,Serine/threonine-protein kinase ATR,ATR,Atypical,1935,95,ATR,LASLQKPKKISLKMMCKPKDLRKDCRLMEFNSLHIRTYAVICGIIEWVNTAGLRPILTKVGYI--LGLGDRHGENILFHVDFNCL,Human,ATR,,,,,,
+Q9UQB9,AURKC,AurC,AurC,Aurora kinase C,Other,Aur,nan,AURKC,MSSPRAVVQLGKAQPAGEELATANQTAQQPSSPAMRRLTVDDFEIGRPLGKGKFGNVYLARLKESHFIVALKVLFKSQIEKEGLEHQLRREIEIQAHLQHPNILRLYNYFHDARRVYLILEYAPRGELYKELQKSEKLDEQRTATIIEELADALTYCHDKKVIHRDIKPENLLLGFRGEVKIADFGWSVHTPSLRRKTMCGTLDYLPPEMIEGRTYDEKVDLWCIGVLCYELLVGYPPFESASHSETYRRILKVDVRFPLSMPLGARDLISRLLRYQPLERLPLAQILKHPWVQAHSRRVLPPCAQMAS,Aur,aurora kinase C,AURKC,Other,1938,260,AurC,RPLGKGKFGNVYLVALKVLQLRREIEIQAHLQPNILRLYNYYLILEYAPRGELYKELQKYCHDKKVIHRDIKPENLLLIADFGWS,Human,,Protein kinase domain,43.0,293.0,309.0,PF00069,True
+P30530,AXL,AXL,AXL,Tyrosine-protein kinase receptor UFO,TK,Axl,nan,AXL,MAWRCPRMGRVPLAWCLALCGWACMAPRGTQAEESPFVGNPGNITGARGLTGTLRCQLQVQGEPPEVHWLRDGQILELADSTQTQVPLGEDEQDDWIVVSQLRITSLQLSDTGQYQCLVFLGHQTFVSQPGYVGLEGLPYFLEEPEDRTVAANTPFNLSCQAQGPPEPVDLLWLQDAVPLATAPGHGPQRSLHVPGLNKTSSFSCEAHNAKGVTTSRTATITVLPQQPRNLHLVSRQPTELEVAWTPGLSGIYPLTHCTLQAVLSDDGMGIQAGEPDPPEEPLTSQASVPPHQLRLGSLHPHTPYHIRVACTSSQGPSSWTHWLPVETPEGVPLGPPENISATRNGSQAFVHWQEPRAPLQGTLLGYRLAYQGQDTPEVLMDIGLRQEVTLELQGDGSVSNLTVCVAAYTAAGDGPWSLPVPLEAWRPGQAQPVHQLVKEPSTPAFSWPWWYVLLGAVVAAACVLILALFLVHRRKKETRYGEVFEPTVERGELVVRYRVRKSYSRRTTEATLNSLGISEELKEKLRDVMVDRHKVALGKTLGEGEFGAVMEGQLNQDDSILKVAVKTMKIAICTRSELEDFLSEAVCMKEFDHPNVMRLIGVCFQGSERESFPAPVVILPFMKHGDLHSFLLYSRLGDQPVYLPTQMLVKFMADIASGMEYLSTKRFIHRDLAARNCMLNENMSVCVADFGLSKKIYNGDYYRQGRIAKMPVKWIAIESLADRVYTSKSDVWSFGVTMWEIATRGQTPYPGVENSEIYDYLRQGNRLKQPADCLDGLYALMSRCWELNPQDRPSFTELREDLENTLKALPPAQEPDEILYVNMDEGGGYPEPPGAAGGADPPTQPDPKDSCSCLTAAEVHPAGRYVLCPSTTPSPAQPADRGSPAAPGQEDGA,Axl,AXL receptor tyrosine kinase,AXL,TK,1835,398,AXL,KTLGEGEFGAVMEVAVKTMDFLSEAVCMKEFDPNVMRLIGVVVILPFMKHGDLHSFLLYYLSTKRFIHRDLAARNCMLVADFGLS,Human,,Protein tyrosine and serine/threonine kinase,537.0,803.0,894.0,PF07714,True
+P25098,ADRBK1,BARK1,BARK1,Beta-adrenergic receptor kinase 1,AGC,GRK,BARK,ADRBK1,MADLEAVLADVSYLMAMEKSKATPAARASKKILLPEPSIRSVMQKYLEDRGEVTFEKIFSQKLGYLLFRDFCLNHLEEARPLVEFYEEIKKYEKLETEEERVARSREIFDSYIMKELLACSHPFSKSATEHVQGHLGKKQVPPDLFQPYIEEICQNLRGDVFQKFIESDKFTRFCQWKNVELNIHLTMNDFSVHRIIGRGGFGEVYGCRKADTGKMYAMKCLDKKRIKMKQGETLALNERIMLSLVSTGDCPFIVCMSYAFHTPDKLSFILDLMNGGDLHYHLSQHGVFSEADMRFYAAEIILGLEHMHNRFVVYRDLKPANILLDEHGHVRISDLGLACDFSKKKPHASVGTHGYMAPEVLQKGVAYDSSADWFSLGCMLFKLLRGHSPFRQHKTKDKHEIDRMTLTMAVELPDSFSPELRSLLEGLLQRDVNRRLGCLGRGAQEVKESPFFRSLDWQMVFLQKYPPPLIPPRGEVNAADAFDIGSFDEEDTKGIKLLDSDQELYRNFPLTISERWQQEVAETVFDTINAETDRLEARKKAKNKQLGHEEDYALGKDCIMHGYMSKMGNPFLTQWQRRYFYLFPNRLEWRGEGEAPQSLLTMEEIQSVEETQIKERKCLLLKIRGGKQFILQCDSDPELVQWKKELRDAYREAQQLVQRVPKMKNKPRSPVVELSKVPLVQRGSANGL,GRK,"adrenergic, beta, receptor kinase 1",GRK2,AGC,1466,11,BARK1,RIIGRGGFGEVYGYAMKCLLALNERIMLSLVSPFIVCMSYASFILDLMNGGDLHYHLSQHMHNRFVVYRDLKPANILLISDLGLA,Human,BARK,Protein kinase domain,192.0,453.0,689.0,PF00069,True
+O14874,BCKDK,BCKDK,BCKDK,[3-methyl-2-oxobutanoate dehydrogenase [lipoamide]] kinase,Atypical,PDHK,nan,BCKDK,MILASVLRSGPGGGLPLRPLLGPALALRARSTSATDTHHVEMARERSKTVTSFYNQSAIDAAAEKPSVRLTPTMMLYAGRSQDGSHLLKSARYLQQELPVRIAHRIKGFRCLPFIIGCNPTILHVHELYIRAFQKLTDFPPIKDQADEAQYCQLVRQLLDDHKDVVTLLAEGLRESRKHIEDEKLVRYFLDKTLTSRLGIRMLATHHLALHEDKPDFVGIICTRLSPKKIIEKWVDFARRLCEHKYGNAPRVRINGHVAARFPFIPMPLDYILPELLKNAMRATMESHLDTPYNVPDVVITIANNDVDLIIRISDRGGGIAHKDLDRVMDYHFTTAEASTQDPRISPLFGHLDMHSGAQSGPMHGFGFGLPTSRAYAEYLGGSLQLQSLQGIGTDVYLRLRHIDGREESFRI,PDHK,"[3-methyl-2-oxobutanoate dehydrogenase [lipoamide]] kinase, mitochondrial",BCKDK,Atypical,1939,89,BCKDK,,Human,BCKDK,,,,,,
+Q12851,MAP4K2,GCK,GCK,Mitogen-activated protein kinase kinase kinase kinase 2,STE,STE20,KHS,MAP4K2,MALLRDVSLQDPRDRFELLQRVGAGTYGDVYKARDTVTSELAAVKIVKLDPGDDISSLQQEITILRECRHPNVVAYIGSYLRNDRLWICMEFCGGGSLQEIYHATGPLEERQIAYVCREALKGLHHLHSQGKIHRDIKGANLLLTLQGDVKLADFGVSGELTASVAKRRSFIGTPYWMAPEVAAVERKGGYNELCDVWALGITAIELGELQPPLFHLHPMRALMLMSKSSFQPPKLRDKTRWTQNFHHFLKLALTKNPKKRPTAEKLLQHPFTTQQLPRALLTQLLDKASDPHLGTPSPEDCELETYDMFPDTIHSRGQHGPAERTPSEIQFHQVKFGAPRRKETDPLNEPWEEEWTLLGKEELSGSLLQSVQEALEERSLTIRSASEFQELDSPDDTMGTIKRAPFLGPLPTDPPAEEPLSSPPGTLPPPPSGPNSSPLLPTAWATMKQREDPERSSCHGLPPTPKVHMGACFSKVFNGCPLRIHAAVTWIHPVTRDQFLVVGAEEGIYTLNLHELHEDTLEKLISHRCSWLYCVNNVLLSLSGKSTHIWAHDLPGLFEQRRLQQQVPLSIPTNRLTQRIIPRRFALSTKIPDTKGCLQCRVVRNPYTGATFLLAALPTSLLLLQWYEPLQKFLLLKNFSSPLPSPAGMLEPLVLDGKELPQVCVGAEGPEGPGCRVLFHVLPLEAGLTPDILIPPEGIPGSAQQVIQVDRDTILVSFERCVRIVNMQGEPTATLAPELTFDFPIETVVCLQDSVLAFWSHGMQGRSLDTNEVTQEITDETRIFRVLGAHRDIILESIPTDNPEAHSNLYILTGHQSTY,STE20,mitogen-activated protein kinase kinase kinase kinase 2,MAP4K2,STE,2086,1105,Map4k2,QRVGAGTYGDVYKAAVKIVSLQQEITILRECRPNVVAYIGSWICMEFCGGGSLQEIYHAHLHSQGKIHRDIKGANLLLLADFGVS,Human,KHS,Protein kinase domain,16.0,272.0,820.0,PF00069,True
+P51451,BLK,BLK,BLK,Tyrosine-protein kinase Blk,TK,Src,nan,BLK,MGLVSSKKPDKEKPIKEKDKGQWSPLKVSAQDKDAPPLPPLVVFNHLTPPPPDEHLDEDKHFVVALYDYTAMNDRDLQMLKGEKLQVLKGTGDWWLARSLVTGREGYVPSNFVARVESLEMERWFFRSQGRKEAERQLLAPINKAGSFLIRESETNKGAFSLSVKDVTTQGELIKHYKIRCLDEGGYYISPRITFPSLQALVQHYSKKGDGLCQRLTLPCVRPAPQNPWAQDEWEIPRQSLRLVRKLGSGQFGEVWMGYYKNNMKVAIKTLKEGTMSPEAFLGEANVMKALQHERLVRLYAVVTKEPIYIVTEYMARGCLLDFLKTDEGSRLSLPRLIDMSAQIAEGMAYIERMNSIHRDLRAANILVSEALCCKIADFGLARIIDSEYTAQEGAKFPIKWTAPEAIHFGVFTIKADVWSFGVLLMEVVTYGRVPYPGMSNPEVIRNLERGYRMPRPDTCPPELYRGVIAECWRSRPEERPTFEFLQSVLEDFYTATERQYELQP,Src,"BLK proto-oncogene, Src family tyrosine kinase",BLK,TK,1940,464,BLK,RKLGSGQFGEVWMVAIKTLAFLGEANVMKALQERLVRLYAVYIVTEYMARGCLLDFLKTYIERMNSIHRDLRAANILVIADFGLA,Human,SrcB,Protein tyrosine and serine/threonine kinase,242.0,489.0,505.0,PF07714,True
+P15056,BRAF,BRAF,BRAF,Serine/threonine-protein kinase B-raf,TKL,RAF,nan,BRAF,MAALSGGGGGGAEPGQALFNGDMEPEAGAGAGAAASSAADPAIPEEVWNIKQMIKLTQEHIEALLDKFGGEHNPPSIYLEAYEEYTSKLDALQQREQQLLESLGNGTDFSVSSSASMDTVTSSSSSSLSVLPSSLSVFQNPTDVARSNPKSPQKPIVRVFLPNKQRTVVPARCGVTVRDSLKKALMMRGLIPECCAVYRIQDGEKKPIGWDTDISWLTGEELHVEVLENVPLTTHNFVRKTFFTLAFCDFCRKLLFQGFRCQTCGYKFHQRCSTEVPLMCVNYDQLDLLFVSKFFEHHPIPQEEASLAETALTSGSSPSAPASDSIGPQILTSPSPSKSIPIPQPFRPADEDHRNQFGQRDRSSSAPNVHINTIEPVNIDDLIRDQGFRGDGGSTTGLSATPPASLPGSLTNVKALQKSPGPQRERKSSSSSEDRNRMKTLGRRDSSDDWEIPDGQITVGQRIGSGSFGTVYKGKWHGDVAVKMLNVTAPTPQQLQAFKNEVGVLRKTRHVNILLFMGYSTKPQLAIVTQWCEGSSLYHHLHIIETKFEMIKLIDIARQTAQGMDYLHAKSIIHRDLKSNNIFLHEDLTVKIGDFGLATVKSRWSGSHQFEQLSGSILWMAPEVIRMQDKNPYSFQSDVYAFGIVLYELMTGQLPYSNINNRDQIIFMVGRGYLSPDLSKVRSNCPKAMKRLMAECLKKKRDERPLFPQILASIELLARSLPKIHRSASEPSLNRAGFQTEDFSLYACASPKTPIQAGGYGAFPVH,RAF,"B-Raf proto-oncogene, serine/threonine kinase",BRAF,TKL,1943,509,BRAF,QRIGSGSFGTVYKVAVKMLAFKNEVGVLRKTRVNILLFMGYAIVTQWCEGSSLYHHLHIYLHAKSIIHRDLKSNNIFLIGDFGLA,Human,RAF,Protein tyrosine and serine/threonine kinase,457.0,712.0,766.0,PF07714,True
+Q13882,PTK6,BRK,BRK,Protein-tyrosine kinase 6,TK,Src,nan,PTK6,MVSRDQAHLGPKYVGLWDFKSRTDEELSFRAGDVFHVARKEEQWWWATLLDEAGGAVAQGYVPHNYLAERETVESEPWFFGCISRSEAVRRLQAEGNATGAFLIRVSEKPSADYVLSVRDTQAVRHYKIWRRAGGRLHLNEAVSFLSLPELVNYHRAQSLSHGLRLAAPCRKHEPEPLPHWDDWERPREEFTLCRKLGSGYFGEVFEGLWKDRVQVAIKVISRDNLLHQQMLQSEIQAMKKLRHKHILALYAVVSVGDPVYIITELMAKGSLLELLRDSDEKVLPVSELLDIAWQVAEGMCYLESQNYIHRDLAARNILVGENTLCKVGDFGLARLIKEDVYLSHDHNIPYKWTAPEALSRGHYSTKSDVWSFGILLHEMFSRGQVPYPGMSNHEAFLRVDAGYRMPCPLECPPSVHKLMLTCWCRDPEQRPCFKALRERLSSFTSYENPT,Src,protein tyrosine kinase 6,PTK6,TK,2182,468,BRK,RKLGSGYFGEVFEVAIKVIMLQSEIQAMKKLRKHILALYAVYIITELMAKGSLLELLRDYLESQNYIHRDLAARNILVVGDFGLA,Human,SRM,Protein tyrosine and serine/threonine kinase,192.0,441.0,451.0,PF07714,True
+Q06187,BTK,BTK,BTK,Tyrosine-protein kinase BTK,TK,Tec,nan,BTK,MAAVILESIFLKRSQQKKKTSPLNFKKRLFLLTVHKLSYYEYDFERGRRGSKKGSIDVEKITCVETVVPEKNPPPERQIPRRGEESSEMEQISIIERFPYPFQVVYDEGPLYVFSPTEELRKRWIHQLKNVIRYNSDLVQKYHPCFWIDGQYLCCSQTAKNAMGCQILENRNGSLKPGSSHRKTKKPLPPTPEEDQILKKPLPPEPAAAPVSTSELKKVVALYDYMPMNANDLQLRKGDEYFILEESNLPWWRARDKNGQEGYIPSNYVTEAEDSIEMYEWYSKHMTRSQAEQLLKQEGKEGGFIVRDSSKAGKYTVSVFAKSTGDPQGVIRHYVVCSTPQSQYYLAEKHLFSTIPELINYHQHNSAGLISRLKYPVSQQNKNAPSTAGLGYGSWEIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMDEES,Tec,Bruton tyrosine kinase,BTK,TK,1948,473,BTK,KELGTGQFGVVKYVAIKMIEFIEEAKVMMNLSEKLVQLYGVFIITEYMANGCLLNYLREYLESKQFLHRDLAARNCLVVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,402.0,650.0,659.0,PF07714,True
+O60566,BUB1B,BUBR1,BUBR1,Mitotic checkpoint serine/threonine-protein kinase BUB1 beta,Other,BUB,nan,BUB1B,MAAVKKEGGALSEAMSLEGDEWELSKENVQPLRQGRIMSTLQGALAQESACNNTLQQQKRAFEYEIRFYTGNDPLDVWDRYISWTEQNYPQGGKESNMSTLLERAVEALQGEKRYYSDPRFLNLWLKLGRLCNEPLDMYSYLHNQGIGVSLAQFYISWAEEYEARENFRKADAIFQEGIQQKAEPLERLQSQHRQFQARVSRQTLLALEKEEEEEVFESSVPQRSTLAELKSKGKKTARAPIIRVGGALKAPSQNRGLQNPFPQQMQNNSRITVFDENADEASTAELSKPTVQPWIAPPMPRAKENELQAGPWNTGRSLEHRPRGNTASLIAVPAVLPSFTPYVEETARQPVMTPCKIEPSINHILSTRKPGKEEGDPLQRVQSHQQASEEKKEKMMYCKEKIYAGVGEFSFEEIRAEVFRKKLKEQREAELLTSAEKRAEMQKQIEEMEKKLKEIQTTQQERTGDQQEETMPTKETTKLQIASESQKIPGMTLSSSVCQVNCCARETSLAENIWQEQPHSKGPSVPFSIFDEFLLSEKKNKSPPADPPRVLAQRRPLAVLKTSESITSNEDVSPDVCDEFTGIEPLSEDAIITGFRNVTICPNPEDTCDFARAARFVSTPFHEIMSLKDLPSDPERLLPEEDLDVKTSEDQQTACGTIYSQTLSIKKLSPIIEDSREATHSSGFSGSSASVASTSSIKCLQIPEKLELTNETSENPTQSPWCSQYRRQLLKSLPELSASAELCIEDRPMPKLEIEKEIELGNEDYCIKREYLICEDYKLFWVAPRNSAELTVIKVSSQPVPWDFYINLKLKERLNEDFDHFCSCYQYQDGCIVWHQYINCFTLQDLLQHSEYITHEITVLIIYNLLTIVEMLHKAEIVHGDLSPRCLILRNRIHDPYDCNKNNQALKIVDFSYSVDLRVQLDVFTLSGFRTVQILEGQKILANCSSPYQVDLFGIADLAHLLLFKEHLQVFWDGSFWKLSQNISELKDGELWNKFFVRILNANDEATVSVLGELAAEMNGVFDTTFQSHLNKALWKVGKLTSPGALLFQ,BUB,BUB1 mitotic checkpoint serine/threonine kinase B,BUB1B,Other,0,263,BUBR1,IELGNEDYCIKRETVIKVSINLKLKERLN---DFDHFCSCYIVWHQYINCFTLQDLLQHMLHKAEIVHGDLSPRCLILIVDFSYS,Human,,,,,,,
+P50613,CDK7,CDK7,CDK7,Cyclin-dependent kinase 7,CMGC,CDK,CDK7,CDK7,MALDVKSRAKRYEKLDFLGEGQFATVYKARDKNTNQIVAIKKIKLGHRSEAKDGINRTALREIKLLQELSHPNIIGLLDAFGHKSNISLVFDFMETDLEVIIKDNSLVLTPSHIKAYMLMTLQGLEYLHQHWILHRDLKPNNLLLDENGVLKLADFGLAKSFGSPNRAYTHQVVTRWYRAPELLFGARMYGVGVDMWAVGCILAELLLRVPFLPGDSDLDQLTRIFETLGTPTEEQWPDMCSLPDYVTFKSFPGIPLHHIFSAAGDDLLDLIQGLFLFNPCARITATQALKMKYFSNRPGPTPGCQLPRPNCPVETLKEQSNPALAIKRKRTEALEQGGLPKKLIF,CDK,cyclin-dependent kinase 7,CDK7,CMGC,1979,204,CDK7,DFLGEGQFATVYKVAIKKITALREIKLLQELSPNIIGLLDASLVFDFME-TDLEVIIKDYLHQHWILHRDLKPNNLLLLADFGLA,Human,CDK7,Protein kinase domain,12.0,295.0,346.0,PF00069,True
+Q14012,CAMK1,CaMK1a,CaMK1a,Calcium/calmodulin-dependent protein kinase type 1,CAMK,CAMK1,nan,CAMK1,MLGAVEGPRWKQAEDIRDIYDFRDVLGTGAFSEVILAEDKRTQKLVAIKCIAKEALEGKEGSMENEIAVLHKIKHPNIVALDDIYESGGHLYLIMQLVSGGELFDRIVEKGFYTERDASRLIFQVLDAVKYLHDLGIVHRDLKPENLLYYSLDEDSKIMISDFGLSKMEDPGSVLSTACGTPGYVAPEVLAQKPYSKAVDCWSIGVIAYILLCGYPPFYDENDAKLFEQILKAEYEFDSPYWDDISDSAKDFIRHLMEKDPEKRFTCEQALQHPWIAGDTALDKNIHQSVSEQIKKNFAKSKWKQAFNATAVVRHMRKLQLGTSQEGQGQTASHGELLTPVAGGPAAGCCCRDCCVEPGTELSPTLPHQL,CAMK1,calcium/calmodulin-dependent protein kinase I,CAMK1,CAMK,1952,109,CaMK1a,DVLGTGAFSEVILVAIKCISMENEIAVLHKIKPNIVALDDIYLIMQLVSGGELFDRIVEYLHDLGIVHRDLKPENLLYISDFGLS,Human,,Protein kinase domain,21.0,276.0,370.0,PF00069,True
+Q9UQM7,CAMK2A,CaMK2a,CaMK2a,Calcium/calmodulin-dependent protein kinase type II subunit alpha,CAMK,CAMK2,nan,CAMK2A,MATITCTRFTEEYQLFEELGKGAFSVVRRCVKVLAGQEYAAKIINTKKLSARDHQKLEREARICRLLKHPNIVRLHDSISEEGHHYLIFDLVTGGELFEDIVAREYYSEADASHCIQQILEAVLHCHQMGVVHRDLKPENLLLASKLKGAAVKLADFGLAIEVEGEQQAWFGFAGTPGYLSPEVLRKDPYGKPVDLWACGVILYILLVGYPPFWDEDQHRLYQQIKAGAYDFPSPEWDTVTPEAKDLINKMLTINPSKRITAAEALKHPWISHRSTVASCMHRQETVDCLKKFNARRKLKGAILTTMLATRNFSGGKSGGNKKSDGVKESSESTNTTIEDEDTKVRKQEIIKVTEQLIEAISNGDFESYTKMCDPGMTAFEPEALGNLVEGLDFHRFYFENLWSRNSKPVHTTILNPHIHLMGDESACIAYIRITQYLDAGGIPRTAQSEETRVWHRRDGKWQIVHFHRSGAPSVLPH,CAMK2,calcium/calmodulin-dependent protein kinase II alpha,CAMK2A,CAMK,1555,113,CaMK2a,EELGKGAFSVVRRYAAKIIKLEREARICRLLKPNIVRLHDSYLIFDLVTGGELFEDIVAHCHQMGVVHRDLKPENLLLLADFGLA,Human,,Protein kinase domain,13.0,271.0,478.0,PF00069,True
+Q13554,CAMK2B,CaMK2b,CaMK2b,Calcium/calmodulin-dependent protein kinase type II subunit beta,CAMK,CAMK2,nan,CAMK2B,MATTVTCTRFTDEYQLYEDIGKGAFSVVRRCVKLCTGHEYAAKIINTKKLSARDHQKLEREARICRLLKHSNIVRLHDSISEEGFHYLVFDLVTGGELFEDIVAREYYSEADASHCIQQILEAVLHCHQMGVVHRDLKPENLLLASKCKGAAVKLADFGLAIEVQGDQQAWFGFAGTPGYLSPEVLRKEAYGKPVDIWACGVILYILLVGYPPFWDEDQHKLYQQIKAGAYDFPSPEWDTVTPEAKNLINQMLTINPAKRITAHEALKHPWVCQRSTVASMMHRQETVECLKKFNARRKLKGAILTTMLATRNFSVGRQTTAPATMSTAASGTTMGLVEQAKSLLNKKADGVKPQTNSTKNSAAATSPKGTLPPAALEPQTTVIHNPVDGIKESSDSANTTIEDEDAKAPRVPDILSSVRRGSGAPEAEGPLPCPSPAPFSPLPAPSPRISDILNSVRRGSGTPEAEGPLSAGPPPCLSPALLGPLSSPSPRISDILNSVRRGSGTPEAEGPSPVGPPPCPSPTIPGPLPTPSRKQEIIKTTEQLIEAVNNGDFEAYAKICDPGLTSFEPEALGNLVEGMDFHRFYFENLLAKNSKPIHTTILNPHVHVIGEDAACIAYIRLTQYIDGQGRPRTSQSEETRVWHRRDGKWQNVHFHCSGAPVAPLQ,CAMK2,calcium/calmodulin-dependent protein kinase II beta,CAMK2B,CAMK,1556,114,CaMK2b,EDIGKGAFSVVRRYAAKIIKLEREARICRLLKSNIVRLHDSYLVFDLVTGGELFEDIVAHCHQMGVVHRDLKPENLLLLADFGLA,Human,,Protein kinase domain,14.0,272.0,666.0,PF00069,True
+Q13555,CAMK2G,CaMK2g,CaMK2g,Calcium/calmodulin-dependent protein kinase (CaM kinase) II gamma,CAMK,CAMK2,nan,CAMK2G,MATTATCTRFTDDYQLFEELGKGAFSVVRRCVKKTSTQEYAAKIINTKKLSARDHQKLEREARICRLLKHPNIVRLHDSISEEGFHYLVFDLVTGGELFEDIVAREYYSEADASHCIHQILESVNHIHQHDIVHRDLKPENLLLASKCKGAAVKLADFGLAIEVQGEQQAWFGFAGTPGYLSPEVLRKDPYGKPVDIWACGVILYILLVGYPPFWDEDQHKLYQQIKAGAYDFPSPEWDTVTPEAKNLINQMLTINPAKRITADQALKHPWVCQRSTVASMMHRQETVECLRKFNARRKLKGAILTTMLVSRNFSAAKSLLNKKSDGGVKKRKSSSSVHLMPQSNNKNSLVSPAQEPAPLQTAMEPQTTVVHNATDGIKGSTESCNTTTEDEDLKGRVPEGRSSRDRTAPSAGMQPQPSLCSSAMRKQEIIKITEQLIEAINNGDFEAYTKICDPGLTSFEPEALGNLVEGMDFHKFYFENLLSKNSKPIHTTILNPHVHVIGEDAACIAYIRLTQYIDGQGRPRTSQSEETRVWHRRDGKWLNVHYHCSGAPAAPLQ,CAMK2,calcium/calmodulin-dependent protein kinase II gamma,CAMK2G,CAMK,0,116,CaMK2g,EELGKGAFSVVRRYAAKIIKLEREARICRLLKPNIVRLHDSYLVFDLVTGGELFEDIVAHIHQHDIVHRDLKPENLLLLADFGLA,Human,,Protein kinase domain,14.0,272.0,558.0,PF00069,True
+Q16566,CAMK4,CaMK4,CaMK4,Calcium/calmodulin-dependent protein kinase type IV,CAMK,CAMK1,nan,CAMK4,MLKVTVPSCSASSCSSVTASAAPGTASLVPDYWIDGSNRDALSDFFEVESELGRGATSIVYRCKQKGTQKPYALKVLKKTVDKKIVRTEIGVLLRLSHPNIIKLKEIFETPTEISLVLELVTGGELFDRIVEKGYYSERDAADAVKQILEAVAYLHENGIVHRDLKPENLLYATPAPDAPLKIADFGLSKIVEHQVLMKTVCGTPGYCAPEILRGCAYGPEVDMWSVGIITYILLCGFEPFYDERGDQFMFRRILNCEYYFISPWWDEVSLNAKDLVRKLIVLDPKKRLTTFQALQHPWVTGKAANFVHMDTAQKKLQEFNARRKLKAAVKAVVASSRLGSASSSHGSIQESHKASRDPSPIQDGNEDMKAIPEGEKIQGDGAQAAVKGAQAELMKVQALEKVKGADINAEEAPKMVPKAVEDGIKVADLELEEGLAEEKLKTVEEAAAPREGQGSSAVGFEVPQQDVILPEY,CAMK1,calcium/calmodulin-dependent protein kinase IV,CAMK4,CAMK,1955,108,CaMK4,SELGRGATSIVYRYALKVLIVRTEIGVLLRLSPNIIKLKEISLVLELVTGGELFDRIVEYLHENGIVHRDLKPENLLYIADFGLS,Human,,Protein kinase domain,46.0,300.0,473.0,PF00069,True
+Q8NCB2,CAMKV,VACAMKL,VACAMKL,CaM kinase-like vesicle-associated protein,CAMK,CAMK-Unique,nan,CAMKV,MPFGCVTLGDKKNYNQPSEVTDRYDLGQVIKTEEFCEIFRAKDKTTGKLHTCKKFQKRDGRKVRKAAKNEIGILKMVKHPNILQLVDVFVTRKEYFIFLELATGREVFDWILDQGYYSERDTSNVVRQVLEAVAYLHSLKIVHRNLKLENLVYYNRLKNSKIVISDFHLAKLENGLIKEPCGTPEYLAPEVVGRQRYGRPVDCWAIGVIMYILLSGNPPFYEEVEEDDYENHDKNLFRKILAGDYEFDSPYWDDISQAAKDLVTRLMEVEQDQRITAEEAISHEWISGNAASDKNIKDGVCAQIEKNFARAKWKKAVRVTTLMKRLRAPEQSSTAAAQSASATDTATPGAAGGATAAAASGATSAPEGDAARAAKSDNVAPADRSATPATDGSATPATDGSVTPATDGSITPATDGSVTPATDRSATPATDGRATPATEESTVPTTQSSAMLATKAAATPEPAMAQPDSTAPEGATGQAPPSSKGEEAAGYAQESQREEAS,CAMK-Unique,CaM kinase-like vesicle-associated,CAMKV,CAMK,0,138,VACAMKL,QVIKTEEFCEIFRHTCKKFAAKNEIGILKMVKPNILQLVDVFIFLELATGREVFDWILDYLHSLKIVHRNLKLENLVYISDFHLA,Human,,Protein kinase domain,34.0,286.0,501.0,PF00069,True
+O15075,DCLK1,DCAMKL1,DCAMKL1,Serine/threonine-protein kinase DCLK1,CAMK,DCAMKL,nan,DCLK1,MSFGRDMELEHFDERDKAQRYSRGSRVNGLPSPTHSAHCSFYRTRTLQTLSSEKKAKKVRFYRNGDRYFKGIVYAISPDRFRSFEALLADLTRTLSDNVNLPQGVRTIYTIDGLKKISSLDQLVEGESYVCGSIEPFKKLEYTKNVNPNWSVNVKTTSASRAVSSLATAKGSPSEVRENKDFIRPKLVTIIRSGVKPRKAVRILLNKKTAHSFEQVLTDITDAIKLDSGVVKRLYTLDGKQVMCLQDFFGDDDIFIACGPEKFRYQDDFLLDESECRVVKSTSYTKIASSSRRSTTKSPGPSRRSKSPASTSSVNGTPGSQLSTPRSGKSPSPSPTSPGSLRKQRSSQHGGSSTSLASTKVCSSMDENDGPGEEVSEEGFQIPATITERYKVGRTIGDGNFAVVKECVERSTAREYALKIIKKSKCRGKEHMIQNEVSILRRVKHPNIVLLIEEMDVPTELYLVMELVKGGDLFDAITSTNKYTERDASGMLYNLASAIKYLHSLNIVHRDIKPENLLVYEHQDGSKSLKLGDFGLATIVDGPLYTVCGTPTYVAPEIIAETGYGLKVDIWAAGVITYILLCGFPPFRGSGDDQEVLFDQILMGQVDFPSPYWDNVSDSAKELITMMLLVDVDQRFSAVQVLEHPWVNDDGLPENEHQLSVAGKIKKHFNTGPKPNSTAAGVSVIATTALDKERQVFRRRRNQDVRSRYKAQPAPPELNSESEDYSPSSSETVRSPNSPF,DCAMKL,doublecortin like kinase 1,DCLK1,CAMK,2005,145,DCLK1,RTIGDGNFAVVKEYALKIIMIQNEVSILRRVKPNIVLLIEEYLVMELVKGGDLFDAITSYLHSLNIVHRDIKPENLLVLGDFGLA,Human,,Protein kinase domain,390.0,647.0,740.0,PF00069,True
+O14936,CASK,CASK,CASK,Peripheral plasma membrane protein CASK,CAMK,CASK,nan,CASK,MADDDVLFEDVYELCEVIGKGPFSVVRRCINRETGQQFAVKIVDVAKFTSSPGLSTEDLKREASICHMLKHPHIVELLETYSSDGMLYMVFEFMDGADLCFEIVKRADAGFVYSEAVASHYMRQILEALRYCHDNNIIHRDVKPHCVLLASKENSAPVKLGGFGVAIQLGESGLVAGGRVGTPHFMAPEVVKREPYGKPVDVWGCGVILFILLSGCLPFYGTKERLFEGIIKGKYKMNPRQWSHISESAKDLVRRMLMLDPAERITVYEALNHPWLKERDRYAYKIHLPETVEQLRKFNARRKLKGAVLAAVSSHKFNSFYGDPPEELPDFSEDPTSSGLLAAERAVSQVLDSLEEIHALTDCSEKDLDFLHSVFQDQHLHTLLDLYDKINTKSSPQIRNPPSDAVQRAKEVLEEISCYPENNDAKELKRILTQPHFMALLQTHDVVAHEVYSDEALRVTPPPTSPYLNGDSPESANGDMDMENVTRVRLVQFQKNTDEPMGITLKMNELNHCIVARIMHGGMIHRQGTLHVGDEIREINGISVANQTVEQLQKMLREMRGSITFKIVPSYRTQSSSCERDSPSTSRQSPANGHSSTNNSVSDLPSTTQPKGRQIYVRAQFEYDPAKDDLIPCKEAGIRFRVGDIIQIISKDDHNWWQGKLENSKNGTAGLIPSPELQEWRVACIAMEKTKQEQQASCTWFGKKKKQYKDKYLAKHNAVFDQLDLVTYEEVVKLPAFKRKTLVLLGAHGVGRRHIKNTLITKHPDRFAYPIPHTTRPPKKDEENGKNYYFVSHDQMMQDISNNEYLEYGSHEDAMYGTKLETIRKIHEQGLIAILDVEPQALKVLRTAEFAPFVVFIAAPTITPGLNEDESLQRLQKESDILQRTYAHYFDLTIINNEIDETIRHLEEAVELVCTAPQWVPVSWVY,CASK,calcium/calmodulin-dependent serine protein kinase (MAGUK family),CASK,CAMK,1959,139,CASK,EVIGKGPFSVVRRFAVKIVDLKREASICHMLKPHIVELLETYMVFEFMDGADLCFEIVKYCHDNNIIHRDVKPHCVLLLGGFGVA,Human,,Protein kinase domain,12.0,276.0,926.0,PF00069,True
+P06493,CDK1,CDC2,CDC2,Cyclin-dependent kinase 1,CMGC,CDK,CDC2,CDK1,MEDYTKIEKIGEGTYGVVYKGRHKTTGQVVAMKKIRLESEEEGVPSTAIREISLLKELRHPNIVSLQDVLMQDSRLYLIFEFLSMDLKKYLDSIPPGQYMDSSLVKSYLYQILQGIVFCHSRRVLHRDLKPQNLLIDDKGTIKLADFGLARAFGIPIRVYTHEVVTLWYRSPEVLLGSARYSTPVDIWSIGTIFAELATKKPLFHGDSEIDQLFRIFRALGTPNNEVWPEVESLQDYKNTFPKWKPGSLASHVKNLDENGLDLLSKMLIYDPAKRISGKMALNHPYFNDLDNQIKKM,CDK,cyclin-dependent kinase 1,CDK1,CMGC,1961,197,CDC2,EKIGEGTYGVVYKVAMKKITAIREISLLKELRPNIVSLQDVYLIFEFLS-MDLKKYLDSFCHSRRVLHRDLKPQNLLILADFGLA,Human,CDC2,Protein kinase domain,4.0,287.0,297.0,PF00069,True
+O00311,CDC7,CDC7,CDC7,Cell division cycle 7-related protein kinase,Other,CDC7,nan,CDC7,MEASLGIQMDEPMAFSPQRDRFQAEGSLKKNEQNFKLAGVKKDIEKLYEAVPQLSNVFKIEDKIGEGTFSSVYLATAQLQVGPEEKIALKHLIPTSHPIRIAAELQCLTVAGGQDNVMGVKYCFRKNDHVVIAMPYLEHESFLDILNSLSFQEVREYMLNLFKALKRIHQFGIVHRDVKPSNFLYNRRLKKYALVDFGLAQGTHDTKIELLKFVQSEAQQERCSQNKSHIITGNKIPLSGPVPKELDQQSTTKASVKRPYTNAQIQIKQGKDGKEGSVGLSVQRSVFGERNFNIHSSISHESPAVKLMKQSKTVDVLSRKLATKKKAISTKVMNSAVMRKTASSCPASLTCDCYATDKVCSICLSRRQQVAPRAGTPGFRAPEVLTKCPNQTTAIDMWSAGVIFLSLLSGRYPFYKASDDLTALAQIMTIRGSRETIQAAKTFGKSILCSKEVPAQDLRKLCERLRGMDSSTPKLTSDIQGHASHQPAISEKTDHKASCLVQTPPGQYSGNSFKKGDSNSCEHCFDEYNTNLEGWNEVPDEAYDLLDKLLDLNPASRITAEEALLHPFFKDMSL,CDC7,cell division cycle 7,CDC7,Other,1960,267,CDC7,DKIGEGTFSSVYLIALKHLRIAAELQCLTVAGDNVMGVKYCVIAMPYLE-HESFLD--IRIHQFGIVHRDVKPSNFLYLVDFGLA,Human,,Protein kinase domain,59.0,207.0,574.0,PF00069,True
+P24941,CDK2,CDK2,CDK2,Cyclin-dependent kinase 2,CMGC,CDK,CDK2,CDK2,MENFQKVEKIGEGTYGVVYKARNKLTGEVVALKKIRLDTETEGVPSTAIREISLLKELNHPNIVKLLDVIHTENKLYLVFEFLHQDLKKFMDASALTGIPLPLIKSYLFQLLQGLAFCHSHRVLHRDLKPQNLLINTEGAIKLADFGLARAFGVPVRTYTHEVVTLWYRAPEILLGCKYYSTAVDIWSLGCIFAEMVTRRALFPGDSEIDQLFRIFRTLGTPDEVVWPGVTSMPDYKPSFPKWARQDFSKVVPPLDEDGRSLLSQMLHYDPNKRISAKAALAHPFFQDVTKPVPHLRL,CDK,cyclin-dependent kinase 2,CDK2,CMGC,1973,198,CDK2,EKIGEGTYGVVYKVALKKITAIREISLLKELNPNIVKLLDVYLVFEFLH-QDLKKFMDAFCHSHRVLHRDLKPQNLLILADFGLA,Human,CDC2,Protein kinase domain,4.0,286.0,298.0,PF00069,True
+Q00526,CDK3,CDK3,CDK3,Cyclin-dependent kinase 3,CMGC,CDK,CDK2,CDK3,MDMFQKVEKIGEGTYGVVYKAKNRETGQLVALKKIRLDLEMEGVPSTAIREISLLKELKHPNIVRLLDVVHNERKLYLVFEFLSQDLKKYMDSTPGSELPLHLIKSYLFQLLQGVSFCHSHRVIHRDLKPQNLLINELGAIKLADFGLARAFGVPLRTYTHEVVTLWYRAPEILLGSKFYTTAVDIWSIGCIFAEMVTRKALFPGDSEIDQLFRIFRMLGTPSEDTWPGVTQLPDYKGSFPKWTRKGLEEIVPNLEPEGRDLLMQLLQYDPSQRITAKTALAHPYFSSPEPSPAARQYVLQRFRH,CDK,cyclin-dependent kinase 3,CDK3,CMGC,1975,199,CDK3,EKIGEGTYGVVYKVALKKITAIREISLLKELKPNIVRLLDVYLVFEFLS-QDLKKYMDSFCHSHRVIHRDLKPQNLLILADFGLA,Human,CDC2,Protein kinase domain,4.0,286.0,305.0,PF00069,True
+P11802,CDK4,CDK4,CDK4,Cyclin-dependent kinase 4,CMGC,CDK,CDK4,CDK4,MATSRYEPVAEIGVGAYGTVYKARDPHSGHFVALKSVRVPNGGGGGGGLPISTVREVALLRRLEAFEHPNVVRLMDVCATSRTDREIKVTLVFEHVDQDLRTYLDKAPPPGLPAETIKDLMRQFLRGLDFLHANCIVHRDLKPENILVTSGGTVKLADFGLARIYSYQMALTPVVVTLWYRAPEVLLQSTYATPVDMWSVGCIFAEMFRRKPLFCGNSEADQLGKIFDLIGLPPEDDWPRDVSLPRGAFPPRGPRPVQSVVPEMEESGAQLLLEMLTFNPHKRISAFRALQHSYLHKDEGNPE,CDK,cyclin-dependent kinase 4,CDK4,CMGC,1976,201,CDK4,AEIGVGAYGTVYKVALKSVSTVREVALLRRLEPNVVRLMDVTLVFEHVD-QDLRTYLDKFLHANCIVHRDLKPENILVLADFGLA,Human,CDK4,Protein kinase domain,6.0,295.0,303.0,PF00069,True
+Q00535,CDK5,CDK5,CDK5,Cyclin-dependent kinase 5,CMGC,CDK,CDK5,CDK5,MQKYEKLEKIGEGTYGTVFKAKNRETHEIVALKRVRLDDDDEGVPSSALREICLLKELKHKNIVRLHDVLHSDKKLTLVFEFCDQDLKKYFDSCNGDLDPEIVKSFLFQLLKGLGFCHSRNVLHRDLKPQNLLINRNGELKLADFGLARAFGIPVRCYSAEVVTLWYRPPDVLFGAKLYSTSIDMWSAGCIFAELANAGRPLFPGNDVDDQLKRIFRLLGTPTEEQWPSMTKLPDYKPYPMYPATTSLVNVVPKLNATGRDLLQNLLKCNPVQRISAEEALQHPYFSDFCPP,CDK,cyclin-dependent kinase 5,CDK5,CMGC,1977,203,CDK5,EKIGEGTYGTVFKVALKRVSALREICLLKELKKNIVRLHDVTLVFEFCD-QDLKKYFDSFCHSRNVLHRDLKPQNLLILADFGLA,Human,CDK5,Protein kinase domain,4.0,286.0,292.0,PF00069,True
+Q00534,CDK6,CDK6,CDK6,Cyclin-dependent kinase 6,CMGC,CDK,CDK4,CDK6,MEKDGLCRADQQYECVAEIGEGAYGKVFKARDLKNGGRFVALKRVRVQTGEEGMPLSTIREVAVLRHLETFEHPNVVRLFDVCTVSRTDRETKLTLVFEHVDQDLTTYLDKVPEPGVPTETIKDMMFQLLRGLDFLHSHRVVHRDLKPQNILVTSSGQIKLADFGLARIYSFQMALTSVVVTLWYRAPEVLLQSSYATPVDLWSVGCIFAEMFRRKPLFRGSSDVDQLGKILDVIGLPGEEDWPRDVALPRQAFHSKSAQPIEKFVTDIDELGKDLLLKCLTFNPAKRISAYSALSHPYFQDLERCKENLDSHLPPSQNTSELNTA,CDK,cyclin-dependent kinase 6,CDK6,CMGC,1978,202,CDK6,AEIGEGAYGKVFKVALKRVSTIREVAVLRHLEPNVVRLFDVTLVFEHVD-QDLTTYLDKFLHSHRVVHRDLKPQNILVLADFGLA,Human,CDK4,Protein kinase domain,13.0,300.0,326.0,PF00069,True
+P49336,CDK8,CDK8,CDK8,Cyclin-dependent kinase 8,CMGC,CDK,CDK8,CDK8,MDYDFKVKLSSERERVEDLFEYEGCKVGRGTYGHVYKAKRKDGKDDKDYALKQIEGTGISMSACREIALLRELKHPNVISLQKVFLSHADRKVWLLFDYAEHDLWHIIKFHRASKANKKPVQLPRGMVKSLLYQILDGIHYLHANWVLHRDLKPANILVMGEGPERGRVKIADMGFARLFNSPLKPLADLDPVVVTFWYRAPELLLGARHYTKAIDIWAIGCIFAELLTSEPIFHCRQEDIKTSNPYHHDQLDRIFNVMGFPADKDWEDIKKMPEHSTLMKDFRRNTYTNCSLIKYMEKHKVKPDSKAFHLLQKLLTMDPIKRITSEQAMQDPYFLEDPLPTSDVFAGCQIPYPKREFLTEEEPDDKGDKKNQQQQQGNNHTNGTGHPGNQDSSHTQGPPLKKVRVVPPTTTSGGLIMTSDYQRSNPHAAYPNPGPSTSQPQSSMGYSATSQQPPQYSHQTHRY,CDK,cyclin-dependent kinase 8,CDK8,CMGC,1980,205,CDK8,CKVGRGTYGHVYKYALKQISACREIALLRELKPNVISLQKVWLLFDYAE-HDLWHIIKFYLHANWVLHRDLKPANILVIADMGFA,Human,CDK8,Protein kinase domain,26.0,335.0,464.0,PF00069,True
+Q13976,PRKG1,PKG1,PKG1,cGMP-dependent protein kinase,AGC,PKG,nan,PRKG1,MSELEEDFAKILMLKEERIKELEKRLSEKEEEIQELKRKLHKCQSVLPVPSTHIGPRTTRAQGISAEPQTYRSFHDLRQAFRKFTKSERSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGTVNVTREDSPSEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIGGLDDVSNKAYEDAEAKAKYEAEAAFFANLKLSDFNIIDTLGVGGFGRVELVQLKSEESKTFAMKILKKRHIVDTRQQEHIRSEKQIMQGAHSDFIVRLYRTFKDSKYLYMLMEACLGGELWTILRDRGSFEDSTTRFYTACVVEAFAYLHSKGIIYRDLKPENLILDHRGYAKLVDFGFAKKIGFGKKTWTFCGTPEYVAPEIILNKGHDISADYWSLGILMYELLTGSPPFSGPDPMKTYNIILRGIDMIEFPKKIAKNAANLIKKLCRDNPSERLGNLKNGVKDIQKHKWFEGFNWEGLRKGTLTPPIIPSVASPTDTSNFDSFPEDNDEPPPDDNSGWDIDF,PKG,"protein kinase, cGMP-dependent, type I",PRKG1,AGC,1492,42,PKG1,DTLGVGGFGRVELFAMKILHIRSEKQIMQGAHDFIVRLYRTYMLMEACLGGELWTILRDYLHSKGIIYRDLKPENLILLVDFGFA,Human,,Protein kinase domain,361.0,619.0,671.0,PF00069,True
+Q13237,PRKG2,PKG2,PKG2,cGMP-dependent protein kinase 2,AGC,PKG,nan,PRKG2,MGNGSVKPKHSKHPDGHSGNLTTDALRNKVTELERELRRKDAEIQEREYHLKELREQLSKQTVAIAELTEELQNKCIQLNKLQDVVHMQGGSPLQASPDKVPLEVHRKTSGLVSLHSRRGAKAGVSAEPTTRTYDLNKPPEFSFEKARVRKDSSEKKLITDALNKNQFLKRLDPQQIKDMVECMYGRNYQQGSYIIKQGEPGNHIFVLAEGRLEVFQGEKLLSSIPMWTTFGELAILYNCTRTASVKAITNVKTWALDREVFQNIMRRTAQARDEQYRNFLRSVSLLKNLPEDKLTKIIDCLEVEYYDKGDYIIREGEEGSTFFILAKGKVKVTQSTEGHDQPQLIKTLQKGEYFGEKALISDDVRSANIIAEENDVACLVIDRETFNQTVGTFEELQKYLEGYVANLNRDDEKRHAKRSMSNWKLSKALSLEMIQLKEKVARFSSSSPFQNLEIIATLGVGGFGRVELVKVKNENVAFAMKCIRKKHIVDTKQQEHVYSEKRILEELCSPFIVKLYRTFKDNKYVYMLLEACLGGELWSILRDRGSFDEPTSKFCVACVTEAFDYLHRLGIIYRDLKPENLILDAEGYLKLVDFGFAKKIGSGQKTWTFCGTPEYVAPEVILNKGHDFSVDFWSLGILVYELLTGNPPFSGVDQMMTYNLILKGIEKMDFPRKITRRPEDLIRRLCRQNPTERLGNLKNGINDIKKHRWLNGFNWEGLKARSLPSPLQRELKGPIDHSYFDKYPPEKGMPPDELSGWDKDF,PKG,"protein kinase, cGMP-dependent, type II",PRKG2,AGC,1493,43,PKG2,ATLGVGGFGRVELFAMKCIHVYSEKRILEELCPFIVKLYRTYMLLEACLGGELWSILRDYLHRLGIIYRDLKPENLILLVDFGFA,Human,,Protein kinase domain,455.0,711.0,762.0,PF00069,True
+Q14004,CDK13,CHED,CHED,Cyclin-dependent kinase 13,CMGC,CDK,CRK7,CDK13,MPSSSDTALGGGGGLSWAEKKLEERRKRRRFLSPQQPPLLLPLLQPQLLQPPPPPPPLLFLAAPGTAAAAAAAAAASSSCFSPGPPLEVKRLARGKRRAGGRQKRRRGPRAGQEAEKRRVFSLPQPQQDGGGGASSGGGVTPLVEYEDVSSQSEQGLLLGGASAATAATAAGGTGGSGGSPASSSGTQRRGEGSERRPRRDRRSSSGRSKERHREHRRRDGQRGGSEASKSRSRHSHSGEERAEVAKSGSSSSSGGRRKSASATSSSSSSRKDRDSKAHRSRTKSSKEPPSAYKEPPKAYREDKTEPKAYRRRRSLSPLGGRDDSPVSHRASQSLRSRKSPSPAGGGSSPYSRRLPRSPSPYSRRRSPSYSRHSSYERGGDVSPSPYSSSSWRRSRSPYSPVLRRSGKSRSRSPYSSRHSRSRSRHRLSRSRSRHSSISPSTLTLKSSLAAELNKNKKARAAEAARAAEAAKAAEATKAAEAAAKAAKASNTSTPTKGNTETSASASQTNHVKDVKKIKIEHAPSPSSGGTLKNDKAKTKPPLQVTKVENNLIVDKATKKAVIVGKESKSAATKEESVSLKEKTKPLTPSIGAKEKEQHVALVTSTLPPLPLPPMLPEDKEADSLRGNISVKAVKKEVEKKLRCLLADLPLPPELPGGDDLSKSPEEKKTATQLHSKRRPKICGPRYGETKEKDIDWGKRCVDKFDIIGIIGEGTYGQVYKARDKDTGEMVALKKVRLDNEKEGFPITAIREIKILRQLTHQSIINMKEIVTDKEDALDFKKDKGAFYLVFEYMDHDLMGLLESGLVHFNENHIKSFMRQLMEGLDYCHKKNFLHRDIKCSNILLNNRGQIKLADFGLARLYSSEESRPYTNKVITLWYRPPELLLGEERYTPAIDVWSCGCILGELFTKKPIFQANQELAQLELISRICGSPCPAVWPDVIKLPYFNTMKPKKQYRRKLREEFVFIPAAALDLFDYMLALDPSKRCTAEQALQCEFLRDVEPSKMPPPDLPLWQDCHELWSKKRRRQKQMGMTDDVSTIKAPRKDLSLGLDDSRTNTPQGVLPSSQLKSQGSSNVAPVKTGPGQHLNHSELAILLNLLQSKTSVNMADFVQVLNIKVNSETQQQLNKINLPAGILATGEKQTDPSTPQQESSKPLGGIQPSSQTIQPKVETDAAQAAVQSAFAVLLTQLIKAQQSKQKDVLLEERENGSGHEASLQLRPPPEPSTPVSGQDDLIQHQDMRILELTPEPDRPRILPPDQRPPEPPEPPPVTEEDLDYRTENQHVPTTSSSLTDPHAGVKAALLQLLAQHQPQDDPKREGGIDYQAGDTYVSTSDYKDNFGSSSFSSAPYVSNDGLGSSSAPPLERRSFIGNSDIQSLDNYSTASSHSGGPPQPSAFSESFPSSVAGYGDIYLNAGPMLFSGDKDHRFEYSHGPIAVLANSSDPSTGPESTHPLPAKMHNYNYGGNLQENPSGPSLMHGQTWTSPAQGPGYSQGYRGHISTSTGRGRGRGLPY,CDK,cyclin-dependent kinase 13,CDK13,CMGC,1966,208,CHED,GIIGEGTYGQVYKVALKKVTAIREIKILRQLTQSIINMKEIYLVFEYMD-HDLMGLLESYCHKKNFLHRDIKCSNILLLADFGLA,Human,CRK7,Protein kinase domain,707.0,997.0,1512.0,PF00069,True
+O14757,CHEK1,CHK1,CHK1,Serine/threonine-protein kinase Chk1,CAMK,CAMKL,CHK1,CHEK1,MAVPFVEDWDLVQTLGEGAYGEVQLAVNRVTEEAVAVKIVDMKRAVDCPENIKKEICINKMLNHENVVKFYGHRREGNIQYLFLEYCSGGELFDRIEPDIGMPEPDAQRFFHQLMAGVVYLHGIGITHRDIKPENLLLDERDNLKISDFGLATVFRYNNRERLLNKMCGTLPYVAPELLKRREFHAEPVDVWSCGIVLTAMLAGELPWDQPSDSCQEYSDWKEKKTYLNPWKKIDSAPLALLHKILVENPSARITIPDIKKDRWYNKPLKKGAKRPRVTSGGVSESPSGFSKHIQSNLDFSPVNSASSEENVKYSSSQPEPRTGLSLWDTSPSYIDKLVQGISFSQPTCPDHMLLNSQLLGTPGSSQNPWQRLVKRMTRFFTKLDADKSYQCLKETCEKLGYQWKKSCMNQVTISTTDRRNNKLIFKVNLLEMDDKILVDFRLSKGDGLEFKRHFLKIKGKLIDIVSSQKIWLPAT,CAMKL,checkpoint kinase 1,CHEK1,CAMK,1987,121,CHK1,QTLGEGAYGEVQLVAVKIVNIKKEICINKMLNENVVKFYGHYLFLEYCSGGELFDRIEPYLHGIGITHRDIKPENLLLISDFGLA,Human,CHK1,Protein kinase domain,11.0,264.0,476.0,PF00069,True
+O96017,CHEK2,CHK2,CHK2,Serine/threonine-protein kinase Chk2,CAMK,RAD53,nan,CHEK2,MSRESDVEAQQSHGSSACSQPHGSVTQSQGSSSQSQGISSSSTSTMPNSSQSSHSSSGTLSSLETVSTQELYSIPEDQEPEDQEPEEPTPAPWARLWALQDGFANLECVNDNYWFGRDKSCEYCFDEPLLKRTDKYRTYSKKHFRIFREVGPKNSYIAYIEDHSGNGTFVNTELVGKGKRRPLNNNSEIALSLSRNKVFVFFDLTVDDQSVYPKALRDEYIMSKTLGSGACGEVKLAFERKTCKKVAIKIISKRKFAIGSAREADPALNVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFGHSKILGETSLMRTLCGTPTYLAPEVLVSVGTAGYNRAVDCWSLGVILFICLSGYPPFSEHRTQVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSEENESTALPQVLAQPSTSRKRPREGEAEGAETTKRPAVCAAVL,RAD53,checkpoint kinase 2,CHEK2,CAMK,1988,168,CHK2,KTLGSGACGEVKLVAIKIINVETEIEILKKLNPCIIKIKNFYIVLELMEGGELFDKVVGYLHENGIIHRDLKPENVLLITDFGHS,Human,,Protein kinase domain,222.0,486.0,543.0,PF00069,True
+P48729,CSNK1A1,CK1a,CK1a,Casein kinase I isoform alpha,CK1,CK1,nan,CSNK1A1,MASSSGSKAEFIVGGKYKLVRKIGSGSFGDIYLAINITNGEEVAVKLESQKARHPQLLYESKLYKILQGGVGIPHIRWYGQEKDYNVLVMDLLGPSLEDLFNFCSRRFTMKTVLMLADQMISRIEYVHTKNFIHRDIKPDNFLMGIGRHCNKLFLIDFGLAKKYRDNRTRQHIPYREDKNLTGTARYASINAHLGIEQSRRDDMESLGYVLMYFNRTSLPWQGLKAATKKQKYEKISEKKMSTPVEVLCKGFPAEFAMYLNYCRGLRFEEAPDYMYLRQLFRILFRTLNHQYDYTFDWTMLKQKAAQQAASSSGQGQQAQTPTGKQTDKTKSNMKGF,CK1,casein kinase 1 alpha 1,CSNK1A1,CK1,1995,184,CK1a,RKIGSGSFGDIYLVAVKLEQLLYESKLYKILQVGIPHIRWYVLVMDLLG-PSLEDLFNFYVHTKNFIHRDIKPDNFLMLIDFGLA,Human,CK1-A,Protein kinase domain,17.0,236.0,337.0,PF00069,True
+P48730,CSNK1D,CK1d,CK1d,Casein kinase I isoform delta,CK1,CK1,nan,CSNK1D,MELRVGNRYRLGRKIGSGSFGDIYLGTDIAAGEEVAIKLECVKTKHPQLHIESKIYKMMQGGVGIPTIRWCGAEGDYNVMVMELLGPSLEDLFNFCSRKFSLKTVLLLADQMISRIEYIHSKNFIHRDVKPDNFLMGLGKKGNLVYIIDFGLAKKYRDARTHQHIPYRENKNLTGTARYASINTHLGIEQSRRDDLESLGYVLMYFNLGSLPWQGLKAATKRQKYERISEKKMSTPIEVLCKGYPSEFATYLNFCRSLRFDDKPDYSYLRQLFRNLFHRQGFSYDYVFDWNMLKFGASRAADDAERERRDREERLRHSRNPATRGLPSTASGRLRGTQEVAPPTPLTPTSHTANTSPRPVSGMERERKVSMRLHRGAPVNISSSDLTGRQDTSRMSTSQIPGRVASSGLQSVVHR,CK1,casein kinase 1 delta,CSNK1D,CK1,1997,186,CK1d,RKIGSGSFGDIYLVAIKLEQLHIESKIYKMMQVGIPTIRWCVMVMELLG-PSLEDLFNFYIHSKNFIHRDVKPDNFLMIIDFGLA,Human,CK1-D,Protein kinase domain,9.0,228.0,415.0,PF00069,True
+P49674,CSNK1E,CK1e,CK1e,Casein kinase I isoform epsilon,CK1,CK1,nan,CSNK1E,MELRVGNKYRLGRKIGSGSFGDIYLGANIASGEEVAIKLECVKTKHPQLHIESKFYKMMQGGVGIPSIKWCGAEGDYNVMVMELLGPSLEDLFNFCSRKFSLKTVLLLADQMISRIEYIHSKNFIHRDVKPDNFLMGLGKKGNLVYIIDFGLAKKYRDARTHQHIPYRENKNLTGTARYASINTHLGIEQSRRDDLESLGYVLMYFNLGSLPWQGLKAATKRQKYERISEKKMSTPIEVLCKGYPSEFSTYLNFCRSLRFDDKPDYSYLRQLFRNLFHRQGFSYDYVFDWNMLKFGAARNPEDVDRERREHEREERMGQLRGSATRALPPGPPTGATANRLRSAAEPVASTPASRIQPAGNTSPRAISRVDRERKVSMRLHRGAPANVSSSDLTGRQEVSRIPASQTSVPFDHLGK,CK1,casein kinase 1 epsilon,CSNK1E,CK1,1998,187,CK1e,RKIGSGSFGDIYLVAIKLEQLHIESKFYKMMQVGIPSIKWCVMVMELLG-PSLEDLFNFYIHSKNFIHRDVKPDNFLMIIDFGLA,Human,CK1-D,Protein kinase domain,9.0,228.0,416.0,PF00069,True
+P78368,CSNK1G2,CK1g2,CK1g2,Casein kinase I isoform gamma-2,CK1,CK1,nan,CSNK1G2,MDFDKKGGKGETEEGRRMSKAGGGRSSHGIRSSGTSSGVLMVGPNFRVGKKIGCGNFGELRLGKNLYTNEYVAIKLEPIKSRAPQLHLEYRFYKQLSATEGVPQVYYFGPCGKYNAMVLELLGPSLEDLFDLCDRTFTLKTVLMIAIQLITRMEYVHTKSLIYRDVKPENFLVGRPGTKRQHAIHIIDFGLAKEYIDPETKKHIPYREHKSLTGTARYMSINTHLGKEQSRRDDLEALGHMFMYFLRGSLPWQGLKADTLKERYQKIGDTKRATPIEVLCENFPEEMATYLRYVRRLDFFEKPDYDYLRKLFTDLFDRSGFVFDYEYDWAGKPLPTPIGTVHTDLPSQPQLRDKTQPHSKNQALNSTNGELNADDPTAGHSNAPITAPAEVEVADETKCCCFFKRRKRKSLQRHK,CK1,casein kinase 1 gamma 2,CSNK1G2,CK1,2000,188,CK1g2,KKIGCGNFGELRLVAIKLEQLHLEYRFYKQLSEGVPQVYYFAMVLELLG-PSLEDLFDLYVHTKSLIYRDVKPENFLVIIDFGLA,Human,CK1-G,Protein kinase domain,47.0,262.0,415.0,PF00069,True
+Q9Y6M4,CSNK1G3,CK1g3,CK1g3,Casein kinase I isoform gamma-3,CK1,CK1,nan,CSNK1G3,MENKKKDKDKSDDRMARPSGRSGHNTRGTGSSSSGVLMVGPNFRVGKKIGCGNFGELRLGKNLYTNEYVAIKLEPMKSRAPQLHLEYRFYKQLGSGDGIPQVYYFGPCGKYNAMVLELLGPSLEDLFDLCDRTFSLKTVLMIAIQLISRMEYVHSKNLIYRDVKPENFLIGRPGNKTQQVIHIIDFGLAKEYIDPETKKHIPYREHKSLTGTARYMSINTHLGKEQSRRDDLEALGHMFMYFLRGSLPWQGLKADTLKERYQKIGDTKRATPIEVLCENFPEMATYLRYVRRLDFFEKPDYDYLRKLFTDLFDRKGYMFDYEYDWIGKQLPTPVGAVQQDPALSSNREAHQHRDKMQQSKNQSADHRAAWDSQQANPHHLRAHLAADRHGGSVQVVSSTNGELNTDDPTAGRSNAPITAPTEVEVMDETKCCCFFKRRKRKTIQRHK,CK1,casein kinase 1 gamma 3,CSNK1G3,CK1,2001,189,CK1g3,KKIGCGNFGELRLVAIKLEQLHLEYRFYKQLGDGIPQVYYFAMVLELLG-PSLEDLFDLYVHSKNLIYRDVKPENFLIIIDFGLA,Human,CK1-G,Protein kinase domain,44.0,259.0,447.0,PF00069,True
+P68400,CSNK2A1,CK2a1,CK2a1,Casein kinase II subunit alpha,CMGC,CK2,nan,CSNK2A1,MSGPVPSRARVYTDVNTHRPREYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTVVKDQARMGSSSMPGGSTPVSSANMMSGISSVPTPSPLGPLAGSPVIAAANPLGMPVPAAAGAQQ,CK2,casein kinase 2 alpha 1,CSNK2A1,CMGC,1549,221,CK2a1,RKLGRGKYSEVFEVVVKILKIKREIKILENLRPNIITLADIALVFEHVN-NTDFKQ--LYCHSMGIMHRDVKPHNVMILIDWGLA,Human,,Protein kinase domain,39.0,324.0,391.0,PF00069,True
+P19784,CSNK2A2,CK2a2,CK2a2,Casein kinase II subunit alpha',CMGC,CK2,nan,CSNK2A2,MPGPAAGSRARVYAEVNSLRSREYWDYEAHVPSWGNQDDYQLVRKLGRGKYSEVFEAINITNNERVVVKILKPVKKKKIKREVKILENLRGGTNIIKLIDTVKDPVSKTPALVFEYINNTDFKQLYQILTDFDIRFYMYELLKALDYCHSKGIMHRDVKPHNVMIDHQQKKLRLIDWGLAEFYHPAQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRREPFFHGQDNYDQLVRIAKVLGTEELYGYLKKYHIDLDPHFNDILGQHSRKRWENFIHSENRHLVSPEALDLLDKLLRYDHQQRLTAKEAMEHPYFYPVVKEQSQPCADNAVLSSGLTAAR,CK2,casein kinase 2 alpha 2,CSNK2A2,CMGC,1550,222,CK2a2,RKLGRGKYSEVFEVVVKILKIKREVKILENLRTNIIKLIDTALVFEYIN-NTDFKQLYQYCHSKGIMHRDVKPHNVMILIDWGLA,Human,,Protein kinase domain,40.0,325.0,350.0,PF00069,True
+P49759,CLK1,CLK1,CLK1,Dual specificity protein kinase CLK1,CMGC,CLK,nan,CLK1,MRHSKRTYCPDWDDKDWDYGKWRSSSSHKRRKRSHSSAQENKRCKYNHSKMCDSHYLESRSINEKDYHSRRYIDEYRNDYTQGCEPGHRQRDHESRYQNHSSKSSGRSGRSSYKSKHRIHHSTSHRRSHGKSHRRKRTRSVEDDEEGHLICQSGDVLSARYEIVDTLGEGAFGKVVECIDHKAGGRHVAVKIVKNVDRYCEAARSEIQVLEHLNTTDPNSTFRCVQMLEWFEHHGHICIVFELLGLSTYDFIKENGFLPFRLDHIRKMAYQICKSVNFLHSNKLTHTDLKPENILFVQSDYTEAYNPKIKRDERTLINPDIKVVDFGSATYDDEHHSTLVSTRHYRAPEVILALGWSQPCDVWSIGCILIEYYLGFTVFPTHDSKEHLAMMERILGPLPKHMIQKTRKRKYFHHDRLDWDEHSSAGRYVSRRCKPLKEFMLSQDVEHERLFDLIQKMLEYDPAKRITLREALKHPFFDLLKKSI,CLK,CDC like kinase 1,CLK1,CMGC,1990,223,CLK1,DTLGEGAFGKVVEVAVKIVAARSEIQVLEHLNFRCVQMLEWCIVFELLG-LSTYDFIKEFLHSNKLTHTDLKPENILFVVDFGSA,Human,,Protein kinase domain,161.0,477.0,484.0,PF00069,True
+P49760,CLK2,CLK2,CLK2,Dual specificity protein kinase CLK2,CMGC,CLK,nan,CLK2,MPHPRRYHSSERGSRGSYREHYRSRKHKRRRSRSWSSSSDRTRRRRREDSYHVRSRSSYDDRSSDRRVYDRRYCGSYRRNDYSRDRGDAYYDTDYRHSYEYQRENSSYRSQRSSRRKHRRRRRRSRTFSRSSSQHSSRRAKSVEDDAEGHLIYHVGDWLQERYEIVSTLGEGTFGRVVQCVDHRRGGARVALKIIKNVEKYKEAARLEINVLEKINEKDPDNKNLCVQMFDWFDYHGHMCISFELLGLSTFDFLKDNNYLPYPIHQVRHMAFQLCQAVKFLHDNKLTHTDLKPENILFVNSDYELTYNLEKKRDERSVKSTAVRVVDFGSATFDHEHHSTIVSTRHYRAPEVILELGWSQPCDVWSIGCIIFEYYVGFTLFQTHDNREHLAMMERILGPIPSRMIRKTRKQKYFYRGRLDWDENTSAGRYVRENCKPLRRYLTSEAEEHHQLFDLIESMLEYEPAKRLTLGEALQHPFFARLRAEPPNKLWDSSRDISR,CLK,CDC like kinase 2,CLK2,CMGC,1991,224,CLK2,STLGEGTFGRVVQVALKIIAARLEINVLEKINNLCVQMFDWCISFELLG-LSTFDFLKDFLHDNKLTHTDLKPENILFVVDFGSA,Human,,Protein kinase domain,163.0,479.0,499.0,PF00069,True
+P49761,CLK3,CLK3,CLK3,Dual specificity protein kinase CLK3,CMGC,CLK,nan,CLK3,MHHCKRYRSPEPDPYLSYRWKRRRSYSREHEGRLRYPSRREPPPRRSRSRSHDRLPYQRRYRERRDSDTYRCEERSPSFGEDYYGPSRSRHRRRSRERGPYRTRKHAHHCHKRRTRSCSSASSRSQQSSKRSSRSVEDDKEGHLVCRIGDWLQERYEIVGNLGEGTFGKVVECLDHARGKSQVALKIIRNVGKYREAARLEINVLKKIKEKDKENKFLCVLMSDWFNFHGHMCIAFELLGKNTFEFLKENNFQPYPLPHVRHMAYQLCHALRFLHENQLTHTDLKPENILFVNSEFETLYNEHKSCEEKSVKNTSIRVADFGSATFDHEHHTTIVATRHYRPPEVILELGWAQPCDVWSIGCILFEYYRGFTLFQTHENREHLVMMEKILGPIPSHMIHRTRKQKYFYKGGLVWDENSSDGRYVKENCKPLKSYMLQDSLEHVQLFDLMRRMLEFDPAQRITLAEALLHPFFAGLTPEERSFHTSRNPSR,CLK,CDC like kinase 3,CLK3,CMGC,1992,225,CLK3,GNLGEGTFGKVVEVALKIIAARLEINVLKKIKFLCVLMSDWCIAFELLG-KNTFEFLKEFLHENQLTHTDLKPENILFVADFGSA,Human,,Protein kinase domain,156.0,472.0,490.0,PF00069,True
+P41279,MAP3K8,COT,COT,Mitogen-activated protein kinase kinase kinase 8,STE,STE-Unique,nan,MAP3K8,MEYMSTGSDNKEEIDLLIKHLNVSDVIDIMENLYASEEPAVYEPSLMTMCQDSNQNDERSKSLLLSGQEVPWLSSVRYGTVEDLLAFANHISNTAKHFYGQRPQESGILLNMVITPQNGRYQIDSDVLLIPWKLTYRNIGSDFIPRGAFGKVYLAQDIKTKKRMACKLIPVDQFKPSDVEIQACFRHENIAELYGAVLWGETVHLFMEAGEGGSVLEKLESCGPMREFEIIWVTKHVLKGLDFLHSKKVIHHDIKPSNIVFMSTKAVLVDFGLSVQMTEDVYFPKDLRGTEIYMSPEVILCRGHSTKADIYSLGATLIHMQTGTPPWVKRYPRSAYPSYLYIIHKQAPPLEDIADDCSPGMRELIEASLERNPNHRPRAADLLKHEALNPPREDQPRCQSLDSALLERKRLLSRKELELPENIADSSCTGSTEESEMLKRQRSLYIDLGALAGYFNLVRGPPTLEYG,STE-Unique,mitogen-activated protein kinase kinase kinase 8,MAP3K8,STE,2083,390,COT,DFIPRGAFGKVYLMACKLIFKPSDVEIQACFRENIAELYGAHLFMEAGEGGSVLEKLESFLHSKKVIHHDIKPSNIVFLVDFGLS,Human,,Protein kinase domain,145.0,386.0,467.0,PF00069,True
+P07333,CSF1R,FMS,FMS,Macrophage colony-stimulating factor 1 receptor,TK,PDGFR,nan,CSF1R,MGPGVLLLLLVATAWHGQGIPVIEPSVPELVVKPGATVTLRCVGNGSVEWDGPPSPHWTLYSDGSSSILSTNNATFQNTGTYRCTEPGDPLGGSAAIHLYVKDPARPWNVLAQEVVVFEDQDALLPCLLTDPVLEAGVSLVRVRGRPLMRHTNYSFSPWHGFTIHRAKFIQSQDYQCSALMGGRKVMSISIRLKVQKVIPGPPALTLVPAELVRIRGEAAQIVCSASSVDVNFDVFLQHNNTKLAIPQQSDFHNNRYQKVLTLNLDQVDFQHAGNYSCVASNVQGKHSTSMFFRVVESAYLNLSSEQNLIQEVTVGEGLNLKVMVEAYPGLQGFNWTYLGPFSDHQPEPKLANATTKDTYRHTFTLSLPRLKPSEAGRYSFLARNPGGWRALTFELTLRYPPEVSVIWTFINGSGTLLCAASGYPQPNVTWLQCSGHTDRCDEAQVLQVWDDPYPEVLSQEPFHKVTVQSLLTVETLEHNQTYECRAHNSVGSGSWAFIPISAGAHTHPPDEFLFTPVVVACMSIMALLLLLLLLLLYKYKQKPKYQVRWKIIESYEGNSYTFIDPTQLPYNEKWEFPRNNLQFGKTLGAGAFGKVVEATAFGLGKEDAVLKVAVKMLKSTAHADEKEALMSELKIMSHLGQHENIVNLLGACTHGGPVLVITEYCCYGDLLNFLRRKAEAMLGPSLSPGQDPEGGVDYKNIHLEKKYVRRDSGFSSQGVDTYVEMRPVSTSSNDSFSEQDLDKEDGRPLELRDLLHFSSQVAQGMAFLASKNCIHRDVAARNVLLTNGHVAKIGDFGLARDIMNDSNYIVKGNARLPVKWMAPESIFDCVYTVQSDVWSYGILLWEIFSLGLNPYPGILVNSKFYKLVKDGYQMAQPAFAPKNIYSIMQACWALEPTHRPTFQQICSFLQEQAQEDRRERDYTNLPSSSRSGGSGSSSSELEEESSSEHLTCCEQGDIAQPLLQPNNYQFC,PDGFR,colony stimulating factor 1 receptor,CSF1R,TK,1806,449,FMS,KTLGAGAFGKVVEVAVKMLALMSELKIMSHLGENIVNLLGALVITEYCCYGDLLNFLRRFLASKNCIHRDVAARNVLLIGDFGLA,Human,,Protein tyrosine and serine/threonine kinase,582.0,910.0,972.0,PF07714,True
+P41240,CSK,CSK,CSK,Tyrosine-protein kinase CSK,TK,Csk,nan,CSK,MSAIQAAWPSGTECIAKYNFHGTAEQDLPFCKGDVLTIVAVTKDPNWYKAKNKVGREGIIPANYVQKREGVKAGTKLSLMPWFHGKITREQAERLLYPPETGLFLVRESTNYPGDYTLCVSCDGKVEHYRIMYHASKLSIDEEVYFENLMQLVEHYTSDADGLCTRLIKPKVMEGTVAAQDEFYRSGWALNMKELKLLQTIGKGEFGDVMLGDYRGNKVAVKCIKNDATAQAFLAEASVMTQLRHSNLVQLLGVIVEEKGGLYIVTEYMAKGSLVDYLRSRGRSVLGGDCLLKFSLDVCEAMEYLEGNNFVHRDLAARNVLVSEDNVAKVSDFGLTKEASSTQDTGKLPVKWTAPEALREKKFSTKSDVWSFGILLWEIYSFGRVPYPRIPLKDVVPRVEKGYKMDAPDGCPPAVYEVMKNCWHLDAAMRPSFLQLREQLEHIKTHELHL,Csk,c-src tyrosine kinase,CSK,TK,1994,402,CSK,QTIGKGEFGDVMLVAVKCIAFLAEASVMTQLRSNLVQLLGVYIVTEYMAKGSLVDYLRSYLEGNNFVHRDLAARNVLVVSDFGLT,Human,,Protein tyrosine and serine/threonine kinase,195.0,440.0,450.0,PF07714,True
+P27448,MARK3,MARK3,MARK3,MAP/microtubule affinity-regulating kinase 3,CAMK,CAMKL,MARK,MARK3,MSTRTPLPTVNERDTENHTSHGDGRQEVTSRTSRSGARCRNSIASCADEQPHIGNYRLLKTIGKGNFAKVKLARHILTGREVAIKIIDKTQLNPTSLQKLFREVRIMKILNHPNIVKLFEVIETEKTLYLIMEYASGGEVFDYLVAHGRMKEKEARSKFRQIVSAVQYCHQKRIVHRDLKAENLLLDADMNIKIADFGFSNEFTVGGKLDTFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKRFLVLNPIKRGTLEQIMKDRWINAGHEEDELKPFVEPELDISDQKRIDIMVGMGYSQEEIQESLSKMKYDEITATYLLLGRKSSELDASDSSSSSNLSLAKVRPSSDLNNSTGQSPHHKVQRSVSSSQKQRRYSDHAGPAIPSVVAYPKRSQTSTADSDLKEDGISSRKSSGSAVGGKGIAPASPMLGNASNPNKADIPERKKSSTVPSSNTASGGMTRRNTYVCSERTTADRHSVIQNGKENSTIPDQRTPVASTHSISSAATPDRIRFPRGTASRSTFHGQPRERRTATYNGPPASPSLSHEATPLSQTRSRGSTNLFSKLTSKLTRRNMSFRFIKRLPTEYERNGRYEGSSRNVSAEQKDENKEAKPRSLRFTWSMKTTSSMDPGDMMREIRKVLDANNCDYEQRERFLLFCVHGDGHAENLVQWEMEVCKLPRLSLNGVRFKRISGTSIAFKNIASKIANELKL,CAMKL,microtubule affinity regulating kinase 3,MARK3,CAMK,2099,126,MARK3,KTIGKGNFAKVKLVAIKIIKLFREVRIMKILNPNIVKLFEVYLIMEYASGGEVFDYLVAYCHQKRIVHRDLKAENLLLIADFGFS,Human,MARK,Protein kinase domain,56.0,307.0,753.0,PF00069,True
+Q02846,GUCY2D,CYGD,CYGD,Retinal guanylyl cyclase 1,RGC,RGC,nan,GUCY2D,MTACARRAGGLPDPGLCGPAWWAPSLPRLPRALPRLPLLLLLLLLQPPALSAVFTVGVLGPWACDPIFSRARPDLAARLAAARLNRDPGLAGGPRFEVALLPEPCRTPGSLGAVSSALARVSGLVGPVNPAACRPAELLAEEAGIALVPWGCPWTQAEGTTAPAVTPAADALYALLRAFGWARVALVTAPQDLWVEAGRSLSTALRARGLPVASVTSMEPLDLSGAREALRKVRDGPRVTAVIMVMHSVLLGGEEQRYLLEAAEELGLTDGSLVFLPFDTIHYALSPGPEALAALANSSQLRRAHDAVLTLTRHCPSEGSVLDSLRRAQERRELPSDLNLQQVSPLFGTIYDAVFLLARGVAEARAAAGGRWVSGAAVARHIRDAQVPGFCGDLGGDEEPPFVLLDTDAAGDRLFATYMLDPARGSFLSAGTRMHFPRGGSAPGPDPSCWFDPNNICGGGLEPGLVFLGFLLVVGMGLAGAFLAHYVRHRLLHMQMVSGPNKIILTVDDITFLHPHGGTSRKVAQGSRSSLGARSMSDIRSGPSQHLDSPNIGVYEGDRVWLKKFPGDQHIAIRPATKTAFSKLQELRHENVALYLGLFLARGAEGPAALWEGNLAVVSEHCTRGSLQDLLAQREIKLDWMFKSSLLLDLIKGIRYLHHRGVAHGRLKSRNCIVDGRFVLKITDHGHGRLLEAQKVLPEPPRAEDQLWTAPELLRDPALERRGTLAGDVFSLAIIMQEVVCRSAPYAMLELTPEEVVQRVRSPPPLCRPLVSMDQAPVECILLMKQCWAEQPELRPSMDHTFDLFKNINKGRKTNIIDSMLRMLEQYSSNLEDLIRERTEELELEKQKTDRLLTQMLPPSVAEALKTGTPVEPEYFEQVTLYFSDIVGFTTISAMSEPIEVVDLLNDLYTLFDAIIGSHDVYKVETIGDAYMVASGLPQRNGQRHAAEIANMSLDILSAVGTFRMRHMPEVPVRIRIGLHSGPCVAGVVGLTMPRYCLFGDTVNTASRMESTGLPYRIHVNLSTVGILRALDSGYQVELRGRTELKGKGAEDTFWLVGRRGFNKPIPKPPDLQPGSSNHGISLQEIPPERRRKLEKARPGQFS,RGC,"guanylate cyclase 2D, membrane (retina-specific)",GUCY2D,RGC,0,342,CYGD,SDIRSGPSQHLDSVWLKKFATKTAFSKLQELRENVALYLGLAVVSEHCTRGSLQDLLAQYLHHRGVAHGRLKSRNCIVITDHGHG,Human,,Protein tyrosine and serine/threonine kinase,578.0,800.0,1103.0,PF07714,True
+P51841,GUCY2F,CYGF,CYGF,Retinal guanylyl cyclase 2,RGC,RGC,nan,GUCY2F,MFLGLGRFSRLVLWFAAFRKLLGHHGLASAKFLWCLCLLSVMSLPQQVWTLPYKIGVVGPWACDSLFSKALPEVAARLAIERINRDPSFDLSYSFEYVILNEDCQTSRALSSFISHHQMASGFIGPTNPGYCEAASLLGNSWDKGIFSWACVNYELDNKISYPTFSRTLPSPIRVLVTVMKYFQWAHAGVISSDEDIWVHTANRVASALRSHGLPVGVVLTTGQDSQSMRKALQRIHQADRIRIIIMCMHSALIGGETQMHLLECAHDLKMTDGTYVFVPYDALLYSLPYKHTPYRVLRNNPKLREAYDAVLTITVESQEKTFYQAFTEAAARGEIPEKLEFDQVSPLFGTIYNSIYFIAQAMNNAMKENGQAGAASLVQHSRNMQFHGFNQLMRTDSNGNGISEYVILDTNLKEWELHSTYTVDMEMELLRFGGTPIHFPGGRPPRADAKCWFAEGKICHGGIDPAFAMMVCLTLLIALLSINGFAYFIRRRINKIQLIKGPNRILLTLEDVTFINPHFGSKRGSRASVSFQITSEVQSGRSPRLSFSSGSLTPATYENSNIAIYEGDWVWLKKFSLGDFGDLKSIKSRASDVFEMMKDLRHENINPLLGFFYDSGMFAIVTEFCSRGSLEDILTNQDVKLDWMFKSSLLLDLIKGMKYLHHREFVHGRLKSRNCVVDGRFVLKVTDYGFNDILEMLRLSEEESSMEELLWTAPELLRAPRGSRLGSFAGDVYSFAIIMQEVMVRGTPFCMMDLPAQEIINRLKKPPPVYRPVVPPEHAPPECLQLMKQCWAEAAEQRPTFDEIFNQFKTFNKGKKTNIIDSMLRMLEQYSSNLEDLIRERTEELEIEKQKTEKLLTQMLPPSVAESLKKGCTVEPEGFDLVTLYFSDIVGFTTISAMSEPIEVVDLLNDLYTLFDAIIGSHDVYKVETIGDAYMVASGLPKRNGSRHAAEIANMSLDILSSVGTFKMRHMPEVPVRIRIGLHSGPVVAGVVGLTMPRYCLFGDTVNTASRMESTGLPYRIHVSLSTVTILQNLSEGYEVELRGRTELKGKGTEETFWLIGKKGFMKPLPVPPPVDKDGQVGHGLQPVEIAAFQRRKAERQLVRNKP,RGC,"guanylate cyclase 2F, retinal",GUCY2F,RGC,0,341,CYGF,SEVQSGRSPRLSFVWLKKFRASDVFEMMKDLRENINPLLGFAIVTEFCSRGSLEDILTNYLHHREFVHGRLKSRNCVVVTDYGFN,Human,,Protein tyrosine and serine/threonine kinase,595.0,808.0,1108.0,PF07714,True
+P53355,DAPK1,DAPK1,DAPK1,Death-associated protein kinase 1,CAMK,DAPK,nan,DAPK1,MTVFRQENVDDYYDTGEELGSGQFAVVKKCREKSTGLQYAAKFIKKRRTKSSRRGVSREDIEREVSILKEIQHPNVITLHEVYENKTDVILILELVAGGELFDFLAEKESLTEEEATEFLKQILNGVYYLHSLQIAHFDLKPENIMLLDRNVPKPRIKIIDFGLAHKIDFGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGDTKQETLANVSAVNYEFEDEYFSNTSALAKDFIRRLLVKDPKKRMTIQDSLQHPWIKPKDTQQALSRKASAVNMEKFKKFAARKKWKQSVRLISLCQRLSRSFLSRSNMSVARSDDTLDEEDSFVMKAIIHAINDDNVPGLQHLLGSLSNYDVNQPNKHGTPPLLIAAGCGNIQILQLLIKRGSRIDVQDKGGSNAVYWAARHGHVDTLKFLSENKCPLDVKDKSGEMALHVAARYGHADVAQLLCSFGSNPNIQDKEEETPLHCAAWHGYYSVAKALCEAGCNVNIKNREGETPLLTASARGYHDIVECLAEHGADLNACDKDGHIALHLAVRRCQMEVIKTLLSQGCFVDYQDRHGNTPLHVACKDGNMPIVVALCEANCNLDISNKYGRTPLHLAANNGILDVVRYLCLMGASVEALTTDGKTAEDLARSEQHEHVAGLLARLRKDTHRGLFIQQLRPTQNLQPRIKLKLFGHSGSGKTTLVESLKCGLLRSFFRRRRPRLSSTNSSRFPPSPLASKPTVSVSINNLYPGCENVSVRSRSMMFEPGLTKGMLEVFVAPTHHPHCSADDQSTKAIDIQNAYLNGVGDFSVWEFSGNPVYFCCYDYFAANDPTSIHVVVFSLEEPYEIQLNQVIFWLSFLKSLVPVEEPIAFGGKLKNPLQVVLVATHADIMNVPRPAGGEFGYDKDTSLLKEIRNRFGNDLHISNKLFVLDAGASGSKDMKVLRNHLQEIRSQIVSVCPPMTHLCEKIISTLPSWRKLNGPNQLMSLQQFVYDVQDQLNPLASEEDLRRIAQQLHSTGEINIMQSETVQDVLLLDPRWLCTNVLGKLLSVETPRALHHYRGRYTVEDIQRLVPDSDVEELLQILDAMDICARDLSSGTMVDVPALIKTDNLHRSWADEEDEVMVYGGVRIVPVEHLTPFPCGIFHKVQVNLCRWIHQQSTEGDADIRLWVNGCKLANRGAELLVLLVNHGQGIEVQVRGLETEKIKCCLLLDSVCSTIENVMATTLPGLLTVKHYLSPQQLREHHEPVMIYQPRDFFRAQTLKETSLTNTMGGYKESFSSIMCFGCHDVYSQASLGMDIHASDLNLLTRRKLSRLLDPPDPLGKDWCLLAMNLGLPDLVAKYNTSNGAPKDFLPSPLHALLREWTTYPESTVGTLMSKLRELGRRDAADFLLKASSVFKINLDGNGQEAYASSCNSGTSYNSISSVVSR,DAPK,death-associated protein kinase 1,DAPK1,CAMK,2002,140,DAPK1,EELGSGQFAVVKKYAAKFIDIEREVSILKEIQPNVITLHEVILILELVAGGELFDFLAEYLHSLQIAHFDLKPENIMLIIDFGLA,Human,DAPK,Protein kinase domain,13.0,275.0,1430.0,PF00069,True
+Q9UIK4,DAPK2,DAPK2,DAPK2,Death-associated protein kinase 2,CAMK,DAPK,nan,DAPK2,MFQASMRSPNMEPFKQQKVEDFYDIGEELGSGQFAIVKKCREKSTGLEYAAKFIKKRQSRASRRGVSREEIEREVSILRQVLHHNVITLHDVYENRTDVVLILELVSGGELFDFLAQKESLSEEEATSFIKQILDGVNYLHTKKIAHFDLKPENIMLLDKNIPIPHIKLIDFGLAHEIEDGVEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGDTKQETLANITAVSYDFDEEFFSQTSELAKDFIRKLLVKETRKRLTIQEALRHPWITPVDNQQAMVRRESVVNLENFRKQYVRRRWKLSFSIVSLCNHLTRSLMKKVHLRPDEDLRNCESDTEEDIARRKALHPRRRSSTS,DAPK,death-associated protein kinase 2,DAPK2,CAMK,2003,142,DAPK2,EELGSGQFAIVKKYAAKFIEIEREVSILRQVLHNVITLHDVVLILELVSGGELFDFLAQYLHTKKIAHFDLKPENIMLLIDFGLA,Human,DAPK,Protein kinase domain,23.0,285.0,370.0,PF00069,True
+Q12852,MAP3K12,DLK,DLK,Mitogen-activated protein kinase kinase kinase 12,TKL,MLK,LZK,MAP3K12,MACLHETRTPSPSFGGFVSTLSEASMRKLDPDTSDCTPEKDLTPTHVLQLHEQDAGGPGGAAGSPESRASRVRADEVRLQCQSGSGFLEGLFGCLRPVWTMIGKAYSTEHKQQQEDLWEVPFEEILDLQWVGSGAQGAVFLGRFHGEEVAVKKVRDLKETDIKHLRKLKHPNIITFKGVCTQAPCYCILMEFCAQGQLYEVLRAGRPVTPSLLVDWSMGIAGGMNYLHLHKIIHRDLKSPNMLITYDDVVKISDFGTSKELSDKSTKMSFAGTVAWMAPEVIRNEPVSEKVDIWSFGVVLWELLTGEIPYKDVDSSAIIWGVGSNSLHLPVPSSCPDGFKILLRQCWNSKPRNRPSFRQILLHLDIASADVLSTPQETYFKSQAEWREEVKLHFEKIKSEGTCLHRLEEELVMRRREELRHALDIREHYERKLERANNLYMELNALMLQLELKERELLRREQALERRCPGLLKPHPSRGLLHGNTMEKLIKKRNVPQKLSPHSKRPDILKTESLLPKLDAALSGVGLPGCPKGPPSPGRSRRGKTRHRKASAKGSCGDLPGLRTAVPPHEPGGPGSPGGLGGGPSAWEACPPALRGLHHDLLLRKMSSSSPDLLSAALGSRGRGATGGAGDPGSPPPARGDTPPSEGSAPGSTSPDSPGGAKGEPPPPVGPGEGVGLLGTGREGTSGRGGSRAGSQHLTPAALLYRAAVTRSQKRGISSEEEEGEVDSEVELTSSQRWPQSLNMRQSLSTFSSENPSDGEEGTASEPSPSGTPEVGSTNTDERPDERSDDMCSQGSEIPLDPPPSEVIPGPEPSSLPIPHQELLRERGPPNSEDSDCDSTELDNSNSVDALRPPASLPP,MLK,mitogen-activated protein kinase kinase kinase 12,MAP3K12,TKL,2072,498,DLK,QWVGSGAQGAVFLVAVKKVLKETDIKHLRKLKPNIITFKGVCILMEFCAQGQLYEVLRAYLHLHKIIHRDLKSPNMLIISDFGTS,Human,LZK,Protein tyrosine and serine/threonine kinase,131.0,363.0,859.0,PF07714,True
+Q09013,DMPK,DMPK1,DMPK1,Myotonin-protein kinase,AGC,DMPK,GEK,DMPK,MSAEVRLRRLQQLVLDPGFLGLEPLLDLLLGVHQELGASELAQDKYVADFLQWAEPIVVRLKEVRLQRDDFEILKVIGRGAFSEVAVVKMKQTGQVYAMKIMNKWDMLKRGEVSCFREERDVLVNGDRRWITQLHFAFQDENYLYLVMEYYVGGDLLTLLSKFGERIPAEMARFYLAEIVMAIDSVHRLGYVHRDIKPDNILLDRCGHIRLADFGSCLKLRADGTVRSLVAVGTPDYLSPEILQAVGGGPGTGSYGPECDWWALGVFAYEMFYGQTPFYADSTAETYGKIVHYKEHLSLPLVDEGVPEEARDFIQRLLCPPETRLGRGGAGDFRTHPFFFGLDWDGLRDSVPPFTPDFEGATDTCNFDLVEDGLTAMVSGGGETLSDIREGAPLGVHLPFVGYSYSCMALRDSEVPGPTPMELEAEQLLEPHVQAPSLEPSVSPQDETAEVAVPAAVPAAEAEAEVTLRELQEALEEEVLTRQSLSREMEAIRTDNQNFASQLREAEARNRDLEAHVRQLQERMELLQAEGATAVTGVPSPRATDPPSHLDGPPAVAVGQCPLVGPGPMHRRHLLLPARVPRPGLSEALSLLLFAVVLSRAAALGCIGLVAHAGQLTAVWRRPGAARAP,DMPK,dystrophia myotonica protein kinase,DMPK,AGC,1505,5,DMPK1,KVIGRGAFSEVAVYAMKIMCFREERDVLVNGDRWITQLHFAYLVMEYYVGGDLLTLLSKSVHRLGYVHRDIKPDNILLLADFGSC,Human,GEK,Protein kinase domain,71.0,339.0,629.0,PF00069,True
+Q6DT37,CDC42BPG,DMPK2,DMPK2,Serine/threonine-protein kinase MRCK gamma,AGC,DMPK,GEK,CDC42BPG,MERRLRALEQLARGEAGGCPGLDGLLDLLLALHHELSSGPLRRERSVAQFLSWASPFVSKVKELRLQRDDFEILKVIGRGAFGEVTVVRQRDTGQIFAMKMLHKWEMLKRAETACFREERDVLVKGDSRWVTTLHYAFQDEEYLYLVMDYYAGGDLLTLLSRFEDRLPPELAQFYLAEMVLAIHSLHQLGYVHRDVKPDNVLLDVNGHIRLADFGSCLRLNTNGMVDSSVAVGTPDYISPEILQAMEEGKGHYGPQCDWWSLGVCAYELLFGETPFYAESLVETYGKIMNHEDHLQFPPDVPDVPASAQDLIRQLLCRQEERLGRGGLDDFRNHPFFEGVDWERLASSTAPYIPELRGPMDTSNFDVDDDTLNHPGTLPPPSHGAFSGHHLPFVGFTYTSGSHSPESSSEAWAALERKLQCLEQEKVELSRKHQEALHAPTDHRELEQLRKEVQTLRDRLPEMLRDKASLSQTDGPPAGSPGQDSDLRQELDRLHRELAEGRAGLQAQEQELCRAQGQQEELLQRLQEAQEREAATASQTRALSSQLEEARAAQRELEAQVSSLSRQVTQLQGQWEQRLEESSQAKTIHTASETNGMGPPEGGPQEAQLRKEVAALREQLEQAHSHRPSGKEEALCQLQEENRRLSREQERLEAELAQEQESKQRLEGERRETESNWEAQLADILSWVNDEKVSRGYLQALATKMAEELESLRNVGTQTLPARPLDHQWKARRLQKMEASARLELQSALEAEIRAKQGLQERLTQVQEAQLQAERRLQEAEKQSQALQQELAMLREELRARGPVDTKPSNSLIPFLSFRSSEKDSAKDPGISGEATRHGGEPDLRPEGRRSLRMGAVFPRAPTANTASTEGLPAKPGSHTLRPRSFPSPTKCLRCTSLMLGLGRQGLGCDACGYFCHTTCAPQAPPCPVPPDLLRTALGVHPETGTGTAYEGFLSVPRPSGVRRGWQRVFAALSDSRLLLFDAPDLRLSPPSGALLQVLDLRDPQFSATPVLASDVIHAQSRDLPRIFRVTTSQLAVPPTTCTVLLLAESEGERERWLQVLGELQRLLLDARPRPRPVYTLKEAYDNGLPLLPHTLCAAILDQDRLALGTEEGLFVIHLRSNDIFQVGECRRVQQLTLSPSAGLLVVLCGRGPSVRLFALAELENIEVAGAKIPESRGCQVLAAGSILQARTPVLCVAVKRQVLCYQLGPGPGPWQRRIRELQAPATVQSLGLLGDRLCVGAAGGFALYPLLNEAAPLALGAGLVPEELPPSRGGLGEALGAVELSLSEFLLLFTTAGIYVDGAGRKSRGHELLWPAAPMGWGYAAPYLTVFSENSIDVFDVRRAEWVQTVPLKKVRPLNPEGSLFLYGTEKVRLTYLRNQLAEKDEFDIPDLTDNSRRQLFRTKSKRRFFFRVSEEQQKQQRREMLKDPFVRSKLISPPTNFNHLVHVGPANGRPGARDKSPAPEEKGRVARGSGPQRPHSFSEALRRPASMGSEGLGGDADPMKRKPWTSLSSESVSCPQGSLSPATSLMQVSERPRSLPLSPELESSP,DMPK,CDC42 binding protein kinase gamma,CDC42BPG,AGC,1506,8,DMPK2,KVIGRGAFGEVTVFAMKMLCFREERDVLVKGDRWVTTLHYAYLVMDYYAGGDLLTLLSRSLHQLGYVHRDVKPDNVLLLADFGSC,Human,GEK,Protein kinase domain,71.0,337.0,1551.0,PF00069,True
+P78527,PRKDC,DNAPK,DNAPK,DNA-dependent protein kinase catalytic subunit,Atypical,PIKK,DNAPK,PRKDC,MAGSGAGVRCSLLRLQETLSAADRCGAALAGHQLIRGLGQECVLSSSPAVLALQTSLVFSRDFGLLVFVRKSLNSIEFRECREEILKFLCIFLEKMGQKIAPYSVEIKNTCTSVYTKDRAAKCKIPALDLLIKLLQTFRSSRLMDEFKIGELFSKFYGELALKKKIPDTVLEKVYELLGLLGEVHPSEMINNAENLFRAFLGELKTQMTSAVREPKLPVLAGCLKGLSSLLCNFTKSMEEDPQTSREIFNFVLKAIRPQIDLKRYAVPSAGLRLFALHASQFSTCLLDNYVSLFEVLLKWCAHTNVELKKAALSALESFLKQVSNMVAKNAEMHKNKLQYFMEQFYGIIRNVDSNNKELSIAIRGYGLFAGPCKVINAKDVDFMYVELIQRCKQMFLTQTDTGDDRVYQMPSFLQSVASVLLYLDTVPEVYTPVLEHLVVMQIDSFPQYSPKMQLVCCRAIVKVFLALAAKGPVLRNCISTVVHQGLIRICSKPVVLPKGPESESEDHRASGEVRTGKWKVPTYKDYVDLFRHLLSSDQMMDSILADEAFFSVNSSSESLNHLLYDEFVKSVLKIVEKLDLTLEIQTVGEQENGDEAPGVWMIPTSDPAANLHPAKPKDFSAFINLVEFCREILPEKQAEFFEPWVYSFSYELILQSTRLPLISGFYKLLSITVRNAKKIKYFEGVSPKSLKHSPEDPEKYSCFALFVKFGKEVAVKMKQYKDELLASCLTFLLSLPHNIIELDVRAYVPALQMAFKLGLSYTPLAEVGLNALEEWSIYIDRHVMQPYYKDILPCLDGYLKTSALSDETKNNWEVSALSRAAQKGFNKVVLKHLKKTKNLSSNEAISLEEIRIRVVQMLGSLGGQINKNLLTVTSSDEMMKSYVAWDREKRLSFAVPFREMKPVIFLDVFLPRVTELALTASDRQTKVAACELLHSMVMFMLGKATQMPEGGQGAPPMYQLYKRTFPVLLRLACDVDQVTRQLYEPLVMQLIHWFTNNKKFESQDTVALLEAILDGIVDPVDSTLRDFCGRCIREFLKWSIKQITPQQQEKSPVNTKSLFKRLYSLALHPNAFKRLGASLAFNNIYREFREEESLVEQFVFEALVIYMESLALAHADEKSLGTIQQCCDAIDHLCRIIEKKHVSLNKAKKRRLPRGFPPSASLCLLDLVKWLLAHCGRPQTECRHKSIELFYKFVPLLPGNRSPNLWLKDVLKEEGVSFLINTFEGGGCGQPSGILAQPTLLYLRGPFSLQATLCWLDLLLAALECYNTFIGERTVGALQVLGTEAQSSLLKAVAFFLESIAMHDIIAAEKCFGTGAAGNRTSPQEGERYNYSKCTVVVRIMEFTTTLLNTSPEGWKLLKKDLCNTHLMRVLVQTLCEPASIGFNIGDVQVMAHLPDVCVNLMKALKMSPYKDILETHLREKITAQSIEELCAVNLYGPDAQVDRSRLAAVVSACKQLHRAGLLHNILPSQSTDLHHSVGTELLSLVYKGIAPGDERQCLPSLDLSCKQLASGLLELAFAFGGLCERLVSLLLNPAVLSTASLGSSQGSVIHFSHGEYFYSLFSETINTELLKNLDLAVLELMQSSVDNTKMVSAVLNGMLDQSFRERANQKHQGLKLATTILQHWKKCDSWWAKDSPLETKMAVLALLAKILQIDSSVSFNTSHGSFPEVFTTYISLLADTKLDLHLKGQAVTLLPFFTSLTGGSLEELRRVLEQLIVAHFPMQSREFPPGTPRFNNYVDCMKKFLDALELSQSPMLLELMTEVLCREQQHVMEELFQSSFRRIARRGSCVTQVGLLESVYEMFRKDDPRLSFTRQSFVDRSLLTLLWHCSLDALREFFSTIVVDAIDVLKSRFTKLNESTFDTQITKKMGYYKILDVMYSRLPKDDVHAKESKINQVFHGSCITEGNELTKTLIKLCYDAFTENMAGENQLLERRRLYHCAAYNCAISVICCVFNELKFYQGFLFSEKPEKNLLIFENLIDLKRRYNFPVEVEVPMERKKKYIEIRKEAREAANGDSDGPSYMSSLSYLADSTLSEEMSQFDFSTGVQSYSYSSQDPRPATGRFRRREQRDPTVHDDVLELEMDELNRHECMAPLTALVKHMHRSLGPPQGEEDSVPRDLPSWMKFLHGKLGNPIVPLNIRLFLAKLVINTEEVFRPYAKHWLSPLLQLAASENNGGEGIHYMVVEIVATILSWTGLATPTGVPKDEVLANRLLNFLMKHVFHPKRAVFRHNLEIIKTLVECWKDCLSIPYRLIFEKFSGKDPNSKDNSVGIQLLGIVMANDLPPYDPQCGIQSSEYFQALVNNMSFVRYKEVYAAAAEVLGLILRYVMERKNILEESLCELVAKQLKQHQNTMEDKFIVCLNKVTKSFPPLADRFMNAVFFLLPKFHGVLKTLCLEVVLCRVEGMTELYFQLKSKDFVQVMRHRDDERQKVCLDIIYKMMPKLKPVELRELLNPVVEFVSHPSTTCREQMYNILMWIHDNYRDPESETDNDSQEIFKLAKDVLIQGLIDENPGLQLIIRNFWSHETRLPSNTLDRLLALNSLYSPKIEVHFLSLATNFLLEMTSMSPDYPNPMFEHPLSECEFQEYTIDSDWRFRSTVLTPMFVETQASQGTLQTRTQEGSLSARWPVAGQIRATQQQHDFTLTQTADGRSSFDWLTGSSTDPLVDHTSPSSDSLLFAHKRSERLQRAPLKSVGPDFGKKRLGLPGDEVDNKVKGAAGRTDLLRLRRRFMRDQEKLSLMYARKGVAEQKREKEIKSELKMKQDAQVVLYRSYRHGDLPDIQIKHSSLITPLQAVAQRDPIIAKQLFSSLFSGILKEMDKFKTLSEKNNITQKLLQDFNRFLNTTFSFFPPFVSCIQDISCQHAALLSLDPAAVSAGCLASLQQPVGIRLLEEALLRLLPAELPAKRVRGKARLPPDVLRWVELAKLYRSIGEYDVLRGIFTSEIGTKQITQSALLAEARSDYSEAAKQYDEALNKQDWVDGEPTEAEKDFWELASLDCYNHLAEWKSLEYCSTASIDSENPPDLNKIWSEPFYQETYLPYMIRSKLKLLLQGEADQSLLTFIDKAMHGELQKAILELHYSQELSLLYLLQDDVDRAKYYIQNGIQSFMQNYSSIDVLLHQSRLTKLQSVQALTEIQEFISFISKQGNLSSQVPLKRLLNTWTNRYPDAKMDPMNIWDDIITNRCFFLSKIEEKLTPLPEDNSMNVDQDGDPSDRMEVQEQEEDISSLIRSCKFSMKMKMIDSARKQNNFSLAMKLLKELHKESKTRDDWLVSWVQSYCRLSHCRSRSQGCSEQVLTVLKTVSLLDENNVSSYLSKNILAFRDQNILLGTTYRIIANALSSEPACLAEIEEDKARRILELSGSSSEDSEKVIAGLYQRAFQHLSEAVQAAEEEAQPPSWSCGPAAGVIDAYMTLADFCDQQLRKEEENASVIDSAELQAYPALVVEKMLKALKLNSNEARLKFPRLLQIIERYPEETLSLMTKEISSVPCWQFISWISHMVALLDKDQAVAVQHSVEEITDNYPQAIVYPFIISSESYSFKDTSTGHKNKEFVARIKSKLDQGGVIQDFINALDQLSNPELLFKDWSNDVRAELAKTPVNKKNIEKMYERMYAALGDPKAPGLGAFRRKFIQTFGKEFDKHFGKGGSKLLRMKLSDFNDITNMLLLKMNKDSKPPGNLKECSPWMSDFKVEFLRNELEIPGQYDGRGKPLPEYHVRIAGFDERVTVMASLRRPKRIIIRGHDEREHPFLVKGGEDLRQDQRVEQLFQVMNGILAQDSACSQRALQLRTYSVVPMTSRLGLIEWLENTVTLKDLLLNTMSQEEKAAYLSDPRAPPCEYKDWLTKMSGKHDVGAYMLMYKGANRTETVTSFRKRESKVPADLLKRAFVRMSTSPEAFLALRSHFASSHALICISHWILGIGDRHLNNFMVAMETGGVIGIDFGHAFGSATQFLPVPELMPFRLTRQFINLMLPMKETGLMYSIMVHALRAFRSDPGLLTNTMDVFVKEPSFDWKNFEQKMLKKGGSWIQEINVAEKNWYPRQKICYAKRKLAGANPAVITCDELLLGHEKAPAFRDYVAVARGSKDHNIRAQEPESGLSEETQVKCLMDQATDPNILGRTWEGWEPWM,,,,,,,,,,,,,,,,
+Q9Y463,DYRK1B,DYRK1B,DYRK1B,Dual specificity tyrosine-phosphorylation-regulated kinase 1B,CMGC,DYRK,DYRK1,DYRK1B,MAVPPGHGPFSGFPGPQEHTQVLPDVRLLPRRLPLAFRDATSAPLRKLSVDLIKTYKHINEVYYAKKKRRAQQAPPQDSSNKKEKKVLNHGYDDDNHDYIVRSGERWLERYEIDSLIGKGSFGQVVKAYDHQTQELVAIKIIKNKKAFLNQAQIELRLLELMNQHDTEMKYYIVHLKRHFMFRNHLCLVFELLSYNLYDLLRNTHFRGVSLNLTRKLAQQLCTALLFLATPELSIIHCDLKPENILLCNPKRSAIKIVDFGSSCQLGQRIYQYIQSRFYRSPEVLLGTPYDLAIDMWSLGCILVEMHTGEPLFSGSNEVDQMNRIVEVLGIPPAAMLDQAPKARKYFERLPGGGWTLRRTKELRKDYQGPGTRRLQEVLGVQTGGPGGRRAGEPGHSPADYLRFQDLVLRMLEYEPAARISPLGALQHGFFRRTADEATNTGPAGSSASTSPAPLDTCPSSSTASSISSSGGSSGSSSDNRTYRYSNRYCGGPGPPITDCEMNSPQVPPSQPLRPWAGGDVPHKTHQAPASASSLPGTGAQLPPQPRYLGRPPSPTSPPPPELMDVSLVGGPADCSPPHPAPAPQHPAASALRTRMTGGRPPLPPPDDPATLGPHLGLRGVPQSTAASS,DYRK,dual specificity tyrosine phosphorylation regulated kinase 1B,DYRK1B,CMGC,2010,228,DYRK1B,SLIGKGSFGQVVKVAIKIIQAQIELRLLELMNYYIVHLKRHCLVFELLS-YNLYDLLRNATPELSIIHCDLKPENILLIVDFGSS,Human,DYRK1,Protein kinase domain,111.0,431.0,629.0,PF00069,True
+Q92630,DYRK2,DYRK2,DYRK2,Dual specificity tyrosine-phosphorylation-regulated kinase 2,CMGC,DYRK,DYRK2,DYRK2,MLTRKPSAAAPAAYPTGRGGDSAVRQLQASPGLGAGATRSGVGTGPPSPIALPPLRASNAAAAAHTIGGSKHTMNDHLHVGSHAHGQIQVQQLFEDNSNKRTVLTTQPNGLTTVGKTGLPVVPERQLDSIHRRQGSSTSLKSMEGMGKVKATPMTPEQAMKQYMQKLTAFEHHEIFSYPEIYFLGLNAKKRQGMTGGPNNGGYDDDQGSYVQVPHDHVAYRYEVLKVIGKGSFGQVVKAYDHKVHQHVALKMVRNEKRFHRQAAEEIRILEHLRKQDKDNTMNVIHMLENFTFRNHICMTFELLSMNLYELIKKNKFQGFSLPLVRKFAHSILQCLDALHKNRIIHCDLKPENILLKQQGRSGIKVIDFGSSCYEHQRVYTYIQSRFYRAPEVILGARYGMPIDMWSLGCILAELLTGYPLLPGEDEGDQLACMIELLGMPSQKLLDASKRAKNFVSSKGYPRYCTVTTLSDGSVVLNGGRSRRGKLRGPPESREWGNALKGCDDPLFLDFLKQCLEWDPAVRMTPGQALRHPWLRRRLPKPPTGEKTSVKRITESTGAITSISKLPPPSSSASKLRTNLAQMTDANGNIQQRTVLPKLVS,DYRK,dual specificity tyrosine phosphorylation regulated kinase 2,DYRK2,CMGC,2011,230,DYRK2,KVIGKGSFGQVVKVALKMVQAAEEIRILEHLRMNVIHMLENCMTFELLS-MNLYELIKKALHKNRIIHCDLKPENILLVIDFGSS,Human,DYRK2,Protein kinase domain,222.0,535.0,601.0,PF00069,True
+Q9NR20,DYRK4,DYRK4,DYRK4,Dual specificity tyrosine-phosphorylation-regulated kinase 4,CMGC,DYRK,DYRK2,DYRK4,MPASELKASEIPFHPSIKTQDPKAEEKSPKKQKVTLTAAEALKLFKNQLSPYEQSEILGYAELWFLGLEAKKLDTAPEKFSKTSFDDEHGFYLKVLHDHIAYRYEVLETIGKGSFGQVAKCLDHKNNELVALKIIRNKKRFHQQALMELKILEALRKKDKDNTYNVVHMKDFFYFRNHFCITFELLGINLYELMKNNNFQGFSLSIVRRFTLSVLKCLQMLSVEKIIHCDLKPENIVLYQKGQASVKVIDFGSSCYEHQKVYTYIQSRFYRSPEVILGHPYDVAIDMWSLGCITAELYTGYPLFPGENEVEQLACIMEVLGLPPAGFIQTASRRQTFFDSKGFPKNITNNRGKKRYPDSKDLTMVLKTYDTSFLDFLRRCLVWEPSLRMTPDQALKHAWIHQSRNLKPQPRPQTLRKSNSFFPSETRKDKVQGCHHSSRKADEITKETTEKTKDSPTKHVQHSGDQQDCLQHGADTVQLPQLVDAPKKSEAAVGAEVSMTSPGQSKNFSLKNTNVLPPIV,DYRK,dual specificity tyrosine phosphorylation regulated kinase 4,DYRK4,CMGC,2013,231,DYRK4,ETIGKGSFGQVAKVALKIIQALMELKILEALRYNVVHMKDFCITFELLG-INLYELMKNMLSVEKIIHCDLKPENIVLVIDFGSS,Human,DYRK2,Protein kinase domain,104.0,400.0,520.0,PF00069,True
+O00418,EEF2K,eEF2K,eEF2K,Eukaryotic elongation factor 2 kinase,Atypical,Alpha,eEF2K,EEF2K,MADEDLIFRLEGVDGGQSPRAGHDGDSDGDSDDEEGYFICPITDDPSSNQNVNSKVNKYYSNLTKSERYSSSGSPANSFHFKEAWKHAIQKAKHMPDPWAEFHLEDIATERATRHRYNAVTGEWLDDEVLIKMASQPFGRGAMRECFRTKKLSNFLHAQQWKGASNYVAKRYIEPVDRDVYFEDVRLQMEAKLWGEEYNRHKPPKQVDIMQMCIIELKDRPGKPLFHLEHYIEGKYIKYNSNSGFVRDDNIRLTPQAFSHFTFERSGHQLIVVDIQGVGDLYTDPQIHTETGTDFGDGNLGVRGMALFFYSHACNRICESMGLAPFDLSPRERDAVNQNTKLLQSAKTILRGTEEKCGSPQVRTLSGSRPPLLRPLSENSGDENMSDVTFDSLPSSPSSATPHSQKLDHLHWPVFSDLDNMASRDHDHLDNHRESENSGDSGYPSEKRGELDDPEPREHGHSYSNRKYESDEDSLGSSGRVCVEKWNLLNSSRLHLPRASAVALEVQRLNALDLEKKIGKSILGKVHLAMVRYHEGGRFCEKGEEWDQESAVFHLEHAANLGELEAIVGLGLMYSQLPHHILADVSLKETEENKTKGFDYLLKAAEAGDRQSMILVARAFDSGQNLSPDRCQDWLEALHWYNTALEMTDCDEGGEYDGMQDEPRYMMLAREAEMLFTGGYGLEKDPQRSGDLYTQAAEAAMEAMKGRLANQYYQKAEEAWAQMEE,Alpha,Eukaryotic elongation factor 2 kinase,EEF2K,Atypical,2014,80,eEF2K,,Human,eEF2K,,,,,,
+P00533,EGFR,EGFR,EGFR,Epidermal growth factor receptor,TK,EGFR,nan,EGFR,MRPSGTAGAALLALLAALCPASRALEEKKVCQGTSNKLTQLGTFEDHFLSLQRMFNNCEVVLGNLEITYVQRNYDLSFLKTIQEVAGYVLIALNTVERIPLENLQIIRGNMYYENSYALAVLSNYDANKTGLKELPMRNLQEILHGAVRFSNNPALCNVESIQWRDIVSSDFLSNMSMDFQNHLGSCQKCDPSCPNGSCWGAGEENCQKLTKIICAQQCSGRCRGKSPSDCCHNQCAAGCTGPRESDCLVCRKFRDEATCKDTCPPLMLYNPTTYQMDVNPEGKYSFGATCVKKCPRNYVVTDHGSCVRACGADSYEMEEDGVRKCKKCEGPCRKVCNGIGIGEFKDSLSINATNIKHFKNCTSISGDLHILPVAFRGDSFTHTPPLDPQELDILKTVKEITGFLLIQAWPENRTDLHAFENLEIIRGRTKQHGQFSLAVVSLNITSLGLRSLKEISDGDVIISGNKNLCYANTINWKKLFGTSGQKTKIISNRGENSCKATGQVCHALCSPEGCWGPEPRDCVSCRNVSRGRECVDKCNLLEGEPREFVENSECIQCHPECLPQAMNITCTGRGPDNCIQCAHYIDGPHCVKTCPAGVMGENNTLVWKYADAGHVCHLCHPNCTYGCTGPGLEGCPTNGPKIPSIATGMVGALLLLLVVALGIGLFMRRRHIVRKRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGSGAFGTVYKGLWIPEGEKVKIPVAIKELREATSPKANKEILDEAYVMASVDNPHVCRLLGICLTSTVQLITQLMPFGCLLDYVREHKDNIGSQYLLNWCVQIAKGMNYLEDRRLVHRDLAARNVLVKTPQHVKITDFGLAKLLGAEEKEYHAEGGKVPIKWMALESILHRIYTHQSDVWSYGVTVWELMTFGSKPYDGIPASEISSILEKGERLPQPPICTIDVYMIMVKCWMIDADSRPKFRELIIEFSKMARDPQRYLVIQGDERMHLPSPTDSNFYRALMDEEDMDDVVDADEYLIPQQGFFSSPSTSRTPLLSSLSATSNNSTVACIDRNGLQSCPIKEDSFLQRYSSDPTGALTEDSIDDTFLPVPEYINQSVPKRPAGSVQNPVYHNQPLNPAPSRDPHYQDPHSTAVGNPEYLNTVQPTCVNSTFDSPAHWAQKGSHQISLDNPDYQQDFFPKEAKPNGIFKGSTAENAEYLRVAPQSSEFIGA,EGFR,epidermal growth factor receptor,EGFR,TK,1797,406,EGFR,KVLGSGAFGTVYKVAIKELEILDEAYVMASVDPHVCRLLGIQLITQLMPFGCLLDYVREYLEDRRLVHRDLAARNVLVITDFGLA,Human,,Protein tyrosine and serine/threonine kinase,714.0,966.0,1210.0,PF07714,True
+P19525,EIF2AK2,PKR,PKR,Interferon-induced,Other,PEK,nan,EIF2AK2,MAGDLSAGFFMEELNTYRQKQGVVLKYQELPNSGPPHDRRFTFQVIIDGREFPEGEGRSKKEAKNAAAKLAVEILNKEKKAVSPLLLTTTNSSEGLSMGNYIGLINRIAQKKRLTVNYEQCASGVHGPEGFHYKCKMGQKEYSIGTGSTKQEAKQLAAKLAYLQILSEETSVKSDYLSSGSFATTCESQSNSLVTSTLASESSSEGDFSADTSEINSNSDSLNSSSLLMNGLRNNQRKAKRSLAPRFDLPDMKETKYTVDKRFGMDFKEIELIGSGGFGQVFKAKHRIDGKTYVIKRVKYNNEKAEREVKALAKLDHVNIVHYNGCWDGFDYDPETSDDSLESSDYDPENSKNSSRSKTKCLFIQMEFCDKGTLEQWIEKRRGEKLDKVLALELFEQITKGVDYIHSKKLIHRDLKPSNIFLVDTKQVKIGDFGLVTSLKNDGKRTRSKGTLRYMSPEQISSQDYGKEVDLYALGLILAELLHVCDTAFETSKFFTDLRDGIISDIFDKKEKTLLQKLLSKKPEDRPNTSEILRTLTVWKKSPEKNERHTC,PEK,eukaryotic translation initiation factor 2 alpha kinase 2,EIF2AK2,Other,2016,310,PKR,ELIGSGGFGQVFKYVIKRVKAEREVKALAKLDVNIVHYNGCFIQMEFCDKGTLEQWIEKYIHSKKLIHRDLKPSNIFLIGDFGLV,Human,PKR,Protein kinase domain,268.0,534.0,551.0,PF00069,True
+Q7KZI7,MARK2,MARK2,MARK2,Serine/threonine-protein kinase MARK2,CAMK,CAMKL,MARK,MARK2,MSSARTPLPTLNERDTEQPTLGHLDSKPSSKSNMIRGRNSATSADEQPHIGNYRLLKTIGKGNFAKVKLARHILTGKEVAVKIIDKTQLNSSSLQKLFREVRIMKVLNHPNIVKLFEVIETEKTLYLVMEYASGGEVFDYLVAHGRMKEKEARAKFRQIVSAVQYCHQKFIVHRDLKAENLLLDADMNIKIADFGFSNEFTFGNKLDTFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKKFLILNPSKRGTLEQIMKDRWMNVGHEDDELKPYVEPLPDYKDPRRTELMVSMGYTREEIQDSLVGQRYNEVMATYLLLGYKSSELEGDTITLKPRPSADLTNSSAPSPSHKVQRSVSANPKQRRFSDQAAGPAIPTSNSYSKKTQSNNAENKRPEEDRESGRKASSTAKVPASPLPGLERKKTTPTPSTNSVLSTSTNRSRNSPLLERASLGQASIQNGKDSLTMPGSRASTASASAAVSAARPRQHQKSMSASVHPNKASGLPPTESNCEVPRPSTAPQRVPVASPSAHNISSSGGAPDRTNFPRGVSSRSTFHAGQLRQVRDQQNLPYGVTPASPSGHSQGRRGASGSIFSKFTSKFVRRNLSFRFARRNLNEPESKDRVETLRPHVVGSGGNDKEKEEFREAKPRSLRFTWSMKTTSSMEPNEMMREIRKVLDANSCQSELHEKYMLLCMHGTPGHEDFVQWEMEVCKLPRLSLNGVRFKRISGTSMAFKNIASKIANELKL,CAMKL,microtubule affinity regulating kinase 2,MARK2,CAMK,2098,124,MARK2,KTIGKGNFAKVKLVAVKIIKLFREVRIMKVLNPNIVKLFEVYLVMEYASGGEVFDYLVAYCHQKFIVHRDLKAENLLLIADFGFS,Human,MARK,Protein kinase domain,53.0,304.0,788.0,PF00069,True
+P21709,EPHA1,EphA1,EphA1,Ephrin type-A receptor 1,TK,Eph,nan,EPHA1,MERRWPLGLGLVLLLCAPLPPGARAKEVTLMDTSKAQGELGWLLDPPKDGWSEQQQILNGTPLYMYQDCPMQGRRDTDHWLRSNWIYRGEEASRVHVELQFTVRDCKSFPGGAGPLGCKETFNLLYMESDQDVGIQLRRPLFQKVTTVAADQSFTIRDLVSGSVKLNVERCSLGRLTRRGLYLAFHNPGACVALVSVRVFYQRCPETLNGLAQFPDTLPGPAGLVEVAGTCLPHARASPRPSGAPRMHCSPDGEWLVPVGRCHCEPGYEEGGSGEACVACPSGSYRMDMDTPHCLTCPQQSTAESEGATICTCESGHYRAPGEGPQVACTGPPSAPRNLSFSASGTQLSLRWEPPADTGGRQDVRYSVRCSQCQGTAQDGGPCQPCGVGVHFSPGARGLTTPAVHVNGLEPYANYTFNVEAQNGVSGLGSSGHASTSVSISMGHAESLSGLSLRLVKKEPRQLELTWAGSRPRSPGANLTYELHVLNQDEERYQMVLEPRVLLTELQPDTTYIVRVRMLTPLGPGPFSPDHEFRTSPPVSRGLTGGEIVAVIFGLLLGAALLLGILVFRSRRAQRQRQQRQRDRATDVDREDKLWLKPYVDLQAYEDPAQGALDFTRELDPAWLMVDTVIGEGEFGEVYRGTLRLPSQDCKTVAIKTLKDTSPGGQWWNFLREATIMGQFSHPHILHLEGVVTKRKPIMIITEFMENGALDAFLREREDQLVPGQLVAMLQGIASGMNYLSNHNYVHRDLAARNILVNQNLCCKVSDFGLTRLLDDFDGTYETQGGKIPIRWTAPEAIAHRIFTTASDVWSFGIVMWEVLSFGDKPYGEMSNQEVMKSIEDGYRLPPPVDCPAPLYELMKNCWAYDRARRPHFQKLQAHLEQLLANPHSLRTIANFDPRMTLRLPSLSGSDGIPYRTVSEWLESIRMKRYILHFHSAGLDTMECVLELTAEDLTQMGITLPGHQKRILCSIQGFKD,Eph,EPH receptor A1,EPHA1,TK,1821,411,EphA1,TVIGEGEFGEVYRVAIKTLNFLREATIMGQFSPHILHLEGVMIITEFMENGALDAFLREYLSNHNYVHRDLAARNILVVSDFGLT,Human,,Protein tyrosine and serine/threonine kinase,626.0,880.0,976.0,PF07714,True
+P29317,EPHA2,EphA2,EphA2,Ephrin type-A receptor 2,TK,Eph,nan,EPHA2,MELQAARACFALLWGCALAAAAAAQGKEVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSSDFEARHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKKCPELLQGLAHFPETIAGSDAPSLATVAGTCVDHAVVPPGGEEPRMHCAVDGEWLVPIGQCLCQAGYEKVEDACQACSPGFFKFEASESPCLECPEHTLPSPEGATSCECEEGFFRAPQDPASMPCTRPPSAPHYLTAVGMGAKVELRWTPPQDSGGREDIVYSVTCEQCWPESGECGPCEASVRYSEPPHGLTRTSVTVSDLEPHMNYTFTVEARNGVSGLVTSRSFRTASVSINQTEPPKVRLEGRSTTSLSVSWSIPPPQQSRVWKYEVTYRKKGDSNSYNVRRTEGFSVTLDDLAPDTTYLVQVQALTQEGQGAGSKVHEFQTLSPEGSGNLAVIGGVAVGVVLLLVLAGVGFFIHRRRKNQRARQSPEDVYFSKSEQLKPLKTYVDPHTYEDPNQAVLKFTTEIHPSCVTRQKVIGAGEFGEVYKGMLKTSSGKKEVPVAIKTLKAGYTEKQRVDFLGEAGIMGQFSHHNIIRLEGVISKYKPMMIITEYMENGALDKFLREKDGEFSVLQLVGMLRGIAAGMKYLANMNYVHRDLAARNILVNSNLVCKVSDFGLSRVLEDDPEATYTTSGGKIPIRWTAPEAISYRKFTSASDVWSFGIVMWEVMTYGERPYWELSNHEVMKAINDGFRLPTPMDCPSAIYQLMMQCWQQERARRPKFADIVSILDKLIRAPDSLKTLADFDPRVSIRLPSTSGSEGVPFRTVSEWLESIKMQQYTEHFMAAGYTAIEKVVQMTNDDIKRIGVRLPGHQKRIAYSLLGLKDQVNTVGIPI,Eph,EPH receptor A2,EPHA2,TK,1822,410,EphA2,KVIGAGEFGEVYKVAIKTLDFLGEAGIMGQFSHNIIRLEGVMIITEYMENGALDKFLREYLANMNYVHRDLAARNILVVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,614.0,871.0,976.0,PF07714,True
+P29320,EPHA3,EphA3,EphA3,Ephrin type-A receptor 3,TK,Eph,nan,EPHA3,MDCQLSILLLLSCSVLDSFGELIPQPSNEVNLLDSKTIQGELGWISYPSHGWEEISGVDEHYTPIRTYQVCNVMDHSQNNWLRTNWVPRNSAQKIYVELKFTLRDCNSIPLVLGTCKETFNLYYMESDDDHGVKFREHQFTKIDTIAADESFTQMDLGDRILKLNTEIREVGPVNKKGFYLAFQDVGACVALVSVRVYFKKCPFTVKNLAMFPDTVPMDSQSLVEVRGSCVNNSKEEDPPRMYCSTEGEWLVPIGKCSCNAGYEERGFMCQACRPGFYKALDGNMKCAKCPPHSSTQEDGSMNCRCENNYFRADKDPPSMACTRPPSSPRNVISNINETSVILDWSWPLDTGGRKDVTFNIICKKCGWNIKQCEPCSPNVRFLPRQFGLTNTTVTVTDLLAHTNYTFEIDAVNGVSELSSPPRQFAAVSITTNQAAPSPVLTIKKDRTSRNSISLSWQEPEHPNGIILDYEVKYYEKQEQETSYTILRARGTNVTISSLKPDTIYVFQIRARTAAGYGTNSRKFEFETSPDSFSISGESSQVVMIAISAAVAIILLTVVIYVLIGRFCGYKSKHGADEKRLHFGNGHLKLPGLRTYVDPHTYEDPTQAVHEFAKELDATNISIDKVVGAGEFGEVCSGRLKLPSKKEISVAIKTLKVGYTEKQRRDFLGEASIMGQFDHPNIIRLEGVVTKSKPVMIVTEYMENGSLDSFLRKHDAQFTVIQLVGMLRGIASGMKYLSDMGYVHRDLAARNILINSNLVCKVSDFGLSRVLEDDPEAAYTTRGGKIPIRWTSPEAIAYRKFTSASDVWSYGIVLWEVMSYGERPYWEMSNQDVIKAVDEGYRLPPPMDCPAALYQLMLDCWQKDRNNRPKFEQIVSILDKLIRNPGSLKIITSAAARPSNLLLDQSNVDITTFRTTGDWLNGVWTAHCKEIFTGVEYSSCDTIAKISTDDMKKVGVTVVGPQKKIISSIKALETQSKNGPVPV,Eph,EPH receptor A3,EPHA3,TK,1823,412,EphA3,KVVGAGEFGEVCSVAIKTLDFLGEASIMGQFDPNIIRLEGVMIVTEYMENGSLDSFLRKYLSDMGYVHRDLAARNILIVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,622.0,878.0,983.0,PF07714,True
+P54764,EPHA4,EphA4,EphA4,Ephrin type-A receptor 4,TK,Eph,nan,EPHA4,MAGIFYFALFSCLFGICDAVTGSRVYPANEVTLLDSRSVQGELGWIASPLEGGWEEVSIMDEKNTPIRTYQVCNVMEPSQNNWLRTDWITREGAQRVYIEIKFTLRDCNSLPGVMGTCKETFNLYYYESDNDKERFIRENQFVKIDTIAADESFTQVDIGDRIMKLNTEIRDVGPLSKKGFYLAFQDVGACIALVSVRVFYKKCPLTVRNLAQFPDTITGADTSSLVEVRGSCVNNSEEKDVPKMYCGADGEWLVPIGNCLCNAGHEERSGECQACKIGYYKALSTDATCAKCPPHSYSVWEGATSCTCDRGFFRADNDAASMPCTRPPSAPLNLISNVNETSVNLEWSSPQNTGGRQDISYNVVCKKCGAGDPSKCRPCGSGVHYTPQQNGLKTTKVSITDLLAHTNYTFEIWAVNGVSKYNPNPDQSVSVTVTTNQAAPSSIALVQAKEVTRYSVALAWLEPDRPNGVILEYEVKYYEKDQNERSYRIVRTAARNTDIKGLNPLTSYVFHVRARTAAGYGDFSEPLEVTTNTVPSRIIGDGANSTVLLVSVSGSVVLVVILIAAFVISRRRSKYSKAKQEADEEKHLNQGVRTYVDPFTYEDPNQAVREFAKEIDASCIKIEKVIGVGEFGEVCSGRLKVPGKREICVAIKTLKAGYTDKQRRDFLSEASIMGQFDHPNIIHLEGVVTKCKPVMIITEYMENGSLDAFLRKNDGRFTVIQLVGMLRGIGSGMKYLSDMSYVHRDLAARNILVNSNLVCKVSDFGMSRVLEDDPEAAYTTRGGKIPIRWTAPEAIAYRKFTSASDVWSYGIVMWEVMSYGERPYWDMSNQDVIKAIEEGYRLPPPMDCPIALHQLMLDCWQKERSDRPKFGQIVNMLDKLIRNPNSLKRTGTESSRPNTALLDPSSPEFSAVVSVGDWLQAIKMDRYKDNFTAAGYTTLEAVVHVNQEDLARIGITAITHQNKILSSVQAMRTQMQQMHGRMVPV,Eph,EPH receptor A4,EPHA4,TK,1824,413,EphA4,KVIGVGEFGEVCSVAIKTLDFLSEASIMGQFDPNIIHLEGVMIITEYMENGSLDAFLRKYLSDMSYVHRDLAARNILVVSDFGMS,Human,,Protein tyrosine and serine/threonine kinase,621.0,878.0,986.0,PF07714,True
+P54756,EPHA5,EphA5,EphA5,Ephrin type-A receptor 5,TK,Eph,nan,EPHA5,MRGSGPRGAGRRRPPSGGGDTPITPASLAGCYSAPRRAPLWTCLLLCAALRTLLASPSNEVNLLDSRTVMGDLGWIAFPKNGWEEIGEVDENYAPIHTYQVCKVMEQNQNNWLLTSWISNEGASRIFIELKFTLRDCNSLPGGLGTCKETFNMYYFESDDQNGRNIKENQYIKIDTIAADESFTELDLGDRVMKLNTEVRDVGPLSKKGFYLAFQDVGACIALVSVRVYYKKCPSVVRHLAVFPDTITGADSSQLLEVSGSCVNHSVTDEPPKMHCSAEGEWLVPIGKCMCKAGYEEKNGTCQVCRPGFFKASPHIQSCGKCPPHSYTHEEASTSCVCEKDYFRRESDPPTMACTRPPSAPRNAISNVNETSVFLEWIPPADTGGRKDVSYYIACKKCNSHAGVCEECGGHVRYLPRQSGLKNTSVMMVDLLAHTNYTFEIEAVNGVSDLSPGARQYVSVNVTTNQAAPSPVTNVKKGKIAKNSISLSWQEPDRPNGIILEYEIKYFEKDQETSYTIIKSKETTITAEGLKPASVYVFQIRARTAAGYGVFSRRFEFETTPVFAASSDQSQIPVIAVSVTVGVILLAVVIGVLLSGSCCECGCGRASSLCAVAHPSLIWRCGYSKAKQDPEEEKMHFHNGHIKLPGVRTYIDPHTYEDPNQAVHEFAKEIEASCITIERVIGAGEFGEVCSGRLKLPGKRELPVAIKTLKVGYTEKQRRDFLGEASIMGQFDHPNIIHLEGVVTKSKPVMIVTEYMENGSLDTFLKKNDGQFTVIQLVGMLRGISAGMKYLSDMGYVHRDLAARNILINSNLVCKVSDFGLSRVLEDDPEAAYTTRGGKIPIRWTAPEAIAFRKFTSASDVWSYGIVMWEVVSYGERPYWEMTNQDVIKAVEEGYRLPSPMDCPAALYQLMLDCWQKERNSRPKFDEIVNMLDKLIRNPSSLKTLVNASCRVSNLLAEHSPLGSGAYRSVGEWLEAIKMGRYTEIFMENGYSSMDAVAQVTLEDLRRLGVTLVGHQKKIMNSLQEMKVQLVNGMVPL,Eph,EPH receptor A5,EPHA5,TK,1825,414,EphA5,RVIGAGEFGEVCSVAIKTLDFLGEASIMGQFDPNIIHLEGVMIVTEYMENGSLDTFLKKYLSDMGYVHRDLAARNILIVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,675.0,932.0,1037.0,PF07714,True
+P29322,EPHA8,EphA8,EphA8,Ephrin type-A receptor 8,TK,Eph,nan,EPHA8,MAPARGRLPPALWVVTAAAAAATCVSAARGEVNLLDTSTIHGDWGWLTYPAHGWDSINEVDESFQPIHTYQVCNVMSPNQNNWLRTSWVPRDGARRVYAEIKFTLRDCNSMPGVLGTCKETFNLYYLESDRDLGASTQESQFLKIDTIAADESFTGADLGVRRLKLNTEVRSVGPLSKRGFYLAFQDIGACLAILSLRIYYKKCPAMVRNLAAFSEAVTGADSSSLVEVRGQCVRHSEERDTPKMYCSAEGEWLVPIGKCVCSAGYEERRDACVACELGFYKSAPGDQLCARCPPHSHSAAPAAQACHCDLSYYRAALDPPSSACTRPPSAPVNLISSVNGTSVTLEWAPPLDPGGRSDITYNAVCRRCPWALSRCEACGSGTRFVPQQTSLVQASLLVANLLAHMNYSFWIEAVNGVSDLSPEPRRAAVVNITTNQAAPSQVVVIRQERAGQTSVSLLWQEPEQPNGIILEYEIKYYEKDKEMQSYSTLKAVTTRATVSGLKPGTRYVFQVRARTSAGCGRFSQAMEVETGKPRPRYDTRTIVWICLTLITGLVVLLLLLICKKRHCGYSKAFQDSDEEKMHYQNGQAPPPVFLPLHHPPGKLPEPQFYAEPHTYEEPGRAGRSFTREIEASRIHIEKIIGSGDSGEVCYGRLRVPGQRDVPVAIKALKAGYTERQRRDFLSEASIMGQFDHPNIIRLEGVVTRGRLAMIVTEYMENGSLDTFLRTHDGQFTIMQLVGMLRGVGAGMRYLSDLGYVHRDLAARNVLVDSNLVCKVSDFGLSRVLEDDPDAAYTTTGGKIPIRWTAPEAIAFRTFSSASDVWSFGVVMWEVLAYGERPYWNMTNRDVISSVEEGYRLPAPMGCPHALHQLMLDCWHKDRAQRPRFSQIVSVLDALIRSPESLRATATVSRCPPPAFVRSCFDLRGGSGGGGGLTVGDWLDSIRMGRYRDHFAAGGYSSLGMVLRMNAQDVRALGITLMGHQKKILGSIQTMRAQLTSTQGPRRHL,Eph,EPH receptor A8,EPHA8,TK,1828,416,EphA8,KIIGSGDSGEVCYVAIKALDFLSEASIMGQFDPNIIRLEGVMIVTEYMENGSLDTFLRTYLSDLGYVHRDLAARNVLVVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,635.0,892.0,1005.0,PF07714,True
+P54762,EPHB1,EphB1,EphB1,Ephrin type-B receptor 1,TK,Eph,nan,EPHB1,MALDYLLLLLLASAVAAMEETLMDTRTATAELGWTANPASGWEEVSGYDENLNTIRTYQVCNVFEPNQNNWLLTTFINRRGAHRIYTEMRFTVRDCSSLPNVPGSCKETFNLYYYETDSVIATKKSAFWSEAPYLKVDTIAADESFSQVDFGGRLMKVNTEVRSFGPLTRNGFYLAFQDYGACMSLLSVRVFFKKCPSIVQNFAVFPETMTGAESTSLVIARGTCIPNAEEVDVPIKLYCNGDGEWMVPIGRCTCKPGYEPENSVACKACPAGTFKASQEAEGCSHCPSNSRSPAEASPICTCRTGYYRADFDPPEVACTSVPSGPRNVISIVNETSIILEWHPPRETGGRDDVTYNIICKKCRADRRSCSRCDDNVEFVPRQLGLTECRVSISSLWAHTPYTFDIQAINGVSSKSPFPPQHVSVNITTNQAAPSTVPIMHQVSATMRSITLSWPQPEQPNGIILDYEIRYYEKEHNEFNSSMARSQTNTARIDGLRPGMVYVVQVRARTVAGYGKFSGKMCFQTLTDDDYKSELREQLPLIAGSAAAGVVFVVSLVAISIVCSRKRAYSKEAVYSDKLQHYSTGRGSPGMKIYIDPFTYEDPNEAVREFAKEIDVSFVKIEEVIGAGEFGEVYKGRLKLPGKREIYVAIKTLKAGYSEKQRRDFLSEASIMGQFDHPNIIRLEGVVTKSRPVMIITEFMENGALDSFLRQNDGQFTVIQLVGMLRGIAAGMKYLAEMNYVHRDLAARNILVNSNLVCKVSDFGLSRYLQDDTSDPTYTSSLGGKIPVRWTAPEAIAYRKFTSASDVWSYGIVMWEVMSFGERPYWDMSNQDVINAIEQDYRLPPPMDCPAALHQLMLDCWQKDRNSRPRFAEIVNTLDKMIRNPASLKTVATITAVPSQPLLDRSIPDFTAFTTVDDWLSAIKMVQYRDSFLTAGFTSLQLVTQMTSEDLLRIGITLAGHQKKILNSIHSMRVQISQSPTAMA,Eph,EPH receptor B1,EPHB1,TK,1830,417,EphB1,EVIGAGEFGEVYKVAIKTLDFLSEASIMGQFDPNIIRLEGVMIITEFMENGALDSFLRQYLAEMNYVHRDLAARNILVVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,619.0,878.0,984.0,PF07714,True
+P29323,EPHB2,EphB2,EphB2,Ephrin type-B receptor 2,TK,Eph,nan,EPHB2,MALRRLGAALLLLPLLAAVEETLMDSTTATAELGWMVHPPSGWEEVSGYDENMNTIRTYQVCNVFESSQNNWLRTKFIRRRGAHRIHVEMKFSVRDCSSIPSVPGSCKETFNLYYYEADFDSATKTFPNWMENPWVKVDTIAADESFSQVDLGGRVMKINTEVRSFGPVSRSGFYLAFQDYGGCMSLIAVRVFYRKCPRIIQNGAIFQETLSGAESTSLVAARGSCIANAEEVDVPIKLYCNGDGEWLVPIGRCMCKAGFEAVENGTVCRGCPSGTFKANQGDEACTHCPINSRTTSEGATNCVCRNGYYRADLDPLDMPCTTIPSAPQAVISSVNETSLMLEWTPPRDSGGREDLVYNIICKSCGSGRGACTRCGDNVQYAPRQLGLTEPRIYISDLLAHTQYTFEIQAVNGVTDQSPFSPQFASVNITTNQAAPSAVSIMHQVSRTVDSITLSWSQPDQPNGVILDYELQYYEKELSEYNATAIKSPTNTVTVQGLKAGAIYVFQVRARTVAGYGRYSGKMYFQTMTEAEYQTSIQEKLPLIIGSSAAGLVFLIAVVVIAIVCNRRGFERADSEYTDKLQHYTSGHMTPGMKIYIDPFTYEDPNEAVREFAKEIDISCVKIEQVIGAGEFGEVCSGHLKLPGKREIFVAIKTLKSGYTEKQRRDFLSEASIMGQFDHPNVIHLEGVVTKSTPVMIITEFMENGSLDSFLRQNDGQFTVIQLVGMLRGIAAGMKYLADMNYVHRDLAARNILVNSNLVCKVSDFGLSRFLEDDTSDPTYTSALGGKIPIRWTAPEAIQYRKFTSASDVWSYGIVMWEVMSYGERPYWDMTNQDVINAIEQDYRLPPPMDCPSALHQLMLDCWQKDRNHRPKFGQIVNTLDKMIRNPNSLKAMAPLSSGINLPLLDRTIPDYTSFNTVDEWLEAIKMGQYKESFANAGFTSFDVVSQMMMEDILRVGVTLAGHQKKILNSIQVMRAQMNQIQSVEGQPLARRPRATGRTKRCQPRDVTKKTCNSNDGKKKGMGKKKTDPGRGREIQGIFFKEDSHKESNDCSCGG,Eph,EPH receptor B2,EPHB2,TK,1831,418,EphB2,QVIGAGEFGEVCSVAIKTLDFLSEASIMGQFDPNVIHLEGVMIITEFMENGSLDSFLRQYLADMNYVHRDLAARNILVVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,621.0,880.0,1055.0,PF07714,True
+P54753,EPHB3,EphB3,EphB3,Ephrin type-B receptor 3,TK,Eph,nan,EPHB3,MARARPPPPPSPPPGLLPLLPPLLLLPLLLLPAGCRALEETLMDTKWVTSELAWTSHPESGWEEVSGYDEAMNPIRTYQVCNVRESSQNNWLRTGFIWRRDVQRVYVELKFTVRDCNSIPNIPGSCKETFNLFYYEADSDVASASSPFWMENPYVKVDTIAPDESFSRLDAGRVNTKVRSFGPLSKAGFYLAFQDQGACMSLISVRAFYKKCASTTAGFALFPETLTGAEPTSLVIAPGTCIPNAVEVSVPLKLYCNGDGEWMVPVGACTCATGHEPAAKESQCRPCPPGSYKAKQGEGPCLPCPPNSRTTSPAASICTCHNNFYRADSDSADSACTTVPSPPRGVISNVNETSLILEWSEPRDLGGRDDLLYNVICKKCHGAGGASACSRCDDNVEFVPRQLGLTERRVHISHLLAHTRYTFEVQAVNGVSGKSPLPPRYAAVNITTNQAAPSEVPTLRLHSSSGSSLTLSWAPPERPNGVILDYEMKYFEKSEGIASTVTSQMNSVQLDGLRPDARYVVQVRARTVAGYGQYSRPAEFETTSERGSGAQQLQEQLPLIVGSATAGLVFVVAVVVIAIVCLRKQRHGSDSEYTEKLQQYIAPGMKVYIDPFTYEDPNEAVREFAKEIDVSCVKIEEVIGAGEFGEVCRGRLKQPGRREVFVAIKTLKVGYTERQRRDFLSEASIMGQFDHPNIIRLEGVVTKSRPVMILTEFMENCALDSFLRLNDGQFTVIQLVGMLRGIAAGMKYLSEMNYVHRDLAARNILVNSNLVCKVSDFGLSRFLEDDPSDPTYTSSLGGKIPIRWTAPEAIAYRKFTSASDVWSYGIVMWEVMSYGERPYWDMSNQDVINAVEQDYRLPPPMDCPTALHQLMLDCWVRDRNLRPKFSQIVNTLDKLIRNAASLKVIASAQSGMSQPLLDRTVPDYTTFTTVGDWLDAIKMGRYKESFVSAGFASFDLVAQMTAEDLLRIGVTLAGHQKKILSSIQDMRLQMNQTLPVQV,Eph,EPH receptor B3,EPHB3,TK,1832,419,EphB3,EVIGAGEFGEVCRVAIKTLDFLSEASIMGQFDPNIIRLEGVMILTEFMENCALDSFLRLYLSEMNYVHRDLAARNILVVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,633.0,892.0,998.0,PF07714,True
+P54760,EPHB4,EphB4,EphB4,Ephrin type-B receptor 4,TK,Eph,nan,EPHB4,MELRVLLCWASLAAALEETLLNTKLETADLKWVTFPQVDGQWEELSGLDEEQHSVRTYEVCDVQRAPGQAHWLRTGWVPRRGAVHVYATLRFTMLECLSLPRAGRSCKETFTVFYYESDADTATALTPAWMENPYIKVDTVAAEHLTRKRPGAEATGKVNVKTLRLGPLSKAGFYLAFQDQGACMALLSLHLFYKKCAQLTVNLTRFPETVPRELVVPVAGSCVVDAVPAPGPSPSLYCREDGQWAEQPVTGCSCAPGFEAAEGNTKCRACAQGTFKPLSGEGSCQPCPANSHSNTIGSAVCQCRVGYFRARTDPRGAPCTTPPSAPRSVVSRLNGSSLHLEWSAPLESGGREDLTYALRCRECRPGGSCAPCGGDLTFDPGPRDLVEPWVVVRGLRPDFTYTFEVTALNGVSSLATGPVPFEPVNVTTDREVPPAVSDIRVTRSSPSSLSLAWAVPRAPSGAVLDYEVKYHEKGAEGPSSVRFLKTSENRAELRGLKRGASYLVQVRARSEAGYGPFGQEHHSQTQLDESEGWREQLALIAGTAVVGVVLVLVVIVVAVLCLRKQSNGREAEYSDKHGQYLIGHGTKVYIDPFTYEDPNEAVREFAKEIDVSYVKIEEVIGAGEFGEVCRGRLKAPGKKESCVAIKTLKGGYTERQRREFLSEASIMGQFEHPNIIRLEGVVTNSMPVMILTEFMENGALDSFLRLNDGQFTVIQLVGMLRGIASGMRYLAEMSYVHRDLAARNILVNSNLVCKVSDFGLSRFLEENSSDPTYTSSLGGKIPIRWTAPEAIAFRKFTSASDAWSYGIVMWEVMSFGERPYWDMSNQDVINAIEQDYRLPPPPDCPTSLHQLMLDCWQKDRNARPRFPQVVSALDKMIRNPASLKIVARENGGASHPLLDQRQPHYSAFGSVGEWLRAIKMGRYEESFAAAGFGSFELVSQISAEDLLRIGVTLAGHQKKILASVQHMKSQAKPGTPGGTGGPAPQY,Eph,EPH receptor B4,EPHB4,TK,1833,420,EphB4,EVIGAGEFGEVCRVAIKTLEFLSEASIMGQFEPNIIRLEGVMILTEFMENGALDSFLRLYLAEMSYVHRDLAARNILVVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,615.0,874.0,987.0,PF07714,True
+O15197,EPHB6,EphB6,EphB6,Ephrin type-B receptor 6,TK,Eph,nan,EPHB6,MATEGAAQLGNRVAGMVCSLWVLLLVSSVLALEEVLLDTTGETSEIGWLTYPPGGWDEVSVLDDQRRLTRTFEACHVAGAPPGTGQDNWLQTHFVERRGAQRAHIRLHFSVRACSSLGVSGGTCRETFTLYYRQAEEPDSPDSVSSWHLKRWTKVDTIAADESFPSSSSSSSSSSSAAWAVGPHGAGQRAGLQLNVKERSFGPLTQRGFYVAFQDTGACLALVAVRLFSYTCPAVLRSFASFPETQASGAGGASLVAAVGTCVAHAEPEEDGVGGQAGGSPPRLHCNGEGKWMVAVGGCRCQPGYQPARGDKACQACPRGLYKSSAGNAPCSPCPARSHAPNPAAPVCPCLEGFYRASSDPPEAPCTGPPSAPQELWFEVQGSALMLHWRLPRELGGRGDLLFNVVCKECEGRQEPASGGGGTCHRCRDEVHFDPRQRGLTESRVLVGGLRAHVPYILEVQAVNGVSELSPDPPQAAAINVSTSHEVPSAVPVVHQVSRASNSITVSWPQPDQTNGNILDYQLRYYDQAEDESHSFTLTSETNTATVTQLSPGHIYGFQVRARTAAGHGPYGGKVYFQTLPQGELSSQLPERLSLVIGSILGALAFLLLAAITVLAVVFQRKRRGTGYTEQLQQYSSPGLGVKYYIDPSTYEDPCQAIRELAREVDPAYIKIEEVIGTGSFGEVRQGRLQPRGRREQTVAIQALWAGGAESLQMTFLGRAAVLGQFQHPNILRLEGVVTKSRPLMVLTEFMELGPLDSFLRQREGQFSSLQLVAMQRGVAAAMQYLSSFAFVHRSLSAHSVLVNSHLVCKVARLGHSPQGPSCLLRWAAPEVIAHGKHTTSSDVWSFGILMWEVMSYGERPYWDMSEQEVLNAIEQEFRLPPPPGCPPGLHLLMLDTWQKDRARRPHFDQLVAAFDKMIRKPDTLQAGGDPGERPSQALLTPVALDFPCLDSPQAWLSAIGLECYQDNFSKFGLCTFSDVAQLSLEDLPALGITLAGHQKKLLHHIQLLQQHLRQQGSVEV,Eph,EPH receptor B6,EPHB6,TK,1834,421,EphB6,EVIGTGSFGEVRQVAIQALTFLGRAAVLGQFQPNILRLEGVMVLTEFMELGPLDSFLRQYLSSFAFVHRSLSAHSVLVVARLGHS,Human,,Protein tyrosine and serine/threonine kinase,670.0,914.0,1021.0,PF07714,True
+P27361,MAPK3,Erk1,Erk1,Mitogen-activated protein kinase 3,CMGC,MAPK,ERK1,MAPK3,MAAAAAQGGGGGEPRRTEGVGPGVPGEVEMVKGQPFDVGPRYTQLQYIGEGAYGMVSSAYDHVRKTRVAIKKISPFEHQTYCQRTLREIQILLRFRHENVIGIRDILRASTLEAMRDVYIVQDLMETDLYKLLKSQQLSNDHICYFLYQILRGLKYIHSANVLHRDLKPSNLLINTTCDLKICDFGLARIADPEHDHTGFLTEYVATRWYRAPEIMLNSKGYTKSIDIWSVGCILAEMLSNRPIFPGKHYLDQLNHILGILGSPSQEDLNCIINMKARNYLQSLPSKTKVAWAKLFPKSDSKALDLLDRMLTFNPNKRITVEEALAHPYLEQYYDPTDEPVAEEPFTFAMELDDLPKERLKELIFQETARFQPGVLEAP,MAPK,mitogen-activated protein kinase 3,MAPK3,CMGC,1494,240,Erk1,QYIGEGAYGMVSSVAIKKIRTLREIQILLRFRENVIGIRDIYIVQDLME-TDLYKLLKSYIHSANVLHRDLKPSNLLIICDFGLA,Human,ERK1,Protein kinase domain,42.0,330.0,379.0,PF00069,True
+P28482,MAPK1,Erk2,Erk2,Mitogen-activated protein kinase 1,CMGC,MAPK,ERK1,MAPK1,MAAAAAAGAGPEMVRGQVFDVGPRYTNLSYIGEGAYGMVCSAYDNVNKVRVAIKKISPFEHQTYCQRTLREIKILLRFRHENIIGINDIIRAPTIEQMKDVYIVQDLMETDLYKLLKTQHLSNDHICYFLYQILRGLKYIHSANVLHRDLKPSNLLLNTTCDLKICDFGLARVADPDHDHTGFLTEYVATRWYRAPEIMLNSKGYTKSIDIWSVGCILAEMLSNRPIFPGKHYLDQLNHILGILGSPSQEDLNCIINLKARNYLLSLPHKNKVPWNRLFPNADSKALDLLDKMLTFNPHKRIEVEQALAHPYLEQYYDPSDEPIAEAPFKFDMELDDLPKEKLKELIFEETARFQPGYRS,MAPK,mitogen-activated protein kinase 1,MAPK1,CMGC,1495,239,Erk2,SYIGEGAYGMVCSVAIKKIRTLREIKILLRFRENIIGINDIYIVQDLME-TDLYKLLKTYIHSANVLHRDLKPSNLLLICDFGLA,Human,ERK1,Protein kinase domain,25.0,313.0,360.0,PF00069,True
+Q16659,MAPK6,Erk3,Erk3,Mitogen-activated protein kinase 6,CMGC,MAPK,ERK3,MAPK6,MAEKFESLMNIHGFDLGSRYMDLKPLGCGGNGLVFSAVDNDCDKRVAIKKIVLTDPQSVKHALREIKIIRRLDHDNIVKVFEILGPSGSQLTDDVGSLTELNSVYIVQEYMETDLANVLEQGPLLEEHARLFMYQLLRGLKYIHSANVLHRDLKPANLFINTEDLVLKIGDFGLARIMDPHYSHKGHLSEGLVTKWYRSPRLLLSPNNYTKAIDMWAAGCIFAEMLTGKTLFAGAHELEQMQLILESIPVVHEEDRQELLSVIPVYIRNDMTEPHKPLTQLLPGISREALDFLEQILTFSPMDRLTAEEALSHPYMSIYSFPMDEPISSHPFHIEDEVDDILLMDETHSHIYNWERYHDCQFSEHDWPVHNNFDIDEVQLDPRALSDVTDEEEVQVDPRKYLDGDREKYLEDPAFDTNYSTEPCWQYSDHHENKYCDLECSHTCNYKTRSSSYLDNLVWRESEVNHYYEPKLIIDLSNWKEQSKEKSDKKGKSKCERNGLVKAQIALEEASQQLAGKEREKNQGFDFDSFIAGTIQLSSQHEPTDVVDKLNDLNSSVSQLELKSLISKSVSQEKQEKGMANLAQLEALYQSSWDSQFVSGGEDCFFINQFCEVRKDEQVEKENTYTSYLDKFFSRKEDTEMLETEPVEDGKLGERGHEEGFLNNSGEFLFNKQLESIGIPQFHSPVGSPLKSIQATLTPSAMKSSPQIPHQTYSSILKHLN,MAPK,mitogen-activated protein kinase 6,MAPK6,CMGC,2092,242,Erk3,KPLGCGGNGLVFSVAIKKIHALREIKIIRRLDDNIVKVFEIYIVQEYME-TDLANVLEQYIHSANVLHRDLKPANLFIIGDFGLA,Human,ERK3,Protein kinase domain,20.0,316.0,721.0,PF00069,True
+P31152,MAPK4,Erk4,Erk4,Mitogen-activated protein kinase 4,CMGC,MAPK,ERK3,MAPK4,MAEKGDCIASVYGYDLGGRFVDFQPLGFGVNGLVLSAVDSRACRKVAVKKIALSDARSMKHALREIKIIRRLDHDNIVKVYEVLGPKGTDLQGELFKFSVAYIVQEYMETDLARLLEQGTLAEEHAKLFMYQLLRGLKYIHSANVLHRDLKPANIFISTEDLVLKIGDFGLARIVDQHYSHKGYLSEGLVTKWYRSPRLLLSPNNYTKAIDMWAAGCILAEMLTGRMLFAGAHELEQMQLILETIPVIREEDKDELLRVMPSFVSSTWEVKRPLRKLLPEVNSEAIDFLEKILTFNPMDRLTAEMGLQHPYMSPYSCPEDEPTSQHPFRIEDEIDDIVLMAANQSQLSNWDTCSSRYPVSLSSDLEWRPDRCQDASEVQRDPRAGSAPLAEDVQVDPRKDSHSSSERFLEQSHSSMERAFEADYGRSCDYKVGSPSYLDKLLWRDNKPHHYSEPKLILDLSHWKQAAGAPPTATGLADTGAREDEPASLFLEIAQWVKSTQGGPEHASPPADDPERRLSASPPGRPAPVDGGASPQFDLDVFISRALKLCTKPEDLPDNKLGDLNGACIPEHPGDLVQTEAFSKERW,MAPK,mitogen-activated protein kinase 4,MAPK4,CMGC,2091,241,Erk4,QPLGFGVNGLVLSVAVKKIHALREIKIIRRLDDNIVKVYEVYIVQEYME-TDLARLLEQYIHSANVLHRDLKPANIFIIGDFGLA,Human,ERK3,Protein kinase domain,23.0,312.0,587.0,PF00069,True
+Q05397,PTK2,FAK,FAK,Focal adhesion kinase 1,TK,FAK,nan,PTK2,MAAAYLDPNLNHTPNSSTKTHLGTGMERSPGAMERVLKVFHYFESNSEPTTWASIIRHGDATDVRGIIQKIVDSHKVKHVACYGFRLSHLRSEEVHWLHVDMGVSSVREKYELAHPPEEWKYELRIRYLPKGFLNQFTEDKPTLNFFYQQVKSDYMLEIADQVDQEIALKLGCLEIRRSYWEMRGNALEKKSNYEVLEKDVGLKRFFPKSLLDSVKAKTLRKLIQQTFRQFANLNREESILKFFEILSPVYRFDKECFKCALGSSWIISVELAIGPEEGISYLTDKGCNPTHLADFTQVQTIQYSNSEDKDRKGMLQLKIAGAPEPLTVTAPSLTIAENMADLIDGYCRLVNGTSQSFIIRPQKEGERALPSIPKLANSEKQGMRTHAVSVSETDDYAEIIDEEDTYTMPSTRDYEIQRERIELGRCIGEGQFGDVHQGIYMSPENPALAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKYSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDSTYYKASKGKLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKAQQEERMRMESRRQATVSWDSGGSDEAPPKPSRPGYPSPRSSEGFYPSPQHMVQTNHYQVSGYPGSHGITAMAGSIYPGQASLLDQTDSWNHRPQEIAMWQPNVEDSTVLDLRGIGQVLPTHLMEERLIRQQQEMEEDQRWLEKEERFLKPDVRLSRGSIDREDGSLQGPIGNQHIYQPVGKPDPAAPPKKPPRPGAPGHLGSLASLSSPADSYNEGVKLQPQEISPPPTANLDRSNDKVYENVTGLVKAVIEMSSKIQPAPPEEYVPMVKEVGLALRTLLATVDETIPLLPASTHREIEMAQKLLNSDLGELINKMKLAQQYVMTSLQQEYKKQMLTAAHALAVDAKNLLDVIDQARLKMLGQTRPH,FAK,protein tyrosine kinase 2,PTK2,TK,2180,425,FAK,RCIGEGQFGDVHQVAIKTCKFLQEALTMRQFDPHIVKLIGVWIIMELCTLGELRSFLQVYLESKRFVHRDIAARNVLVLGDFGLS,Human,,Protein tyrosine and serine/threonine kinase,422.0,676.0,1052.0,PF07714,True
+P16591,FER,FER,FER,Tyrosine-protein kinase Fer,TK,Fer,nan,FER,MGFGSDLKNSHEAVLKLQDWELRLLETVKKFMALRIKSDKEYASTLQNLCNQVDKESTVQMNYVSNVSKSWLLMIQQTEQLSRIMKTHAEDLNSGPLHRLTMMIKDKQQVKKSYIGVHQQIEAEMIKVTKTELEKLKCSYRQLIKEMNSAKEKYKEALAKGKETEKAKERYDKATMKLHMLHNQYVLALKGAQLHQNQYYDITLPLLLDSLQKMQEEMIKALKGIFDEYSQITSLVTEEIVNVHKEIQMSVEQIDPSTEYNNFIDVHRTTAAKEQEIEFDTSLLEENENLQANEIMWNNLTAESLQVMLKTLAEELMQTQQMLLNKEEAVLELEKRIEESSETCEKKSDIVLLLSQKQALEELKQSVQQLRCTEAKFSAQKELLEQKVQENDGKEPPPVVNYEEDARSVTSMERKERLSKFESIRHSIAGIIRSPKSALGSSALSDMISISEKPLAEQDWYHGAIPRIEAQELLKKQGDFLVRESHGKPGEYVLSVYSDGQRRHFIIQYVDNMYRFEGTGFSNIPQLIDHHYTTKQVITKKSGVVLLNPIPKDKKWILSHEDVILGELLGKGNFGEVYKGTLKDKTSVAVKTCKEDLPQELKIKFLQEAKILKQYDHPNIVKLIGVCTQRQPVYIIMELVSGGDFLTFLRRKKDELKLKQLVKFSLDAAAGMLYLESKNCIHRDLAARNCLVGENNVLKISDFGMSRQEDGGVYSSSGLKQIPIKWTAPEALNYGRYSSESDVWSFGILLWETFSLGVCPYPGMTNQQAREQVERGYRMSAPQHCPEDISKIMMKCWDYKPENRPKFSELQKELTIIKRKLT,Fer,FER tyrosine kinase,FER,TK,2022,426,FER,ELLGKGNFGEVYKVAVKTCKFLQEAKILKQYDPNIVKLIGVYIIMELVSGGDFLTFLRRYLESKNCIHRDLAARNCLVISDFGMS,Human,,Protein tyrosine and serine/threonine kinase,565.0,814.0,822.0,PF07714,True
+P07332,FES,FES,FES,Tyrosine-protein kinase Fes/Fps,TK,Fer,nan,FES,MGFSSELCSPQGHGVLQQMQEAELRLLEGMRKWMAQRVKSDREYAGLLHHMSLQDSGGQSRAISPDSPISQSWAEITSQTEGLSRLLRQHAEDLNSGPLSKLSLLIRERQQLRKTYSEQWQQLQQELTKTHSQDIEKLKSQYRALARDSAQAKRKYQEASKDKDRDKAKDKYVRSLWKLFAHHNRYVLGVRAAQLHHQHHHQLLLPGLLRSLQDLHEEMACILKEILQEYLEISSLVQDEVVAIHREMAAAAARIQPEAEYQGFLRQYGSAPDVPPCVTFDESLLEEGEPLEPGELQLNELTVESVQHTLTSVTDELAVATEMVFRRQEMVTQLQQELRNEEENTHPRERVQLLGKRQVLQEALQGLQVALCSQAKLQAQQELLQTKLEHLGPGEPPPVLLLQDDRHSTSSSEQEREGGRTPTLEILKSHISGIFRPKFSLPPPLQLIPEVQKPLHEQLWYHGAIPRAEVAELLVHSGDFLVRESQGKQEYVLSVLWDGLPRHFIIQSLDNLYRLEGEGFPSIPLLIDHLLSTQQPLTKKSGVVLHRAVPKDKWVLNHEDLVLGEQIGRGNFGEVFSGRLRADNTLVAVKSCRETLPPDLKAKFLQEARILKQYSHPNIVRLIGVCTQKQPIYIVMELVQGGDFLTFLRTEGARLRVKTLLQMVGDAAAGMEYLESKCCIHRDLAARNCLVTEKNVLKISDFGMSREEADGVYAASGGLRQVPVKWTAPEALNYGRYSSESDVWSFGILLWETFSLGASPYPNLSNQQTREFVEKGGRLPCPELCPDAVFRLMEQCWAYEPGQRPSFSTIYQELQSIRKRHR,Fer,"FES proto-oncogene, tyrosine kinase",FES,TK,2023,427,FES,EQIGRGNFGEVFSVAVKSCKFLQEARILKQYSPNIVRLIGVYIVMELVQGGDFLTFLRTYLESKCCIHRDLAARNCLVISDFGMS,Human,,Protein tyrosine and serine/threonine kinase,562.0,814.0,822.0,PF07714,True
+P11362,FGFR1,FGFR1,FGFR1,Fibroblast growth factor receptor 1,TK,FGFR,nan,FGFR1,MWSWKCLLFWAVLVTATLCTARPSPTLPEQAQPWGAPVEVESFLVHPGDLLQLRCRLRDDVQSINWLRDGVQLAESNRTRITGEEVEVQDSVPADSGLYACVTSSPSGSDTTYFSVNVSDALPSSEDDDDDDDSSSEEKETDNTKPNRMPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPNPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHIEVNGSKIGPDNLPYVQILKTAGVNTTDKEMEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVLEALEERPAVMTSPLYLEIIIYCTGAFLISCMVGSVIVYKMKSGTKKSDFHSQMAVHKLAKSIPLRRQVTVSADSSASMNSGVLLVRPSRLSSSGTPMLAGVSEYELPEDPRWELPRDRLVLGKPLGEGCFGQVVLAEAIGLDKDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQARRPPGLEYCYNPSHNPEEQLSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFGLARDIHHIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTSNQEYLDLSMPLDQYSPSFPDTRSSTCSSGEDSVFSHEPLPEEPCLPRHPAQLANGGLKRR,FGFR,fibroblast growth factor receptor 1,FGFR1,TK,1808,428,FGFR1,KPLGEGCFGQVVLVAVKMLDLISEMEMMKMIGKNIINLLGAYVIVEYASKGNLREYLQAYLASKKCIHRDLAARNVLVIADFGLA,Human,,Protein tyrosine and serine/threonine kinase,479.0,754.0,822.0,PF07714,True
+P21802,FGFR2,FGFR2,FGFR2,Fibroblast growth factor receptor 2,TK,FGFR,nan,FGFR2,MVSWGRFICLVVVTMATLSLARPSFSLVEDTTLEPEEPPTKYQISQPEVYVAAPGESLEVRCLLKDAAVISWTKDGVHLGPNNRTVLIGEYLQIKGATPRDSGLYACTASRTVDSETWYFMVNVTDAISSGDDEDDTDGAEDFVSENSNNKRAPYWTNTEKMEKRLHAVPAANTVKFRCPAGGNPMPTMRWLKNGKEFKQEHRIGGYKVRNQHWSLIMESVVPSDKGNYTCVVENEYGSINHTYHLDVVERSPHRPILQAGLPANASTVVGGDVEFVCKVYSDAQPHIQWIKHVEKNGSKYGPDGLPYLKVLKAAGVNTTDKEIEVLYIRNVTFEDAGEYTCLAGNSIGISFHSAWLTVLPAPGREKEITASPDYLEIAIYCIGVFLIACMVVTVILCRMKNTTKKPDFSSQPAVHKLTKRIPLRRQVTVSAESSSSMNSNTPLVRITTRLSSTADTPMLAGVSEYELPEDPKWEFPRDKLTLGKPLGEGCFGQVVMAEAVGIDKDKPKEAVTVAVKMLKDDATEKDLSDLVSEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLRARRPPGMEYSYDINRVPEEQMTFKDLVSCTYQLARGMEYLASQKCIHRDLAARNVLVTENNVMKIADFGLARDINNIDYYKKTTNGRLPVKWMAPEALFDRVYTHQSDVWSFGVLMWEIFTLGGSPYPGIPVEELFKLLKEGHRMDKPANCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRILTLTTNEEYLDLSQPLEQYSPSYPDTRSSCSSGDDSVFSPDPMPYEPCLPQYPHINGSVKT,FGFR,fibroblast growth factor receptor 2,FGFR2,TK,1809,430,FGFR2,KPLGEGCFGQVVMVAVKMLDLVSEMEMMKMIGKNIINLLGAYVIVEYASKGNLREYLRAYLASQKCIHRDLAARNVLVIADFGLA,Human,,Protein tyrosine and serine/threonine kinase,481.0,757.0,821.0,PF07714,True
+P22607,FGFR3,FGFR3,FGFR3,Fibroblast growth factor receptor 3,TK,FGFR,nan,FGFR3,MGAPACALALCVAVAIVAGASSESLGTEQRVVGRAAEVPGPEPGQQEQLVFGSGDAVELSCPPPGGGPMGPTVWVKDGTGLVPSERVLVGPQRLQVLNASHEDSGAYSCRQRLTQRVLCHFSVRVTDAPSSGDDEDGEDEAEDTGVDTGAPYWTRPERMDKKLLAVPAANTVRFRCPAAGNPTPSISWLKNGREFRGEHRIGGIKLRHQQWSLVMESVVPSDRGNYTCVVENKFGSIRQTYTLDVLERSPHRPILQAGLPANQTAVLGSDVEFHCKVYSDAQPHIQWLKHVEVNGSKVGPDGTPYVTVLKTAGANTTDKELEVLSLHNVTFEDAGEYTCLAGNSIGFSHHSAWLVVLPAEEELVEADEAGSVYAGILSYGVGFFLFILVVAAVTLCRLRSPPKKGLGSPTVHKISRFPLKRQVSLESNASMSSNTPLVRIARLSSGEGPTLANVSELELPADPKWELSRARLTLGKPLGEGCFGQVVMAEAIGIDKDRAAKPVTVAVKMLKDDATDKDLSDLVSEMEMMKMIGKHKNIINLLGACTQGGPLYVLVEYAAKGNLREFLRARRPPGLDYSFDTCKPPEEQLTFKDLVSCAYQVARGMEYLASQKCIHRDLAARNVLVTEDNVMKIADFGLARDVHNLDYYKKTTNGRLPVKWMAPEALFDRVYTHQSDVWSFGVLLWEIFTLGGSPYPGIPVEELFKLLKEGHRMDKPANCTHDLYMIMRECWHAAPSQRPTFKQLVEDLDRVLTVTSTDEYLDLSAPFEQYSPGGQDTPSSSSSGDDSVFAHDLLPPAPPSSGGSRT,FGFR,fibroblast growth factor receptor 3,FGFR3,TK,1810,429,FGFR3,KPLGEGCFGQVVMVAVKMLDLVSEMEMMKMIGKNIINLLGAYVLVEYAAKGNLREFLRAYLASQKCIHRDLAARNVLVIADFGLA,Human,,Protein tyrosine and serine/threonine kinase,472.0,748.0,806.0,PF07714,True
+P22455,FGFR4,FGFR4,FGFR4,Fibroblast growth factor receptor 4,TK,FGFR,nan,FGFR4,MRLLLALLGVLLSVPGPPVLSLEASEEVELEPCLAPSLEQQEQELTVALGQPVRLCCGRAERGGHWYKEGSRLAPAGRVRGWRGRLEIASFLPEDAGRYLCLARGSMIVLQNLTLITGDSLTSSNDDEDPKSHRDPSNRHSYPQQAPYWTHPQRMEKKLHAVPAGNTVKFRCPAAGNPTPTIRWLKDGQAFHGENRIGGIRLRHQHWSLVMESVVPSDRGTYTCLVENAVGSIRYNYLLDVLERSPHRPILQAGLPANTTAVVGSDVELLCKVYSDAQPHIQWLKHIVINGSSFGADGFPYVQVLKTADINSSEVEVLYLRNVSAEDAGEYTCLAGNSIGLSYQSAWLTVLPEEDPTWTAAAPEARYTDIILYASGSLALAVLLLLAGLYRGQALHGRHPRPPATVQKLSRFPLARQFSLESGSSGKSSSSLVRGVRLSSSGPALLAGLVSLDLPLDPLWEFPRDRLVLGKPLGEGCFGQVVRAEAFGMDPARPDQASTVAVKMLKDNASDKDLADLVSEMEVMKLIGRHKNIINLLGVCTQEGPLYVIVECAAKGNLREFLRARRPPGPDLSPDGPRSSEGPLSFPVLVSCAYQVARGMQYLESRKCIHRDLAARNVLVTEDNVMKIADFGLARGVHHIDYYKKTSNGRLPVKWMAPEALFDRVYTHQSDVWSFGILLWEIFTLGGSPYPGIPVEELFSLLREGHRMDRPPHCPPELYGLMRECWHAAPSQRPTFKQLVEALDKVLLAVSEEYLDLRLTFGPYSPSGGDASSTCSSSDSVFSHDPLPLGSSSFPFGSGVQT,FGFR,fibroblast growth factor receptor 4,FGFR4,TK,1811,431,FGFR4,KPLGEGCFGQVVRVAVKMLDLVSEMEVMKLIGKNIINLLGVYVIVECAAKGNLREFLRAYLESRKCIHRDLAARNVLVIADFGLA,Human,,Protein tyrosine and serine/threonine kinase,468.0,743.0,802.0,PF07714,True
+P09769,FGR,FGR,FGR,Tyrosine-protein kinase Fgr,TK,Src,nan,FGR,MGCVFCKKLEPVATAKEDAGLEGDFRSYGAADHYGPDPTKARPASSFAHIPNYSNFSSQAINPGFLDSGTIRGVSGIGVTLFIALYDYEARTEDDLTFTKGEKFHILNNTEGDWWEARSLSSGKTGCIPSNYVAPVDSIQAEEWYFGKIGRKDAERQLLSPGNPQGAFLIRESETTKGAYSLSIRDWDQTRGDHVKHYKIRKLDMGGYYITTRVQFNSVQELVQHYMEVNDGLCNLLIAPCTIMKPQTLGLAKDAWEISRSSITLERRLGTGCFGDVWLGTWNGSTKVAVKTLKPGTMSPKAFLEEAQVMKLLRHDKLVQLYAVVSEEPIYIVTEFMCHGSLLDFLKNPEGQDLRLPQLVDMAAQVAEGMAYMERMNYIHRDLRAANILVGERLACKIADFGLARLIKDDEYNPCQGSKFPIKWTAPEAALFGRFTIKSDVWSFGILLTELITKGRIPYPGMNKREVLEQVEQGYHMPCPPGCPASLYEAMEQTWRLDPEERPTFEYLQSFLEDYFTSAEPQYQPGDQT,Src,"FGR proto-oncogene, Src family tyrosine kinase",FGR,TK,2024,460,FGR,RRLGTGCFGDVWLVAVKTLAFLEEAQVMKLLRDKLVQLYAVYIVTEFMCHGSLLDFLKNYMERMNYIHRDLRAANILVIADFGLA,Human,SrcA,Protein tyrosine and serine/threonine kinase,263.0,512.0,529.0,PF07714,True
+P36888,FLT3,FLT3,FLT3,Receptor-type tyrosine-protein kinase FLT3,TK,PDGFR,nan,FLT3,MPALARDGGQLPLLVVFSAMIFGTITNQDLPVIKCVLINHKNNDSSVGKSSSYPMVSESPEDLGCALRPQSSGTVYEAAAVEVDVSASITLQVLVDAPGNISCLWVFKHSSLNCQPHFDLQNRGVVSMVILKMTETQAGEYLLFIQSEATNYTILFTVSIRNTLLYTLRRPYFRKMENQDALVCISESVPEPIVEWVLCDSQGESCKEESPAVVKKEEKVLHELFGTDIRCCARNELGRECTRLFTIDLNQTPQTTLPQLFLKVGEPLWIRCKAVHVNHGFGLTWELENKALEEGNYFEMSTYSTNRTMIRILFAFVSSVARNDTGYYTCSSSKHPSQSALVTIVEKGFINATNSSEDYEIDQYEEFCFSVRFKAYPQIRCTWTFSRKSFPCEQKGLDNGYSISKFCNHKHQPGEYIFHAENDDAQFTKMFTLNIRRKPQVLAEASASQASCFSDGYPLPSWTWKKCSDKSPNCTEEITEGVWNRKANRKVFGQWVSSSTLNMSEAIKGFLVKCCAYNSLGTSCETILLNSPGPFPFIQDNISFYATIGVCLLFIVVLTLLICHKYKKQFRYESQLQMVQVTGSSDNEYFYVDFREYEYDLKWEFPRENLEFGKVLGSGAFGKVMNATAYGISKTGVSIQVAVKMLKEKADSSEREALMSELKMMTQLGSHENIVNLLGACTLSGPIYLIFEYCCYGDLLNYLRSKREKFHRTWTEIFKEHNFSFYPTFQSHPNSSMPGSREVQIHPDSDQISGLHGNSFHSEDEIEYENQKRLEEEEDLNVLTFEDLLCFAYQVAKGMEFLEFKSCVHRDLAARNVLVTHGKVVKICDFGLARDIMSDSNYVVRGNARLPVKWMAPESLFEGIYTIKSDVWSYGILLWEIFSLGVNPYPGIPVDANFYKLIQNGFKMDQPFYATEEIYIIMQSCWAFDSRKRPSFPNLTSFLGCQLADAEEAMYQNVDGRVSECPHTYQNRRPFSREMDLGLLSPQAQVEDS,PDGFR,fms related tyrosine kinase 3,FLT3,TK,1807,450,FLT3,KVLGSGAFGKVMNVAVKMLALMSELKMMTQLGENIVNLLGAYLIFEYCCYGDLLNYLRSFLEFKSCVHRDLAARNVLVICDFGLA,Human,,Protein tyrosine and serine/threonine kinase,610.0,942.0,993.0,PF07714,True
+P17948,FLT1,FLT1,FLT1,Vascular endothelial growth factor receptor 1,TK,VEGFR,nan,FLT1,MVSYWDTGVLLCALLSCLLLTGSSSGSKLKDPELSLKGTQHIMQAGQTLHLQCRGEAAHKWSLPEMVSKESERLSITKSACGRNGKQFCSTLTLNTAQANHTGFYSCKYLAVPTSKKKETESAIYIFISDTGRPFVEMYSEIPEIIHMTEGRELVIPCRVTSPNITVTLKKFPLDTLIPDGKRIIWDSRKGFIISNATYKEIGLLTCEATVNGHLYKTNYLTHRQTNTIIDVQISTPRPVKLLRGHTLVLNCTATTPLNTRVQMTWSYPDEKNKRASVRRRIDQSNSHANIFYSVLTIDKMQNKDKGLYTCRVRSGPSFKSVNTSVHIYDKAFITVKHRKQQVLETVAGKRSYRLSMKVKAFPSPEVVWLKDGLPATEKSARYLTRGYSLIIKDVTEEDAGNYTILLSIKQSNVFKNLTATLIVNVKPQIYEKAVSSFPDPALYPLGSRQILTCTAYGIPQPTIKWFWHPCNHNHSEARCDFCSNNEESFILDADSNMGNRIESITQRMAIIEGKNKMASTLVVADSRISGIYICIASNKVGTVGRNISFYITDVPNGFHVNLEKMPTEGEDLKLSCTVNKFLYRDVTWILLRTVNNRTMHYSISKQKMAITKEHSITLNLTIMNVSLQDSGTYACRARNVYTGEEILQKKEITIRDQEAPYLLRNLSDHTVAISSSTTLDCHANGVPEPQITWFKNNHKIQQEPGIILGPGSSTLFIERVTEEDEGVYHCKATNQKGSVESSAYLTVQGTSDKSNLELITLTCTCVAATLFWLLLTLFIRKMKRSSSEIKTDYLSIIMDPDEVPLDEQCERLPYDASKWEFARERLKLGKSLGRGAFGKVVQASAFGIKKSPTCRTVAVKMLKEGATASEYKALMTELKILTHIGHHLNVVNLLGACTKQGGPLMVIVEYCKYGNLSNYLKSKRDLFFLNKDAALHMEPKKEKMEPGLEQGKKPRLDSVTSSESFASSGFQEDKSLSDVEEEEDSDGFYKEPITMEDLISYSFQVARGMEFLSSRKCIHRDLAARNILLSENNVVKICDFGLARDIYKNPDYVRKGDTRLPLKWMAPESIFDKIYSTKSDVWSYGVLLWEIFSLGGSPYPGVQMDEDFCSRLREGMRMRAPEYSTPEIYQIMLDCWHRDPKERPRFAELVEKLGDLLQANVQQDGKDYIPINAILTGNSGFTYSTPAFSEDFFKESISAPKFNSGSSDDVRYVNAFKFMSLERIKTFEELLPNATSMFDDYQGDSSTLLASPMLKRFTWTDSKPKASLKIDLRVTSKSKESGLSDVSRPSFCHSSCGHVSEGKRRFTYDHAELERKIACCSPPPDYNSVVLYSTPPI,VEGFR,fms related tyrosine kinase 1,FLT1,TK,1812,483,FLT1,KSLGRGAFGKVVQVAVKMLALMTELKILTHIGLNVVNLLGAMVIVEYCKYGNLSNYLKSFLSSRKCIHRDLAARNILLICDFGLA,Human,,Protein tyrosine and serine/threonine kinase,827.0,1154.0,1338.0,PF07714,True
+P35916,FLT4,FLT4,FLT4,Vascular endothelial growth factor receptor 3,TK,VEGFR,nan,FLT4,MQRGAALCLRLWLCLGLLDGLVSGYSMTPPTLNITEESHVIDTGDSLSISCRGQHPLEWAWPGAQEAPATGDKDSEDTGVVRDCEGTDARPYCKVLLLHEVHANDTGSYVCYYKYIKARIEGTTAASSYVFVRDFEQPFINKPDTLLVNRKDAMWVPCLVSIPGLNVTLRSQSSVLWPDGQEVVWDDRRGMLVSTPLLHDALYLQCETTWGDQDFLSNPFLVHITGNELYDIQLLPRKSLELLVGEKLVLNCTVWAEFNSGVTFDWDYPGKQAERGKWVPERRSQQTHTELSSILTIHNVSQHDLGSYVCKANNGIQRFRESTEVIVHENPFISVEWLKGPILEATAGDELVKLPVKLAAYPPPEFQWYKDGKALSGRHSPHALVLKEVTEASTGTYTLALWNSAAGLRRNISLELVVNVPPQIHEKEASSPSIYSRHSRQALTCTAYGVPLPLSIQWHWRPWTPCKMFAQRSLRRRQQQDLMPQCRDWRAVTTQDAVNPIESLDTWTEFVEGKNKTVSKLVIQNANVSAMYKCVVSNKVGQDERLIYFYVTTIPDGFTIESKPSEELLEGQPVLLSCQADSYKYEHLRWYRLNLSTLHDAHGNPLLLDCKNVHLFATPLAASLEEVAPGARHATLSLSIPRVAPEHEGHYVCEVQDRRSHDKHCHKKYLSVQALEAPRLTQNLTDLLVNVSDSLEMQCLVAGAHAPSIVWYKDERLLEEKSGVDLADSNQKLSIQRVREEDAGRYLCSVCNAKGCVNSSASVAVEGSEDKGSMEIVILVGTGVIAVFFWVLLLLIFCNMRRPAHADIKTGYLSIIMDPGEVPLEEQCEYLSYDASQWEFPRERLHLGRVLGYGAFGKVVEASAFGIHKGSSCDTVAVKMLKEGATASEHRALMSELKILIHIGNHLNVVNLLGACTKPQGPLMVIVEFCKYGNLSNFLRAKRDAFSPCAEKSPEQRGRFRAMVELARLDRRRPGSSDRVLFARFSKTEGGARRASPDQEAEDLWLSPLTMEDLVCYSFQVARGMEFLASRKCIHRDLAARNILLSESDVVKICDFGLARDIYKDPDYVRKGSARLPLKWMAPESIFDKVYTTQSDVWSFGVLLWEIFSLGASPYPGVQINEEFCQRLRDGTRMRAPELATPAIRRIMLNCWSGDPKARPAFSELVEILGDLLQGRGLQEEEEVCMAPRSSQSSEEGSFSQVSTMALHIAQADAEDSPPSLQRHSLAARYYNWVSFPGCLARGAETRGSSRMKTFEEFPMTPTTYKGSVDNQTDSGMVLASEEFEQIESRHRQESGFSCKGPGQNVAVTRAHPDSQGRRRRPERGARGGQVFYNSEYGELSEPSEEDHCSPSARVTFFTDNSY,VEGFR,fms related tyrosine kinase 4,FLT4,TK,1814,484,FLT4,RVLGYGAFGKVVEVAVKMLALMSELKILIHIGLNVVNLLGAMVIVEFCKYGNLSNFLRAFLASRKCIHRDLAARNILLICDFGLA,Human,,Protein tyrosine and serine/threonine kinase,845.0,1169.0,1363.0,PF07714,True
+P42345,MTOR,FRAP,FRAP,Serine/threonine-protein kinase mTOR,Atypical,PIKK,FRAP,MTOR,MLGTGPAAATTAATTSSNVSVLQQFASGLKSRNEETRAKAAKELQHYVTMELREMSQEESTRFYDQLNHHIFELVSSSDANERKGGILAIASLIGVEGGNATRIGRFANYLRNLLPSNDPVVMEMASKAIGRLAMAGDTFTAEYVEFEVKRALEWLGADRNEGRRHAAVLVLRELAISVPTFFFQQVQPFFDNIFVAVWDPKQAIREGAVAALRACLILTTQREPKEMQKPQWYRHTFEEAEKGFDETLAKEKGMNRDDRIHGALLILNELVRISSMEGERLREEMEEITQQQLVHDKYCKDLMGFGTKPRHITPFTSFQAVQPQQSNALVGLLGYSSHQGLMGFGTSPSPAKSTLVESRCCRDLMEEKFDQVCQWVLKCRNSKNSLIQMTILNLLPRLAAFRPSAFTDTQYLQDTMNHVLSCVKKEKERTAAFQALGLLSVAVRSEFKVYLPRVLDIIRAALPPKDFAHKRQKAMQVDATVFTCISMLARAMGPGIQQDIKELLEPMLAVGLSPALTAVLYDLSRQIPQLKKDIQDGLLKMLSLVLMHKPLRHPGMPKGLAHQLASPGLTTLPEASDVGSITLALRTLGSFEFEGHSLTQFVRHCADHFLNSEHKEIRMEAARTCSRLLTPSIHLISGHAHVVSQTAVQVVADVLSKLLVVGITDPDPDIRYCVLASLDERFDAHLAQAENLQALFVALNDQVFEIRELAICTVGRLSSMNPAFVMPFLRKMLIQILTELEHSGIGRIKEQSARMLGHLVSNAPRLIRPYMEPILKALILKLKDPDPDPNPGVINNVLATIGELAQVSGLEMRKWVDELFIIIMDMLQDSSLLAKRQVALWTLGQLVASTGYVVEPYRKYPTLLEVLLNFLKTEQNQGTRREAIRVLGLLGALDPYKHKVNIGMIDQSRDASAVSLSESKSSQDSSDYSTSEMLVNMGNLPLDEFYPAVSMVALMRIFRDQSLSHHHTMVVQAITFIFKSLGLKCVQFLPQVMPTFLNVIRVCDGAIREFLFQQLGMLVSFVKSHIRPYMDEIVTLMREFWVMNTSIQSTIILLIEQIVVALGGEFKLYLPQLIPHMLRVFMHDNSPGRIVSIKLLAAIQLFGANLDDYLHLLLPPIVKLFDAPEAPLPSRKAALETVDRLTESLDFTDYASRIIHPIVRTLDQSPELRSTAMDTLSSLVFQLGKKYQIFIPMVNKVLVRHRINHQRYDVLICRIVKGYTLADEEEDPLIYQHRMLRSGQGDALASGPVETGPMKKLHVSTINLQKAWGAARRVSKDDWLEWLRRLSLELLKDSSSPSLRSCWALAQAYNPMARDLFNAAFVSCWSELNEDQQDELIRSIELALTSQDIAEVTQTLLNLAEFMEHSDKGPLPLRDDNGIVLLGERAAKCRAYAKALHYKELEFQKGPTPAILESLISINNKLQQPEAAAGVLEYAMKHFGELEIQATWYEKLHEWEDALVAYDKKMDTNKDDPELMLGRMRCLEALGEWGQLHQQCCEKWTLVNDETQAKMARMAAAAAWGLGQWDSMEEYTCMIPRDTHDGAFYRAVLALHQDLFSLAQQCIDKARDLLDAELTAMAGESYSRAYGAMVSCHMLSELEEVIQYKLVPERREIIRQIWWERLQGCQRIVEDWQKILMVRSLVVSPHEDMRTWLKYASLCGKSGRLALAHKTLVLLLGVDPSRQLDHPLPTVHPQVTYAYMKNMWKSARKIDAFQHMQHFVQTMQQQAQHAIATEDQQHKQELHKLMARCFLKLGEWQLNLQGINESTIPKVLQYYSAATEHDRSWYKAWHAWAVMNFEAVLHYKHQNQARDEKKKLRHASGANITNATTAATTAATATTTASTEGSNSESEAESTENSPTPSPLQKKVTEDLSKTLLMYTVPAVQGFFRSISLSRGNNLQDTLRVLTLWFDYGHWPDVNEALVEGVKAIQIDTWLQVIPQLIARIDTPRPLVGRLIHQLLTDIGRYHPQALIYPLTVASKSTTTARHNAANKILKNMCEHSNTLVQQAMMVSEELIRVAILWHEMWHEGLEEASRLYFGERNVKGMFEVLEPLHAMMERGPQTLKETSFNQAYGRDLMEAQEWCRKYMKSGNVKDLTQAWDLYYHVFRRISKQLPQLTSLELQYVSPKLLMCRDLELAVPGTYDPNQPIIRIQSIAPSLQVITSKQRPRKLTLMGSNGHEFVFLLKGHEDLRQDERVMQLFGLVNTLLANDPTSLRKNLSIQRYAVIPLSTNSGLIGWVPHCDTLHALIRDYREKKKILLNIEHRIMLRMAPDYDHLTLMQKVEVFEHAVNNTAGDDLAKLLWLKSPSSEVWFDRRTNYTRSLAVMSMVGYILGLGDRHPSNLMLDRLSGKILHIDFGDCFEVAMTREKFPEKIPFRLTRMLTNAMEVTGLDGNYRITCHTVMEVLREHKDSVMAVLEAFVYDPLLNWRLMDTNTKGNKRSRTRTDSYSAGQSVEILDGVELGEPAHKKTGTTVPESIHSFIGDGLVKPEALNKKAIQIINRVRDKLTGRDFSHDDTLDVPTQVELLIKQATSHENLCQCYIGWCPFW,PIKK,Serine/threonine-protein kinase mTOR,MTOR,Atypical,2109,97,FRAP,LQVITSKQRPRKLFLLKGHDLRQDERVMQLFGLSIQRYAVISGLIGWVPCDTLHALIRDVGYI--LGLGDRHPSNLMLHIDFGDC,Human,FRAP,,,,,,
+P06241,FYN,FYN,FYN,Tyrosine-protein kinase Fyn,TK,Src,nan,FYN,MGCVQCKDKEATKLTEERDGSLNQSSGYRYGTDPTPQHYPSFGVTSIPNYNNFHAAGGQGLTVFGGVNSSSHTGTLRTRGGTGVTLFVALYDYEARTEDDLSFHKGEKFQILNSSEGDWWEARSLTTGETGYIPSNYVAPVDSIQAEEWYFGKLGRKDAERQLLSFGNPRGTFLIRESETTKGAYSLSIRDWDDMKGDHVKHYKIRKLDNGGYYITTRAQFETLQQLVQHYSERAAGLCCRLVVPCHKGMPRLTDLSVKTKDVWEIPRESLQLIKRLGNGQFGEVWMGTWNGNTKVAIKTLKPGTMSPESFLEEAQIMKKLKHDKLVQLYAVVSEEPIYIVTEYMNKGSLLDFLKDGEGRALKLPNLVDMAAQVAAGMAYIERMNYIHRDLRSANILVGNGLICKIADFGLARLIEDNEYTARQGAKFPIKWTAPEAALYGRFTIKSDVWSFGILLTELVTKGRVPYPGMNNREVLEQVERGYRMPCPQDCPISLHELMIHCWKKDPEERPTFEYLQSFLEDYFTATEPQYQPGENL,Src,"FYN proto-oncogene, Src family tyrosine kinase",FYN,TK,2026,461,FYN,KRLGNGQFGEVWMVAIKTLSFLEEAQIMKKLKDKLVQLYAVYIVTEYMNKGSLLDFLKDYIERMNYIHRDLRSANILVIADFGLA,Human,SrcA,Protein tyrosine and serine/threonine kinase,271.0,520.0,537.0,PF07714,True
+O14976,GAK,GAK,GAK,Cyclin-G-associated kinase,Other,NAK,nan,GAK,MSLLQSALDFLAGPGSLGGASGRDQSDFVGQTVELGELRLRVRRVLAEGGFAFVYEAQDVGSGREYALKRLLSNEEEKNRAIIQEVCFMKKLSGHPNIVQFCSAASIGKEESDTGQAEFLLLTELCKGQLVEFLKKMESRGPLSCDTVLKIFYQTCRAVQHMHRQKPPIIHRDLKVENLLLSNQGTIKLCDFGSATTISHYPDYSWSAQRRALVEEEITRNTTPMYRTPEIIDLYSNFPIGEKQDIWALGCILYLLCFRQHPFEDGAKLRIVNGKYSIPPHDTQYTVFHSLIRAMLQVNPEERLSIAEVVHQLQEIAAARNVNPKSPITELLEQNGGYGSATLSRGPPPPVGPAGSGYSGGLALAEYDQPYGGFLDILRGGTERLFTNLKDTSSKVIQSVANYAKGDLDISYITSRIAVMSFPAEGVESALKNNIEDVRLFLDSKHPGHYAVYNLSPRTYRPSRFHNRVSECGWAARRAPHLHTLYNICRNMHAWLRQDHKNVCVVHCMDGRAASAVAVCSFLCFCRLFSTAEAAVYMFSMKRCPPGIWPSHKRYIEYMCDMVAEEPITPHSKPILVRAVVMTPVPLFSKQRSGCRPFCEVYVGDERVASTSQEYDKMRDFKIEDGKAVIPLGVTVQGDVLIVIYHARSTLGGRLQAKMASMKMFQIQFHTGFVPRNATTVKFAKYDLDACDIQEKYPDLFQVNLEVEVEPRDRPSREAPPWENSSMRGLNPKILFSSREEQQDILSKFGKPELPRQPGSTAQYDAGAGSPEAEPTDSDSPPSSSADASRFLHTLDWQEEKEAETGAENASSKESESALMEDRDESEVSDEGGSPISSEGQEPRADPEPPGLAAGLVQQDLVFEVETPAVLPEPVPQEDGVDLLGLHSEVGAGPAVPPQACKAPSSNTDLLSCLLGPPEAASQGPPEDLLSEDPLLLASPAPPLSVQSTPRGGPPAAADPFGPLLPSSGNNSQPCSNPDLFGEFLNSDSVTVPPSFPSAHSAPPPSCSADFLHLGDLPGEPSKMTASSSNPDLLGGWAAWTETAASAVAPTPATEGPLFSPGGQPAPCGSQASWTKSQNPDPFADLGDLSSGLQGSPAGFPPGGFIPKTATTPKGSSSWQTSRPPAQGASWPPQAKPPPKACTQPRPNYASNFSVIGAREERGVRAPSFAQKPKVSENDFEDLLSNQGFSSRSDKKGPKTIAEMRKQDLAKDTDPLKLKLLDWIEGKERNIRALLSTLHTVLWDGESRWTPVGMADLVAPEQVKKHYRRAVLAVHPDKAAGQPYEQHAKMIFMELNDAWSEFENQGSRPLF,NAK,cyclin G associated kinase,GAK,Other,2027,279,GAK,RVLAEGGFAFVYEYALKRLAIIQEVCFMKKLSPNIVQFCSALLLTELCK-GQLVEFLKKHRQKPPIIHRDLKVENLLLLCDFGSA,Human,GAK,Protein kinase domain,43.0,312.0,1311.0,PF00069,True
+P32298,GRK4,GPRK4,GPRK4,G protein-coupled receptor kinase 4,AGC,GRK,GRK,GRK4,MELENIVANSLLLKARQGGYGKKSGRSKKWKEILTLPPVSQCSELRHSIEKDYSSLCDKQPIGRRLFRQFCDTKPTLKRHIEFLDAVAEYEVADDEDRSDCGLSILDRFFNDKLAAPLPEIPPDVVTECRLGLKEENPSKKAFEECTRVAHNYLRGEPFEEYQESSYFSQFLQWKWLERQPVTKNTFRHYRVLGKGGFGEVCACQVRATGKMYACKKLQKKRIKKRKGEAMALNEKRILEKVQSRFVVSLAYAYETKDALCLVLTIMNGGDLKFHIYNLGNPGFDEQRAVFYAAELCCGLEDLQRERIVYRDLKPENILLDDRGHIRISDLGLATEIPEGQRVRGRVGTVGYMAPEVVNNEKYTFSPDWWGLGCLIYEMIQGHSPFKKYKEKVKWEEVDQRIKNDTEEYSEKFSEDAKSICRMLLTKNPSKRLGCRGEGAAGVKQHPVFKDINFRRLEANMLEPPFCPDPHAVYCKDVLDIEQFSVVKGIYLDTADEDFYARFATGCVSIPWQNEMIESGCFKDINKSESEEALPLDLDKNIHTPVSRPNRGFFYRLFRRGGCLTMVPSEKEVEPKQC,GRK,G protein-coupled receptor kinase 4,GRK4,AGC,1468,13,GPRK4,RVLGKGGFGEVCAYACKKLMALNEKRILEKVQRFVVSLAYACLVLTIMNGGDLKFHIYNDLQRERIVYRDLKPENILLISDLGLA,Human,GRK,Protein kinase domain,189.0,448.0,578.0,PF00069,True
+P34947,GRK5,GPRK5,GPRK5,G protein-coupled receptor kinase 5,AGC,GRK,GRK,GRK5,MELENIVANTVLLKAREGGGGKRKGKSKKWKEILKFPHISQCEDLRRTIDRDYCSLCDKQPIGRLLFRQFCETRPGLECYIQFLDSVAEYEVTPDEKLGEKGKEIMTKYLTPKSPVFIAQVGQDLVSQTEEKLLQKPCKELFSACAQSVHEYLRGEPFHEYLDSMFFDRFLQWKWLERQPVTKNTFRQYRVLGKGGFGEVCACQVRATGKMYACKRLEKKRIKKRKGESMALNEKQILEKVNSQFVVNLAYAYETKDALCLVLTIMNGGDLKFHIYNMGNPGFEEERALFYAAEILCGLEDLHRENTVYRDLKPENILLDDYGHIRISDLGLAVKIPEGDLIRGRVGTVGYMAPEVLNNQRYGLSPDYWGLGCLIYEMIEGQSPFRGRKEKVKREEVDRRVLETEEVYSHKFSEEAKSICKMLLTKDAKQRLGCQEEGAAEVKRHPFFRNMNFKRLEAGMLDPPFVPDPRAVYCKDVLDIEQFSTVKGVNLDHTDDDFYSKFSTGSVSIPWQNEMIETECFKELNVFGPNGTLPPDLNRNHPPEPPKKGLLQRLFKRQHQNNSKSSPSSKTSFNHHINSNHVSSNSTGSS,GRK,G protein-coupled receptor kinase 5,GRK5,AGC,1469,14,GPRK5,RVLGKGGFGEVCAYACKRLMALNEKQILEKVNQFVVNLAYACLVLTIMNGGDLKFHIYNDLHRENTVYRDLKPENILLISDLGLA,Human,GRK,Protein kinase domain,187.0,448.0,590.0,PF00069,True
+P43250,GRK6,GPRK6,GPRK6,G protein-coupled receptor kinase 6,AGC,GRK,GRK,GRK6,MELENIVANTVLLKAREGGGGNRKGKSKKWRQMLQFPHISQCEELRLSLERDYHSLCERQPIGRLLFREFCATRPELSRCVAFLDGVAEYEVTPDDKRKACGRQLTQNFLSHTGPDLIPEVPRQLVTNCTQRLEQGPCKDLFQELTRLTHEYLSVAPFADYLDSIYFNRFLQWKWLERQPVTKNTFRQYRVLGKGGFGEVCACQVRATGKMYACKKLEKKRIKKRKGEAMALNEKQILEKVNSRFVVSLAYAYETKDALCLVLTLMNGGDLKFHIYHMGQAGFPEARAVFYAAEICCGLEDLHRERIVYRDLKPENILLDDHGHIRISDLGLAVHVPEGQTIKGRVGTVGYMAPEVVKNERYTFSPDWWALGCLLYEMIAGQSPFQQRKKKIKREEVERLVKEVPEEYSERFSPQARSLCSQLLCKDPAERLGCRGGSAREVKEHPLFKKLNFKRLGAGMLEPPFKPDPQAIYCKDVLDIEQFSTVKGVELEPTDQDFYQKFATGSVPIPWQNEMVETECFQELNVFGLDGSVPPDLDWKGQPPAPPKKGLLQRLFSRQDCCGNCSDSEEELPTRL,GRK,G protein-coupled receptor kinase 6,GRK6,AGC,1470,15,GPRK6,RVLGKGGFGEVCAYACKKLMALNEKQILEKVNRFVVSLAYACLVLTLMNGGDLKFHIYHDLHRERIVYRDLKPENILLISDLGLA,Human,GRK,Protein kinase domain,187.0,448.0,576.0,PF00069,True
+Q92519,TRIB2,Trb2,Trb2,Tribbles homolog 2,CAMK,Trbl,nan,TRIB2,MNIHRSTPITIARYGRSRNKTQDFEELSSIRSAEPSQSFSPNLGSPSPPETPNLSHCVSCIGKYLLLEPLEGDHVFRAVHLHSGEELVCKVFDISCYQESLAPCFCLSAHSNINQITEIILGETKAYVFFERSYGDMHSFVRTCKKLREEEAARLFYQIASAVAHCHDGGLVLRDLKLRKFIFKDEERTRVKLESLEDAYILRGDDDSLSDKHGCPAYVSPEILNTSGSYSGKAADVWSLGVMLYTMLVGRYPFHDIEPSSLFSKIRRGQFNIPETLSPKAKCLIRSILRREPSERLTSQEILDHPWFSTDFSVSNSAYGAKEVSDQLVPDVNMEENLDPFFN,Trbl,tribbles pseudokinase 2,TRIB2,CAMK,0,171,Trb2,LLLEPLEGDHVFRLVCKVFYQESLAPCFCLSASNINQITEIYVFFERSY-GDMHSFVRTHCHDGGLVLRDLKLRKFIFVKLESLE,Human,,Protein kinase domain,75.0,308.0,343.0,PF00069,True
+P49840,GSK3A,GSK3A,GSK3A,Glycogen synthase kinase-3 alpha,CMGC,GSK,nan,GSK3A,MSGGGPSGGGPGGSGRARTSSFAEPGGGGGGGGGGPGGSASGPGGTGGGKASVGAMGGGVGASSSGGGPGGSGGGGSGGPGAGTSFPPPGVKLGRDSGKVTTVVATLGQGPERSQEVAYTDIKVIGNGSFGVVYQARLAETRELVAIKKVLQDKRFKNRELQIMRKLDHCNIVRLRYFFYSSGEKKDELYLNLVLEYVPETVYRVARHFTKAKLTIPILYVKVYMYQLFRSLAYIHSQGVCHRDIKPQNLLVDPDTAVLKLCDFGSAKQLVRGEPNVSYICSRYYRAPELIFGATDYTSSIDVWSAGCVLAELLLGQPIFPGDSGVDQLVEIIKVLGTPTREQIREMNPNYTEFKFPQIKAHPWTKVFKSRTPPEAIALCSSLLEYTPSSRLSPLEACAHSFFDELRCLGTQLPNNRPLPPLFNFSAGELSIQPSLNAILIPPHLRSPAGTTTLTPSSQALTETPTSSDWQSTDATPTLTNSS,GSK,glycogen synthase kinase 3 alpha,GSK3A,CMGC,2029,237,GSK3A,KVIGNGSFGVVYQVAIKKVFKNRELQIMRKLDCNIVRLRYFNLVLEYVP-ETVYRVARHYIHSQGVCHRDIKPQNLLVLCDFGSA,Human,,Protein kinase domain,119.0,403.0,483.0,PF00069,True
+P49841,GSK3B,GSK3B,GSK3B,Glycogen synthase kinase-3 beta,CMGC,GSK,nan,GSK3B,MSGRPRTTSFAESCKPVQQPSAFGSMKVSRDKDGSKVTTVVATPGQGPDRPQEVSYTDTKVIGNGSFGVVYQAKLCDSGELVAIKKVLQDKRFKNRELQIMRKLDHCNIVRLRYFFYSSGEKKDEVYLNLVLDYVPETVYRVARHYSRAKQTLPVIYVKLYMYQLFRSLAYIHSFGICHRDIKPQNLLLDPDTAVLKLCDFGSAKQLVRGEPNVSYICSRYYRAPELIFGATDYTSSIDVWSAGCVLAELLLGQPIFPGDSGVDQLVEIIKVLGTPTREQIREMNPNYTEFKFPQIKAHPWTKVFRPRTPPEAIALCSRLLEYTPTARLTPLEACAHSFFDELRDPNVKLPNGRDTPALFNFTTQELSSNPPLATILIPPHARIQAAASTPTNATAASDANTGDRGQTNNAASASASNST,GSK,glycogen synthase kinase 3 beta,GSK3B,CMGC,2030,238,GSK3B,KVIGNGSFGVVYQVAIKKVFKNRELQIMRKLDCNIVRLRYFNLVLDYVP-ETVYRVARHYIHSFGICHRDIKPQNLLLLCDFGSA,Human,,Protein kinase domain,56.0,340.0,420.0,PF00069,True
+P08631,HCK,HCK,HCK,Tyrosine-protein kinase HCK,TK,Src,nan,HCK,MGGRSSCEDPGCPRDEERAPRMGCMKSKFLQVGGNTFSKTETSASPHCPVYVPDPTSTIKPGPNSHNSNTPGIREAGSEDIIVVALYDYEAIHHEDLSFQKGDQMVVLEESGEWWKARSLATRKEGYIPSNYVARVDSLETEEWFFKGISRKDAERQLLAPGNMLGSFMIRDSETTKGSYSLSVRDYDPRQGDTVKHYKIRTLDNGGFYISPRSTFSTLQELVDHYKKGNDGLCQKLSVPCMSSKPQKPWEKDAWEIPRESLKLEKKLGAGQFGEVWMATYNKHTKVAVKTMKPGSMSVEAFLAEANVMKTLQHDKLVKLHAVVTKEPIYIITEFMAKGSLLDFLKSDEGSKQPLPKLIDFSAQIAEGMAFIEQRNYIHRDLRAANILVSASLVCKIADFGLARVIEDNEYTAREGAKFPIKWTAPEAINFGSFTIKSDVWSFGILLMEIVTYGRIPYPGMSNPEVIRALERGYRMPRPENCPEELYNIMMRCWKNRPEERPTFEYIQSVLDDFYTATESQYQQQP,Src,"HCK proto-oncogene, Src family tyrosine kinase",HCK,TK,2032,465,HCK,KKLGAGQFGEVWMVAVKTMAFLAEANVMKTLQDKLVKLHAVYIITEFMAKGSLLDFLKSFIEQRNYIHRDLRAANILVIADFGLA,Human,SrcB,Protein tyrosine and serine/threonine kinase,262.0,511.0,526.0,PF07714,True
+P04626,ERBB2,ErbB2,HER2/ErbB2,Receptor tyrosine-protein kinase erbB-2,TK,EGFR,nan,ERBB2,MELAALCRWGLLLALLPPGAASTQVCTGTDMKLRLPASPETHLDMLRHLYQGCQVVQGNLELTYLPTNASLSFLQDIQEVQGYVLIAHNQVRQVPLQRLRIVRGTQLFEDNYALAVLDNGDPLNNTTPVTGASPGGLRELQLRSLTEILKGGVLIQRNPQLCYQDTILWKDIFHKNNQLALTLIDTNRSRACHPCSPMCKGSRCWGESSEDCQSLTRTVCAGGCARCKGPLPTDCCHEQCAAGCTGPKHSDCLACLHFNHSGICELHCPALVTYNTDTFESMPNPEGRYTFGASCVTACPYNYLSTDVGSCTLVCPLHNQEVTAEDGTQRCEKCSKPCARVCYGLGMEHLREVRAVTSANIQEFAGCKKIFGSLAFLPESFDGDPASNTAPLQPEQLQVFETLEEITGYLYISAWPDSLPDLSVFQNLQVIRGRILHNGAYSLTLQGLGISWLGLRSLRELGSGLALIHHNTHLCFVHTVPWDQLFRNPHQALLHTANRPEDECVGEGLACHQLCARGHCWGPGPTQCVNCSQFLRGQECVEECRVLQGLPREYVNARHCLPCHPECQPQNGSVTCFGPEADQCVACAHYKDPPFCVARCPSGVKPDLSYMPIWKFPDEEGACQPCPINCTHSCVDLDDKGCPAEQRASPLTSIISAVVGILLVVVLGVVFGILIKRRQQKIRKYTMRRLLQETELVEPLTPSGAMPNQAQMRILKETELRKVKVLGSGAFGTVYKGIWIPDGENVKIPVAIKVLRENTSPKANKEILDEAYVMAGVGSPYVSRLLGICLTSTVQLVTQLMPYGCLLDHVRENRGRLGSQDLLNWCMQIAKGMSYLEDVRLVHRDLAARNVLVKSPNHVKITDFGLARLLDIDETEYHADGGKVPIKWMALESILRRRFTHQSDVWSYGVTVWELMTFGAKPYDGIPAREIPDLLEKGERLPQPPICTIDVYMIMVKCWMIDSECRPRFRELVSEFSRMARDPQRFVVIQNEDLGPASPLDSTFYRSLLEDDDMGDLVDAEEYLVPQQGFFCPDPAPGAGGMVHHRHRSSSTRSGGGDLTLGLEPSEEEAPRSPLAPSEGAGSDVFDGDLGMGAAKGLQSLPTHDPSPLQRYSEDPTVPLPSETDGYVAPLTCSPQPEYVNQPDVRPQPPSPREGPLPAARPAGATLERPKTLSPGKNGVVKDVFAFGGAVENPEYLTPQGGAAPQPHPPPAFSPAFDNLYYWDQDPPERGAPPSTFKGTPTAENPEYLGLDVPV,EGFR,erb-b2 receptor tyrosine kinase 2,ERBB2,TK,2019,407,ErbB2,KVLGSGAFGTVYKVAIKVLEILDEAYVMAGVGPYVSRLLGIQLVTQLMPYGCLLDHVREYLEDVRLVHRDLAARNVLVITDFGLA,Human,,Protein tyrosine and serine/threonine kinase,722.0,975.0,1255.0,PF07714,True
+P21860,ERBB3,ErbB3,HER3/ErbB3,Receptor tyrosine-protein kinase erbB-3,TK,EGFR,nan,ERBB3,MRANDALQVLGLLFSLARGSEVGNSQAVCPGTLNGLSVTGDAENQYQTLYKLYERCEVVMGNLEIVLTGHNADLSFLQWIREVTGYVLVAMNEFSTLPLPNLRVVRGTQVYDGKFAIFVMLNYNTNSSHALRQLRLTQLTEILSGGVYIEKNDKLCHMDTIDWRDIVRDRDAEIVVKDNGRSCPPCHEVCKGRCWGPGSEDCQTLTKTICAPQCNGHCFGPNPNQCCHDECAGGCSGPQDTDCFACRHFNDSGACVPRCPQPLVYNKLTFQLEPNPHTKYQYGGVCVASCPHNFVVDQTSCVRACPPDKMEVDKNGLKMCEPCGGLCPKACEGTGSGSRFQTVDSSNIDGFVNCTKILGNLDFLITGLNGDPWHKIPALDPEKLNVFRTVREITGYLNIQSWPPHMHNFSVFSNLTTIGGRSLYNRGFSLLIMKNLNVTSLGFRSLKEISAGRIYISANRQLCYHHSLNWTKVLRGPTEERLDIKHNRPRRDCVAEGKVCDPLCSSGGCWGPGPGQCLSCRNYSRGGVCVTHCNFLNGEPREFAHEAECFSCHPECQPMEGTATCNGSGSDTCAQCAHFRDGPHCVSSCPHGVLGAKGPIYKYPDVQNECRPCHENCTQGCKGPELQDCLGQTLVLIGKTHLTMALTVIAGLVVIFMMLGGTFLYWRGRRIQNKRAMRRYLERGESIEPLDPSEKANKVLARIFKETELRKLKVLGSGVFGTVHKGVWIPEGESIKIPVCIKVIEDKSGRQSFQAVTDHMLAIGSLDHAHIVRLLGLCPGSSLQLVTQYLPLGSLLDHVRQHRGALGPQLLLNWGVQIAKGMYYLEEHGMVHRNLAARNVLLKSPSQVQVADFGVADLLPPDDKQLLYSEAKTPIKWMALESIHFGKYTHQSDVWSYGVTVWELMTFGAEPYAGLRLAEVPDLLEKGERLAQPQICTIDVYMVMVKCWMIDENIRPTFKELANEFTRMARDPPRYLVIKRESGPGIAPGPEPHGLTNKKLEEVELEPELDLDLDLEAEEDNLATTTLGSALSLPVGTLNRPRGSQSLLSPSSGYMPMNQGNLGESCQESAVSGSSERCPRPVSLHPMPRGCLASESSEGHVTGSEAELQEKVSMCRSRSRSRSPRPRGDSAYHSQRHSLLTPVTPLSPPGLEEEDVNGYVMPDTHLKGTPSSREGTLSSVGLSSVLGTEEEDEDEEYEYMNRRRRHSPPHPPRPSSLEELGYEYMDVGSDLSASLGSTQSCPLHPVPIMPTAGTTPDEDYEYMNRQRDGGGPGGDYAAMGACPASEQGYEEMRAFQGPGHQAPHVHYARLKTLRSLEATDSAFDNPDYWHSRLFPKANAQRT,EGFR,erb-b2 receptor tyrosine kinase 3,ERBB3,TK,1798,408,ErbB3,KVLGSGVFGTVHKVCIKVIAVTDHMLAIGSLDAHIVRLLGLQLVTQYLPLGSLLDHVRQYLEEHGMVHRNLAARNVLLVADFGVA,Human,,Protein tyrosine and serine/threonine kinase,711.0,964.0,1342.0,PF07714,True
+Q15303,ERBB4,ErbB4,HER4/ErbB4,Receptor tyrosine-protein kinase erbB-4,TK,EGFR,nan,ERBB4,MKPATGLWVWVSLLVAAGTVQPSDSQSVCAGTENKLSSLSDLEQQYRALRKYYENCEVVMGNLEITSIEHNRDLSFLRSVREVTGYVLVALNQFRYLPLENLRIIRGTKLYEDRYALAIFLNYRKDGNFGLQELGLKNLTEILNGGVYVDQNKFLCYADTIHWQDIVRNPWPSNLTLVSTNGSSGCGRCHKSCTGRCWGPTENHCQTLTRTVCAEQCDGRCYGPYVSDCCHRECAGGCSGPKDTDCFACMNFNDSGACVTQCPQTFVYNPTTFQLEHNFNAKYTYGAFCVKKCPHNFVVDSSSCVRACPSSKMEVEENGIKMCKPCTDICPKACDGIGTGSLMSAQTVDSSNIDKFINCTKINGNLIFLVTGIHGDPYNAIEAIDPEKLNVFRTVREITGFLNIQSWPPNMTDFSVFSNLVTIGGRVLYSGLSLLILKQQGITSLQFQSLKEISAGNIYITDNSNLCYYHTINWTTLFSTINQRIVIRDNRKAENCTAEGMVCNHLCSSDGCWGPGPDQCLSCRRFSRGRICIESCNLYDGEFREFENGSICVECDPQCEKMEDGLLTCHGPGPDNCTKCSHFKDGPNCVEKCPDGLQGANSFIFKYADPDRECHPCHPNCTQGCNGPTSHDCIYYPWTGHSTLPQHARTPLIAAGVIGGLFILVIVGLTFAVYVRRKSIKKKRALRRFLETELVEPLTPSGTAPNQAQLRILKETELKRVKVLGSGAFGTVYKGIWVPEGETVKIPVAIKILNETTGPKANVEFMDEALIMASMDHPHLVRLLGVCLSPTIQLVTQLMPHGCLLEYVHEHKDNIGSQLLLNWCVQIAKGMMYLEERRLVHRDLAARNVLVKSPNHVKITDFGLARLLEGDEKEYNADGGKMPIKWMALECIHYRKFTHQSDVWSYGVTIWELMTFGGKPYDGIPTREIPDLLEKGERLPQPPICTIDVYMVMVKCWMIDADSRPKFKELAAEFSRMARDPQRYLVIQGDDRMKLPSPNDSKFFQNLLDEEDLEDMMDAEEYLVPQAFNIPPPIYTSRARIDSNRSEIGHSPPPAYTPMSGNQFVYRDGGFAAEQGVSVPYRAPTSTIPEAPVAQGATAEIFDDSCCNGTLRKPVAPHVQEDSSTQRYSADPTVFAPERSPRGELDEEGYMTPMRDKPKQEYLNPVEENPFVSRRKNGDLQALDNPEYHNASNGPPKAEDEYVNEPLYLNTFANTLGKAEYLKNNILSMPEKAKKAFDNPDYWNHSLPPRSTLQHPDYLQEYSTKYFYKQNGRIRPIVAENPEYLSEFSLKPGTVLPPPPYRHRNTVV,EGFR,erb-b2 receptor tyrosine kinase 4,ERBB4,TK,1799,409,ErbB4,KVLGSGAFGTVYKVAIKILEFMDEALIMASMDPHLVRLLGVQLVTQLMPHGCLLEYVHEYLEERRLVHRDLAARNVLVITDFGLA,Human,,Protein tyrosine and serine/threonine kinase,719.0,973.0,1308.0,PF07714,True
+Q86Z02,HIPK1,HIPK1,HIPK1,Homeodomain-interacting protein kinase 1,CMGC,DYRK,HIPK,HIPK1,MASQLQVFSPPSVSSSAFCSAKKLKIEPSGWDVSGQSSNDKYYTHSKTLPATQGQANSSHQVANFNIPAYDQGLLLPAPAVEHIVVTAADSSGSAATSTFQSSQTLTHRSNVSLLEPYQKCGLKRKSEEVDSNGSVQIIEEHPPLMLQNRTVVGAAATTTTVTTKSSSSSGEGDYQLVQHEILCSMTNSYEVLEFLGRGTFGQVAKCWKRSTKEIVAIKILKNHPSYARQGQIEVSILSRLSSENADEYNFVRSYECFQHKNHTCLVFEMLEQNLYDFLKQNKFSPLPLKYIRPILQQVATALMKLKSLGLIHADLKPENIMLVDPVRQPYRVKVIDFGSASHVSKAVCSTYLQSRYYRAPEIILGLPFCEAIDMWSLGCVIAELFLGWPLYPGASEYDQIRYISQTQGLPAEYLLSAGTKTTRFFNRDPNLGYPLWRLKTPEEHELETGIKSKEARKYIFNCLDDMAQVNMSTDLEGTDMLAEKADRREYIDLLKKMLTIDADKRITPLKTLNHQFVTMTHLLDFPHSNHVKSCFQNMEICKRRVHMYDTVSQIKSPFTTHVAPNTSTNLTMSFSNQLNTVHNQASVLASSSTAAAATLSLANSDVSLLNYQSALYPSSAAPVPGVAQQGVSLQPGTTQICTQTDPFQQTFIVCPPAFQTGLQATTKHSGFPVRMDNAVPIVPQAPAAQPLQIQSGVLTQGSCTPLMVATLHPQVATITPQYAVPFTLSCAAGRPALVEQTAAVLQAWPGGTQQILLPSTWQQLPGVALHNSVQPTAMIPEAMGSGQQLADWRNAHSHGNQYSTIMQQPSLLTNHVTLATAQPLNVGVAHVVRQQQSSSLPSKKNKQSAPVSSKSSLDVLPSQVYSLVGSSPLRTTSSYNSLVPVQDQHQPIIIPDTPSPPVSVITIRSDTDEEEDNKYKPSSSGLKPRSNVISYVTVNDSPDSDSSLSSPYSTDTLSALRGNSGSVLEGPGRVVADGTGTRTIIVPPLKTQLGDCTVATQASGLLSNKTKPVASVSGQSSGCCITPTGYRAQRGGTSAAQPLNLSQNQQSSAAPTSQERSSNPAPRRQQAFVAPLSQAPYTFQHGSPLHSTGHPHLAPAPAHLPSQAHLYTYAAPTSAAALGSTSSIAHLFSPQGSSRHAAAYTTHPSTLVHQVPVSVGPSLLTSASVAPAQYQHQFATQSYIGSSRGSTIYTGYPLSPTKISQYSYL,DYRK,homeodomain interacting protein kinase 1,HIPK1,CMGC,2033,235,HIPK1,EFLGRGTFGQVAKVAIKILQGQIEVSILSRLSYNFVRSYECCLVFEMLE-QNLYDFLKQKLKSLGLIHADLKPENIMLVIDFGSA,Human,HIPK,Protein kinase domain,190.0,518.0,1210.0,PF00069,True
+Q92918,MAP4K1,HPK1,HPK1,Mitogen-activated protein kinase kinase kinase kinase 1,STE,STE20,KHS,MAP4K1,MDVVDPDIFNRDPRDHYDLLQRLGGGTYGEVFKARDKVSGDLVALKMVKMEPDDDVSTLQKEILILKTCRHANIVAYHGSYLWLQKLWICMEFCGAGSLQDIYQVTGSLSELQISYVCREVLQGLAYLHSQKKIHRDIKGANILINDAGEVRLADFGISAQIGATLARRLSFIGTPYWMAPEVAAVALKGGYNELCDIWSLGITAIELAELQPPLFDVHPLRVLFLMTKSGYQPPRLKEKGKWSAAFHNFIKVTLTKSPKKRPSATKMLSHQLVSQPGLNRGLILDLLDKLKNPGKGPSIGDIEDEEPELPPAIPRRIRSTHRSSSLGIPDADCCRRHMEFRKLRGMETRPPANTARLQPPRDLRSSSPRKQLSESSDDDYDDVDIPTPAEDTPPPLPPKPKFRSPSDEGPGSMGDDGQLSPGVLVRCASGPPPNSPRPGPPPSTSSPHLTAHSEPSLWNPPSRELDKPPLLPPKKEKMKRKGCALLVKLFNGCPLRIHSTAAWTHPSTKDQHLLLGAEEGIFILNRNDQEATLEMLFPSRTTWVYSINNVLMSLSGKTPHLYSHSILGLLERKETRAGNPIAHISPHRLLARKNMVSTKIQDTKGCRACCVAEGASSGGPFLCGALETSVVLLQWYQPMNKFLLVRQVLFPLPTPLSVFALLTGPGSELPAVCIGVSPGRPGKSVLFHTVRFGALSCWLGEMSTEHRGPVQVTQVEEDMVMVLMDGSVKLVTPEGSPVRGLRTPEIPMTEAVEAVAMVGGQLQAFWKHGVQVWALGSDQLLQELRDPTLTFRLLGSPRLECSGTISPHCNLLLPGSSNSPASASRVAGITGL,STE20,mitogen-activated protein kinase kinase kinase kinase 1,MAP4K1,STE,2085,358,HPK1,QRLGGGTYGEVFKVALKMVTLQKEILILKTCRANIVAYHGSWICMEFCGAGSLQDIYQVYLHSQKKIHRDIKGANILILADFGIS,Human,KHS,Protein kinase domain,17.0,273.0,833.0,PF00069,True
+P25092,GUCY2C,HSER,HSER,Heat-stable enterotoxin receptor,RGC,RGC,nan,GUCY2C,MKTLLLDLALWSLLFQPGWLSFSSQVSQNCHNGSYEISVLMMGNSAFAEPLKNLEDAVNEGLEIVRGRLQNAGLNVTVNATFMYSDGLIHNSGDCRSSTCEGLDLLRKISNAQRMGCVLIGPSCTYSTFQMYLDTELSYPMISAGSFGLSCDYKETLTRLMSPARKLMYFLVNFWKTNDLPFKTYSWSTSYVYKNGTETEDCFWYLNALEASVSYFSHELGFKVVLRQDKEFQDILMDHNRKSNVIIMCGGPEFLYKLKGDRAVAEDIVIILVDLFNDQYFEDNVTAPDYMKNVLVLTLSPGNSLLNSSFSRNLSPTKRDFALAYLNGILLFGHMLKIFLENGENITTPKFAHAFRNLTFEGYDGPVTLDDWGDVDSTMVLLYTSVDTKKYKVLLTYDTHVNKTYPVDMSPTFTWKNSKLPNDITGRGPQILMIAVFTLTGAVVLLLLVALLMLRKYRKDYELRQKKWSHIPPENIFPLETNETNHVSLKIDDDKRRDTIQRLRQCKYDKKRVILKDLKHNDGNFTEKQKIELNKLLQIDYYNLTKFYGTVKLDTMIFGVIEYCERGSLREVLNDTISYPDGTFMDWEFKISVLYDIAKGMSYLHSSKTEVHGRLKSTNCVVDSRMVVKITDFGCNSILPPKKDLWTAPEHLRQANISQKGDVYSYGIIAQEIILRKETFYTLSCRDRNEKIFRVENSNGMKPFRPDLFLETAEEKELEVYLLVKNCWEEDPEKRPDFKKIETTLAKIFGLFHDQKNESYMDTLIRRLQLYSRNLEHLVEERTQLYKAERDRADRLNFMLLPRLVVKSLKEKGFVEPELYEEVTIYFSDIVGFTTICKYSTPMEVVDMLNDIYKSFDHIVDHHDVYKVETIGDAYMVASGLPKRNGNRHAIDIAKMALEILSFMGTFELEHLPGLPIWIRIGVHSGPCAAGVVGIKMPRYCLFGDTVNTASRMESTGLPLRIHVSGSTIAILKRTECQFLYEVRGETYLKGRGNETTYWLTGMKDQKFNLPTPPTVENQQRLQAEFSDMIANSLQKRQAAGIRSQKPRRVASYKKGTLEYLQLNTTDKESTYF,RGC,guanylate cyclase 2C,GUCY2C,RGC,1750,340,HSER,DDKRRDTIQRLRQVILKDLKQKIELNKLLQIDYNLTKFYGTFGVIEYCERGSLREVLNDLHSSKTEVHGRLKSTNCVVITDFGCN,Human,,Protein tyrosine and serine/threonine kinase,507.0,745.0,1073.0,PF07714,True
+P08069,IGF1R,IGF1R,IGF1R,Insulin-like growth factor 1 receptor,TK,InsR,nan,IGF1R,MKSGSGGGSPTSLWGLLFLSAALSLWPTSGEICGPGIDIRNDYQQLKRLENCTVIEGYLHILLISKAEDYRSYRFPKLTVITEYLLLFRVAGLESLGDLFPNLTVIRGWKLFYNYALVIFEMTNLKDIGLYNLRNITRGAIRIEKNADLCYLSTVDWSLILDAVSNNYIVGNKPPKECGDLCPGTMEEKPMCEKTTINNEYNYRCWTTNRCQKMCPSTCGKRACTENNECCHPECLGSCSAPDNDTACVACRHYYYAGVCVPACPPNTYRFEGWRCVDRDFCANILSAESSDSEGFVIHDGECMQECPSGFIRNGSQSMYCIPCEGPCPKVCEEEKKTKTIDSVTSAQMLQGCTIFKGNLLINIRRGNNIASELENFMGLIEVVTGYVKIRHSHALVSLSFLKNLRLILGEEQLEGNYSFYVLDNQNLQQLWDWDHRNLTIKAGKMYFAFNPKLCVSEIYRMEEVTGTKGRQSKGDINTRNNGERASCESDVLHFTSTTTSKNRIIITWHRYRPPDYRDLISFTVYYKEAPFKNVTEYDGQDACGSNSWNMVDVDLPPNKDVEPGILLHGLKPWTQYAVYVKAVTLTMVENDHIRGAKSEILYIRTNASVPSIPLDVLSASNSSSQLIVKWNPPSLPNGNLSYYIVRWQRQPQDGYLYRHNYCSKDKIPIRKYADGTIDIEEVTENPKTEVCGGEKGPCCACPKTEAEKQAEKEEAEYRKVFENFLHNSIFVPRPERKRRDVMQVANTTMSSRSRNTTAADTYNITDPEELETEYPFFESRVDNKERTVISNLRPFTLYRIDIHSCNHEAEKLGCSASNFVFARTMPAEGADDIPGPVTWEPRPENSIFLKWPEPENPNGLILMYEIKYGSQVEDQRECVSRQEYRKYGGAKLNRLNPGNYTARIQATSLSGNGSWTDPVFFYVQAKTGYENFIHLIIALPVAVLLIVGGLVIMLYVFHRKRNNSRLGNGVLYASVNPEYFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPEMENNPVLAPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEENKLPEPEELDLEPENMESVPLDPSASSSSLPLPDRHSGHKAENGPGPGVLVLRASFDERQPYAHMNGGRKNERALPLPQSSTC,InsR,insulin like growth factor 1 receptor,IGF1R,TK,1801,432,IGF1R,RELGQGSFGMVYEVAIKTVEFLNEASVMKEFN-HVVRLLGVLVIMELMTRGDLKSYLRSYLNANKFVHRDLAARNCMVIGDFGMT,Human,,Protein tyrosine and serine/threonine kinase,999.0,1265.0,1367.0,PF07714,True
+O15111,CHUK,IKKa,IKKa,Inhibitor of nuclear factor kappa-B kinase subunit alpha,Other,IKK,nan,CHUK,MERPPGLRPGAGGPWEMRERLGTGGFGNVCLYQHRELDLKIAIKSCRLELSTKNRERWCHEIQIMKKLNHANVVKACDVPEELNILIHDVPLLAMEYCSGGDLRKLLNKPENCCGLKESQILSLLSDIGSGIRYLHENKIIHRDLKPENIVLQDVGGKIIHKIIDLGYAKDVDQGSLCTSFVGTLQYLAPELFENKPYTATVDYWSFGTMVFECIAGYRPFLHHLQPFTWHEKIKKKDPKCIFACEEMSGEVRFSSHLPQPNSLCSLVVEPMENWLQLMLNWDPQQRGGPVDLTLKQPRCFVLMDHILNLKIVHILNMTSAKIISFLLPPDESLHSLQSRIERETGINTGSQELLSETGISLDPRKPASQCVLDGVRGCDSYMVYLFDKSKTVYEGPFASRSLSDCVNYIVQDSKIQLPIIQLRKVWAEAVHYVSGLKEDYSRLFQGQRAAMLSLLRYNANLTKMKNTLISASQQLKAKLEFFHKSIQLDLERYSEQMTYGISSEKMLKAWKEMEEKAIHYAEVGVIGYLEDQIMSLHAEIMELQKSPYGRRQGDLMESLEQRAIDLYKQLKHRPSDHSYSDSTEMVKIIVHTVQSQDRVLKELFGHLSKLLGCKQKIIDLLPKVEVALSNIKEADNTVMFMQGKRQKEIWHLLKIACTQSSARSLVGSSLEGAVTPQTSAWLPPTSAEHDHSLSCVVTPQDGETSAQMIEENLNCLGHLSTIIHEANEEQGNSMMNLDWSWLTE,IKK,conserved helix-loop-helix ubiquitous kinase,CHUK,Other,1989,269,IKKa,ERLGTGGFGNVCLIAIKSCRWCHEIQIMKKLNANVVKACDVLLAMEYCSGGDLRKLLNKYLHENKIIHRDLKPENIVLIIDLGYA,Human,,Protein kinase domain,16.0,289.0,745.0,PF00069,True
+O14920,IKBKB,IKKb,IKKb,Inhibitor of nuclear factor kappa-B kinase subunit beta,Other,IKK,nan,IKBKB,MSWSPSLTTQTCGAWEMKERLGTGGFGNVIRWHNQETGEQIAIKQCRQELSPRNRERWCLEIQIMRRLTHPNVVAARDVPEGMQNLAPNDLPLLAMEYCQGGDLRKYLNQFENCCGLREGAILTLLSDIASALRYLHENRIIHRDLKPENIVLQQGEQRLIHKIIDLGYAKELDQGSLCTSFVGTLQYLAPELLEQQKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHSKVRQKSEVDIVVSEDLNGTVKFSSSLPYPNNLNSVLAERLEKWLQLMLMWHPRQRGTDPTYGPNGCFKALDDILNLKLVHILNMVTGTIHTYPVTEDESLQSLKARIQQDTGIPEEDQELLQEAGLALIPDKPATQCISDGKLNEGHTLDMDLVFLFDNSKITYETQISPRPQPESVSCILQEPKRNLAFFQLRKVWGQVWHSIQTLKEDCNRLQQGQRAAMMNLLRNNSCLSKMKNSMASMSQQLKAKLDFFKTSIQIDLEKYSEQTEFGITSDKLLLAWREMEQAVELCGRENEVKLLVERMMALQTDIVDLQRSPMGRKQGGTLDDLEEQARELYRRLREKPRDQRTEGDSQEMVRLLLQAIQSFEKKVRVIYTQLSKTVVCKQKALELLPKVEEVVSLMNEDEKTVVRLQEKRQKELWNLLKIACSKVRGPVSGSPDSMNASRLSQPGQLMSQPSTASNSLPEPAKKSEELVAEAHNLCTLLENAIQDTVREQDQSFTALDWSWLQTEEEEHSCLEQAS,IKK,"inhibitor of kappa light polypeptide gene enhancer in B-cells, kinase beta",IKBKB,Other,2039,270,IKKb,ERLGTGGFGNVIRIAIKQCRWCLEIQIMRRLTPNVVAARDVLLAMEYCQGGDLRKYLNQYLHENRIIHRDLKPENIVLIIDLGYA,Human,,Protein kinase domain,16.0,290.0,756.0,PF00069,True
+Q13418,ILK,ILK,ILK,Integrin-linked protein kinase,TKL,MLK,ILK,ILK,MDDIFTQCREGNAVAVRLWLDNTENDLNQGDDHGFSPLHWACREGRSAVVEMLIMRGARINVMNRGDDTPLHLAASHGHRDIVQKLLQYKADINAVNEHGNVPLHYACFWGQDQVAEDLVANGALVSICNKYGEMPVDKAKAPLRELLRERAEKMGQNLNRIPYKDTFWKGTTRTRPRNGTLNKHSGIDFKQLNFLTKLNENHSGELWKGRWQGNDIVVKVLKVRDWSTRKSRDFNEECPRLRIFSHPNVLPVLGACQSPPAPHPTLITHWMPYGSLYNVLHEGTNFVVDQSQAVKFALDMARGMAFLHTLEPLIPRHALNSRSVMIDEDMTARISMADVKFSFQCPGRMYAPAWVAPEALQKKPEDTNRRSADMWSFAVLLWELVTREVPFADLSNMEIGMKVALEGLRPTIPPGISPHVCKLMKICMNEDPAKRPKFDMIVPILEKMQDK,MLK,integrin linked kinase,ILK,TKL,2041,497,ILK,TKLNENHSGELWKIVVKVLDFNEECPRLRIFSPNVLPVLGATLITHWMPYGSLYNVLHEHTLEPLIPRHALNSRSVMIISMADVK,Human,ILK,Protein tyrosine and serine/threonine kinase,194.0,444.0,452.0,PF07714,True
+P06213,INSR,INSR,INSR,Insulin receptor,TK,InsR,nan,INSR,MATGGRRGAAAAPLLVAVAALLLGAAGHLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDDNEECGDICPGTAKGKTNCPATVINGQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKNSRRQGCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCLGPCPKVCHLLEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVTEFDGQDACGSNSWTVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVFWERQAEDSELFELDYCLKGLKLPSRTWSPPFESEDSQKHNQSEYEDSAGECCSCPKTDSQILKELEESSFRKTFEDYLHNVVFVPRKTSSGTGAEDPRPSRKRRSLGDVGNVTVAVPTVAAFPNTSSTSVPTSPEEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDTPEERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRIRATSLAGNGSWTEPTYFYVTDYLDVPSNIAKIIIGPLIFVFLFSVVIGSIYLFLRKRQPDGPLGPLYASSNPEYLSASDVFPCSVYVPDEWEVSREKITLLRELGQGSFGMVYEGNARDIIKGEAETRVAVKTVNESASLRERIEFLNEASVMKGFTCHHVVRLLGVVSKGQPTLVVMELMAHGDLKSYLRSLRPEAENNPGRPPPTLQEMIQMAAEIADGMAYLNAKKFVHRDLAARNCMVAHDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMAPESLKDGVFTTSSDMWSFGVVLWEITSLAEQPYQGLSNEQVLKFVMDGGYLDQPDNCPERVTDLMRMCWQFNPKMRPTFLEIVNLLKDDLHPSFPEVSFFHSEENKAPESEELEMEFEDMENVPLDRSSHCQREEAGGRDGGSSLGFKRSYEEHIPYTHMNGGKKNGRILTLPRSNPS,InsR,insulin receptor,INSR,TK,1800,433,INSR,RELGQGSFGMVYEVAVKTVEFLNEASVMKGFT-HVVRLLGVLVVMELMAHGDLKSYLRSYLNAKKFVHRDLAARNCMVIGDFGMT,Human,,Protein tyrosine and serine/threonine kinase,1023.0,1289.0,1382.0,PF07714,True
+P51617,IRAK1,IRAK1,IRAK1,Interleukin-1 receptor-associated kinase 1,TKL,IRAK,nan,IRAK1,MAGGPGPGEPAAPGAQHFLYEVPPWVMCRFYKVMDALEPADWCQFAALIVRDQTELRLCERSGQRTASVLWPWINRNARVADLVHILTHLQLLRARDIITAWHPPAPLPSPGTTAPRPSSIPAPAEAEAWSPRKLPSSASTFLSPAFPGSQTHSGPELGLVPSPASLWPPPPSPAPSSTKPGPESSVSLLQGARPFPFCWPLCEISRGTHNFSEELKIGEGGFGCVYRAVMRNTVYAVKRLKENADLEWTAVKQSFLTEVEQLSRFRHPNIVDFAGYCAQNGFYCLVYGFLPNGSLEDRLHCQTQACPPLSWPQRLDILLGTARAIQFLHQDSPSLIHGDIKSSNVLLDERLTPKLGDFGLARFSRFAGSSPSQSSMVARTQTVRGTLAYLPEEYIKTGRLAVDTDTFSFGVVVLETLAGQRAVKTHGARTKYLKDLVEEEAEEAGVALRSTQSTLQAGLAADAWAAPIAMQIYKKHLDPRPGPCPPELGLGLGQLACCCLHRRAKRRPPMTQVYERLEKLQAVVAGVPGHSEAASCIPPSPQENSYVSSTGRAHSGAAPWQPLAAPSGASAQAAEQLQRGPNQPVESDESLGGLSAALRSWHLTPSCPLDPAPLREAGCPQGDTAGESSWGSGPGSRPTAVEGLALGSSASSSSEPPQIIINPARQKMVQKLALYEDGALDSLQLLSSSSLPGLGLEQDRQGPEESDEFQS,IRAK,interleukin 1 receptor associated kinase 1,IRAK1,TKL,2042,486,IRAK1,LKIGEGGFGCVYRYAVKRLSFLTEVEQLSRFRPNIVDFAGYCLVYGFLPNGSLEDRLHCHQDSPSLIHGDIKSSNVLLLGDFGLA,Human,,Protein kinase domain,214.0,514.0,712.0,PF00069,True
+O43187,IRAK2,IRAK2,IRAK2,Interleukin-1 receptor-associated kinase-like 2,TKL,IRAK,nan,IRAK2,MACYIYQLPSWVLDDLCRNMDALSEWDWMEFASYVITDLTQLRKIKSMERVQGVSITRELLWWWGMRQATVQQLVDLLCRLELYRAAQIILNWKPAPEIRCPIPAFPDSVKPEKPLAASVRKAEDEQEEGQPVRMATFPGPGSSPARAHQPAFLQPPEEDAPHSLRSDLPTSSDSKDFSTSIPKQEKLLSLAGDSLFWSEADVVQATDDFNQNRKISQGTFADVYRGHRHGKPFVFKKLRETACSSPGSIERFFQAELQICLRCCHPNVLPVLGFCAARQFHSFIYPYMANGSLQDRLQGQGGSDPLPWPQRVSICSGLLCAVEYLHGLEIIHSNVKSSNVLLDQNLTPKLAHPMAHLCPVNKRSKYTMMKTHLLRTSAAYLPEDFIRVGQLTKRVDIFSCGIVLAEVLTGIPAMDNNRSPVYLKDLLLSDIPSSTASLCSRKTGVENVMAKEICQKYLEKGAGRLPEDCAEALATAACLCLRRRNTSLQEVCGSVAAVEERLRGRETLLPWSGLSEGTGSSSNTPEETDDVDNSSLDASSSMSVAPWAGAATPLLPTENGEGRLRVIVGREADSSSEACVGLEPPQDVTETSWQIEINEAKRKLMENILLYKEEKVDSIELFGP,IRAK,interleukin 1 receptor associated kinase 2,IRAK2,TKL,0,487,IRAK2,RKISQGTFADVYRFVFKKLFFQAELQICLRCCPNVLPVLGFSFIYPYMANGSLQDRLQGYLHGLEIIHSNVKSSNVLLLAHPMAH,Human,,Protein kinase domain,211.0,419.0,625.0,PF00069,True
+Q9Y616,IRAK3,IRAK3,IRAK3,Interleukin-1 receptor-associated kinase 3,TKL,IRAK,nan,IRAK3,MAGNCGARGALSAHTLLFDLPPALLGELCAVLDSCDGALGWRGLAERLSSSWLDVRHIEKYVDQGKSGTRELLWSWAQKNKTIGDLLQVLQEMGHRRAIHLITNYGAVLSPSEKSYQEGGFPNILFKETANVTVDNVLIPEHNEKGILLKSSISFQNIIEGTRNFHKDFLIGEGEIFEVYRVEIQNLTYAVKLFKQEKKMQCKKHWKRFLSELEVLLLFHHPNILELAAYFTETEKFCLIYPYMRNGTLFDRLQCVGDTAPLPWHIRIGILIGISKAIHYLHNVQPCSVICGSISSANILLDDQFQPKLTDFAMAHFRSHLEHQSCTINMTSSSSKHLWYMPEEYIRQGKLSIKTDVYSFGIVIMEVLTGCRVVLDDPKHIQLRDLLRELMEKRGLDSCLSFLDKKVPPCPRNFSAKLFCLAGRCAATRAKLRPSMDEVLNTLESTQASLYFAEDPPTSLKSFRCPSPLFLENVPSIPVEDDESQNNNLLPSDEGLRIDRMTQKTPFECSQSEVMFLSLDKKPESKRNEEACNMPSSSCEESWFPKYIVPSQDLRPYKVNIDPSSEAPGHSCRSRPVESSCSSKFSWDEYEQYKKE,IRAK,interleukin 1 receptor associated kinase 3,IRAK3,TKL,2044,488,IRAK3,FLIGEGEIFEVYRYAVKLFRFLSELEVLLLFHPNILELAAYCLIYPYMRNGTLFDRLQCNVQPCSVICGSISSANILLLTDFAMA,Human,,Protein kinase domain,167.0,441.0,596.0,PF00069,True
+O75460,ERN1,IRE1,IRE1,Serine/threonine-protein kinase/endoribonuclease IRE1,Other,IRE,nan,ERN1,MPARRLLLLLTLLLPGLGIFGSTSTVTLPETLLFVSTLDGSLHAVSKRTGSIKWTLKEDPVLQVPTHVEEPAFLPDPNDGSLYTLGSKNNEGLTKLPFTIPELVQASPCRSSDGILYMGKKQDIWYVIDLLTGEKQQTLSSAFADSLCPSTSLLYLGRTEYTITMYDTKTRELRWNATYFDYAASLPEDDVDYKMSHFVSNGDGLVVTVDSESGDVLWIQNYASPVVAFYVWQREGLRKVMHINVAVETLRYLTFMSGEVGRITKWKYPFPKETEAKSKLTPTLYVGKYSTSLYASPSMVHEGVAVVPRGSTLPLLEGPQTDGVTIGDKGECVITPSTDVKFDPGLKSKNKLNYLRNYWLLIGHHETPLSASTKMLERFPNNLPKHRENVIPADSEKKSFEEVINLVDQTSENAPTTVSRDVEEKPAHAPARPEAPVDSMLKDMATIILSTFLLIGWVAFIITYPLSMHQQQQLQHQQFQKELEKIQLLQQQQQQLPFHPPGDTAQDGELLDTSGPYSESSGTSSPSTSPRASNHSLCSGSSASKAGSSPSLEQDDGDEETSVVIVGKISFCPKDVLGHGAEGTIVYRGMFDNRDVAVKRILPECFSFADREVQLLRESDEHPNVIRYFCTEKDRQFQYIAIELCAATLQEYVEQKDFAHLGLEPITLLQQTTSGLAHLHSLNIVHRDLKPHNILISMPNAHGKIKAMISDFGLCKKLAVGRHSFSRRSGVPGTEGWIAPEMLSEDCKENPTYTVDIFSAGCVFYYVISEGSHPFGKSLQRQANILLGACSLDCLHPEKHEDVIARELIEKMIAMDPQKRPSAKHVLKHPFFWSLEKQLQFFQDVSDRIEKESLDGPIVKQLERGGRAVVKMDWRENITVPLQTDLRKFRTYKGGSVRDLLRAMRNKKHHYRELPAEVRETLGSLPDDFVCYFTSRFPHLLAHTYRAMELCSHERLFQPYYFHEPPEPQPPVTPDAL,IRE,endoplasmic reticulum to nucleus signaling 1,ERN1,Other,2020,273,IRE1,DVLGHGAEGTIVYVAVKRIFADREVQLLRESDPNVIRYFCTYIAIELCAA-TLQEYVEQHLHSLNIVHRDLKPHNILIISDFGLC,Human,,Protein kinase domain,575.0,832.0,977.0,PF00069,True
+P14616,INSRR,IRR,IRR,Insulin receptor-related protein,TK,InsR,nan,INSRR,MAVPSLWPWGACLPVIFLSLGFGLDTVEVCPSLDIRSEVAELRQLENCSVVEGHLQILLMFTATGEDFRGLSFPRLTQVTDYLLLFRVYGLESLRDLFPNLAVIRGTRLFLGYALVIFEMPHLRDVALPALGAVLRGAVRVEKNQELCHLSTIDWGLLQPAPGANHIVGNKLGEECADVCPGVLGAAGEPCAKTTFSGHTDYRCWTSSHCQRVCPCPHGMACTARGECCHTECLGGCSQPEDPRACVACRHLYFQGACLWACPPGTYQYESWRCVTAERCASLHSVPGRASTFGIHQGSCLAQCPSGFTRNSSSIFCHKCEGLCPKECKVGTKTIDSIQAAQDLVGCTHVEGSLILNLRQGYNLEPQLQHSLGLVETITGFLKIKHSFALVSLGFFKNLKLIRGDAMVDGNYTLYVLDNQNLQQLGSWVAAGLTIPVGKIYFAFNPRLCLEHIYRLEEVTGTRGRQNKAEINPRTNGDRAACQTRTLRFVSNVTEADRILLRWERYEPLEARDLLSFIVYYKESPFQNATEHVGPDACGTQSWNLLDVELPLSRTQEPGVTLASLKPWTQYAVFVRAITLTTEEDSPHQGAQSPIVYLRTLPAAPTVPQDVISTSNSSSHLLVRWKPPTQRNGNLTYYLVLWQRLAEDGDLYLNDYCHRGLRLPTSNNDPRFDGEDGDPEAEMESDCCPCQHPPPGQVLPPLEAQEASFQKKFENFLHNAITIPISPWKVTSINKSPQRDSGRHRRAAGPLRLGGNSSDFEIQEDKVPRERAVLSGLRHFTEYRIDIHACNHAAHTVGCSAATFVFARTMPHREADGIPGKVAWEASSKNSVLLRWLEPPDPNGLILKYEIKYRRLGEEATVLCVSRLRYAKFGGVHLALLPPGNYSARVRATSLAGNGSWTDSVAFYILGPEEEDAGGLHVLLTATPVGLTLLIVLAALGFFYGKKRNRTLYASVNPEYFSASDMYVPDEWEVPREQISIIRELGQGSFGMVYEGLARGLEAGEESTPVALKTVNELASPRECIEFLKEASVMKAFKCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSHLRSLRPEAENNPGLPQPALGEMIQMAGEIADGMAYLAANKFVHRDLAARNCMVSQDFTVKIGDFGMTRDVYETDYYRKGGKGLLPVRWMAPESLKDGIFTTHSDVWSFGVVLWEIVTLAEQPYQGLSNEQVLKFVMDGGVLEELEGCPLQLQELMSRCWQPNPRLRPSFTHILDSIQEELRPSFRLLSFYYSPECRGARGSLPTTDAEPDSSPTPRDCSPQNGGPGH,InsR,insulin receptor-related receptor,INSRR,TK,1802,434,IRR,RELGQGSFGMVYEVALKTVEFLKEASVMKAFK-HVVRLLGVLVIMELMTRGDLKSHLRSYLAANKFVHRDLAARNCMVIGDFGMT,Human,,Protein tyrosine and serine/threonine kinase,980.0,1245.0,1297.0,PF07714,True
+Q08881,ITK,ITK,ITK,Tyrosine-protein kinase ITK/TSK,TK,Tec,nan,ITK,MNNFILLEEQLIKKSQQKRRTSPSNFKVRFFVLTKASLAYFEDRHGKKRTLKGSIELSRIKCVEIVKSDISIPCHYKYPFQVVHDNYLLYVFAPDRESRQRWVLALKEETRNNNSLVPKYHPNFWMDGKWRCCSQLEKLATGCAQYDPTKNASKKPLPPTPEDNRRPLWEPEETVVIALYDYQTNDPQELALRRNEEYCLLDSSEIHWWRVQDRNGHEGYVPSSYLVEKSPNNLETYEWYNKSISRDKAEKLLLDTGKEGAFMVRDSRTAGTYTVSVFTKAVVSENNPCIKHYHIKETNDNPKRYYVAEKYVFDSIPLLINYHQHNGGGLVTRLRYPVCFGRQKAPVTAGLRYGKWVIDPSELTFVQEIGSGQFGLVHLGYWLNKDKVAIKTIREGAMSEEDFIEEAEVMMKLSHPKLVQLYGVCLEQAPICLVFEFMEHGCLSDYLRTQRGLFAAETLLGMCLDVCEGMAYLEEACVIHRDLAARNCLVGENQVIKVSDFGMTRFVLDDQYTSSTGTKFPVKWASPEVFSFSRYSSKSDVWSFGVLMWEVFSEGKIPYENRSNSEVVEDISTGFRLYKPRLASTHVYQIMNHCWKERPEDRPAFSRLLRQLAEIAESGL,Tec,IL2 inducible T-cell kinase,ITK,TK,2046,474,ITK,QEIGSGQFGLVHLVAIKTIDFIEEAEVMMKLSPKLVQLYGVCLVFEFMEHGCLSDYLRTYLEEACVIHRDLAARNCLVVSDFGMT,Human,,Protein tyrosine and serine/threonine kinase,363.0,612.0,620.0,PF07714,True
+P23458,JAK1,"JAK1, JAK1_b","JAK1, Domain2_JAK1",Tyrosine-protein kinase JAK1,TK,"JakB, Jak",nan,JAK1,MQYLNIKEDCNAMAFCAKMRSSKKTEVNLEAPEPGVEVIFYLSDREPLRLGSGEYTAEELCIRAAQACRISPLCHNLFALYDENTKLWYAPNRTITVDDKMSLRLHYRMRFYFTNWHGTNDNEQSVWRHSPKKQKNGYEKKKIPDATPLLDASSLEYLFAQGQYDLVKCLAPIRDPKTEQDGHDIENECLGMAVLAISHYAMMKKMQLPELPKDISYKRYIPETLNKSIRQRNLLTRMRINNVFKDFLKEFNNKTICDSSVSTHDLKVKYLATLETLTKHYGAEIFETSMLLISSENEMNWFHSNDGGNVLYYEVMVTGNLGIQWRHKPNVVSVEKEKNKLKRKKLENKHKKDEEKNKIREEWNNFSYFPEITHIVIKESVVSINKQDNKKMELKLSSHEEALSFVSLVDGYFRLTADAHHYLCTDVAPPLIVHNIQNGCHGPICTEYAINKLRQEGSEEGMYVLRWSCTDFDNILMTVTCFEKSEQVQGAQKQFKNFQIEVQKGRYSLHGSDRSFPSLGDLMSHLKKQILRTDNISFMLKRCCQPKPREISNLLVATKKAQEWQPVYPMSQLSFDRILKKDLVQGEHLGRGTRTHIYSGTLMDYKDDEGTSEEKKIKVILKVLDPSHRDISLAFFEAASMMRQVSHKHIVYLYGVCVRDVENIMVEEFVEGGPLDLFMHRKSDVLTTPWKFKVAKQLASALSYLEDKDLVHGNVCTKNLLLAREGIDSECGPFIKLSDPGIPITVLSRQECIERIPWIAPECVEDSKNLSVAADKWSFGTTLWEICYNGEIPLKDKTLIEKERFYESRCRPVTPSCKELADLMTRCMNYDPNQRPFFRAIMRDINKLEEQNPDIVSEKKPATEVDPTHFEKRFLKRIRDLGEGHFGKVELCRYDPEGDNTGEQVAVKSLKPESGGNHIADLKKEIEILRNLYHENIVKYKGICTEDGGNGIKLIMEFLPSGSLKEYLPKNKNKINLKQQLKYAVQICKGMDYLGSRQYVHRDLAARNVLVESEHQVKIGDFGLTKAIETDKEYYTVKDDRDSPVFWYAPECLMQSKFYIASDVWSFGVTLHELLTYCDSDSSPMALFLKMIGPTHGQMTVTRLVNTLKEGKRLPCPPNCPDEVYQLMRKCWEFQPSNRTSFQNLIEGFEALLK,JakA,Janus kinase 1,JAK1,TK,2047,435,JAK1,RDLGEGHFGKVELVAVKSLDLKKEIEILRNLYENIVKYKGIKLIMEFLPSGSLKEYLPKYLGSRQYVHRDLAARNVLVIGDFGLT,Human,,Protein tyrosine and serine/threonine kinase,585.0,844.0,1154.0,PF07714,True
+O60674,JAK2,"JAK2_b, JAK2","Domain2_JAK2, JAK2",Tyrosine-protein kinase JAK2,TK,"JakB, Jak",nan,JAK2,MGMACLTMTEMEGTSTSSIYQNGDISGNANSMKQIDPVLQVYLYHSLGKSEADYLTFPSGEYVAEEICIAASKACGITPVYHNMFALMSETERIWYPPNHVFHIDESTRHNVLYRIRFYFPRWYCSGSNRAYRHGISRGAEAPLLDDFVMSYLFAQWRHDFVHGWIKVPVTHETQEECLGMAVLDMMRIAKENDQTPLAIYNSISYKTFLPKCIRAKIQDYHILTRKRIRYRFRRFIQQFSQCKATARNLKLKYLINLETLQSAFYTEKFEVKEPGSGPSGEEIFATIIITGNGGIQWSRGKHKESETLTEQDLQLYCDFPNIIDVSIKQANQEGSNESRVVTIHKQDGKNLEIELSSLREALSFVSLIDGYYRLTADAHHYLCKEVAPPAVLENIQSNCHGPISMDFAISKLKKAGNQTGLYVLRCSPKDFNKYFLTFAVERENVIEYKHCLITKNENEEYNLSGTKKNFSSLKDLLNCYQMETVRSDNIIFQFTKCCPPKPKDKSNLLVFRTNGVSDVPTSPTLQRPTHMNQMVFHKIRNEDLIFNESLGQGTFTKIFKGVRREVGDYGQLHETEVLLKVLDKAHRNYSESFFEAASMMSKLSHKHLVLNYGVCVCGDENILVQEFVKFGSLDTYLKKNKNCINILWKLEVAKQLAWAMHFLEENTLIHGNVCAKNILLIREEDRKTGNPPFIKLSDPGISITVLPKDILQERIPWVPPECIENPKNLNLATDKWSFGTTLWEICSGGDKPLSALDSQRKLQFYEDRHQLPAPKWAELANLINNCMDYEPDFRPSFRAIIRDLNSLFTPDYELLTENDMLPNMRIGALGFSGAFEDRDPTQFEERHLKFLQQLGKGNFGSVEMCRYDPLQDNTGEVVAVKKLQHSTEEHLRDFEREIEILKSLQHDNIVKYKGVCYSAGRRNLKLIMEYLPYGSLRDYLQKHKERIDHIKLLQYTSQICKGMEYLGTKRYIHRDLATRNILVENENRVKIGDFGLTKVLPQDKEYYKVKEPGESPIFWYAPESLTESKFSVASDVWSFGVVLYELFTYIEKSKSPPAEFMRMIGNDKQGQMIVFHLIELLKNNGRLPRPDGCPDEIYMIMTECWNNNVNQRPSFRDLALRVDQIRDNMAG,JakB,Janus kinase 2 (2nd domain),JAK2-b,TK,2048,439,JAK2-b,ESLGQGTFTKIFKVLLKVLESFFEAASMMSKLKHLVLNYGVILVQEFVKFGSLDTYLKKFLEENTLIHGNVCAKNILLTGNPPFI,Human,,Protein tyrosine and serine/threonine kinase,546.0,805.0,1132.0,PF07714,True
+P52333,JAK3,"JAK3_b, JAK3","JAK3, Domain2_JAK3",Tyrosine-protein kinase JAK3,TK,"JakB, Jak",nan,JAK3,MAPPSEETPLIPQRSCSLLSTEAGALHVLLPARGPGPPQRLSFSFGDHLAEDLCVQAAKASGILPVYHSLFALATEDLSCWFPPSHIFSVEDASTQVLLYRIRFYFPNWFGLEKCHRFGLRKDLASAILDLPVLEHLFAQHRSDLVSGRLPVGLSLKEQGECLSLAVLDLARMAREQAQRPGELLKTVSYKACLPPSLRDLIQGLSFVTRRRIRRTVRRALRRVAACQADRHSLMAKYIMDLERLDPAGAAETFHVGLPGALGGHDGLGLLRVAGDGGIAWTQGEQEVLQPFCDFPEIVDISIKQAPRVGPAGEHRLVTVTRTDNQILEAEFPGLPEALSFVALVDGYFRLTTDSQHFFCKEVAPPRLLEEVAEQCHGPITLDFAINKLKTGGSRPGSYVLRRSPQDFDSFLLTVCVQNPLGPDYKGCLIRRSPTGTFLLVGLSRPHSSLRELLATCWDGGLHVDGVAVTLTSCCIPRPKEKSNLIVVQRGHSPPTSSLVQPQSQYQLSQMTFHKIPADSLEWHENLGHGSFTKIYRGCRHEVVDGEARKTEVLLKVMDAKHKNCMESFLEAASLMSQVSYRHLVLLHGVCMAGDSTMVQEFVHLGAIDMYLRKRGHLVPASWKLQVVKQLAYALNYLEDKGLPHGNVSARKVLLAREGADGSPPFIKLSDPGVSPAVLSLEMLTDRIPWVAPECLREAQTLSLEADKWGFGATVWEVFSGVTMPISALDPAKKLQFYEDRQQLPAPKWTELALLIQQCMAYEPVQRPSFRAVIRDLNSLISSDYELLSDPTPGALAPRDGLWNGAQLYACQDPTIFEERHLKYISQLGKGNFGSVELCRYDPLGDNTGALVAVKQLQHSGPDQQRDFQREIQILKALHSDFIVKYRGVSYGPGRQSLRLVMEYLPSGCLRDFLQRHRARLDASRLLLYSSQICKGMEYLGSRRCVHRDLAARNILVESEAHVKIADFGLAKLLPLDKDYYVVREPGQSPIFWYAPESLSDNIFSRQSDVWSFGVVLYELFTYCDKSCSPSAEFLRMMGCERDVPALCRLLELLEEGQRLPAPPACPAEVHELMKLCWAPSPQDRPSFSALGPQLDMLWSGSRGCETHAFTAHPEGKHHSLSFS,JakA,Janus kinase 3,JAK3,TK,2049,437,JAK3,SQLGKGNFGSVELVAVKQLDFQREIQILKALHDFIVKYRGVRLVMEYLPSGCLRDFLQRYLGSRRCVHRDLAARNILVIADFGLA,Human,,Protein tyrosine and serine/threonine kinase,521.0,777.0,1124.0,PF07714,True
+P45983,MAPK8,JNK1,JNK1,Mitogen-activated protein kinase 8,CMGC,MAPK,JNK,MAPK8,MSRSKRDNNFYSVEIGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAILERNVAIKKLSRPFQNQTHAKRAYRELVLMKCVNHKNIIGLLNVFTPQKSLEEFQDVYIVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTAGTSFMMTPYVVTRYYRAPEVILGMGYKENVDLWSVGCIMGEMVCHKILFPGRDYIDQWNKVIEQLGTPCPEFMKKLQPTVRTYVENRPKYAGYSFEKLFPDVLFPADSEHNKLKASQARDLLSKMLVIDASKRISVDEALQHPYINVWYDPSEAEAPPPKIPDKQLDEREHTIEEWKELIYKEVMDLEERTKNGVIRGQPSPLGAAVINGSQHPSSSSSVNDVSSMSTDPTLASDTDSSLEAAAGPLGCCR,MAPK,mitogen-activated protein kinase 8,MAPK8,CMGC,1496,245,JNK1,KPIGSGAQGIVCAVAIKKLRAYRELVLMKCVNKNIIGLLNVYIVMELMD-ANLCQVIQMHLHSAGIIHRDLKPSNIVVILDFGLA,Human,JNK,Protein kinase domain,26.0,321.0,427.0,PF00069,True
+P45984,MAPK9,JNK2,JNK2,Mitogen-activated protein kinase 9,CMGC,MAPK,JNK,MAPK9,MSDSKCDSQFYSVQVADSTFTVLKRYQQLKPIGSGAQGIVCAAFDTVLGINVAVKKLSRPFQNQTHAKRAYRELVLLKCVNHKNIISLLNVFTPQKTLEEFQDVYLVMELMDANLCQVIHMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTACTNFMMTPYVVTRYYRAPEVILGMGYKENVDIWSVGCIMGELVKGCVIFQGTDHIDQWNKVIEQLGTPSAEFMKKLQPTVRNYVENRPKYPGIKFEELFPDWIFPSESERDKIKTSQARDLLSKMLVIDPDKRISVDEALRHPYITVWYDPAEAEAPPPQIYDAQLEEREHAIEEWKELIYKEVMDWEERSKNGVVKDQPSDAAVSSNATPSQSSSINDISSMSTEQTLASDTDSSLDASTGPLEGCR,MAPK,mitogen-activated protein kinase 9,MAPK9,CMGC,1497,246,JNK2,KPIGSGAQGIVCAVAVKKLRAYRELVLLKCVNKNIISLLNVYLVMELMD-ANLCQVIHMHLHSAGIIHRDLKPSNIVVILDFGLA,Human,JNK,Protein kinase domain,26.0,321.0,424.0,PF00069,True
+P53779,MAPK10,JNK3,JNK3,Mitogen-activated protein kinase 10,CMGC,MAPK,JNK,MAPK10,MSLHFLYYCSEPTLDVKIAFCQGFDKQVDVSYIAKHYNMSKSKVDNQFYSVEVGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAVLDRNVAIKKLSRPFQNQTHAKRAYRELVLMKCVNHKNIISLLNVFTPQKTLEEFQDVYLVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTAGTSFMMTPYVVTRYYRAPEVILGMGYKENVDIWSVGCIMGEMVRHKILFPGRDYIDQWNKVIEQLGTPCPEFMKKLQPTVRNYVENRPKYAGLTFPKLFPDSLFPADSEHNKLKASQARDLLSKMLVIDPAKRISVDDALQHPYINVWYDPAEVEAPPPQIYDKQLDEREHTIEEWKELIYKEVMNSEEKTKNGVVKGQPSPSGAAVNSSESLPPSSSVNDISSMSTDQTLASDTDSSLEASAGPLGCCR,MAPK,mitogen-activated protein kinase 10,MAPK10,CMGC,1498,247,JNK3,KPIGSGAQGIVCAVAIKKLRAYRELVLMKCVNKNIISLLNVYLVMELMD-ANLCQVIQMHLHSAGIIHRDLKPSNIVVILDFGLA,Human,JNK,Protein kinase domain,64.0,359.0,464.0,PF00069,True
+Q9Y4K4,MAP4K5,KHS1,KHS1,Mitogen-activated protein kinase kinase kinase kinase 5,STE,STE20,KHS,MAP4K5,MEAPLRPAADILRRNPQQDYELVQRVGSGTYGDVYKARNVHTGELAAVKIIKLEPGDDFSLIQQEIFMVKECKHCNIVAYFGSYLSREKLWICMEYCGGGSLQDIYHVTGPLSELQIAYVCRETLQGLAYLHTKGKMHRDIKGANILLTDHGDVKLADFGVAAKITATIAKRKSFIGTPYWMAPEVAAVEKNGGYNQLCDIWAVGITAIELGELQPPMFDLHPMRALFLMSKSNFQPPKLKDKTKWSSTFHNFVKIALTKNPKKRPTAERLLTHTFVAQPGLSRALAVELLDKVNNPDNHAHYTEADDDDFEPHAIIRHTIRSTNRNARAERTASEINFDKLQFEPPLRKETEARDEMGLSSDPNFMLQWNPFVDGANTGKSTSKRAIPPPLPPKPRISSYPEDNFPDEEKASTIKHCPDSESRAPQILRRQSSPSCGPVAETSSIGNGDGISKLMSENTEGSAQAPQLPRKKDKRDFPKPAINGLPPTPKVLMGACFSKVFDGCPLKINCATSWIHPDTKDQYIIFGTEDGIYTLNLNELHEATMEQLFPRKCTWLYVINNTLMSLSEGKTFQLYSHNLIALFEHAKKPGLAAHIQTHRFPDRILPRKFALTTKIPDTKGCHKCCIVRNPYTGHKYLCGALQSGIVLLQWYEPMQKFMLIKHFDFPLPSPLNVFEMLVIPEQEYPMVCVAISKGTESNQVVQFETINLNSASSWFTEIGAGSQQLDSIHVTQLERDTVLVCLDKFVKIVNLQGKLKSSKKLASELSFDFRIESVVCLQDSVLAFWKHGMQGKSFKSDEVTQEISDETRVFRLLGSDRVVVLESRPTENPTAHSNLYILAGHENSY,STE20,mitogen-activated protein kinase kinase kinase kinase 5,MAP4K5,STE,2089,357,KHS1,QRVGSGTYGDVYKAAVKIILIQQEIFMVKECKCNIVAYFGSWICMEYCGGGSLQDIYHVYLHTKGKMHRDIKGANILLLADFGVA,Human,KHS,Protein kinase domain,20.0,277.0,846.0,PF00069,True
+Q14164,IKBKE,IKKe,IKKe,Inhibitor of nuclear factor kappa-B kinase subunit epsilon,Other,IKK,nan,IKBKE,MQSTANYLWHTDDLLGQGATASVYKARNKKSGELVAVKVFNTTSYLRPREVQVREFEVLRKLNHQNIVKLFAVEETGGSRQKVLVMEYCSSGSLLSVLESPENAFGLPEDEFLVVLRCVVAGMNHLRENGIVHRDIKPGNIMRLVGEEGQSIYKLTDFGAARELDDDEKFVSVYGTEEYLHPDMYERAVLRKPQQKAFGVTVDLWSIGVTLYHAATGSLPFIPFGGPRRNKEIMYRITTEKPAGAIAGAQRRENGPLEWSYTLPITCQLSLGLQSQLVPILANILEVEQAKCWGFDQFFAETSDILQRVVVHVFSLSQAVLHHIYIHAHNTIAIFQEAVHKQTSVAPRHQEYLFEGHLCVLEPSVSAQHIAHTTASSPLTLFSTAIPKGLAFRDPALDVPKFVPKVDLQADYNTAKGVLGAGYQALRLARALLDGQELMFRGLHWVMEVLQATCRRTLEVARTSLLYLSSSLGTERFSSVAGTPEIQELKAAAELRSRLRTLAEVLSRCSQNITETQESLSSLNRELVKSRDQVHEDRSIQQIQCCLDKMNFIYKQFKKSRMRPGLGYNEEQIHKLDKVNFSHLAKRLLQVFQEECVQKYQASLVTHGKRMRVVHETRNHLRLVGCSVAACNTEAQGVQESLSKLLEELSHQLLQDRAKGAQASPPPIAPYPSPTRKDLLLHMQELCEGMKLLASDLLDNNRIIERLNRVPAPPDV,IKK,"inhibitor of kappa light polypeptide gene enhancer in B-cells, kinase epsilon",IKBKE,Other,2040,271,IKKe,DLLGQGATASVYKVAVKVFVQVREFEVLRKLNQNIVKLFAVVLVMEYCSSGSLLSVLESHLRENGIVHRDIKPGNIMRLTDFGAA,Human,,Protein kinase domain,10.0,223.0,716.0,PF00069,True
+O60285,NUAK1,NuaK1,NuaK1,NUAK family SNF1-like kinase 1,CAMK,CAMKL,NuaK,NUAK1,MEGAAAPVAGDRPDLGLGAPGSPREAVAGATAALEPRKPHGVKRHHHKHNLKHRYELQETLGKGTYGKVKRATERFSGRVVAIKSIRKDKIKDEQDMVHIRREIEIMSSLNHPHIISIYEVFENKDKIVIIMEYASKGELYDYISERRRLSERETRHFFRQIVSAVHYCHKNGVVHRDLKLENILLDDNCNIKIADFGLSNLYQKDKFLQTFCGSPLYASPEIVNGRPYRGPEVDSWALGVLLYTLVYGTMPFDGFDHKNLIRQISSGEYREPTQPSDARGLIRWMLMVNPDRRATIEDIANHWWVNWGYKSSVCDCDALHDSESPLLARIIDWHHRSTGLQADTEAKMKGLAKPTTSEVMLERQRSLKKSKKENDFAQSGQDAVPESPSKLSSKRPKGILKKRSNSEHRSHSTGFIEGVVGPALPSTFKMEQDLCRTGVLLPSSPEAEVPGKLSPKQSATMPKKGILKKTQQRESGYYSSPERSESSELLDSNDVMGSSIPSPSPPDPARVTSHSLSCRRKGILKHSSKYSAGTMDPALVSPEMPTLESLSEPGVPAEGLSRSYSRPSSVISDDSVLSSDSFDLLDLQENRPARQRIRSCVSAENFLQIQDFEGLQNRPRPQYLKRYRNRLADSSFSLLTDMDDVTQVYKQALEICSKLN,CAMKL,"NUAK family, SNF1-like kinase, 1",NUAK1,CAMK,2129,130,NuaK1,ETLGKGTYGKVKRVAIKSIHIRREIEIMSSLNPHIISIYEVVIIMEYASKGELYDYISEYCHKNGVVHRDLKLENILLIADFGLS,Human,NuaK,Protein kinase domain,55.0,306.0,661.0,PF00069,True
+O60307,MAST3,MAST3,MAST3,Microtubule-associated serine/threonine-protein kinase 3,AGC,MAST,nan,MAST3,MDESSLLRRRGLQKELSLPRRGRGCRSGNRKSLVVGTPSPTLSRPLSPLSVPTAGSSPLDSPRNFSAASALNFPFARRADGRRWSLASLPSSGYGTNTPSSTLSSSSSSRERLHQLPFQPTPDELHFLSKHFRSSENVLDEEGGRSPRLRPRSRSLSPGRATGTFDNEIVMMNHVYRERFPKATAQMEGRLQEFLTAYAPGARLALADGVLGFIHHQIVELARDCLAKSGENLVTSRYFLEMQEKLERLLQDAHERSDSEEVSFIVQLVRKLLIIISRPARLLECLEFDPEEFYHLLEAAEGHAREGQGIKTDLPQYIIGQLGLAKDPLEEMVPLSHLEEEQPPAPESPESRALVGQSRRKPCESDFETIKLISNGAYGAVYLVRHRDTRQRFAIKKINKQNLILRNQIQQVFVERDILTFAENPFVVSMFCSFETRRHLCMVMEYVEGGDCATLLKNMGPLPVDMARLYFAETVLALEYLHNYGIVHRDLKPDNLLITSLGHIKLTDFGLSKIGLMSMATNLYEGHIEKDAREFIDKQVCGTPEYIAPEVIFRQGYGKPVDWWAMGVVLYEFLVGCVPFFGDTPEELFGQVVSDEIMWPEGDEALPADAQDLITRLLRQSPLDRLGTGGTHEVKQHPFFLALDWAGLLRHKAEFVPQLEAEDDTSYFDTRSERYRHLGSEDDETNDEESSTEIPQFSSCSHRFSKVYSSSEFLAVQPTPTFAERSFSEDREEGWERSEVDYGRRLSADIRLRSWTSSGSSCQSSSSQPERGPSPSLLNTISLDTMPKFAFSSEDEGVGPGPAGPKRPVFILGEPDPPPAATPVMPKPSSLSADTAALSHARLRSNSIGARHSTPRPLDAGRGRRLGGPRDPAPEKSRASSSGGSGGGSGGRVPKSASVSALSLIITADDGSGGPLMSPLSPRSLSSNPSSRDSSPSRDPSPVCGSLRPPIVIHSSGKKYGFSLRAIRVYMGDSDVYTVHHVVWSVEDGSPAQEAGLRAGDLITHINGESVLGLVHMDVVELLLKSGNKISLRTTALENTSIKVGPARKNVAKGRMARRSKRSRRRETQDRRKSLFKKISKQTSVLHTSRSFSSGLHHSLSSSESLPGSPTHSLSPSPTTPCRSPAPDVPADTTASPPSASPSSSSPASPAAAGHTRPSSLHGLAAKLGPPRPKTGRRKSTSSIPPSPLACPPISAPPPRSPSPLPGHPPAPARSPRLRRGQSADKLGTGERLDGEAGRRTRGPEAELVVMRRLHLSERRDSFKKQEAVQEVSFDEPQEEATGLPTSVPQIAVEGEEAVPVALGPTGRD,MAST,microtubule associated serine/threonine kinase 3,MAST3,AGC,1512,19,MAST3,KLISNGAYGAVYLFAIKKIQVFVERDILTFAEPFVVSMFCSCMVMEYVEGGDCATLLKNYLHNYGIVHRDLKPDNLLILTDFGLS,Human,MAST,Protein kinase domain,368.0,640.0,1309.0,PF00069,True
+Q9NRP7,STK36,Fused,Fused,Serine/threonine-protein kinase 36,Other,ULK,nan,STK36,MEKYHVLEMIGEGSFGRVYKGRRKYSAQVVALKFIPKLGRSEKELRNLQREIEIMRGLRHPNIVHMLDSFETDKEVVVVTDYAEGELFQILEDDGKLPEDQVQAIAAQLVSALYYLHSHRILHRDMKPQNILLAKGGGIKLCDFGFARAMSTNTMVLTSIKGTPLYMSPELVEERPYDHTADLWSVGCILYELAVGTPPFYATSIFQLVSLILKDPVRWPSTISPCFKNFLQGLLTKDPRQRLSWPDLLYHPFIAGHVTIITEPAGPDLGTPFTSRLPPELQVLKDEQAHRLAPKGNQSRILTQAYKRMAEEAMQKKHQNTGPALEQEDKTSKVAPGTAPLPRLGATPQESSLLAGILASELKSSWAKSGTGEVPSAPRENRTTPDCERAFPEERPEVLGQRSTDVVDLENEEPDSDNEWQHLLETTEPVPIQLKAPLTLLCNPDFCQRIQSQLHEAGGQILKGILEGASHILPAFRVLSSLLSSCSDSVALYSFCREAGLPGLLLSLLRHSQESNSLQQQSWYGTFLQDLMAVIQAYFACTFNLERSQTSDSLQVFQEAANLFLDLLGKLLAQPDDSEQTLRRDSLMCFTVLCEAMDGNSRAISKAFYSSLLTTQQVVLDGLLHGLTVPQLPVHTPQGAPQVSQPLREQSEDIPGAISSALAAICTAPVGLPDCWDAKEQVCWHLANQLTEDSSQLRPSLISGLQHPILCLHLLKVLYSCCLVSEGLCRLLGQEPLALESLFMLIQGKVKVVDWEESTEVTLYFLSLLVFRLQNLPCGMEKLGSDVATLFTHSHVVSLVSAAACLLGQLGQQGVTFDLQPMEWMAAATHALSAPAEVRLTPPGSCGFYDGLLILLLQLLTEQGKASLIRDMSSSEMWTVLWHRFSMVLRLPEEASAQEGELSLSSPPSPEPDWTLISPQGMAALLSLAMATFTQEPQLCLSCLSQHGSILMSILKHLLCPSFLNQLRQAPHGSEFLPVVVLSVCQLLCFPFALDMDADLLIGVLADLRDSEVAAHLLQVCCYHLPLMQVELPISLLTRLALMDPTSLNQFVNTVSASPRTIVSFLSVALLSDQPLLTSDLLSLLAHTARVLSPSHLSFIQELLAGSDESYRPLRSLLGHPENSVRAHTYRLLGHLLQHSMALRGALQSQSGLLSLLLLGLGDKDPVVRCSASFAVGNAAYQAGPLGPALAAAVPSMTQLLGDPQAGIRRNVASALGNLGPEGLGEELLQCEVPQRLLEMACGDPQPNVKEAALIALRSLQQEPGIHQVLVSLGASEKLSLLSLGNQSLPHSSPRPASAKHCRKLIHLLRPAHSM,ULK,serine/threonine kinase 36,STK36,Other,2223,327,Fused,EMIGEGSFGRVYKVALKFINLQREIEIMRGLRPNIVHMLDSVVVTDYAE-GELFQILEDYLHSHRILHRDMKPQNILLLCDFGFA,Human,Fused,Protein kinase domain,4.0,254.0,1315.0,PF00069,True
+Q86V86,PIM3,PIM3,PIM3,Serine/threonine-protein kinase pim-3,CAMK,PIM,nan,PIM3,MLLSKFGSLAHLCGPGGVDHLPVKILQPAKADKESFEKAYQVGAVLGSGGFGTVYAGSRIADGLPVAVKHVVKERVTEWGSLGGATVPLEVVLLRKVGAAGGARGVIRLLDWFERPDGFLLVLERPEPAQDLFDFITERGALDEPLARRFFAQVLAAVRHCHSCGVVHRDIKDENLLVDLRSGELKLIDFGSGALLKDTVYTDFDGTRVYSPPEWIRYHRYHGRSATVWSLGVLLYDMVCGDIPFEQDEEILRGRLLFRRRVSPECQQLIRWCLSLRPSERPSLDQIAAHPWMLGADGGVPESCDLRLCTLDPDDVASTTSSSESL,PIM,"Pim-3 proto-oncogene, serine/threonine kinase",PIM3,CAMK,2160,162,PIM3,AVLGSGGFGTVYAVAVKHVTVPLEVVLLRKVGRGVIRLLDWLLVLERPEAQDLFDFITEHCHSCGVVHRDIKDENLLVLIDFGSG,Human,,Protein kinase domain,40.0,293.0,326.0,PF00069,True
+P10721,KIT,KIT,KIT,Mast/stem cell growth factor receptor Kit,TK,PDGFR,nan,KIT,MRGARGAWDFLCVLLLLLRVQTGSSQPSVSPGEPSPPSIHPGKSDLIVRVGDEIRLLCTDPGFVKWTFEILDETNENKQNEWITEKAEATNTGKYTCTNKHGLSNSIYVFVRDPAKLFLVDRSLYGKEDNDTLVRCPLTDPEVTNYSLKGCQGKPLPKDLRFIPDPKAGIMIKSVKRAYHRLCLHCSVDQEGKSVLSEKFILKVRPAFKAVPVVSVSKASYLLREGEEFTVTCTIKDVSSSVYSTWKRENSQTKLQEKYNSWHHGDFNYERQATLTISSARVNDSGVFMCYANNTFGSANVTTTLEVVDKGFINIFPMINTTVFVNDGENVDLIVEYEAFPKPEHQQWIYMNRTFTDKWEDYPKSENESNIRYVSELHLTRLKGTEGGTYTFLVSNSDVNAAIAFNVYVNTKPEILTYDRLVNGMLQCVAAGFPEPTIDWYFCPGTEQRCSASVLPVDVQTLNSSGPPFGKLVVQSSIDSSAFKHNGTVECKAYNDVGKTSAYFNFAFKGNNKEQIHPHTLFTPLLIGFVIVAGMMCIIVMILTYKYLQKPMYEVQWKVVEEINGNNYVYIDPTQLPYDHKWEFPRNRLSFGKTLGAGAFGKVVEATAYGLIKSDAAMTVAVKMLKPSAHLTEREALMSELKVLSYLGNHMNIVNLLGACTIGGPTLVITEYCCYGDLLNFLRRKRDSFICSKQEDHAEAALYKNLLHSKESSCSDSTNEYMDMKPGVSYVVPTKADKRRSVRIGSYIERDVTPAIMEDDELALDLEDLLSFSYQVAKGMAFLASKNCIHRDLAARNILLTHGRITKICDFGLARDIKNDSNYVVKGNARLPVKWMAPESIFNCVYTFESDVWSYGIFLWELFSLGSSPYPGMPVDSKFYKMIKEGFRMLSPEHAPAEMYDIMKTCWDADPLKRPTFKQIVQLIEKQISESTNHIYSNLANCSPNRQKPVVDHSVRINSVGSTASSSQPLLVHDDV,PDGFR,KIT proto-oncogene receptor tyrosine kinase,KIT,TK,1805,451,KIT,KTLGAGAFGKVVEVAVKMLALMSELKVLSYLGMNIVNLLGALVITEYCCYGDLLNFLRRFLASKNCIHRDLAARNILLICDFGLA,Human,,Protein tyrosine and serine/threonine kinase,590.0,922.0,976.0,PF07714,True
+Q92772,CDKL2,CDKL2,CDKL2,Cyclin-dependent kinase-like 2,CMGC,CDKL,nan,CDKL2,MEKYENLGLVGEGSYGMVMKCRNKDTGRIVAIKKFLESDDDKMVKKIAMREIKLLKQLRHENLVNLLEVCKKKKRWYLVFEFVDHTILDDLELFPNGLDYQVVQKYLFQIINGIGFCHSHNIIHRDIKPENILVSQSGVVKLCDFGFARTLAAPGEVYTDYVATRWYRAPELLVGDVKYGKAVDVWAIGCLVTEMFMGEPLFPGDSDIDQLYHIMMCLGNLIPRHQELFNKNPVFAGVRLPEIKEREPLERRYPKLSEVVIDLAKKCLHIDPDKRPFCAELLHHDFFQMDGFAERFSQELQLKVQKDARNVSLSKKSQNRKKEKEKDDSLVEERKTLVVQDTNADPKIKDYKLFKIKGSKIDGEKAEKGNRASNASCLHDSRTSHNKIVPSTSLKDCSNVSVDHTRNPSVAIPPLTHNLSAVAPSINSGMGTETIPIQGYRVDEKTKKCSIPFVKPNRHSPSGIYNINVTTLVSGPPLSDDSGADLPQMEHQH,CDKL,cyclin dependent kinase like 2,CDKL2,CMGC,1983,218,CDKL2,GLVGEGSYGMVMKVAIKKFIAMREIKLLKQLRENLVNLLEVYLVFEFVD-HTILDDLELFCHSHNIIHRDIKPENILVLCDFGFA,Human,,Protein kinase domain,4.0,287.0,493.0,PF00069,True
+Q00532,CDKL1,CDKL1,CDKL1,Cyclin-dependent kinase-like 1,CMGC,CDKL,nan,CDKL1,MEKYEKIGKIGEGSYGVVFKCRNRDTGQIVAIKKFLESEDDPVIKKIALREIRMLKQLKHPNLVNLLEVFRRKRRLHLVFEYCDHTVLHELDRYQRGVPEHLVKSITWQTLQAVNFCHKHNCIHRDVKPENILITKHSVIKLCDFGFARLLTGPSDYYTDYVATRWYRSPELLVGDTQYGPPVDVWAIGCVFAELLSGVPLWPGKSDVDQLYLIRKTLGDLIPRHQQVFSTNQYFSGVKIPDPEDMEPLELKFPNISYPALGLLKGCLHMDPTQRLTCEQLLHHPYFENIREIEDLAKEHNKPTRKTLRKSRKHHCFTETSKLQYLPQLTGSSILPALDNKKYYCDTKKLNYRFPNI,CDKL,cyclin dependent kinase like 1,CDKL1,CMGC,1982,217,CDKL1,GKIGEGSYGVVFKVAIKKFIALREIRMLKQLKPNLVNLLEVHLVFEYCD-HTVLHELDRFCHKHNCIHRDVKPENILILCDFGFA,Human,,Protein kinase domain,4.0,287.0,357.0,PF00069,True
+Q8IVT5,KSR1,KSR1,KSR1,Kinase suppressor of Ras 1,TKL,RAF,KSR,KSR1,MDRAALRAAAMGEKKEGGGGGDAAAAEGGAGAAASRALQQCGQLQKLIDISIGSLRGLRTKCAVSNDLTQQEIRTLEAKLVRYICKQRQCKLSVAPGERTPELNSYPRFSDWLYTFNVRPEVVQEIPRDLTLDALLEMNEAKVKETLRRCGASGDECGRLQYALTCLRKVTGLGGEHKEDSSWSSLDARRESGSGPSTDTLSAASLPWPPGSSQLGRAGNSAQGPRSISVSALPASDSPTPSFSEGLSDTCIPLHASGRLTPRALHSFITPPTTPQLRRHTKLKPPRTPPPPSRKVFQLLPSFPTLTRSKSHESQLGNRIDDVSSMRFDLSHGSPQMVRRDIGLSVTHRFSTKSWLSQVCHVCQKSMIFGVKCKHCRLKCHNKCTKEAPACRISFLPLTRLRRTESVPSDINNPVDRAAEPHFGTLPKALTKKEHPPAMNHLDSSSNPSSTTSSTPSSPAPFPTSSNPSSATTPPNPSPGQRDSRFNFPAAYFIHHRQQFIFPVPSAGHCWKCLLIAESLKENAFNISAFAHAAPLPEAADGTRLDDQPKADVLEAHEAEAEEPEAGKSEAEDDEDEVDDLPSSRRPWRGPISRKASQTSVYLQEWDIPFEQVELGEPIGQGRWGRVHRGRWHGEVAIRLLEMDGHNQDHLKLFKKEVMNYRQTRHENVVLFMGACMNPPHLAIITSFCKGRTLHSFVRDPKTSLDINKTRQIAQEIIKGMGYLHAKGIVHKDLKSKNVFYDNGKVVITDFGLFGISGVVREGRRENQLKLSHDWLCYLAPEIVREMTPGKDEDQLPFSKAADVYAFGTVWYELQARDWPLKNQAAEASIWQIGSGEGMKRVLTSVSLGKEVSEILSACWAFDLQERPSFSLLMDMLEKLPKLNRRLSHPGHFWKSADINSSKVVPRFERFGLGVLESSNPKM,RAF,Kinase suppressor of ras 1,KSR1,TKL,0,506,KSR1,EPIGQGRWGRVHRVAIRLLLFKKEVMNYRQTRENVVLFMGAAIITSFCKGRTLHSFVRDYLHAKGIVHKDLKSKNVFYITDFGLF,Human,KSR,Protein tyrosine and serine/threonine kinase,614.0,876.0,923.0,PF07714,True
+P06239,LCK,LCK,LCK,Tyrosine-protein kinase Lck,TK,Src,nan,LCK,MGCGCSSHPEDDWMENIDVCENCHYPIVPLDGKGTLLIRNGSEVRDPLVTYEGSNPPASPLQDNLVIALHSYEPSHDGDLGFEKGEQLRILEQSGEWWKAQSLTTGQEGFIPFNFVAKANSLEPEPWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSRPCQTQKPQKPWWEDEWEVPRETLKLVERLGAGQFGEVWMGYYNGHTKVAVKSLKQGSMSPDAFLAEANLMKQLQHQRLVRLYAVVTQEPIYIITEYMENGSLVDFLKTPSGIKLTINKLLDMAAQIAEGMAFIEERNYIHRDLRAANILVSDTLSCKIADFGLARLIEDNEYTAREGAKFPIKWTAPEAINYGTFTIKSDVWSFGILLTEIVTHGRIPYPGMTNPEVIQNLERGYRMVRPDNCPEELYQLMRLCWKERPEDRPTFDYLRSVLEDFFTATEGQYQPQP,Src,"LCK proto-oncogene, Src family tyrosine kinase",LCK,TK,2053,466,LCK,ERLGAGQFGEVWMVAVKSLAFLAEANLMKQLQQRLVRLYAVYIITEYMENGSLVDFLKTFIEERNYIHRDLRAANILVIADFGLA,Human,SrcB,Protein tyrosine and serine/threonine kinase,245.0,493.0,509.0,PF07714,True
+P53671,LIMK2,LIMK2,LIMK2,LIM domain kinase 2,TKL,LISK,LIMK,LIMK2,MSALAGEDVWRCPGCGDHIAPSQIWYRTVNETWHGSCFRCSECQDSLTNWYYEKDGKLYCPKDYWGKFGEFCHGCSLLMTGPFMVAGEFKYHPECFACMSCKVIIEDGDAYALVQHATLYCGKCHNEVVLAPMFERLSTESVQEQLPYSVTLISMPATTEGRRGFSVSVESACSNYATTVQVKEVNRMHISPNNRNAIHPGDRILEINGTPVRTLRVEEVEDAISQTSQTLQLLIEHDPVSQRLDQLRLEARLAPHMQNAGHPHALSTLDTKENLEGTLRRRSLRRSNSISKSPGPSSPKEPLLFSRDISRSESLRCSSSYSQQIFRPCDLIHGEVLGKGFFGQAIKVTHKATGKVMVMKELIRCDEETQKTFLTEVKVMRSLDHPNVLKFIGVLYKDKKLNLLTEYIEGGTLKDFLRSMDPFPWQQKVRFAKGIASGMAYLHSMCIIHRDLNSHNCLIKLDKTVVVADFGLSRLIVEERKRAPMEKATTKKRTLRKNDRKKRYTVVGNPYWMAPEMLNGKSYDETVDIFSFGIVLCEIIGQVYADPDCLPRTLDFGLNVKLFWEKFVPTDCPPAFFPLAAICCRLEPESRPAFSKLEDSFEALSLYLGELGIPLPAELEELDHTVSMQYGLTRDSPP,LISK,LIM domain kinase 2,LIMK2,TKL,2055,491,LIMK2,EVLGKGFFGQAIKMVMKELTFLTEVKVMRSLDPNVLKFIGVNLLTEYIEGGTLKDFLRSYLHSMCIIHRDLNSHNCLIVADFGLS,Human,LIMK,Protein tyrosine and serine/threonine kinase,334.0,599.0,638.0,PF07714,True
+Q15831,STK11,LKB1,LKB1,Serine/threonine-protein kinase STK11,CAMK,CAMKL,LKB,STK11,MEVVDPQQLGMFTEGELMSVGMDTFIHRIDSTEVIYQPRRKRAKLIGKYLMGDLLGEGSYGKVKEVLDSETLCRRAVKILKKKKLRRIPNGEANVKKEIQLLRRLRHKNVIQLVDVLYNEEKQKMYMVMEYCVCGMQEMLDSVPEKRFPVCQAHGYFCQLIDGLEYLHSQGIVHKDIKPGNLLLTTGGTLKISDLGVAEALHPFAADDTCRTSQGSPAFQPPEIANGLDTFSGFKVDIWSAGVTLYNITTGLYPFEGDNIYKLFENIGKGSYAIPGDCGPPLSDLLKGMLEYEPAKRFSIRQIRQHSWFRKKHPPAEAPVPIPPSPDTKDRWRSMTVVPYLEDLHGADEDEDLFDIEDDIIYTQDFTVPGQVPEEEASHNGQRRGLPKAVCMNGTEAAQLSTKSRAEGRAPNPARKACSASSKIRRLSACKQQ,CAMKL,serine/threonine kinase 11,STK11,CAMK,2212,123,LKB1,DLLGEGSYGKVKERAVKILNVKKEIQLLRRLRKNVIQLVDVYMVMEYCVCGMQEMLDSVYLHSQGIVHKDIKPGNLLLISDLGVA,Human,LKB,Protein kinase domain,52.0,309.0,433.0,PF00069,True
+P29376,LTK,LTK,LTK,Leukocyte tyrosine kinase receptor,TK,ALK,nan,LTK,MGCWGQLLVWFGAAGAILCSSPGSQETFLRSSPLPLASPSPRDPKVSAPPSILEPASPLNSPGTEGSWLFSTCGASGRHGPTQTQCDGAYAGTSVVVTVGAAGQLRGVQLWRVPGPGQYLISAYGAAGGKGAKNHLSRAHGVFVSAIFSLGLGESLYILVGQQGEDACPGGSPESQLVCLGESRAVEEHAAMDGSEGVPGSRRWAGGGGGGGGATYVFRVRAGELEPLLVAAGGGGRAYLRPRDRGRTQASPEKLENRSEAPGSGGRGGAAGGGGGWTSRAPSPQAGRSLQEGAEGGQGCSEAWATLGWAAAGGFGGGGGACTAGGGGGGYRGGDASETDNLWADGEDGVSFIHPSSELFLQPLAVTENHGEVEIRRHLNCSHCPLRDCQWQAELQLAECLCPEGMELAVDNVTCMDLHKPPGPLVLMVAVVATSTLSLLMVCGVLILVKQKKWQGLQEMRLPSPELELSKLRTSAIRTAPNPYYCQVGLGPAQSWPLPPGVTEVSPANVTLLRALGHGAFGEVYEGLVIGLPGDSSPLQVAIKTLPELCSPQDELDFLMEALIISKFRHQNIVRCVGLSLRATPRLILLELMSGGDMKSFLRHSRPHLGQPSPLVMRDLLQLAQDIAQGCHYLEENHFIHRDIAARNCLLSCAGPSRVAKIGDFGMARDIYRASYYRRGDRALLPVKWMPPEAFLEGIFTSKTDSWSFGVLLWEIFSLGYMPYPGRTNQEVLDFVVGGGRMDPPRGCPGPVYRIMTQCWQHEPELRPSFASILERLQYCTQDPDVLNSLLPMELGPTPEEEGTSGLGNRSLECLRPPQPQELSPEKLKSWGGSPLGPWLSSGLKPLKSRGLQPQNLWNPTYRS,ALK,leukocyte receptor tyrosine kinase,LTK,TK,1838,397,LTK,RALGHGAFGEVYEVAIKTLDFLMEALIISKFRQNIVRCVGLLILLELMSGGDMKSFLRHYLEENHFIHRDIAARNCLLIGDFGMA,Human,,Protein tyrosine and serine/threonine kinase,511.0,777.0,864.0,PF07714,True
+P07948,LYN,LYN,LYN,Tyrosine-protein kinase Lyn,TK,Src,nan,LYN,MGCIKSKGKDSLSDDGVDLKTQPVRNTERTIYVRDPTSNKQQRPVPESQLLPGQRFQTKDPEEQGDIVVALYPYDGIHPDDLSFKKGEKMKVLEEHGEWWKAKSLLTKKEGFIPSNYVAKLNTLETEEWFFKDITRKDAERQLLAPGNSAGAFLIRESETLKGSFSLSVRDFDPVHGDVIKHYKIRSLDNGGYYISPRITFPCISDMIKHYQKQADGLCRRLEKACISPKPQKPWDKDAWEIPRESIKLVKRLGAGQFGEVWMGYYNNSTKVAVKTLKPGTMSVQAFLEEANLMKTLQHDKLVRLYAVVTREEPIYIITEYMAKGSLLDFLKSDEGGKVLLPKLIDFSAQIAEGMAYIERKNYIHRDLRAANVLVSESLMCKIADFGLARVIEDNEYTAREGAKFPIKWTAPEAINFGCFTIKSDVWSFGILLYEIVTYGKIPYPGRTNADVMTALSQGYRMPRVENCPDELYDIMKMCWKEKAEERPTFDYLQSVLDDFYTATEGQYQQQP,Src,"LYN proto-oncogene, Src family tyrosine kinase",LYN,TK,2060,467,LYN,KRLGAGQFGEVWMVAVKTLAFLEEANLMKTLQDKLVRLYAVYIITEYMAKGSLLDFLKSYIERKNYIHRDLRAANVLVIADFGLA,Human,SrcB,Protein tyrosine and serine/threonine kinase,247.0,496.0,512.0,PF07714,True
+P20794,MAK,MAK,MAK,Serine/threonine-protein kinase MAK,CMGC,RCK,nan,MAK,MNRYTTMRQLGDGTYGSVLMGKSNESGELVAIKRMKRKFYSWDECMNLREVKSLKKLNHANVIKLKEVIRENDHLYFIFEYMKENLYQLMKDRNKLFPESVIRNIMYQILQGLAFIHKHGFFHRDMKPENLLCMGPELVKIADFGLARELRSQPPYTDYVSTRWYRAPEVLLRSSVYSSPIDVWAVGSIMAELYMLRPLFPGTSEVDEIFKICQVLGTPKKSDWPEGYQLASSMNFRFPQCVPINLKTLIPNASNEAIQLMTEMLNWDPKKRPTASQALKHPYFQVGQVLGPSSNHLESKQSLNKQLQPLESKPSLVEVEPKPLPDIIDQVVGQPQPKTSQQPLQPIQPPQNLSVQQPPKQQSQEKPPQTLFPSIVKNMPTKPNGTLSHKSGRRRWGQTIFKSGDSWEELEDYDFGASHSKKPSMGVFKEKRKKDSPFRLPEPVPSGSNHSTGENKSLPAVTSLKSDSELSTAPTSKQYYLKQSRYLPGVNPKKVSLIASGKEINPHTWSNQLFPKSLGPVGAELAFKRSNAGNLGSYATYNQSGYIPSFLKKEVQSAGQRIHLAPLNATASEYTWNTKTGRGQFSGRTYNPTAKNLNIVNRAQPIPSVHGRTDWVAKYGGHR,RCK,male germ cell associated kinase,MAK,CMGC,2061,253,MAK,RQLGDGTYGSVLMVAIKRMMNLREVKSLKKLNANVIKLKEVYFIFEYMK-ENLYQLMKDFIHKHGFFHRDMKPENLLCIADFGLA,Human,,Protein kinase domain,4.0,284.0,623.0,PF00069,True
+P49137,MAPKAPK2,MAPKAPK2,MAPKAPK2,MAP kinase-activated protein kinase 2,CAMK,MAPKAPK,MK2,MAPKAPK2,MLSNSQGQSPPVPFPAPAPPPQPPTPALPHPPAQPPPPPPQQFPQFHVKSGLQIKKNAIIDDYKVTSQVLGLGINGKVLQIFNKRTQEKFALKMLQDCPKARREVELHWRASQCPHIVRIVDVYENLYAGRKCLLIVMECLDGGELFSRIQDRGDQAFTEREASEIMKSIGEAIQYLHSINIAHRDVKPENLLYTSKRPNAILKLTDFGFAKETTSHNSLTTPCYTPYYVAPEVLGPEKYDKSCDMWSLGVIMYILLCGYPPFYSNHGLAISPGMKTRIRMGQYEFPNPEWSEVSEEVKMLIRNLLKTEPTQRMTITEFMNHPWIMQSTKVPQTPLHTSRVLKEDKERWEDVKEEMTSALATMRVDYEQIKIKKIEDASNPLLLKRRKKARALEAAALAH,MAPKAPK,mitogen-activated protein kinase-activated protein kinase 2,MAPKAPK2,CAMK,2094,150,MAPKAPK2,QVLGLGINGKVLQFALKMLKARREVELHWRASPHIVRIVDVLIVMECLDGGELFSRIQDYLHSINIAHRDVKPENLLYLTDFGFA,Human,MAPKA,Protein kinase domain,67.0,325.0,400.0,PF00069,True
+Q16644,MAPKAPK3,MAPKAPK3,MAPKAPK3,MAP kinase-activated protein kinase 3,CAMK,MAPKAPK,MK2,MAPKAPK3,MDGETAEEQGGPVPPPVAPGGPGLGGAPGGRREPKKYAVTDDYQLSKQVLGLGVNGKVLECFHRRTGQKCALKLLYDSPKARQEVDHHWQASGGPHIVCILDVYENMHHGKRCLLIIMECMEGGELFSRIQERGDQAFTEREAAEIMRDIGTAIQFLHSHNIAHRDVKPENLLYTSKEKDAVLKLTDFGFAKETTQNALQTPCYTPYYVAPEVLGPEKYDKSCDMWSLGVIMYILLCGFPPFYSNTGQAISPGMKRRIRLGQYGFPNPEWSEVSEDAKQLIRLLLKTDPTERLTITQFMNHPWINQSMVVPQTPLHTARVLQEDKDHWDEVKEEMTSALATMRVDYDQVKIKDLKTSNNRLLNKRRKKQAGSSSASQGCNNQ,MAPKAPK,mitogen-activated protein kinase-activated protein kinase 3,MAPKAPK3,CAMK,2095,148,MAPKAPK3,QVLGLGVNGKVLECALKLLKARQEVDHHWQASPHIVCILDVLIIMECMEGGELFSRIQEFLHSHNIAHRDVKPENLLYLTDFGFA,Human,MAPKA,Protein kinase domain,47.0,304.0,382.0,PF00069,True
+Q8IW41,MAPKAPK5,MAPKAPK5,MAPKAPK5,MAP kinase-activated protein kinase 5,CAMK,MAPKAPK,MK5,MAPKAPK5,MSEESDMDKAIKETSILEEYSINWTQKLGAGISGPVRVCVKKSTQERFALKILLDRPKARNEVRLHMMCATHPNIVQIIEVFANSVQFPHESSPRARLLIVMEMMEGGELFHRISQHRHFTEKQASQVTKQIALALRHCHLLNIAHRDLKPENLLFKDNSLDAPVKLCDFGFAKIDQGDLMTPQFTPYYVAPQVLEAQRRHQKEKSGIIPTSPTPYTYNKSCDLWSLGVIIYVMLCGYPPFYSKHHSRTIPKDMRRKIMTGSFEFPEEEWSQISEMAKDVVRKLLKVKPEERLTIEGVLDHPWLNSTEALDNVLPSAQLMMDKAVVAGIQQAHAEQLANMRIQDLKVSLKPLHSVNNPILRKRKLLGTKPKDSVYIHDHENGAEDSNVALEKLRDVIAQCILPQAGKGENEDEKLNEVMQEAWKYNRECKLLRDTLQSFSWNGRGFTDKVDRLKLAEIVKQVIEEQTTSHESQ,MAPKAPK,mitogen-activated protein kinase-activated protein kinase 5,MAPKAPK5,CAMK,2096,149,MAPKAPK5,QKLGAGISGPVRVFALKILKARNEVRLHMMCAPNIVQIIEVLIVMEMMEGGELFHRISQHCHLLNIAHRDLKPENLLFLCDFGFA,Human,MAPKA,Protein kinase domain,25.0,304.0,473.0,PF00069,True
+Q9P0L2,MARK1,MARK1,MARK1,Serine/threonine-protein kinase MARK1,CAMK,CAMKL,MARK,MARK1,MSARTPLPTVNERDTENHTSVDGYTEPHIQPTKSSSRQNIPRCRNSITSATDEQPHIGNYRLQKTIGKGNFAKVKLARHVLTGREVAVKIIDKTQLNPTSLQKLFREVRIMKILNHPNIVKLFEVIETEKTLYLVMEYASGGEVFDYLVAHGRMKEKEARAKFRQIVSAVQYCHQKYIVHRDLKAENLLLDGDMNIKIADFGFSNEFTVGNKLDTFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKKLLVLNPIKRGSLEQIMKDRWMNVGHEEEELKPYTEPDPDFNDTKRIDIMVTMGFARDEINDALINQKYDEVMATYILLGRKPPEFEGGESLSSGNLCQRSRPSSDLNNSTLQSPAHLKVQRSISANQKQRRFSDHAGPSIPPAVSYTKRPQANSVESEQKEEWDKDVARKLGSTTVGSKSEMTASPLVGPERKKSSTIPSNNVYSGGSMARRNTYVCERTTDRYVALQNGKDSSLTEMSVSSISSAGSSVASAVPSARPRHQKSMSTSGHPIKVTLPTIKDGSEAYRPGTTQRVPAASPSAHSISTATPDRTRFPRGSSSRSTFHGEQLRERRSVAYNGPPASPSHETGAFAHARRGTSTGIISKITSKFVRRDPSEGEASGRTDTSRSTSGEPKERDKEEGKDSKPRSLRFTWSMKTTSSMDPNDMMREIRKVLDANNCDYEQKERFLLFCVHGDARQDSLVQWEMEVCKLPRLSLNGVRFKRISGTSIAFKNIASKIANELKL,CAMKL,microtubule affinity regulating kinase 1,MARK1,CAMK,2097,125,MARK1,KTIGKGNFAKVKLVAVKIIKLFREVRIMKILNPNIVKLFEVYLVMEYASGGEVFDYLVAYCHQKYIVHRDLKAENLLLIADFGFS,Human,MARK,Protein kinase domain,60.0,311.0,795.0,PF00069,True
+Q6P0Q8,MAST2,MAST2,MAST2,Microtubule-associated serine/threonine-protein kinase 2,AGC,MAST,nan,MAST2,MKRSRCRDRPQPPPPDRREDGVQRAAELSQSLPPRRRAPPGRQRLEERTGPAGPEGKEQDVVTGVSPLLFRKLSNPDIFSSTGKVKLQRQLSQDDCKLWRGNLASSLSGKQLLPLSSSVHSSVGQVTWQSSGEASNLVRMRNQSLGQSAPSLTAGLKELSLPRRGSFCRTSNRKSLIVTSSTSPTLPRPHSPLHGHTGNSPLDSPRNFSPNAPAHFSFVPARRTDGRRWSLASLPSSGYGTNTPSSTVSSSCSSQEKLHQLPFQPTADELHFLTKHFSTESVPDEEGRQSPAMRPRSRSLSPGRSPVSFDSEIIMMNHVYKERFPKATAQMEERLAEFISSNTPDSVLPLADGALSFIHHQVIEMARDCLDKSRSGLITSQYFYELQDNLEKLLQDAHERSESSEVAFVMQLVKKLMIIIARPARLLECLEFDPEEFYHLLEAAEGHAKEGQGIKCDIPRYIVSQLGLTRDPLEEMAQLSSCDSPDTPETDDSIEGHGASLPSKKTPSEEDFETIKLISNGAYGAVFLVRHKSTRQRFAMKKINKQNLILRNQIQQAFVERDILTFAENPFVVSMFCSFDTKRHLCMVMEYVEGGDCATLLKNIGALPVDMVRLYFAETVLALEYLHNYGIVHRDLKPDNLLITSMGHIKLTDFGLSKIGLMSLTTNLYEGHIEKDAREFLDKQVCGTPEYIAPEVILRQGYGKPVDWWAMGIILYEFLVGCVPFFGDTPEELFGQVISDEIVWPEGDEALPPDAQDLTSKLLHQNPLERLGTGSAYEVKQHPFFTGLDWTGLLRQKAEFIPQLESEDDTSYFDTRSERYHHMDSEDEEEVSEDGCLEIRQFSSCSPRFNKVYSSMERLSLLEERRTPPPTKRSLSEEKEDHSDGLAGLKGRDRSWVIGSPEILRKRLSVSESSHTESDSSPPMTVRRRCSGLLDAPRFPEGPEEASSTLRRQPQEGIWVLTPPSGEGVSGPVTEHSGEQRPKLDEEAVGRSSGSSPAMETRGRGTSQLAEGATAKAISDLAVRRARHRLLSGDSTEKRTARPVNKVIKSASATALSLLIPSEHHTCSPLASPMSPHSQSSNPSSRDSSPSRDFLPALGSMRPPIIIHRAGKKYGFTLRAIRVYMGDSDVYTVHHMVWHVEDGGPASEAGLRQGDLITHVNGEPVHGLVHTEVVELILKSGNKVAISTTPLENTSIKVGPARKGSYKAKMARRSKRSRGKDGQESRKRSSLFRKITKQASLLHTSRSLSSLNRSLSSGESGPGSPTHSHSLSPRSPTQGYRVTPDAVHSVGGNSSQSSSPSSSVPSSPAGSGHTRPSSLHGLAPKLQRQYRSPRRKSAGSIPLSPLAHTPSPPPPTASPQRSPSPLSGHVAQAFPTKLHLSPPLGRQLSRPKSAEPPRSPLLKRVQSAEKLAAALAASEKKLATSRKHSLDLPHSELKKELPPREVSPLEVVGARSVLSGKGALPGKGVLQPAPSRALGTLRQDRAERRESLQKQEAIREVDSSEDDTEEGPENSQGAQELSLAPHPEVSQSVAPKGAGESGEEDPFPSRDPRSLGPMVPSLLTGITLGPPRMESPSGPHRRLGSPQAIEEAASSSSAGPNLGQSGATDPIPPEGCWKAQHLHTQALTALSPSTSGLTPTSSCSPPSSTSGKLSMWSWKSLIEGPDRASPSRKATMAGGLANLQDLENTTPAQPKNLSPREQGKTQPPSAPRLAHPSYEDPSQGWLWESECAQAVKEDPALSITQVPDASGDRRQDVPCRGCPLTQKSEPSLRRGQEPGGHQKHRDLALVPDELLKQT,MAST,microtubule associated serine/threonine kinase 2,MAST2,AGC,0,20,MAST2,KLISNGAYGAVFLFAMKKIQAFVERDILTFAEPFVVSMFCSCMVMEYVEGGDCATLLKNYLHNYGIVHRDLKPDNLLILTDFGLS,Human,MAST,Protein kinase domain,513.0,785.0,1798.0,PF00069,True
+Q02750,MAP2K1,MAP2K1,MAP2K1,Dual specificity mitogen-activated protein kinase kinase 1,STE,STE7,nan,MAP2K1,MPKKKPTPIQLNPAPDGSAVNGTSSAETNLEALQKKLEELELDEQQRKRLEAFLTQKQKVGELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPPDAKELELMFGCQVEGDAAETPPRPRTPGRPLSSYGMDSRPPMAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIGLNQPSTPTHAAGV,STE7,mitogen-activated protein kinase kinase 1,MAP2K1,STE,2062,383,MAP2K1,SELGAGNGGVVFKMARKLIQIIRELQVLHECNPYIVGFYGASICMEHMDGGSLDQVLKKLREKHKIMHRDVKPSNILVLCDFGVS,Human,MEK1,Protein kinase domain,68.0,361.0,393.0,PF00069,True
+P36507,MAP2K2,MAP2K2,MAP2K2,Dual specificity mitogen-activated protein kinase kinase 2,STE,STE7,nan,MAP2K2,MLARRKPVLPALTINPTIAEGPSPTSEGASEANLVDLQKKLEELELDEQQKKRLEAFLTQKAKVGELKDDDFERISELGAGNGGVVTKVQHRPSGLIMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKEAKRIPEEILGKVSIAVLRGLAYLREKHQIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMAPERLQGTHYSVQSDIWSMGLSLVELAVGRYPIPPPDAKELEAIFGRPVVDGEEGEPHSISPRPRPPGRPVSGHGMDSRPAMAIFELLDYIVNEPPPKLPNGVFTPDFQEFVNKCLIKNPAERADLKMLTNHTFIKRSEVEEVDFAGWLCKTLRLNQPGTPTRTAV,STE7,mitogen-activated protein kinase kinase 2,MAP2K2,STE,2063,384,MAP2K2,SELGAGNGGVVTKMARKLIQIIRELQVLHECNPYIVGFYGASICMEHMDGGSLDQVLKELREKHQIMHRDVKPSNILVLCDFGVS,Human,MEK1,Protein kinase domain,72.0,369.0,400.0,PF00069,True
+Q13163,MAP2K5,MAP2K5,MAP2K5,Dual specificity mitogen-activated protein kinase kinase 5,STE,STE7,nan,MAP2K5,MLWLALGPFPAMENQVLVIRIKIPNSGAVDWTVHSGPQLLFRDVLDVIGQVLPEATTTAFEYEDEDGDRITVRSDEEMKAMLSYYYSTVMEQQVNGQLIEPLQIFPRACKPPGERNIHGLKVNTRAGPSQHSSPAVSDSLPSNSLKKSSAELKKILANGQMNEQDIRYRDTLGHGNGGTVYKAYHVPSGKILAVKVILLDITLELQKQIMSELEILYKCDSSYIIGFYGAFFVENRISICTEFMDGGSLDVYRKMPEHVLGRIAVAVVKGLTYLWSLKILHRDVKPSNMLVNTRGQVKLCDFGVSTQLVNSIAKTYVGTNAYMAPERISGEQYGIHSDVWSLGISFMELALGRFPYPQIQKNQGSLMPLQLLQCIVDEDSPVLPVGEFSEPFVHFITQCMRKQPKERPAPEELMGHPFIVQFNDGNAAVVSMWVCRALEERRSQQGPP,STE7,mitogen-activated protein kinase kinase 5,MAP2K5,STE,2066,388,MAP2K5,DTLGHGNGGTVYKLAVKVIQIMSELEILYKCDSYIIGFYGASICTEFMDGGSL-DVYRKYLWSLKILHRDVKPSNMLVLCDFGVS,Human,MEK5,Protein kinase domain,170.0,419.0,448.0,PF00069,True
+P52564,MAP2K6,MAP2K6,MAP2K6,Dual specificity mitogen-activated protein kinase kinase 6,STE,STE7,nan,MAP2K6,MSQSKGKKRNPGLKIPKEAFEQPQTSSTPPRDLDSKACISIGNQNFEVKADDLEPIMELGRGAYGVVEKMRHVPSGQIMAVKRIRATVNSQEQKRLLMDLDISMRTVDCPFTVTFYGALFREGDVWICMELMDTSLDKFYKQVIDKGQTIPEDILGKIAVSIVKALEHLHSKLSVIHRDVKPSNVLINALGQVKMCDFGISGYLVDSVAKTIDAGCKPYMAPERINPELNQKGYSVKSDIWSLGITMIELAILRFPYDSWGTPFQQLKQVVEEPSPQLPADKFSAEFVDFTSQCLKKNSKERPTYPELMQHPFFTLHESKGTDVASFVKLILGD,STE7,mitogen-activated protein kinase kinase 6,MAP2K6,STE,2067,386,MAP2K6,MELGRGAYGVVEKMAVKRIRLLMDLDISMRTVPFTVTFYGAWICMELMD-TSLDKFYKQLHSKLSVIHRDVKPSNVLIMCDFGIS,Human,MEK3,Protein kinase domain,56.0,314.0,334.0,PF00069,True
+Q13233,MAP3K1,MAP3K1,MAP3K1,Mitogen-activated protein kinase kinase kinase 1,STE,STE11,nan,MAP3K1,MAAAAGNRASSSGFPGARATSPEAGGGGGALKASSAPAAAAGLLREAGSGGRERADWRRRQLRKVRSVELDQLPEQPLFLAASPPASSTSPSPEPADAAGSGTGFQPVAVPPPHGAASRGGAHLTESVAAPDSGASSPAAAEPGEKRAPAAEPSPAAAPAGREMENKETLKGLHKMDDRPEERMIREKLKATCMPAWKHEWLERRNRRGPVVVKPIPVKGDGSEMNHLAAESPGEVQASAASPASKGRRSPSPGNSPSGRTVKSESPGVRRKRVSPVPFQSGRITPPRRAPSPDGFSPYSPEETNRRVNKVMRARLYLLQQIGPNSFLIGGDSPDNKYRVFIGPQNCSCARGTFCIHLLFVMLRVFQLEPSDPMLWRKTLKNFEVESLFQKYHSRRSSRIKAPSRNTIQKFVSRMSNSHTLSSSSTSTSSSENSIKDEEEQMCPICLLGMLDEESLTVCEDGCRNKLHHHCMSIWAEECRRNREPLICPLCRSKWRSHDFYSHELSSPVDSPSSLRAAQQQTVQQQPLAGSRRNQESNFNLTHYGTQQIPPAYKDLAEPWIQVFGMELVGCLFSRNWNVREMALRRLSHDVSGALLLANGESTGNSGGSSGSSPSGGATSGSSQTSISGDVVEACCSVLSMVCADPVYKVYVAALKTLRAMLVYTPCHSLAERIKLQRLLQPVVDTILVKCADANSRTSQLSISTLLELCKGQAGELAVGREILKAGSIGIGGVDYVLNCILGNQTESNNWQELLGRLCLIDRLLLEFPAEFYPHIVSTDVSQAEPVEIRYKKLLSLLTFALQSIDNSHSMVGKLSRRIYLSSARMVTTVPHVFSKLLEMLSVSSSTHFTRMRRRLMAIADEVEIAEAIQLGVEDTLDGQQDSFLQASVPNNYLETTENSSPECTVHLEKTGKGLCATKLSASSEDISERLASISVGPSSSTTTTTTTTEQPKPMVQTKGRPHSQCLNSSPLSHHSQLMFPALSTPSSSTPSVPAGTATDVSKHRLQGFIPCRIPSASPQTQRKFSLQFHRNCPENKDSDKLSPVFTQSRPLPSSNIHRPKPSRPTPGNTSKQGDPSKNSMTLDLNSSSKCDDSFGCSSNSSNAVIPSDETVFTPVEEKCRLDVNTELNSSIEDLLEASMPSSDTTVTFKSEVAVLSPEKAENDDTYKDDVNHNQKCKEKMEAEEEEALAIAMAMSASQDALPIVPQLQVENGEDIIIIQQDTPETLPGHTKAKQPYREDTEWLKGQQIGLGAFSSCYQAQDVGTGTLMAVKQVTYVRNTSSEQEEVVEALREEIRMMSHLNHPNIIRMLGATCEKSNYNLFIEWMAGGSVAHLLSKYGAFKESVVINYTEQLLRGLSYLHENQIIHRDVKGANLLIDSTGQRLRIADFGAAARLASKGTGAGEFQGQLLGTIAFMAPEVLRGQQYGRSCDVWSVGCAIIEMACAKPPWNAEKHSNHLALIFKIASATTAPSIPSHLSPGLRDVALRCLELQPQDRPPSRELLKHPVFRTTW,STE11,"mitogen-activated protein kinase kinase kinase 1, E3 ubiquitin protein ligase",MAP3K1,STE,2069,348,MAP3K1,QQIGLGAFSSCYQMAVKQVALREEIRMMSHLNPNIIRMLGANLFIEWMAGGSVAHLLSKYLHENQIIHRDVKGANLLIIADFGAA,Human,MEKK1,Protein kinase domain,1245.0,1508.0,1512.0,PF00069,True
+Q9Y2U5,MAP3K2,MAP3K2,MAP3K2,Mitogen-activated protein kinase kinase kinase 2,STE,STE11,nan,MAP3K2,MDDQQALNSIMQDLAVLHKASRPALSLQETRKAKSSSPKKQNDVRVKFEHRGEKRILQFPRPVKLEDLRSKAKIAFGQSMDLHYTNNELVIPLTTQDDLDKAVELLDRSIHMKSLKILLVINGSTQATNLEPLPSLEDLDNTVFGAERKKRLSIIGPTSRDRSSPPPGYIPDELHQVARNGSFTSINSEGEFIPESMDQMLDPLSLSSPENSGSGSCPSLDSPLDGESYPKSRMPRAQSYPDNHQEFSDYDNPIFEKFGKGGTYPRRYHVSYHHQEYNDGRKTFPRARRTQGTSLRSPVSFSPTDHSLSTSSGSSIFTPEYDDSRIRRRGSDIDNPTLTVMDISPPSRSPRAPTNWRLGKLLGQGAFGRVYLCYDVDTGRELAVKQVQFDPDSPETSKEVNALECEIQLLKNLLHERIVQYYGCLRDPQEKTLSIFMEYMPGGSIKDQLKAYGALTENVTRKYTRQILEGVHYLHSNMIVHRDIKGANILRDSTGNVKLGDFGASKRLQTICLSGTGMKSVTGTPYWMSPEVISGEGYGRKADIWSVACTVVEMLTEKPPWAEFEAMAAIFKIATQPTNPKLPPHVSDYTRDFLKRIFVEAKLRPSADELLRHMFVHYH,STE11,mitogen-activated protein kinase kinase kinase 2,MAP3K2,STE,2077,351,MAP3K2,KLLGQGAFGRVYLLAVKQVALECEIQLLKNLLERIVQYYGCSIFMEYMPGGSIKDQLKAYLHSNMIVHRDIKGANILRLGDFGAS,Human,MEKK2,Protein kinase domain,358.0,615.0,619.0,PF00069,True
+Q99759,MAP3K3,MAP3K3,MAP3K3,Mitogen-activated protein kinase kinase kinase 3,STE,STE11,nan,MAP3K3,MDEQEALNSIMNDLVALQMNRRHRMPGYETMKNKDTGHSNRQSDVRIKFEHNGERRIIAFSRPVKYEDVEHKVTTVFGQPLDLHYMNNELSILLKNQDDLDKAIDILDRSSSMKSLRILLLSQDRNHNSSSPHSGVSRQVRIKASQSAGDINTIYQPPEPRSRHLSVSSQNPGRSSPPPGYVPERQQHIARQGSYTSINSEGEFIPETSEQCMLDPLSSAENSLSGSCQSLDRSADSPSFRKSRMSRAQSFPDNRQEYSDRETQLYDKGVKGGTYPRRYHVSVHHKDYSDGRRTFPRIRRHQGNLFTLVPSSRSLSTNGENMGLAVQYLDPRGRLRSADSENALSVQERNVPTKSPSAPINWRRGKLLGQGAFGRVYLCYDVDTGRELASKQVQFDPDSPETSKEVSALECEIQLLKNLQHERIVQYYGCLRDRAEKTLTIFMEYMPGGSVKDQLKAYGALTESVTRKYTRQILEGMSYLHSNMIVHRDIKGANILRDSAGNVKLGDFGASKRLQTICMSGTGMRSVTGTPYWMSPEVISGEGYGRKADVWSLGCTVVEMLTEKPPWAEYEAMAAIFKIATQPTNPQLPSHISEHGRDFLRRIFVEARQRPSAEELLTHHFAQLMY,STE11,mitogen-activated protein kinase kinase kinase 3,MAP3K3,STE,2078,350,MAP3K3,KLLGQGAFGRVYLLASKQVALECEIQLLKNLQERIVQYYGCTIFMEYMPGGSVKDQLKAYLHSNMIVHRDIKGANILRLGDFGAS,Human,MEKK2,Protein kinase domain,364.0,621.0,626.0,PF00069,True
+Q9Y6R4,MAP3K4,MAP3K4,MAP3K4,Mitogen-activated protein kinase kinase kinase 4,STE,STE11,nan,MAP3K4,MREAAAALVPPPAFAVTPAAAMEEPPPPPPPPPPPPEPETESEPECCLAARQEGTLGDSACKSPESDLEDFSDETNTENLYGTSPPSTPRQMKRMSTKHQRNNVGRPASRSNLKEKMNAPNQPPHKDTGKTVENVEEYSYKQEKKIRAALRTTERDRKKNVQCSFMLDSVGGSLPKKSIPDVDLNKPYLSLGCSNAKLPVSVPMPIARPARQTSRTDCPADRLKFFETLRLLLKLTSVSKKKDREQRGQENTSGFWLNRSNELIWLELQAWHAGRTINDQDFFLYTARQAIPDIINEILTFKVDYGSFAFVRDRAGFNGTSVEGQCKATPGTKIVGYSTHHEHLQRQRVSFEQVKRIMELLEYIEALYPSLQALQKDYEKYAAKDFQDRVQALCLWLNITKDLNQKLRIMGTVLGIKNLSDIGWPVFEIPSPRPSKGNEPEYEGDDTEGELKELESSTDESEEEQISDPRVPEIRQPIDNSFDIQSRDCISKKLERLESEDDSLGWGAPDWSTEAGFSRHCLTSIYRPFVDKALKQMGLRKLILRLHKLMDGSLQRARIALVKNDRPVEFSEFPDPMWGSDYVQLSRTPPSSEEKCSAVSWEELKAMDLPSFEPAFLVLCRVLLNVIHECLKLRLEQRPAGEPSLLSIKQLVRECKEVLKGGLLMKQYYQFMLQEVLEDLEKPDCNIDAFEEDLHKMLMVYFDYMRSWIQMLQQLPQASHSLKNLLEEEWNFTKEITHYIRGGEAQAGKLFCDIAGMLLKSTGSFLEFGLQESCAEFWTSADDSSASDEIRRSVIEISRALKELFHEARERASKALGFAKMLRKDLEIAAEFRLSAPVRDLLDVLKSKQYVKVQIPGLENLQMFVPDTLAEEKSIILQLLNAAAGKDCSKDSDDVLIDAYLLLTKHGDRARDSEDSWGTWEAQPVKVVPQVETVDTLRSMQVDNLLLVVMQSAHLTIQRKAFQQSIEGLMTLCQEQTSSQPVIAKALQQLKNDALELCNRISNAIDRVDHMFTSEFDAEVDESESVTLQQYYREAMIQGYNFGFEYHKEVVRLMSGEFRQKIGDKYISFARKWMNYVLTKCESGRGTRPRWATQGFDFLQAIEPAFISALPEDDFLSLQALMNECIGHVIGKPHSPVTGLYLAIHRNSPRPMKVPRCHSDPPNPHLIIPTPEGFSTRSMPSDARSHGSPAAAAAAAAAAVAASRPSPSGGDSVLPKSISSAHDTRGSSVPENDRLASIAAELQFRSLSRHSSPTEERDEPAYPRGDSSGSTRRSWELRTLISQSKDTASKLGPIEAIQKSVRLFEEKRYREMRRKNIIGQVCDTPKSYDNVMHVGLRKVTFKWQRGNKIGEGQYGKVYTCISVDTGELMAMKEIRFQPNDHKTIKETADELKIFEGIKHPNLVRYFGVELHREEMYIFMEYCDEGTLEEVSRLGLQEHVIRLYSKQITIAINVLHEHGIVHRDIKGANIFLTSSGLIKLGDFGCSVKLKNNAQTMPGEVNSTLGTAAYMAPEVITRAKGEGHGRAADIWSLGCVVIEMVTGKRPWHEYEHNFQIMYKVGMGHKPPIPERLSPEGKDFLSHCLESDPKMRWTASQLLDHSFVKVCTDEE,STE11,mitogen-activated protein kinase kinase kinase 4,MAP3K4,STE,2079,352,MAP3K4,NKIGEGQYGKVYTMAMKEIETADELKIFEGIKPNLVRYFGVYIFMEYCDEGTLEEVSRLVLHEHGIVHRDIKGANIFLLGDFGCS,Human,MEKK4,Protein kinase domain,1344.0,1601.0,1608.0,PF00069,True
+Q99683,MAP3K5,MAP3K5,MAP3K5,Mitogen-activated protein kinase kinase kinase 5,STE,STE11,nan,MAP3K5,MSTEADEGITFSVPPFAPSGFCTIPEGGICRRGGAAAVGEGEEHQLPPPPPGSFWNVESAAAPGIGCPAATSSSSATRGRGSSVGGGSRRTTVAYVINEASQGQLVVAESEALQSLREACETVGATLETLHFGKLDFGETTVLDRFYNADIAVVEMSDAFRQPSLFYHLGVRESFSMANNIILYCDTNSDSLQSLKEIICQKNTMCTGNYTFVPYMITPHNKVYCCDSSFMKGLTELMQPNFELLLGPICLPLVDRFIQLLKVAQASSSQYFRESILNDIRKARNLYTGKELAAELARIRQRVDNIEVLTADIVINLLLSYRDIQDYDSIVKLVETLEKLPTFDLASHHHVKFHYAFALNRRNLPGDRAKALDIMIPMVQSEGQVASDMYCLVGRIYKDMFLDSNFTDTESRDHGASWFKKAFESEPTLQSGINYAVLLLAAGHQFESSFELRKVGVKLSSLLGKKGNLEKLQSYWEVGFFLGASVLANDHMRVIQASEKLFKLKTPAWYLKSIVETILIYKHFVKLTTEQPVAKQELVDFWMDFLVEATKTDVTVVRFPVLILEPTKIYQPSYLSINNEVEEKTISIWHVLPDDKKGIHEWNFSASSVRGVSISKFEERCCFLYVLHNSDDFQIYFCTELHCKKFFEMVNTITEEKGRSTEEGDCESDLLEYDYEYDENGDRVVLGKGTYGIVYAGRDLSNQVRIAIKEIPERDSRYSQPLHEEIALHKHLKHKNIVQYLGSFSENGFIKIFMEQVPGGSLSALLRSKWGPLKDNEQTIGFYTKQILEGLKYLHDNQIVHRDIKGDNVLINTYSGVLKISDFGTSKRLAGINPCTETFTGTLQYMAPEIIDKGPRGYGKAADIWSLGCTIIEMATGKPPFYELGEPQAAMFKVGMFKVHPEIPESMSAEAKAFILKCFEPDPDKRACANDLLVDEFLKVSSKKKKTQPKLSALSAGSNEYLRSISLPVPVLVEDTSSSSEYGSVSPDTELKVDPFSFKTRAKSCGERDVKGIRTLFLGIPDENFEDHSAPPSPEEKDSGFFMLRKDSERRATLHRILTEDQDKIVRNLMESLAQGAEEPKLKWEHITTLIASLREFVRSTDRKIIATTLSKLKLELDFDSHGISQVQVVLFGFQDAVNKVLRNHNIKPHWMFALDSIIRKAVQTAITILVPELRPHFSLASESDTADQEDLDVEDDHEEQPSNQTVRRPQAVIEDAVATSGVSTLSSTVSHDSQSAHRSLNVQLGRMKIETNRLLEELVRKEKELQALLHRAIEEKDQEIKHLKLKSQPIEIPELPVFHLNSSGTNTEDSELTDWLRVNGADEDTISRFLAEDYTLLDVLYYVTRDDLKCLRLRGGMLCTLWKAIIDFRNKQT,STE11,mitogen-activated protein kinase kinase kinase 5,MAP3K5,STE,2080,345,MAP3K5,VVLGKGTYGIVYAIAIKEIPLHEEIALHKHLKKNIVQYLGSKIFMEQVPGGSLSALLRSYLHDNQIVHRDIKGDNVLIISDFGTS,Human,ASK,Protein kinase domain,685.0,937.0,1374.0,PF00069,True
+Q12866,MERTK,MER,MER,Tyrosine-protein kinase Mer,TK,Axl,nan,MERTK,MGPAPLPLLLGLFLPALWRRAITEAREEAKPYPLFPGPFPGSLQTDHTPLLSLPHASGYQPALMFSPTQPGRPHTGNVAIPQVTSVESKPLPPLAFKHTVGHIILSEHKGVKFNCSISVPNIYQDTTISWWKDGKELLGAHHAITQFYPDDEVTAIIASFSITSVQRSDNGSYICKMKINNEEIVSDPIYIEVQGLPHFTKQPESMNVTRNTAFNLTCQAVGPPEPVNIFWVQNSSRVNEQPEKSPSVLTVPGLTEMAVFSCEAHNDKGLTVSKGVQINIKAIPSPPTEVSIRNSTAHSILISWVPGFDGYSPFRNCSIQVKEADPLSNGSVMIFNTSALPHLYQIKQLQALANYSIGVSCMNEIGWSAVSPWILASTTEGAPSVAPLNVTVFLNESSDNVDIRWMKPPTKQQDGELVGYRISHVWQSAGISKELLEEVGQNGSRARISVQVHNATCTVRIAAVTRGGVGPFSDPVKIFIPAHGWVDYAPSSTPAPGNADPVLIIFGCFCGFILIGLILYISLAIRKRVQETKFGNAFTEEDSELVVNYIAKKSFCRRAIELTLHSLGVSEELQNKLEDVVIDRNLLILGKILGEGEFGSVMEGNLKQEDGTSLKVAVKTMKLDNSSQREIEEFLSEAACMKDFSHPNVIRLLGVCIEMSSQGIPKPMVILPFMKYGDLHTYLLYSRLETGPKHIPLQTLLKFMVDIALGMEYLSNRNFLHRDLAARNCMLRDDMTVCVADFGLSKKIYSGDYYRQGRIAKMPVKWIAIESLADRVYTSKSDVWAFGVTMWEIATRGMTPYPGVQNHEMYDYLLHGHRLKQPEDCLDELYEIMYSCWRTDPLDRPTFSVLRLQLEKLLESLPDVRNQADVIYVNTQLLESSEGLAQGSTLAPLDLNIDPDSIIASCTPRAAISVVTAEVHDSKPHEGRYILNGGSEEWEDLTSAPSAAVTAEKNSVLPGERLVRNGVSWSHSSMLPLGSSLPDELLFADDSSEGSEVLM,Axl,"MER proto-oncogene, tyrosine kinase",MERTK,TK,1837,400,MER,KILGEGEFGSVMEVAVKTMEFLSEAACMKDFSPNVIRLLGVMVILPFMKYGDLHTYLLYYLSNRNFLHRDLAARNCMLVADFGLS,Human,,Protein tyrosine and serine/threonine kinase,589.0,853.0,999.0,PF07714,True
+P08581,MET,MET,MET,Hepatocyte growth factor receptor,TK,Met,nan,MET,MKAPAVLAPGILVLLFTLVQRSNGECKEALAKSEMNVNMKYQLPNFTAETPIQNVILHEHHIFLGATNYIYVLNEEDLQKVAEYKTGPVLEHPDCFPCQDCSSKANLSGGVWKDNINMALVVDTYYDDQLISCGSVNRGTCQRHVFPHNHTADIQSEVHCIFSPQIEEPSQCPDCVVSALGAKVLSSVKDRFINFFVGNTINSSYFPDHPLHSISVRRLKETKDGFMFLTDQSYIDVLPEFRDSYPIKYVHAFESNNFIYFLTVQRETLDAQTFHTRIIRFCSINSGLHSYMEMPLECILTEKRKKRSTKKEVFNILQAAYVSKPGAQLARQIGASLNDDILFGVFAQSKPDSAEPMDRSAMCAFPIKYVNDFFNKIVNKNNVRCLQHFYGPNHEHCFNRTLLRNSSGCEARRDEYRTEFTTALQRVDLFMGQFSEVLLTSISTFIKGDLTIANLGTSEGRFMQVVVSRSGPSTPHVNFLLDSHPVSPEVIVEHTLNQNGYTLVITGKKITKIPLNGLGCRHFQSCSQCLSAPPFVQCGWCHDKCVRSEECLSGTWTQQICLPAIYKVFPNSAPLEGGTRLTICGWDFGFRRNNKFDLKKTRVLLGNESCTLTLSESTMNTLKCTVGPAMNKHFNMSIIISNGHGTTQYSTFSYVDPVITSISPKYGPMAGGTLLTLTGNYLNSGNSRHISIGGKTCTLKSVSNSILECYTPAQTISTEFAVKLKIDLANRETSIFSYREDPIVYEIHPTKSFISGGSTITGVGKNLNSVSVPRMVINVHEAGRNFTVACQHRSNSEIICCTTPSLQQLNLQLPLKTKAFFMLDGILSKYFDLIYVHNPVFKPFEKPVMISMGNENVLEIKGNDIDPEAVKGEVLKVGNKSCENIHLHSEAVLCTVPNDLLKLNSELNIEWKQAISSTVLGKVIVQPDQNFTGLIAGVVSISTALLLLLGFFLWLKKRKQIKDLGSELVRYDARVHTPHLDRLVSARSVSPTTEMVSNESVDYRATFPEDQFPNSSQNGSCRQVQYPLTDMSPILTSGDSDISSPLLQNTVHIDLSALNPELVQAVQHVVIGPSSLIVHFNEVIGRGHFGCVYHGTLLDNDGKKIHCAVKSLNRITDIGEVSQFLTEGIIMKDFSHPNVLSLLGICLRSEGSPLVVLPYMKHGDLRNFIRNETHNPTVKDLIGFGLQVAKGMKYLASKKFVHRDLAARNCMLDEKFTVKVADFGLARDMYDKEYYSVHNKTGAKLPVKWMALESLQTQKFTTKSDVWSFGVLLWELMTRGAPPYPDVNTFDITVYLLQGRRLLQPEYCPDPLYEVMLKCWHPKAEMRPSFSELVSRISAIFSTFIGEHYVHVNATYVNVKCVAPYPSLLSSEDNADDEVDTRPASFWETS,Met,"MET proto-oncogene, receptor tyrosine kinase",MET,TK,1815,446,MET,EVIGRGHFGCVYHCAVKSLQFLTEGIIMKDFSPNVLSLLGILVVLPYMKHGDLRNFIRNYLASKKFVHRDLAARNCMLVADFGLA,Human,,Protein tyrosine and serine/threonine kinase,1078.0,1336.0,1390.0,PF07714,True
+Q16671,AMHR2,MISR2,MISR2,Anti-Muellerian hormone type-2 receptor,TKL,STKR,STKR2,AMHR2,MLGSLGLWALLPTAVEAPPNRRTCVFFEAPGVRGSTKTLGELLDTGTELPRAIRCLYSRCCFGIWNLTQDRAQVEMQGCRDSDEPGCESLHCDPSPRAHPSPGSTLFTCSCGTDFCNANYSHLPPPGSPGTPGSQGPQAAPGESIWMALVLLGLFLLLLLLLGSIILALLQRKNYRVRGEPVPEPRPDSGRDWSVELQELPELCFSQVIREGGHAVVWAGQLQGKLVAIKAFPPRSVAQFQAERALYELPGLQHDHIVRFITASRGGPGRLLSGPLLVLELHPKGSLCHYLTQYTSDWGSSLRMALSLAQGLAFLHEERWQNGQYKPGIAHRDLSSQNVLIREDGSCAIGDLGLALVLPGLTQPPAWTPTQPQGPAAIMEAGTQRYMAPELLDKTLDLQDWGMALRRADIYSLALLLWEILSRCPDLRPDSSPPPFQLAYEAELGNTPTSDELWALAVQERRRPYIPSTWRCFATDPDGLRELLEDCWDADPEARLTAECVQQRLAALAHPQESHPFPESCPRGCPPLCPEDCTSIPAPTILPCRPQRSACHFSVQQGPCSRNPQPACTLSPV,STKR,anti-Mullerian hormone receptor type II,AMHR2,TKL,0,525,MISR2,QVIREGGHAVVWAVAIKAFQFQAERALYELPGDHIVRFITALLVLELHPKGSLCHYLTQGQYKPGIAHRDLSSQNVLIIGDLGLA,Human,Type2,Protein kinase domain,211.0,503.0,573.0,PF00069,True
+O14733,MAP2K7,MAP2K7,MAP2K7,Dual specificity mitogen-activated protein kinase kinase 7,STE,STE7,nan,MAP2K7,MAASSLEQKLSRLEAKLKQENREARRRIDLNLDISPQRPRPTLQLPLANDGGSRSPSSESSPQHPTPPARPRHMLGLPSTLFTPRSMESIEIDQKLQEIMKQTGYLTIGGQRYQAEINDLENLGEMGSGTCGQVWKMRFRKTGHVIAVKQMRRSGNKEENKRILMDLDVVLKSHDCPYIVQCFGTFITNTDVFIAMELMGTCAEKLKKRMQGPIPERILGKMTVAIVKALYYLKEKHGVIHRDVKPSNILLDERGQIKLCDFGISGRLVDSKAKTRSAGCAAYMAPERIDPPDPTKPDYDIRADVWSLGISLVELATGQFPYKNCKTDFEVLTKVLQEEPPLLPGHMGFSGDFQSFVKDCLTKDHRKRPKYNKLLEHSFIKRYETLEVDVASWFKDVMAKTESPRTSGVLSQPHLPFFR,STE7,mitogen-activated protein kinase kinase 7,MAP2K7,STE,2068,389,MAP2K7,GEMGSGTCGQVWKIAVKQMRILMDLDVVLKSHPYIVQCFGTFIAMELMGTCAEKLKKRMLKEKHGVIHRDVKPSNILLLCDFGIS,Human,MEK7,Protein kinase domain,122.0,380.0,419.0,PF00069,True
+Q15746,MYLK,smMLCK,smMLCK,Myosin light chain kinase,CAMK,MLCK,nan,MYLK,MGDVKLVASSHISKTSLSVDPSRVDSMPLTEAPAFILPPRNLCIKEGATAKFEGRVRGYPEPQVTWHRNGQPITSGGRFLLDCGIRGTFSLVIHAVHEEDRGKYTCEATNGSGARQVTVELTVEGSFAKQLGQPVVSKTLGDRFSAPAVETRPSIWGECPPKFATKLGRVVVKEGQMGRFSCKITGRPQPQVTWLKGNVPLQPSARVSVSEKNGMQVLEIHGVNQDDVGVYTCLVVNGSGKASMSAELSIQGLDSANRSFVRETKATNSDVRKEVTNVISKESKLDSLEAAAKSKNCSSPQRGGSPPWAANSQPQPPRESKLESCKDSPRTAPQTPVLQKTSSSITLQAARVQPEPRAPGLGVLSPSGEERKRPAPPRPATFPTRQPGLGSQDVVSKAANRRIPMEGQRDSAFPKFESKPQSQEVKENQTVKFRCEVSGIPKPEVAWFLEGTPVRRQEGSIEVYEDAGSHYLCLLKARTRDSGTYSCTASNAQGQLSCSWTLQVERLAVMEVAPSFSSVLKDCAVIEGQDFVLQCSVRGTPVPRITWLLNGQPIQYARSTCEAGVAELHIQDALPEDHGTYTCLAENALGQVSCSAWVTVHEKKSSRKSEYLLPVAPSKPTAPIFLQGLSDLKVMDGSQVTMTVQVSGNPPPEVIWLHNGNEIQESEDFHFEQRGTQHSLCIQEVFPEDTGTYTCEAWNSAGEVRTQAVLTVQEPHDGTQPWFISKPRSVTASLGQSVLISCAIAGDPFPTVHWLRDGKALCKDTGHFEVLQNEDVFTLVLKKVQPWHAGQYEILLKNRVGECSCQVSLMLQNSSARALPRGREPASCEDLCGGGVGADGGGSDRYGSLRPGWPARGQGWLEEEDGEDVRGVLKRRVETRQHTEEAIRQQEVEQLDFRDLLGKKVSTKTLSEDDLKEIPAEQMDFRANLQRQVKPKTVSEEERKVHSPQQVDFRSVLAKKGTSKTPVPEKVPPPKPATPDFRSVLGGKKKLPAENGSSSAETLNAKAVESSKPLSNAQPSGPLKPVGNAKPAETLKPMGNAKPAETLKPMGNAKPDENLKSASKEELKKDVKNDVNCKRGHAGTTDNEKRSESQGTAPAFKQKLQDVHVAEGKKLLLQCQVSSDPPATIIWTLNGKTLKTTKFIILSQEGSLCSVSIEKALPEDRGLYKCVAKNDAGQAECSCQVTVDDAPASENTKAPEMKSRRPKSSLPPVLGTESDATVKKKPAPKTPPKAAMPPQIIQFPEDQKVRAGESVELFGKVTGTQPITCTWMKFRKQIQESEHMKVENSENGSKLTILAARQEHCGCYTLLVENKLGSRQAQVNLTVVDKPDPPAGTPCASDIRSSSLTLSWYGSSYDGGSAVQSYSIEIWDSANKTWKELATCRSTSFNVQDLLPDHEYKFRVRAINVYGTSEPSQESELTTVGEKPEEPKDEVEVSDDDEKEPEVDYRTVTINTEQKVSDFYDIEERLGSGKFGQVFRLVEKKTRKVWAGKFFKAYSAKEKENIRQEISIMNCLHHPKLVQCVDAFEEKANIVMVLEIVSGGELFERIIDEDFELTERECIKYMRQISEGVEYIHKQGIVHLDLKPENIMCVNKTGTRIKLIDFGLARRLENAGSLKVLFGTPEFVAPEVINYEPIGYATDMWSIGVICYILVSGLSPFMGDNDNETLANVTSATWDFDDEAFDEISDDAKDFISNLLKKDMKNRLDCTQCLQHPWLMKDTKNMEAKKLSKDRMKKYMARRKWQKTGNAVRAIGRLSSMAMISGLSGRKSSTGSPTSPLNAEKLESEEDVSQAFLEAVAEEKPHVKPYFSKTIRDLEVVEGSAARFDCKIEGYPDPEVVWFKDDQSIRESRHFQIDYDEDGNCSLIISDVCGDDDAKYTCKAVNSLGEATCTAELIVETMEEGEGEGEEEEE,MLCK,myosin light chain kinase,MYLK,CAMK,1552,153,smMLCK,ERLGSGKFGQVFRWAGKFFNIRQEISIMNCLHPKLVQCVDAVMVLEIVSGGELFERIIDYIHKQGIVHLDLKPENIMCLIDFGLA,Human,,Protein kinase domain,1464.0,1719.0,1914.0,PF00069,True
+P80192,MAP3K9,MLK1,MLK1,Mitogen-activated protein kinase kinase kinase 9,TKL,MLK,MLK,MAP3K9,MEPSRALLGCLASAAAAAPPGEDGAGAGAEEEEEEEEEAAAAVGPGELGCDAPLPYWTAVFEYEAAGEDELTLRLGDVVEVLSKDSQVSGDEGWWTGQLNQRVGIFPSNYVTPRSAFSSRCQPGGEDPSCYPPIQLLEIDFAELTLEEIIGIGGFGKVYRAFWIGDEVAVKAARHDPDEDISQTIENVRQEAKLFAMLKHPNIIALRGVCLKEPNLCLVMEFARGGPLNRVLSGKRIPPDILVNWAVQIARGMNYLHDEAIVPIIHRDLKSSNILILQKVENGDLSNKILKITDFGLAREWHRTTKMSAAGTYAWMAPEVIRASMFSKGSDVWSYGVLLWELLTGEVPFRGIDGLAVAYGVAMNKLALPIPSTCPEPFAKLMEDCWNPDPHSRPSFTNILDQLTTIEESGFFEMPKDSFHCLQDNWKHEIQEMFDQLRAKEKELRTWEEELTRAALQQKNQEELLRRREQELAEREIDILERELNIIIHQLCQEKPRVKKRKGKFRKSRLKLKDGNRISLPSDFQHKFTVQASPTMDKRKSLINSRSSPPASPTIIPRLRAIQLTPGESSKTWGRSSVVPKEEGEEEEKRAPKKKGRTWGPGTLGQKELASGDEGSPQRREKANGLSTPSESPHFHLGLKSLVDGYKQWSSSAPNLVKGPRSSPALPGFTSLMEMEDEDSEGPGSGESRLQHSPSQSYLCIPFPRGEDGDGPSSDGIHEEPTPVNSATSTPQLTPTNSLKRGGAHHRRCEVALLGCGAVLAATGLGFDLLEAGKCQLLPLEEPEPPAREEKKRREGLFQRSSRPRRSTSPPSRKLFKKEEPMLLLGDPSASLTLLSLSSISECNSTRSLLRSDSDEIVVYEMPVSPVEAPPLSPCTHNPLVNVRVERFKRDPNQSLTPTHVTLTTPSQPSSHRRTPSDGALKPETLLASRSPSSNGLSPSPGAGMLKTPSPSRDPGEFPRLPDPNVVFPPTPRRWNTQQDSTLERPKTLEFLPRPRPSANRQRLDPWWFVSPSHARSTSPANSSSTETPSNLDSCFASSSSTVEERPGLPALLPFQAGPLPPTERTLLDLDAEGQSQDSTVPLCRAELNTHRPAPYEIQQEFWS,MLK,mitogen-activated protein kinase kinase kinase 9,MAP3K9,TKL,2084,500,MLK1,EIIGIGGFGKVYRVAVKAANVRQEAKLFAMLKPNIIALRGVCLVMEFARGGPLNRVLSGDEAIVPIIHRDLKSSNILIITDFGLA,Human,MLK,Protein kinase domain,146.0,401.0,1104.0,PF00069,True
+Q02779,MAP3K10,MLK2,MLK2,Mitogen-activated protein kinase kinase kinase 10,TKL,MLK,MLK,MAP3K10,MEEEEGAVAKEWGTTPAGPVWTAVFDYEAAGDEELTLRRGDRVQVLSQDCAVSGDEGWWTGQLPSGRVGVFPSNYVAPGAPAAPAGLQLPQEIPFHELQLEEIIGVGGFGKVYRALWRGEEVAVKAARLDPEKDPAVTAEQVCQEARLFGALQHPNIIALRGACLNPPHLCLVMEYARGGALSRVLAGRRVPPHVLVNWAVQVARGMNYLHNDAPVPIIHRDLKSINILILEAIENHNLADTVLKITDFGLAREWHKTTKMSAAGTYAWMAPEVIRLSLFSKSSDVWSFGVLLWELLTGEVPYREIDALAVAYGVAMNKLTLPIPSTCPEPFARLLEECWDPDPHGRPDFGSILKRLEVIEQSALFQMPLESFHSLQEDWKLEIQHMFDDLRTKEKELRSREEELLRAAQEQRFQEEQLRRREQELAEREMDIVERELHLLMCQLSQEKPRVRKRKGNFKRSRLLKLREGGSHISLPSGFEHKITVQASPTLDKRKGSDGASPPASPSIIPRLRAIRLTPVDCGGSSSGSSSGGSGTWSRGGPPKKEELVGGKKKGRTWGPSSTLQKERVGGEERLKGLGEGSKQWSSSAPNLGKSPKHTPIAPGFASLNEMEEFAEAEDGGSSVPPSPYSTPSYLSVPLPAEPSPGARAPWEPTPSAPPARWGHGARRRCDLALLGCATLLGAVGLGADVAEARAADGEEQRRWLDGLFFPRAGRFPRGLSPPARPHGRREDVGPGLGLAPSATLVSLSSVSDCNSTRSLLRSDSDEAAPAAPSPPPSPPAPTPTPSPSTNPLVDLELESFKKDPRQSLTPTHVTAACAVSRGHRRTPSDGALGQRGPPEPAGHGPGPRDLLDFPRLPDPQALFPARRRPPEFPGRPTTLTFAPRPRPAASRPRLDPWKLVSFGRTLTISPPSRPDTPESPGPPSVQPTLLDMDMEGQNQDSTVPLCGAHGSH,MLK,mitogen-activated protein kinase kinase kinase 10,MAP3K10,TKL,2070,501,MLK2,EIIGVGGFGKVYRVAVKAAQVCQEARLFGALQPNIIALRGACLVMEYARGGALSRVLAGNDAPVPIIHRDLKSINILIITDFGLA,Human,MLK,Protein tyrosine and serine/threonine kinase,98.0,357.0,954.0,PF07714,True
+Q13627,DYRK1A,DYRK1A,DYRK1A,Dual specificity tyrosine-phosphorylation-regulated kinase 1A,CMGC,DYRK,DYRK1,DYRK1A,MHTGGETSACKPSSVRLAPSFSFHAAGLQMAGQMPHSHQYSDRRQPNISDQQVSALSYSDQIQQPLTNQVMPDIVMLQRRMPQTFRDPATAPLRKLSVDLIKTYKHINEVYYAKKKRRHQQGQGDDSSHKKERKVYNDGYDDDNYDYIVKNGEKWMDRYEIDSLIGKGSFGQVVKAYDRVEQEWVAIKIIKNKKAFLNQAQIEVRLLELMNKHDTEMKYYIVHLKRHFMFRNHLCLVFEMLSYNLYDLLRNTNFRGVSLNLTRKFAQQMCTALLFLATPELSIIHCDLKPENILLCNPKRSAIKIVDFGSSCQLGQRIYQYIQSRFYRSPEVLLGMPYDLAIDMWSLGCILVEMHTGEPLFSGANEVDQMNKIVEVLGIPPAHILDQAPKARKFFEKLPDGTWNLKKTKDGKREYKPPGTRKLHNILGVETGGPGGRRAGESGHTVADYLKFKDLILRMLDYDPKTRIQPYYALQHSFFKKTADEGTNTSNSVSTSPAMEQSQSSGTTSSTSSSSGGSSGTSNSGRARSDPTHQHRHSGGHFTAAVQAMDCETHSPQVRQQFPAPLGWSGTEAPTQVTVETHPVQETTFHVAPQQNALHHHHGNSSHHHHHHHHHHHHHGQQALGNRTRPRVYNSPTNSSSTQDSMEVGHSHHSMTSLSSSTTSSSTSSSSTGNQGNQAYQNRPVAANTLDFGQNGAMDVNLTVYSNPRQETGIAGHPTYQFSANTGPAHYMTEGHLTMRQGADREESPMTGVCVQQSPVASS,DYRK,dual specificity tyrosine phosphorylation regulated kinase 1A,DYRK1A,CMGC,2009,227,DYRK1A,SLIGKGSFGQVVKVAIKIIQAQIEVRLLELMNYYIVHLKRHCLVFEMLS-YNLYDLLRNATPELSIIHCDLKPENILLIVDFGSS,Human,DYRK1,Protein kinase domain,159.0,479.0,763.0,PF00069,True
+Q9BUB5,MKNK1,MNK1,MNK1,MAP kinase-interacting serine/threonine-protein kinase 1,CAMK,MAPKAPK,MNK,MKNK1,MVSSQKLEKPIEMGSSEPLPIADGDRRRKKKRRGRATDSLPGKFEDMYKLTSELLGEGAYAKVQGAVSLQNGKEYAVKIIEKQAGHSRSRVFREVETLYQCQGNKNILELIEFFEDDTRFYLVFEKLQGGSILAHIQKQKHFNEREASRVVRDVAAALDFLHTKDKVSLCHLGWSAMAPSGLTAAPTSLGSSDPPTSASQVAGTTGIAHRDLKPENILCESPEKVSPVKICDFDLGSGMKLNNSCTPITTPELTTPCGSAEYMAPEVVEVFTDQATFYDKRCDLWSLGVVLYIMLSGYPPFVGHCGADCGWDRGEVCRVCQNKLFESIQEGKYEFPDKDWAHISSEAKDLISKLLVRDAKQRLSAAQVLQHPWVQGQAPEKGLPTPQVLQRNSSTMDLTLFAAEAIALNRQLSQHEENELAEEPEALADGLCSMKLSPPCKSRLARRRALAQAGRGEDRSPPTAL,MAPKAPK,MAP kinase interacting serine/threonine kinase 1,MKNK1,CAMK,2104,152,MNK1,ELLGEGAYAKVQGYAVKIIRVFREVETLYQCQKNILELIEFYLVFEKLQGGSILAHIQKFLHTKGIAHRDLKPENILCICDFDLG,Human,MNK,Protein kinase domain,52.0,164.0,465.0,PF00069,True
+Q9HBH9,MKNK2,MNK2,MNK2,MAP kinase-interacting serine/threonine-protein kinase 2,CAMK,MAPKAPK,MNK,MKNK2,MVQKKPAELQGFHRSFKGQNPFELAFSLDQPDHGDSDFGLQCSARPDMPASQPIDIPDAKKRGKKKKRGRATDSFSGRFEDVYQLQEDVLGEGAHARVQTCINLITSQEYAVKIIEKQPGHIRSRVFREVEMLYQCQGHRNVLELIEFFEEEDRFYLVFEKMRGGSILSHIHKRRHFNELEASVVVQDVASALDFLHNKGIAHRDLKPENILCEHPNQVSPVKICDFDLGSGIKLNGDCSPISTPELLTPCGSAEYMAPEVVEAFSEEASIYDKRCDLWSLGVILYILLSGYPPFVGRCGSDCGWDRGEACPACQNMLFESIQEGKYEFPDKDWAHISCAAKDLISKLLVRDAKQRLSAAQVLQHPWVQGCAPENTLPTPMVLQRNSCAKDLTSFAAEAIAMNRQLAQHDEDLAEEEAAGQGQPVLVRATSRCLQLSPPSQSKLAQRRQRASLSSAPVVLVGDHA,MAPKAPK,MAP kinase interacting serine/threonine kinase 2,MKNK2,CAMK,2105,151,MNK2,DVLGEGAHARVQTYAVKIIRVFREVEMLYQCQRNVLELIEFYLVFEKMRGGSILSHIHKFLHNKGIAHRDLKPENILCICDFDLG,Human,MNK,Protein kinase domain,87.0,368.0,465.0,PF00069,True
+P00540,MOS,MOS,MOS,Proto-oncogene serine/threonine-protein kinase mos,Other,MOS,nan,MOS,MPSPLALRPYLRSEFSPSVDARPCSSPSELPAKLLLGATLPRAPRLPRRLAWCSIDWEQVCLLQRLGAGGFGSVYKATYRGVPVAIKQVNKCTKNRLASRRSFWAELNVARLRHDNIVRVVAASTRTPAGSNSLGTIIMEFGGNVTLHQVIYGAAGHPEGDAGEPHCRTGGQLSLGKCLKYSLDVVNGLLFLHSQSIVHLDLKPANILISEQDVCKISDFGCSEKLEDLLCFQTPSYPLGGTYTHRAPELLKGEGVTPKADIYSFAITLWQMTTKQAPYSGERQHILYAVVAYDLRPSLSAAVFEDSLPGQRLGDVIQRCWRPSAAQRPSARLLLVDLTSLKAELG,MOS,v-mos Moloney murine sarcoma viral oncogene homolog,MOS,Other,0,276,MOS,QRLGAGGFGSVYKVAIKQVRLASRRSFWAELNDNIVRVVAATIIMEFGGNVTLHQVIYGFLHSQSIVHLDLKPANILIISDFGCS,Human,,Protein kinase domain,63.0,334.0,346.0,PF00069,True
+P46734,MAP2K3,MAP2K3,MAP2K3,Dual specificity mitogen-activated protein kinase kinase 3,STE,STE7,nan,MAP2K3,MESPASSQPASMPQSKGKSKRKKDLRISCMSKPPAPNPTPPRNLDSRTFITIGDRNFEVEADDLVTISELGRGAYGVVEKVRHAQSGTIMAVKRIRATVNSQEQKRLLMDLDINMRTVDCFYTVTFYGALFREGDVWICMELMDTSLDKFYRKVLDKNMTIPEDILGEIAVSIVRALEHLHSKLSVIHRDVKPSNVLINKEGHVKMCDFGISGYLVDSVAKTMDAGCKPYMAPERINPELNQKGYNVKSDVWSLGITMIEMAILRFPYESWGTPFQQLKQVVEEPSPQLPADRFSPEFVDFTAQCLRKNPAERMSYLELMEHPFFTLHKTKKTDIAAFVKEILGEDS,STE7,mitogen-activated protein kinase kinase 3,MAP2K3,STE,2064,385,MAP2K3,SELGRGAYGVVEKMAVKRIRLLMDLDINMRTVFYTVTFYGAWICMELMD-TSLDKFYRKLHSKLSVIHRDVKPSNVLIMCDFGIS,Human,MEK3,Protein kinase domain,66.0,325.0,347.0,PF00069,True
+P45985,MAP2K4,MAP2K4,MAP2K4,Dual specificity mitogen-activated protein kinase kinase 4,STE,STE7,nan,MAP2K4,MAAPSPSGGGGSGGGSGSGTPGPVGSPAPGHPAVSSMQGKRKALKLNFANPPFKSTARFTLNPNPTGVQNPHIERLRTHSIESSGKLKISPEQHWDFTAEDLKDLGEIGRGAYGSVNKMVHKPSGQIMAVKRIRSTVDEKEQKQLLMDLDVVMRSSDCPYIVQFYGALFREGDCWICMELMSTSFDKFYKYVYSVLDDVIPEEILGKITLATVKALNHLKENLKIIHRDIKPSNILLDRSGNIKLCDFGISGQLVDSIAKTRDAGCRPYMAPERIDPSASRQGYDVRSDVWSLGITLYELATGRFPYPKWNSVFDQLTQVVKGDPPQLSNSEEREFSPSFINFVNLCLTKDESKRPKYKELLKHPFILMYEERAVEVACYVCKILDQMPATPSSPMYVD,STE7,mitogen-activated protein kinase kinase 4,MAP2K4,STE,2065,387,MAP2K4,GEIGRGAYGSVNKMAVKRIQLLMDLDVVMRSSPYIVQFYGAWICMELMS-TSFDKFYKYLKENLKIIHRDIKPSNILLLCDFGIS,Human,MEK4,Protein kinase domain,104.0,367.0,399.0,PF00069,True
+Q9Y5S2,CDC42BPB,MRCKb,MRCKb,Serine/threonine-protein kinase MRCK beta,AGC,DMPK,GEK,CDC42BPB,MSAKVRLKKLEQLLLDGPWRNESALSVETLLDVLVCLYTECSHSALRRDKYVAEFLEWAKPFTQLVKEMQLHREDFEIIKVIGRGAFGEVAVVKMKNTERIYAMKILNKWEMLKRAETACFREERDVLVNGDCQWITALHYAFQDENHLYLVMDYYVGGDLLTLLSKFEDKLPEDMARFYIGEMVLAIDSIHQLHYVHRDIKPDNVLLDVNGHIRLADFGSCLKMNDDGTVQSSVAVGTPDYISPEILQAMEDGMGKYGPECDWWSLGVCMYEMLYGETPFYAESLVETYGKIMNHEERFQFPSHVTDVSEEAKDLIQRLICSRERRLGQNGIEDFKKHAFFEGLNWENIRNLEAPYIPDVSSPSDTSNFDVDDDVLRNTEILPPGSHTGFSGLHLPFIGFTFTTESCFSDRGSLKSIMQSNTLTKDEDVQRDLEHSLQMEAYERRIRRLEQEKLELSRKLQESTQTVQSLHGSSRALSNSNRDKEIKKLNEEIERLKNKIADSNRLERQLEDTVALRQEREDSTQRLRGLEKQHRVVRQEKEELHKQLVEASERLKSQAKELKDAHQQRKLALQEFSELNERMAELRAQKQKVSRQLRDKEEEMEVATQKVDAMRQEMRRAEKLRKELEAQLDDAVAEASKERKLREHSENFCKQMESELEALKVKQGGRGAGATLEHQQEISKIKSELEKKVLFYEEELVRREASHVLEVKNVKKEVHDSESHQLALQKEILMLKDKLEKSKRERHNEMEEAVGTIKDKYERERAMLFDENKKLTAENEKLCSFVDKLTAQNRQLEDELQDLAAKKESVAHWEAQIAEIIQWVSDEKDARGYLQALASKMTEELEALRSSSLGSRTLDPLWKVRRSQKLDMSARLELQSALEAEIRAKQLVQEELRKVKDANLTLESKLKDSEAKNRELLEEMEILKKKMEEKFRADTGLKLPDFQDSIFEYFNTAPLAHDLTFRTSSASEQETQAPKPEASPSMSVAASEQQEDMARPPQRPSAVPLPTTQALALAGPKPKAHQFSIKSFSSPTQCSHCTSLMVGLIRQGYACEVCSFACHVSCKDGAPQVCPIPPEQSKRPLGVDVQRGIGTAYKGHVKVPKPTGVKKGWQRAYAVVCDCKLFLYDLPEGKSTQPGVIASQVLDLRDDEFSVSSVLASDVIHATRRDIPCIFRVTASLLGAPSKTSSLLILTENENEKRKWVGILEGLQSILHKNRLRNQVVHVPLEAYDSSLPLIKAILTAAIVDADRIAVGLEEGLYVIEVTRDVIVRAADCKKVHQIELAPREKIVILLCGRNHHVHLYPWSSLDGAEGSFDIKLPETKGCQLMATATLKRNSGTCLFVAVKRLILCYEIQRTKPFHRKFNEIVAPGSVQCLAVLRDRLCVGYPSGFCLLSIQGDGQPLNLVNPNDPSLAFLSQQSFDALCAVELESEEYLLCFSHMGLYVDPQGRRARAQELMWPAAPVACSCSPTHVTVYSEYGVDVFDVRTMEWVQTIGLRRIRPLNSEGTLNLLNCEPPRLIYFKSKFSGAVLNVPDTSDNSKKQMLRTRSKRRFVFKVPEEERLQQRREMLRDPELRSKMISNPTNFNHVAHMGPGDGMQVLMDLPLSAVPPSQEERPGPAPTNLARQPPSRNKPYISWPSSGGSEPSVTVPLRSMSDPDQDFDKEPDSDSTKHSTPSNSSNPSGPPSPNSPHRSQLPLEGLEQPACDT,DMPK,CDC42 binding protein kinase beta,CDC42BPB,AGC,1508,7,MRCKb,KVIGRGAFGEVAVYAMKILCFREERDVLVNGDQWITALHYAYLVMDYYVGGDLLTLLSKSIHQLHYVHRDIKPDNVLLLADFGSC,Human,GEK,Protein kinase domain,76.0,341.0,1711.0,PF00069,True
+O75582,RPS6KA5,"MSK1_b, MSK1","Domain2_MSK1, MSK1",Ribosomal protein S6 kinase alpha-5,"CAMK, AGC","RSKb, RSK","MSK, MSKb",RPS6KA5,MEEEGGSSGGAAGTSADGGDGGEQLLTVKHELRTANLTGHAEKVGIENFELLKVLGTGAYGKVFLVRKISGHDTGKLYAMKVLKKATIVQKAKTTEHTRTERQVLEHIRQSPFLVTLHYAFQTETKLHLILDYINGGELFTHLSQRERFTEHEVQIYVGEIVLALEHLHKLGIIYRDIKLENILLDSNGHVVLTDFGLSKEFVADETERAYSFCGTIEYMAPDIVRGGDSGHDKAVDWWSLGVLMYELLTGASPFTVDGEKNSQAEISRRILKSEPPYPQEMSALAKDLIQRLLMKDPKKRLGCGPRDADEIKEHLFFQKINWDDLAAKKVPAPFKPVIRDELDVSNFAEEFTEMDPTYSPAALPQSSEKLFQGYSFVAPSILFKRNAAVIDPLQFHMGVERPGVTNVARSAMMKDSPFYQHYDLDLKDKPLGEGSFSICRKCVHKKSNQAFAVKIISKRMEANTQKEITALKLCEGHPNIVKLHEVFHDQLHTFLVMELLNGGELFERIKKKKHFSETEASYIMRKLVSAVSHMHDVGVVHRDLKPENLLFTDENDNLEIKIIDFGFARLKPPDNQPLKTPCFTLHYAAPELLNQNGYDESCDLWSLGVILYTMLSGQVPFQSHDRSLTCTSAVEIMKKIKKGDFSFEGEAWKNVSQEAKDLIQGLLTVDPNKRLKMSGLRYNEWLQDGSQLSSNPLMTPDILGSSGAAVHTCVKATFHAFNKYKREGFCLQNVDKAPLAKRRKMKKTSTSTETRSSSSESSHSSSSHSHGKTTPTKTLQPSNPADSNNPETLFQFSDSVA,RSK,ribosomal protein S6 kinase A5,RPS6KA5,AGC,1523,49,MSK1,KVLGTGAYGKVFLYAMKVLHTRTERQVLEHIRPFLVTLHYAHLILDYINGGELFTHLSQHLHKLGIIYRDIKLENILLLTDFGLS,Human,MSK,Protein kinase domain,49.0,318.0,802.0,PF00069,True
+O75676,RPS6KA4,"MSK2_b, MSK2","MSK2, Domain2_MSK2",Ribosomal protein S6 kinase alpha-4,"CAMK, AGC","RSKb, RSK","MSK, MSKb",RPS6KA4,MGDEDDDESCAVELRITEANLTGHEEKVSVENFELLKVLGTGAYGKVFLVRKAGGHDAGKLYAMKVLRKAALVQRAKTQEHTRTERSVLELVRQAPFLVTLHYAFQTDAKLHLILDYVSGGEMFTHLYQRQYFKEAEVRVYGGEIVLALEHLHKLGIIYRDLKLENVLLDSEGHIVLTDFGLSKEFLTEEKERTFSFCGTIEYMAPEIIRSKTGHGKAVDWWSLGILLFELLTGASPFTLEGERNTQAEVSRRILKCSPPFPPRIGPVAQDLLQRLLCKDPKKRLGAGPQGAQEVRNHPFFQGLDWVALAARKIPAPFRPQIRSELDVGNFAEEFTRLEPVYSPPGSPPPGDPRIFQGYSFVAPSILFDHNNAVMTDGLEAPGAGDRPGRAAVARSAMMQDSPFFQQYELDLREPALGQGSFSVCRRCRQRQSGQEFAVKILSRRLEANTQREVAALRLCQSHPNVVNLHEVHHDQLHTYLVLELLRGGELLEHIRKKRHFSESEASQILRSLVSAVSFMHEEAGVVHRDLKPENILYADDTPGAPVKIIDFGFARLRPQSPGVPMQTPCFTLQYAAPELLAQQGYDESCDLWSLGVILYMMLSGQVPFQGASGQGGQSQAAEIMCKIREGRFSLDGEAWQGVSEEAKELVRGLLTVDPAKRLKLEGLRGSSWLQDGSARSSPPLRTPDVLESSGPAVRSGLNATFMAFNRGKREGFFLKSVENAPLAKRRKQKLRSATASRRGSPAPANPGRAPVASKGAPRRANGPLPPS,RSK,ribosomal protein S6 kinase A4,RPS6KA4,AGC,1524,47,MSK2,KVLGTGAYGKVFLYAMKVLHTRTERSVLELVRPFLVTLHYAHLILDYVSGGEMFTHLYQHLHKLGIIYRDLKLENVLLLTDFGLS,Human,MSK,Protein kinase domain,33.0,301.0,772.0,PF00069,True
+Q13043,STK4,MST1,MST1,Serine/threonine-protein kinase 4,STE,STE20,MST,STK4,METVQLRNPPRRQLKKLDEDSLTKQPEEVFDVLEKLGEGSYGSVYKAIHKETGQIVAIKQVPVESDLQEIIKEISIMQQCDSPHVVKYYGSYFKNTDLWIVMEYCGAGSVSDIIRLRNKTLTEDEIATILQSTLKGLEYLHFMRKIHRDIKAGNILLNTEGHAKLADFGVAGQLTDTMAKRNTVIGTPFWMAPEVIQEIGYNCVADIWSLGITAIEMAEGKPPYADIHPMRAIFMIPTNPPPTFRKPELWSDNFTDFVKQCLVKSPEQRATATQLLQHPFVRSAKGVSILRDLINEAMDVKLKRQESQQREVDQDDEENSEEDEMDSGTMVRAVGDEMGTVRVASTMTDGANTMIEHDDTLPSQLGTMVINAEDEEEEGTMKRRDETMQPAKPSFLEYFEQKEKENQINSFGKSVPGPLKNSSDWKIPQDGDYEFLKSWTVEDLQKRLLALDPMMEQEIEEIRQKYQSKRQPILDAIEAKKRRQQNF,STE20,serine/threonine kinase 4,STK4,STE,2225,364,MST1,EKLGEGSYGSVYKVAIKQVEIIKEISIMQQCDPHVVKYYGSWIVMEYCGAGSVSDIIRLYLHFMRKIHRDIKAGNILLLADFGVA,Human,MST,Protein kinase domain,31.0,281.0,487.0,PF00069,True
+Q13188,STK3,MST2,MST2,Serine/threonine-protein kinase 3,STE,STE20,MST,STK3,MEQPPAPKSKLKKLSEDSLTKQPEEVFDVLEKLGEGSYGSVFKAIHKESGQVVAIKQVPVESDLQEIIKEISIMQQCDSPYVVKYYGSYFKNTDLWIVMEYCGAGSVSDIIRLRNKTLIEDEIATILKSTLKGLEYLHFMRKIHRDIKAGNILLNTEGHAKLADFGVAGQLTDTMAKRNTVIGTPFWMAPEVIQEIGYNCVADIWSLGITSIEMAEGKPPYADIHPMRAIFMIPTNPPPTFRKPELWSDDFTDFVKKCLVKNPEQRATATQLLQHPFIKNAKPVSILRDLITEAMEIKAKRHEEQQRELEEEEENSDEDELDSHTMVKTSVESVGTMRATSTMSEGAQTMIEHNSTMLESDLGTMVINSEDEEEEDGTMKRNATSPQVQRPSFMDYFDKQDFKNKSHENCNQNMHEPFPMSKNVFPDNWKVPQDGDFDFLKNLSLEELQMRLKALDPMMEREIEELRQRYTAKRQPILDAMDAKKRRQQNF,STE20,serine/threonine kinase 3,STK3,STE,2219,363,MST2,EKLGEGSYGSVFKVAIKQVEIIKEISIMQQCDPYVVKYYGSWIVMEYCGAGSVSDIIRLYLHFMRKIHRDIKAGNILLLADFGVA,Human,MST,Protein kinase domain,28.0,278.0,491.0,PF00069,True
+Q9Y6E0,STK24,MST3,MST3,Serine/threonine-protein kinase 24,STE,STE20,YSK,STK24,MDSRAQLWGLALNKRRATLPHPGGSTNLKADPEELFTKLEKIGKGSFGEVFKGIDNRTQKVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSPYVTKYYGSYLKDTKLWIIMEYLGGGSALDLLEPGPLDETQIATILREILKGLDYLHSEKKIHRDIKAANVLLSEHGEVKLADFGVAGQLTDTQIKRNTFVGTPFWMAPEVIKQSAYDSKADIWSLGITAIELARGEPPHSELHPMKVLFLIPKNNPPTLEGNYSKPLKEFVEACLNKEPSFRPTAKELLKHKFILRNAKKTSYLTELIDRYKRWKAEQSHDDSSSEDSDAETDGQASGGSDSGDWIFTIREKDPKNLENGALQPSDLDRNKMKDIPKRPFSQCLSTIISPLFAELKEKSQACGGNLGSIEELRGAIYLAEEACPGISDTMVAQLVQRLQRYSLSGGGTSSH,STE20,serine/threonine kinase 24,STK24,STE,2217,380,MST3,EKIGKGSFGEVFKVAIKIIDIQQEITVLSQCDPYVTKYYGSWIIMEYLGGGSALDLLEPYLHSEKKIHRDIKAANVLLLADFGVA,Human,YSK,Protein kinase domain,36.0,286.0,443.0,PF00069,True
+O15146,MUSK,MUSK,MUSK,Muscle,TK,Musk,nan,MUSK,MRELVNIPLVHILTLVAFSGTEKLPKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSPLRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKVVKLEVEVFARILRAPESHNVTFGSFVTLHCTATGIPVPTITWIENGNAVSSGSIQESVKDRVIDSRLQLFITKPGLYTCIATNKHGEKFSTAKAAATISIAEWSKPQKDNKGYCAQYRGEVCNAVLAKDALVFLNTSYADPEEAQELLVHTAWNELKVVSPVCRPAAEALLCNHIFQECSPGVVPTPIPICREYCLAVKELFCAKEWLVMEEKTHRGLYRSEMHLLSVPECSKLPSMHWDPTACARLPHLDYNKENLKTFPPMTSSKPSVDIPNLPSSSSSSFSVSPTYSMTVIISIMSSFAIFVLLTITTLYCCRRRKQWKNKKRESAAVTLTTLPSELLLDRLHPNPMYQRMPLLLNPKLLSLEYPRNNIEYVRDIGEGAFGRVFQARAPGLLPYEPFTMVAVKMLKEEASADMQADFQREAALMAEFDNPNIVKLLGVCAVGKPMCLLFEYMAYGDLNEFLRSMSPHTVCSLSHSDLSMRAQVSSPGPPPLSCAEQLCIARQVAAGMAYLSERKFVHRDLATRNCLVGENMVVKIADFGLSRNIYSADYYKANENDAIPIRWMPPESIFYNRYTTESDVWAYGVVLWEIFSYGLQPYYGMAHEEVIYYVRDGNILSCPENCPVELYNLMRLCWSKLPADRPSFTSIHRILERMCERAEGTVSV,Musk,"muscle, skeletal, receptor tyrosine kinase",MUSK,TK,1847,448,MUSK,RDIGEGAFGRVFQVAVKMLDFQREAALMAEFDPNIVKLLGVCLLFEYMAYGDLNEFLRSYLSERKFVHRDLATRNCLVIADFGLS,Human,,Protein tyrosine and serine/threonine kinase,576.0,856.0,869.0,PF07714,True
+Q99640,PKMYT1,MYT1,MYT1,Membrane-associated tyrosine- and threonine-specific cdc2-inhibitory kinase,Other,WEE,nan,PKMYT1,MLERPPALAMPMPTEGTPPPLSGTPIPVPAYFRHAEPGFSLKRPRGLSRSLPPPPPAKGSIPISRLFPPRTPGWHQLQPRRVSFRGEASETLQSPGYDPSRPESFFQQSFQRLSRLGHGSYGEVFKVRSKEDGRLYAVKRSMSPFRGPKDRARKLAEVGSHEKVGQHPCCVRLEQAWEEGGILYLQTELCGPSLQQHCEAWGASLPEAQVWGYLRDTLLALAHLHSQGLVHLDVKPANIFLGPRGRCKLGDFGLLVELGTAGAGEVQEGDPRYMAPELLQGSYGTAADVFSLGLTILEVACNMELPHGGEGWQQLRQGYLPPEFTAGLSSELRSVLVMMLEPDPKLRATAEALLALPVLRQPRAWGVLWCMAAEALSRGWALWQALLALLCWLWHGLAHPASWLQPLGPPATPPGSPPCSLLLDSSLSSNWDDDSLGPSLSPEAVLARTVGSTSTPRSRCTPRDALDLSDINSEPPRGSFPSFEPRNLLSLFEDTLDPT,WEE,"protein kinase, membrane associated tyrosine/threonine 1",PKMYT1,Other,2167,334,MYT1,SRLGHGSYGEVFKYAVKRSRKLAEVGSHEKVGPCCVRLEQAYLQTELC-GPSLQQHCEAHLHSQGLVHLDVKPANIFLLGDFGLL,Human,,Protein kinase domain,111.0,357.0,499.0,PF00069,True
+Q15208,STK38,NDR1,NDR1,Serine/threonine-protein kinase 38,AGC,NDR,nan,STK38,MAMTGSTPCSSMSNHTKERVTMTKVTLENFYSNLIAQHEEREMRQKKLEKVMEEEGLKDEEKRLRRSAHARKETEFLRLKRTRLGLEDFESLKVIGRGAFGEVRLVQKKDTGHVYAMKILRKADMLEKEQVGHIRAERDILVEADSLWVVKMFYSFQDKLNLYLIMEFLPGGDMMTLLMKKDTLTEEETQFYIAETVLAIDSIHQLGFIHRDIKPDNLLLDSKGHVKLSDFGLCTGLKKAHRTEFYRNLNHSLPSDFTFQNMNSKRKAETWKRNRRQLAFSTVGTPDYIAPEVFMQTGYNKLCDWWSLGVIMYEMLIGYPPFCSETPQETYKKVMNWKETLTFPPEVPISEKAKDLILRFCCEWEHRIGAPGVEEIKSNSFFEGVDWEHIRERPAAISIEIKSIDDTSNFDEFPESDILKPTVATSNHPETDYKNKDWVFINYTYKRFEGLTARGAIPSYMKAAK,NDR,serine/threonine kinase 38,STK38,AGC,1517,24,NDR1,KVIGRGAFGEVRLYAMKILHIRAERDILVEADLWVVKMFYSYLIMEFLPGGDMMTLLMKSIHQLGFIHRDIKPDNLLLLSDFGLC,Human,,Protein kinase domain,89.0,369.0,465.0,PF00069,True
+Q96PY6,NEK1,NEK1,NEK1,Serine/threonine-protein kinase Nek1,Other,NEK,nan,NEK1,MEKYVRLQKIGEGSFGKAILVKSTEDGRQYVIKEINISRMSSKEREESRREVAVLANMKHPNIVQYRESFEENGSLYIVMDYCEGGDLFKRINAQKGVLFQEDQILDWFVQICLALKHVHDRKILHRDIKSQNIFLTKDGTVQLGDFGIARVLNSTVELARTCIGTPYYLSPEICENKPYNNKSDIWALGCVLYELCTLKHAFEAGSMKNLVLKIISGSFPPVSLHYSYDLRSLVSQLFKRNPRDRPSVNSILEKGFIAKRIEKFLSPQLIAEEFCLKTFSKFGSQPIPAKRPASGQNSISVMPAQKITKPAAKYGIPLAYKKYGDKKLHEKKPLQKHKQAHQTPEKRVNTGEERRKISEEAARKRRLEFIEKEKKQKDQIISLMKAEQMKRQEKERLERINRAREQGWRNVLSAGGSGEVKAPFLGSGGTIAPSSFSSRGQYEHYHAIFDQMQQQRAEDNEAKWKREIYGRGLPERGILPGVRPGFPYGAAGHHHFPDADDIRKTLKRLKAVSKQANANRQKGQLAVERAKQVEEFLQRKREAMQNKARAEGHMVYLARLRQIRLQNFNERQQIKAKLRGEKKEANHSEGQEGSEEADMRRKKIESLKAHANARAAVLKEQLERKRKEAYEREKKVWEEHLVAKGVKSSDVSPPLGQHETGGSPSKQQMRSVISVTSALKEVGVDSSLTDTRETSEEMQKTNNAISSKREILRRLNENLKAQEDEKGKQNLSDTFEINVHEDAKEHEKEKSVSSDRKKWEAGGQLVIPLDELTLDTSFSTTERHTVGEVIKLGPNGSPRRAWGKSPTDSVLKILGEAELQLQTELLENTTIRSEISPEGEKYKPLITGEKKVQCISHEINPSAIVDSPVETKSPEFSEASPQMSLKLEGNLEEPDDLETEILQEPSGTNKDESLPCTITDVWISEEKETKETQSADRITIQENEVSEDGVSSTVDQLSDIHIEPGTNDSQHSKCDVDKSVQPEPFFHKVVHSEHLNLVPQVQSVQCSPEESFAFRSHSHLPPKNKNKNSLLIGLSTGLFDANNPKMLRTCSLPDLSKLFRTLMDVPTVGDVRQDNLEIDEIEDENIKEGPSDSEDIVFEETDTDLQELQASMEQLLREQPGEEYSEEEESVLKNSDVEPTANGTDVADEDDNPSSESALNEEWHSDNSDGEIASECECDSVFNHLEELRLHLEQEMGFEKFFEVYEKIKAIHEDEDENIEICSKIVQNILGNEHQHLYAKILHLVMADGAYQEDNDE,NEK,NIMA related kinase 1,NEK1,Other,2114,281,NEK1,QKIGEGSFGKAILYVIKEIESRREVAVLANMKPNIVQYRESYIVMDYCEGGDLFKRINAHVHDRKILHRDIKSQNIFLLGDFGIA,Human,NEK1,Protein kinase domain,4.0,257.0,1258.0,PF00069,True
+P51955,NEK2,NEK2,NEK2,Serine/threonine-protein kinase Nek2,Other,NEK,nan,NEK2,MPSRAEDYEVLYTIGTGSYGRCQKIRRKSDGKILVWKELDYGSMTEAEKQMLVSEVNLLRELKHPNIVRYYDRIIDRTNTTLYIVMEYCEGGDLASVITKGTKERQYLDEEFVLRVMTQLTLALKECHRRSDGGHTVLHRDLKPANVFLDGKQNVKLGDFGLARILNHDTSFAKTFVGTPYYMSPEQMNRMSYNEKSDIWSLGCLLYELCALMPPFTAFSQKELAGKIREGKFRRIPYRYSDELNEIITRMLNLKDYHRPSVEEILENPLIADLVADEQRRNLERRGRQLGEPEKSQDSSPVLSELKLKEIQLQERERALKAREERLEQKEQELCVRERLAEDKLARAENLLKNYSLLKERKFLSLASNPELLNLPSSVIKKKVHFSGESKENIMRSENSESQLTSKSKCKDLKKRLHAAQLRAQALSDIEKNYQLKSRQILGMR,NEK,NIMA related kinase 2,NEK2,Other,2117,286,NEK2,YTIGTGSYGRCQKLVWKELMLVSEVNLLRELKPNIVRYYDRYIVMEYCEGGDLASVITKSDGGHTVLHRDLKPANVFLLGDFGLA,Human,NEK2,Protein kinase domain,8.0,270.0,445.0,PF00069,True
+P51956,NEK3,NEK3,NEK3,Serine/threonine-protein kinase Nek3,Other,NEK,nan,NEK3,MDDYMVLRMIGEGSFGRALLVQHESSNQMFAMKEIRLPKSFSNTQNSRKEAVLLAKMKHPNIVAFKESFEAEGHLYIVMEYCDGGDLMQKIKQQKGKLFPEDMILNWFTQMCLGVNHIHKKRVLHRDIKSKNIFLTQNGKVKLGDFGSARLLSNPMAFACTYVGTPYYVPPEIWENLPYNNKSDIWSLGCILYELCTLKHPFQANSWKNLILKVCQGCISPLPSHYSYELQFLVKQMFKRNPSHRPSATTLLSRGIVARLVQKCLPPEIIMEYGEEVLEEIKNSKHNTPRKKTNPSRIRIALGNEASTVQEEEQDRKGSHTDLESINENLVESALRRVNREEKGNKSVHLRKASSPNLHRRQWEKNVPNTALTALENASILTSSLTAEDDRGGSVIKYSKNTTRKQWLKETPDTLLNILKNADLSLAFQTYTIYRPGSEGFLKGPLSEETEASDSVDGGHDSVILDPERLEPGLDEEDTDFEEEDDNPDWVSELKKRAGWQGLCDR,NEK,NIMA related kinase 3,NEK3,Other,2118,282,NEK3,RMIGEGSFGRALLFAMKEINSRKEAVLLAKMKPNIVAFKESYIVMEYCDGGDLMQKIKQHIHKKRVLHRDIKSKNIFLLGDFGSA,Human,NEK1,Protein kinase domain,4.0,253.0,506.0,PF00069,True
+Q99558,MAP3K14,NIK,NIK,Mitogen-activated protein kinase kinase kinase 14,STE,STE-Unique,nan,MAP3K14,MAVMEMACPGAPGSAVGQQKELPKAKEKTPPLGKKQSSVYKLEAVEKSPVFCGKWEILNDVITKGTAKEGSEAGPAAISIIAQAECENSQEFSPTFSERIFIAGSKQYSQSESLDQIPNNVAHATEGKMARVCWKGKRRSKARKKRKKKSSKSLAHAGVALAKPLPRTPEQESCTIPVQEDESPLGAPYVRNTPQFTKPLKEPGLGQLCFKQLGEGLRPALPRSELHKLISPLQCLNHVWKLHHPQDGGPLPLPTHPFPYSRLPHPFPFHPLQPWKPHPLESFLGKLACVDSQKPLPDPHLSKLACVDSPKPLPGPHLEPSCLSRGAHEKFSVEEYLVHALQGSVSSGQAHSLTSLAKTWAARGSRSREPSPKTEDNEGVLLTEKLKPVDYEYREEVHWATHQLRLGRGSFGEVHRMEDKQTGFQCAVKKVRLEVFRAEELMACAGLTSPRIVPLYGAVREGPWVNIFMELLEGGSLGQLVKEQGCLPEDRALYYLGQALEGLEYLHSRRILHGDVKADNVLLSSDGSHAALCDFGHAVCLQPDGLGKSLLTGDYIPGTETHMAPEVVLGRSCDAKVDVWSSCCMMLHMLNGCHPWTQFFRGPLCLKIASEPPPVREIPPSCAPLTAQAIQEGLRKEPIHRVSAAELGGKVNRALQQVGGLKSPWRGEYKEPRHPPPNQANYHQTLHAQPRELSPRAPGPRPAEETTGRAPKLQPPLPPEPPEPNKSPPLTLSKEESGMWEPLPLSSLEPAPARNPSSPERKATVPEQELQQLEIELFLNSLSQPFSLEEQEQILSCLSIDSLSLSDDSEKNPSKASQSSRDTLSSGVHSWSSQAEARSSSWNMVLARGRPTDTPSYFNGVKVQIQSLNGEHLHIREFHRVKVGDIATGISSQIPAAAFSLVTKDGQPVRYDMEVPDSGIDLQCTLAPDGSFAWSWRVKHGQLENRP,STE-Unique,mitogen-activated protein kinase kinase kinase 14,MAP3K14,STE,2074,391,NIK,LRLGRGSFGEVHRCAVKKVFRAEELMACAGLTPRIVPLYGANIFMELLEGGSLGQLVKEYLHSRRILHGDVKADNVLLLCDFGHA,Human,,Protein kinase domain,405.0,646.0,947.0,PF00069,True
+Q9UBE8,NLK,NLK,NLK,Serine/threonine-protein kinase NLK,CMGC,MAPK,nmo,NLK,MSLCGARANAKMMAAYNGGTSAAAAGHHHHHHHHLPHLPPPHLHHHHHPQHHLHPGSAAAVHPVQQHTSSAAAAAAAAAAAAAMLNPGQQQPYFPSPAPGQAPGPAAAAPAQVQAAAAATVKAHHHQHSHHPQQQLDIEPDRPIGYGAFGVVWSVTDPRDGKRVALKKMPNVFQNLVSCKRVFRELKMLCFFKHDNVLSALDILQPPHIDYFEEIYVVTELMQSDLHKIIVSPQPLSSDHVKVFLYQILRGLKYLHSAGILHRDIKPGNLLVNSNCVLKICDFGLARVEELDESRHMTQEVVTQYYRAPEILMGSRHYSNAIDIWSVGCIFAELLGRRILFQAQSPIQQLDLITDLLGTPSLEAMRTACEGAKAHILRGPHKQPSLPVLYTLSSQATHEAVHLLCRMLVFDPSKRISAKDALAHPYLDEGRLRYHTCMCKCCFSTSTGRVYTSDFEPVTNPKFDDTFEKNLSSVRQVKEIIHQFILEQQKGNRVPLCINPQSAAFKSFISSTVAQPSEMPPSPLVWE,MAPK,nemo-like kinase,NLK,CMGC,2125,248,NLK,RPIGYGAFGVVWSVALKKMRVFRELKMLCFFKDNVLSALDIYVVTELMQ-SDLHKIIVSYLHSAGILHRDIKPGNLLVICDFGLA,Human,nmo,Protein kinase domain,141.0,427.0,527.0,PF00069,True
+P51957,NEK4,NEK4,NEK4,Serine/threonine-protein kinase Nek4,Other,NEK,nan,NEK4,MPLAAYCYLRVVGKGSYGEVTLVKHRRDGKQYVIKKLNLRNASSRERRAAEQEAQLLSQLKHPNIVTYKESWEGGDGLLYIVMGFCEGGDLYRKLKEQKGQLLPENQVVEWFVQIAMALQYLHEKHILHRDLKTQNVFLTRTNIIKVGDLGIARVLENHCDMASTLIGTPYYMSPELFSNKPYNYKSDVWALGCCVYEMATLKHAFNAKDMNSLVYRIIEGKLPPMPRDYSPELAELIRTMLSKRPEERPSVRSILRQPYIKRQISFFLEATKIKTSKNNIKNGDSQSKPFATVVSGEAESNHEVIHPQPLSSEGSQTYIMGEGKCLSQEKPRASGLLKSPASLKAHTCKQDLSNTTELATISSVNIDILPAKGRDSVSDGFVQENQPRYLDASNELGGICSISQVEEEMLQDNTKSSAQPENLIPMWSSDIVTGEKNEPVKPLQPLIKEQKPKDQSLALSPKLECSGTILAHSNLRLLGSSDSPASASRVAGITGVCHHAQDQVAGECIIEKQGRIHPDLQPHNSGSEPSLSRQRRQKRREQTEHRGEKRQVRRDLFAFQESPPRFLPSHPIVGKVDVTSTQKEAENQRRVVTGSVSSSRSSEMSSSKDRPLSARERRRLKQSQEEMSSSGPSVRKASLSVAGPGKPQEEDQPLPARRLSSDCSVTQERKQIHCLSEDELSSSTSSTDKSDGDYGEGKGQTNEINALVQLMTQTLKLDSKESCEDVPVANPVSEFKLHRKYRDTLILHGKVAEEAEEIHFKELPSAIMPGSEKIRRLVEVLRTDVIRGLGVQLLEQVYDLLEEEDEFDREVRLREHMGEKYTTYSVKARQLKFFEENMNF,NEK,NIMA related kinase 4,NEK4,Other,2119,287,NEK4,RVVGKGSYGEVTLYVIKKLAAEQEAQLLSQLKPNIVTYKESYIVMGFCEGGDLYRKLKEYLHEKHILHRDLKTQNVFLVGDLGIA,Human,NEK4,Protein kinase domain,9.0,261.0,841.0,PF00069,True
+Q9NWZ3,IRAK4,IRAK4,IRAK4,Interleukin-1 receptor-associated kinase 4,TKL,IRAK,nan,IRAK4,MNKPITPSTYVRCLNVGLIRKLSDFIDPQEGWKKLAVAIKKPSGDDRYNQFHIRRFEALLQTGKSPTSELLFDWGTTNCTVGDLVDLLIQNEFFAPASLLLPDAVPKTANTLPSKEAITVQQKQMPFCDKDRTLMTPVQNLEQSYMPPDSSSPENKSLEVSDTRFHSFSFYELKNVTNNFDERPISVGGNKMGEGGFGVVYKGYVNNTTVAVKKLAAMVDITTEELKQQFDQEIKVMAKCQHENLVELLGFSSDGDDLCLVYVYMPNGSLLDRLSCLDGTPPLSWHMRCKIAQGAANGINFLHENHHIHRDIKSANILLDEAFTAKISDFGLARASEKFAQTVMTSRIVGTTAYMAPEALRGEITPKSDIYSFGVVLLEIITGLPAVDEHREPQLLLDIKEEIEDEEKTIEDYIDKKMNDADSTSVEAMYSVASQCLHEKKNKRPDIKKVQQLLQEMTAS,IRAK,interleukin 1 receptor associated kinase 4,IRAK4,TKL,2045,489,IRAK4,NKMGEGGFGVVYKVAVKKLQFDQEIKVMAKCQENLVELLGFCLVYVYMPNGSLLDRLSCFLHENHHIHRDIKSANILLISDFGLA,Human,,Protein tyrosine and serine/threonine kinase,190.0,453.0,460.0,PF07714,True
+Q99570,PIK3R4,PIK3R4,PIK3R4,Phosphoinositide 3-kinase regulatory subunit 4,Other,VPS15,nan,PIK3R4,MGNQLAGIAPSQILSVESYFSDIHDFEYDKSLGSTRFFKVARAKHREGLVVVKVFAIQDPTLPLTSYKQELEELKIRLNSAQNCLPFQKASEKASEKAAMLFRQYVRDNLYDRISTRPFLNNIEKRWIAFQILTAVDQAHKSGVRHGDIKTENVMVTSWNWVLLTDFASFKPTYLPEDNPADFNYFFDTSRRRTCYIAPERFVDGGMFATELEYMRDPSTPLVDLNSNQRTRGELKRAMDIFSAGCVIAELFTEGVPLFDLSQLLAYRNGHFFPEQVLNKIEDHSIRELVTQMIHREPDKRLEAEDYLKQQRGNAFPEIFYTFLQPYMAQFAKETFLSADERILVIRKDLGNIIHNLCGHDLPEKAEGEPKENGLVILVSVITSCLQTLKYCDSKLAALELILHLAPRLSVEILLDRITPYLLHFSNDSVPRVRAEALRTLTKVLALVKEVPRNDINIYPEYILPGIAHLAQDDATIVRLAYAENIALLAETALRFLELVQLKNLNMENDPNNEEIDEVTHPNGNYDTELQALHEMVQQKVVTLLSDPENIVKQTLMENGITRLCVFFGRQKANDVLLSHMITFLNDKNDWHLRGAFFDSIVGVAAYVGWQSSSILKPLLQQGLSDAEEFVIVKALYALTCMCQLGLLQKPHVYEFASDIAPFLCHPNLWIRYGAVGFITVVARQISTADVYCKLMPYLDPYITQPIIQIERKLVLLSVLKEPVSRSIFDYALRSKDITSLFRHLHMRQKKRNGSLPDCPPPEDPAIAQLLKKLLSQGMTEEEEDKLLALKDFMMKSNKAKANIVDQSHLHDSSQKGVIDLAALGITGRQVDLVKTKQEPDDKRARKHVKQDSNVNEEWKSMFGSLDPPNMPQALPKGSDQEVIQTGKPPRSESSAGICVPLSTSSQVPEVTTVQNKKPVIPVLSSTILPSTYQIRITTCKTELQQLIQQKREQCNAERIAKQMMENAEWESKPPPPGWRPKGLLVAHLHEHKSAVNRIRVSDEHSLFATCSNDGTVKIWNSQKMEGKTTTTRSILTYSRIGGRVKTLTFCQGSHYLAIASDNGAVQLLGIEASKLPKSPKIHPLQSRILDQKEDGCVVDMHHFNSGAQSVLAYATVNGSLVGWDLRSSSNAWTLKHDLKSGLITSFAVDIHQCWLCIGTSSGTMACWDMRFQLPISSHCHPSRARIRRLSMHPLYQSWVIAAVQGNNEVSMWDMETGDRRFTLWASSAPPLSELQPSPHSVHGIYCSPADGNPILLTAGSDMKIRFWDLAYPERSYVVAGSTSSPSVSYYRKIIEGTEVVQEIQNKQKVGPSDDTPRRGPESLPVGHHDIITDVATFQTTQGFIVTASRDGIVKVWK,VPS15,phosphoinositide-3-kinase regulatory subunit 4,PIK3R4,Other,0,332,PIK3R4,KSLGSTRFFKVARVVVKVFSYKQELEELKIR---LNSAQNCMLFRQYVR-DNLYDRISTQAHKSGVRHGDIKTENVMVLTDFASF,Human,,Protein kinase domain,27.0,310.0,1358.0,PF00069,True
+O75116,ROCK2,ROCK2,ROCK2,Rho-associated protein kinase 2,AGC,DMPK,ROCK,ROCK2,MSRPPPTGKMPGAPETAPGDGAGASRQRKLEALIRDPRSPINVESLLDGLNSLVLDLDFPALRKNKNIDNFLNRYEKIVKKIRGLQMKAEDYDVVKVIGRGAFGEVQLVRHKASQKVYAMKLLSKFEMIKRSDSAFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWAKFYTAEVVLALDAIHSMGLIHRDVKPDNMLLDKHGHLKLADFGTCMKMDETGMVHCDTAVGTPDYISPEVLKSQGGDGFYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMDHKNSLCFPEDAEISKHAKNLICAFLTDREVRLGRNGVEEIRQHPFFKNDQWHWDNIRETAAPVVPELSSDIDSSNFDDIEDDKGDVETFPIPKAFVGNQLPFIGFTYYRENLLLSDSPSCRETDSIQSRKNEESQEIQKKLYTLEEHLSNEMQAKEELEQKCKSVNTRLEKTAKELEEEITLRKSVESALRQLEREKALLQHKNAEYQRKADHEADKKRNLENDVNSLKDQLEDLKKRNQNSQISTEKVNQLQRQLDETNALLRTESDTAARLRKTQAESSKQIQQLESNNRDLQDKNCLLETAKLKLEKEFINLQSALESERRDRTHGSEIINDLQGRICGLEEDLKNGKILLAKVELEKRQLQERFTDLEKEKSNMEIDMTYQLKVIQQSLEQEEAEHKATKARLADKNKIYESIEEAKSEAMKEMEKKLLEERTLKQKVENLLLEAEKRCSLLDCDLKQSQQKINELLKQKDVLNEDVRNLTLKIEQETQKRCLTQNDLKMQTQQVNTLKMSEKQLKQENNHLMEMKMNLEKQNAELRKERQDADGQMKELQDQLEAEQYFSTLYKTQVRELKEECEEKTKLGKELQQKKQELQDERDSLAAQLEITLTKADSEQLARSIAEEQYSDLEKEKIMKELEIKEMMARHKQELTEKDATIASLEETNRTLTSDVANLANEKEELNNKLKDVQEQLSRLKDEEISAAAIKAQFEKQLLTERTLKTQAVNKLAEIMNRKEPVKRGNDTDVRRKEKENRKLHMELKSEREKLTQQMIKYQKELNEMQAQIAEESQIRIELQMTLDSKDSDIEQLRSQLQALHIGLDSSSIGSGPGDAEADDGFPESRLEGWLSLPVRNNTKKFGWVKKYVIVSSKKILFYDSEQDKEQSNPYMVLDIDKLFHVRPVTQTDVYRADAKEIPRIFQILYANEGESKKEQEFPVEPVGEKSNYICHKGHEFIPTLYHFPTNCEACMKPLWHMFKPPPALECRRCHIKCHKDHMDKKEEIIAPCKVYYDISTAKNLLLLANSTEEQQKWVSRLVKKIPKKPPAPDPFARSSPRTSMKIQQNQSIRRPSRQLAPNKPS,DMPK,Rho associated coiled-coil containing protein kinase 2,ROCK2,AGC,1504,10,ROCK2,KVIGRGAFGEVQLYAMKLLFFWEERDIMAFANPWVVQLFYAYMVMEYMPGGDLVNLMSNAIHSMGLIHRDVKPDNMLLLADFGTC,Human,ROCK,Protein kinase domain,92.0,354.0,1388.0,PF00069,True
+Q16539,MAPK14,p38a,p38a,Mitogen-activated protein kinase 14,CMGC,MAPK,p38,MAPK14,MSQERPTFYRQELNKTIWEVPERYQNLSPVGSGAYGSVCAAFDTKTGLRVAVKKLSRPFQSIIHAKRTYRELRLLKHMKHENVIGLLDVFTPARSLEEFNDVYLVTHLMGADLNNIVKCQKLTDDHVQFLIYQILRGLKYIHSADIIHRDLKPSNLAVNEDCELKILDFGLARHTDDEMTGYVATRWYRAPEIMLNWMHYNQTVDIWSVGCIMAELLTGRTLFPGTDHIDQLKLILRLVGTPGAELLKKISSESARNYIQSLTQMPKMNFANVFIGANPLAVDLLEKMLVLDSDKRITAAQALAHAYFAQYHDPDDEPVADPYDQSFESRDLLIDEWKSLTYDEVISFVPPPLDQEEMES,MAPK,mitogen-activated protein kinase 14,MAPK14,CMGC,1499,249,p38a,SPVGSGAYGSVCAVAVKKLRTYRELRLLKHMKENVIGLLDVYLVTHLMG-ADLNNIVKCYIHSADIIHRDLKPSNLAVILDFGLA,Human,p38,Protein kinase domain,24.0,308.0,360.0,PF00069,True
+P23443,RPS6KB1,p70S6K,p70S6K,Ribosomal protein S6 kinase beta-1,AGC,RSK,RSKp70,RPS6KB1,MRRRRRRDGFYPAPDFRDREAEDMAGVFDIDLDQPEDAGSEDELEEGGQLNESMDHGGVGPYELGMEHCEKFEISETSVNRGPEKIRPECFELLRVLGKGGYGKVFQVRKVTGANTGKIFAMKVLKKAMIVRNAKDTAHTKAERNILEEVKHPFIVDLIYAFQTGGKLYLILEYLSGGELFMQLEREGIFMEDTACFYLAEISMALGHLHQKGIIYRDLKPENIMLNHQGHVKLTDFGLCKESIHDGTVTHTFCGTIEYMAPEILMRSGHNRAVDWWSLGALMYDMLTGAPPFTGENRKKTIDKILKCKLNLPPYLTQEARDLLKKLLKRNAASRLGAGPGDAGEVQAHPFFRHINWEELLARKVEPPFKPLLQSEEDVSQFDSKFTRQTPVDSPDDSTLSESANQVFLGFTYVAPSVLESVKEKFSFEPKIRSPRRFIGSPRTPVSPVKFSPGDFWGRGASASTANPQTPVEYPMETSGIEQMDVTMSGEASAPLPIRQPNSGPYKKQAFPMISKRPEHLRMNL,RSK,ribosomal protein S6 kinase B1,RPS6KB1,AGC,1525,51,p70S6K,RVLGKGGYGKVFQFAMKVLHTKAERNILEEVKPFIVDLIYAYLILEYLSGGELFMQLERHLHQKGIIYRDLKPENIMLLTDFGLC,Human,p70,Protein kinase domain,91.0,352.0,525.0,PF00069,True
+Q9UBS0,RPS6KB2,p70S6Kb,p70S6Kb,Ribosomal protein S6 kinase beta-2,AGC,RSK,RSKp70,RPS6KB2,MAAVFDLDLETEEGSEGEGEPELSPADACPLAELRAAGLEPVGHYEEVELTETSVNVGPERIGPHCFELLRVLGKGGYGKVFQVRKVQGTNLGKIYAMKVLRKAKIVRNAKDTAHTRAERNILESVKHPFIVELAYAFQTGGKLYLILECLSGGELFTHLEREGIFLEDTACFYLAEITLALGHLHSQGIIYRDLKPENIMLSSQGHIKLTDFGLCKESIHEGAVTHTFCGTIEYMAPEILVRSGHNRAVDWWSLGALMYDMLTGSPPFTAENRKKTMDKIIRGKLALPPYLTPDARDLVKKFLKRNPSQRIGGGPGDAADVQRHPFFRHMNWDDLLAWRVDPPFRPCLQSEEDVSQFDTRFTRQTPVDSPDDTALSESANQAFLGFTYVAPSVLDSIKEGFSFQPKLRSPRRLNSSPRAPVSPLKFSPFEGFRPSPSLPEPTELPLPPLLPPPPPSTTAPLPIRPPSGTKKSKRGRGRPGR,RSK,ribosomal protein S6 kinase B2,RPS6KB2,AGC,1526,52,p70S6Kb,RVLGKGGYGKVFQYAMKVLHTRAERNILESVKPFIVELAYAYLILECLSGGELFTHLERHLHSQGIIYRDLKPENIMLLTDFGLC,Human,p70,Protein kinase domain,67.0,328.0,482.0,PF00069,True
+Q13153,PAK1,PAK1,PAK1,Serine/threonine-protein kinase PAK 1,STE,STE20,PAKA,PAK1,MSNNGLDIQDKPPAPPMRNTSTMIGAGSKDAGTLNHGSKPLPPNPEEKKKKDRFYRSILPGDKTNKKKEKERPEISLPSDFEHTIHVGFDAVTGEFTGMPEQWARLLQTSNITKSEQKKNPQAVLDVLEFYNSKKTSNSQKYMSFTDKSAEDYNSSNALNVKAVSETPAVPPVSEDEDDDDDDATPPPVIAPRPEHTKSVYTRSVIEPLPVTPTRDVATSPISPTENNTTPPDALTRNTEKQKKKPKMSDEEILEKLRSIVSVGDPKKKYTRFEKIGQGASGTVYTAMDVATGQEVAIKQMNLQQQPKKELIINEILVMRENKNPNIVNYLDSYLVGDELWVVMEYLAGGSLTDVVTETCMDEGQIAAVCRECLQALEFLHSNQVIHRDIKSDNILLGMDGSVKLTDFGFCAQITPEQSKRSTMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMIEGEPPYLNENPLRALYLIATNGTPELQNPEKLSAIFRDFLNRCLEMDVEKRGSAKELLQHQFLKIAKPLSSLTPLIAAAKEATKNNH,STE20,p21 protein (Cdc42/Rac)-activated kinase 1,PAK1,STE,2133,367,PAK1,EKIGQGASGTVYTVAIKQMLIINEILVMRENKPNIVNYLDSWVVMEYLAGGSLTDVVTEFLHSNQVIHRDIKSDNILLLTDFGFC,Human,PAKA,Protein kinase domain,270.0,521.0,545.0,PF00069,True
+Q13177,PAK2,PAK2,PAK2,Serine/threonine-protein kinase PAK 2,STE,STE20,PAKA,PAK2,MSDNGELEDKPPAPPVRMSSTIFSTGGKDPLSANHSLKPLPSVPEEKKPRHKIISIFSGTEKGSKKKEKERPEISPPSDFEHTIHVGFDAVTGEFTGMPEQWARLLQTSNITKLEQKKNPQAVLDVLKFYDSNTVKQKYLSFTPPEKDGFPSGTPALNAKGTEAPAVVTEEEDDDEETAPPVIAPRPDHTKSIYTRSVIDPVPAPVGDSHVDGAAKSLDKQKKKTKMTDEEIMEKLRTIVSIGDPKKKYTRYEKIGQGASGTVFTATDVALGQEVAIKQINLQKQPKKELIINEILVMKELKNPNIVNFLDSYLVGDELFVVMEYLAGGSLTDVVTETCMDEAQIAAVCRECLQALEFLHANQVIHRDIKSDNVLLGMEGSVKLTDFGFCAQITPEQSKRSTMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMVEGEPPYLNENPLRALYLIATNGTPELQNPEKLSPIFRDFLNRCLEMDVEKRGSAKELLQHPFLKLAKPLSSLTPLIMAAKEAMKSNR,STE20,p21 protein (Cdc42/Rac)-activated kinase 2,PAK2,STE,2134,368,PAK2,EKIGQGASGTVFTVAIKQILIINEILVMKELKPNIVNFLDSFVVMEYLAGGSLTDVVTEFLHANQVIHRDIKSDNVLLLTDFGFC,Human,PAKA,Protein kinase domain,249.0,500.0,524.0,PF00069,True
+O75914,PAK3,PAK3,PAK3,Serine/threonine-protein kinase PAK 3,STE,STE20,PAKA,PAK3,MSDGLDNEEKPPAPPLRMNSNNRDSSALNHSSKPLPMAPEEKNKKARLRSIFPGGGDKTNKKKEKERPEISLPSDFEHTIHVGFDAVTGEFTPDLYGSQMCPGKLPEGIPEQWARLLQTSNITKLEQKKNPQAVLDVLKFYDSKETVNNQKYMSFTSGDKSAHGYIAAHPSSTKTASEPPLAPPVSEEEDEEEEEEEDENEPPPVIAPRPEHTKSIYTRSVVESIASPAVPNKEVTPPSAENANSSTLYRNTDRQRKKSKMTDEEILEKLRSIVSVGDPKKKYTRFEKIGQGASGTVYTALDIATGQEVAIKQMNLQQQPKKELIINEILVMRENKNPNIVNYLDSYLVGDELWVVMEYLAGGSLTDVVTETCMDEGQIAAVCRECLQALDFLHSNQVIHRDIKSDNILLGMDGSVKLTDFGFCAQITPEQSKRSTMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMVEGEPPYLNENPLRALYLIATNGTPELQNPERLSAVFRDFLNRCLEMDVDRRGSAKELLQHPFLKLAKPLSSLTPLIIAAKEAIKNSSR,STE20,p21 protein (Cdc42/Rac)-activated kinase 3,PAK3,STE,2135,369,PAK3,EKIGQGASGTVYTVAIKQMLIINEILVMRENKPNIVNYLDSWVVMEYLAGGSLTDVVTEFLHSNQVIHRDIKSDNILLLTDFGFC,Human,PAKA,Protein kinase domain,283.0,534.0,559.0,PF00069,True
+P24723,PRKCH,PKCh,PKCh,Protein kinase C eta type,AGC,PKC,PKCh,PRKCH,MSSGTMKFNGYLRVRIGEAVGLQPTRWSLRHSLFKKGHQLLDPYLTVSVDQVRVGQTSTKQKTNKPTYNEEFCANVTDGGHLELAVFHETPLGYDHFVANCTLQFQELLRTTGASDTFEGWVDLEPEGKVFVVITLTGSFTEATLQRDRIFKHFTRKRQRAMRRRVHQINGHKFMATYLRQPTYCSHCREFIWGVFGKQGYQCQVCTCVVHKRCHHLIVTACTCQNNINKVDSKIAEQRFGINIPHKFSIHNYKVPTFCDHCGSLLWGIMRQGLQCKICKMNVHIRCQANVAPNCGVNAVELAKTLAGMGLQPGNISPTSKLVSRSTLRRQGKESSKEGNGIGVNSSNRLGIDNFEFIRVLGKGSFGKVMLARVKETGDLYAVKVLKKDVILQDDDVECTMTEKRILSLARNHPFLTQLFCCFQTPDRLFFVMEFVNGGDLMFHIQKSRRFDEARARFYAAEIISALMFLHDKGIIYRDLKLDNVLLDHEGHCKLADFGMCKEGICNGVTTATFCGTPDYIAPEILQEMLYGPAVDWWAMGVLLYEMLCGHAPFEAENEDDLFEAILNDEVVYPTWLHEDATGILKSFMTKNPTMRLGSLTQGGEHAILRHPFFKEIDWAQLNHRQIEPPFRPRIKSREDVSNFDPDFIKEEPVLTPIDEGHLPMINQDEFRNFSYVSPELQP,PKC,protein kinase C eta,PRKCH,AGC,1487,39,PKCh,RVLGKGSFGKVMLYAVKVLCTMTEKRILSLARPFLTQLFCCFFVMEFVNGGDLMFHIQKFLHDKGIIYRDLKLDNVLLLADFGMC,Human,Eta,Protein kinase domain,356.0,614.0,683.0,PF00069,True
+Q00536,CDK16,PCTAIRE1,PCTAIRE1,Cyclin-dependent kinase 16,CMGC,CDK,PCTAIRE,CDK16,MDRMKKIKRQLSMTLRGGRGIDKTNGAPEQIGLDESGGGGGSDPGEAPTRAAPGELRSARGPLSSAPEIVHEDLKMGSDGESDQASATSSDEVQSPVRVRMRNHPPRKISTEDINKRLSLPADIRLPEGYLEKLTLNSPIFDKPLSRRLRRVSLSEIGFGKLETYIKLDKLGEGTYATVYKGKSKLTDNLVALKEIRLEHEEGAPCTAIREVSLLKDLKHANIVTLHDIIHTEKSLTLVFEYLDKDLKQYLDDCGNIINMHNVKLFLFQLLRGLAYCHRQKVLHRDLKPQNLLINERGELKLADFGLARAKSIPTKTYSNEVVTLWYRPPDILLGSTDYSTQIDMWGVGCIFYEMATGRPLFPGSTVEEQLHFIFRILGTPTEETWPGILSNEEFKTYNYPKYRAEALLSHAPRLDSDGADLLTKLLQFEGRNRISAEDAMKHPFFLSLGERIHKLPDTTSIFALKEIQLQKEASLRSSSMPDSGRPAFRVVDTEF,CDK,cyclin-dependent kinase 16,CDK16,CMGC,1969,210,PCTAIRE1,DKLGEGTYATVYKVALKEITAIREVSLLKDLKANIVTLHDITLVFEYLD-KDLKQYLDDYCHRQKVLHRDLKPQNLLILADFGLA,Human,PCTAI,Protein kinase domain,165.0,446.0,496.0,PF00069,True
+Q00537,CDK17,PCTAIRE2,PCTAIRE2,Cyclin-dependent kinase 17,CMGC,CDK,PCTAIRE,CDK17,MKKFKRRLSLTLRGSQTIDESLSELAEQMTIEENSSKDNEPIVKNGRPPTSHSMHSFLHQYTGSFKKPPLRRPHSVIGGSLGSFMAMPRNGSRLDIVHENLKMGSDGESDQASGTSSDEVQSPTGVCLRNRIHRRISMEDLNKRLSLPADIRIPDGYLEKLQINSPPFDQPMSRRSRRASLSEIGFGKMETYIKLEKLGEGTYATVYKGRSKLTENLVALKEIRLEHEEGAPCTAIREVSLLKDLKHANIVTLHDIVHTDKSLTLVFEYLDKDLKQYMDDCGNIMSMHNVKLFLYQILRGLAYCHRRKVLHRDLKPQNLLINEKGELKLADFGLARAKSVPTKTYSNEVVTLWYRPPDVLLGSSEYSTQIDMWGVGCIFFEMASGRPLFPGSTVEDELHLIFRLLGTPSQETWPGISSNEEFKNYNFPKYKPQPLINHAPRLDSEGIELITKFLQYESKKRVSAEEAMKHVYFRSLGPRIHALPESVSIFSLKEIQLQKDPGFRNSSYPETGHGKNRRQSMLF,CDK,cyclin-dependent kinase 17,CDK17,CMGC,1970,211,PCTAIRE2,EKLGEGTYATVYKVALKEITAIREVSLLKDLKANIVTLHDITLVFEYLD-KDLKQYMDDYCHRRKVLHRDLKPQNLLILADFGLA,Human,PCTAI,Protein kinase domain,192.0,473.0,523.0,PF00069,True
+Q07002,CDK18,PCTAIRE3,PCTAIRE3,Cyclin-dependent kinase 18,CMGC,CDK,PCTAIRE,CDK18,MIMNKMKNFKRRFSLSVPRTETIEESLAEFTEQFNQLHNRRNENLQLGPLGRDPPQECSTFSPTDSGEEPGQLSPGVQFQRRQNQRRFSMEDVSKRLSLPMDIRLPQEFLQKLQMESPDLPKPLSRMSRRASLSDIGFGKLETYVKLDKLGEGTYATVFKGRSKLTENLVALKEIRLEHEEGAPCTAIREVSLLKNLKHANIVTLHDLIHTDRSLTLVFEYLDSDLKQYLDHCGNLMSMHNVKIFMFQLLRGLAYCHHRKILHRDLKPQNLLINERGELKLADFGLARAKSVPTKTYSNEVVTLWYRPPDVLLGSTEYSTPIDMWGVGCIHYEMATGRPLFPGSTVKEELHLIFRLLGTPTEETWPGVTAFSEFRTYSFPCYLPQPLINHAPRLDTDGIHLLSSLLLYESKSRMSAEAALSHSYFRSLGERVHQLEDTASIFSLKEIQLQKDPGYRGLAFQQPGRGKNRRQSIF,CDK,cyclin-dependent kinase 18,CDK18,CMGC,1971,212,PCTAIRE3,DKLGEGTYATVFKVALKEITAIREVSLLKNLKANIVTLHDLTLVFEYLD-SDLKQYLDHYCHHRKILHRDLKPQNLLILADFGLA,Human,PCTAI,Protein kinase domain,144.0,425.0,474.0,PF00069,True
+P16234,PDGFRA,PDGFRa,PDGFRa,Platelet-derived growth factor receptor alpha,TK,PDGFR,nan,PDGFRA,MGTSHPAFLVLGCLLTGLSLILCQLSLPSILPNENEKVVQLNSSFSLRCFGESEVSWQYPMSEEESSDVEIRNEENNSGLFVTVLEVSSASAAHTGLYTCYYNHTQTEENELEGRHIYIYVPDPDVAFVPLGMTDYLVIVEDDDSAIIPCRTTDPETPVTLHNSEGVVPASYDSRQGFNGTFTVGPYICEATVKGKKFQTIPFNVYALKATSELDLEMEALKTVYKSGETIVVTCAVFNNEVVDLQWTYPGEVKGKGITMLEEIKVPSIKLVYTLTVPEATVKDSGDYECAARQATREVKEMKKVTISVHEKGFIEIKPTFSQLEAVNLHEVKHFVVEVRAYPPPRISWLKNNLTLIENLTEITTDVEKIQEIRYRSKLKLIRAKEEDSGHYTIVAQNEDAVKSYTFELLTQVPSSILDLVDDHHGSTGGQTVRCTAEGTPLPDIEWMICKDIKKCNNETSWTILANNVSNIITEIHSRDRSTVEGRVTFAKVEETIAVRCLAKNLLGAENRELKLVAPTLRSELTVAAAVLVLLVIVIISLIVLVVIWKQKPRYEIRWRVIESISPDGHEYIYVDPMQLPYDSRWEFPRDGLVLGRVLGSGAFGKVVEGTAYGLSRSQPVMKVAVKMLKPTARSSEKQALMSELKIMTHLGPHLNIVNLLGACTKSGPIYIITEYCFYGDLVNYLHKNRDSFLSHHPEKPKKELDIFGLNPADESTRSYVILSFENNGDYMDMKQADTTQYVPMLERKEVSKYSDIQRSLYDRPASYKKKSMLDSEVKNLLSDDNSEGLTLLDLLSFTYQVARGMEFLASKNCVHRDLAARNVLLAQGKIVKICDFGLARDIMHDSNYVSKGSTFLPVKWMAPESIFDNLYTTLSDVWSYGILLWEIFSLGGTPYPGMMVDSTFYNKIKSGYRMAKPDHATSEVYEIMVKCWNSEPEKRPSFYHLSEIVENLLPGQYKKSYEKIHLDFLKSDHPAVARMRVDSDNAYIGVTYKNEEDKLKDWEGGLDEQRLSADSGYIIPLPDIDPVPEEEDLGKRNRHSSQTSEESAIETGSSSSTFIKREDETIEDIDMMDDIGIDSSDLVEDSFL,PDGFR,platelet derived growth factor receptor alpha,PDGFRA,TK,1803,452,PDGFRa,RVLGSGAFGKVVEVAVKMLALMSELKIMTHLGLNIVNLLGAYIITEYCFYGDLVNYLHKFLASKNCVHRDLAARNVLLICDFGLA,Human,,Protein tyrosine and serine/threonine kinase,594.0,948.0,1089.0,PF07714,True
+P09619,PDGFRB,PDGFRb,PDGFRb,Platelet-derived growth factor receptor beta,TK,PDGFR,nan,PDGFRB,MRLPGAMPALALKGELLLLSLLLLLEPQISQGLVVTPPGPELVLNVSSTFVLTCSGSAPVVWERMSQEPPQEMAKAQDGTFSSVLTLTNLTGLDTGEYFCTHNDSRGLETDERKRLYIFVPDPTVGFLPNDAEELFIFLTEITEITIPCRVTDPQLVVTLHEKKGDVALPVPYDHQRGFSGIFEDRSYICKTTIGDREVDSDAYYVYRLQVSSINVSVNAVQTVVRQGENITLMCIVIGNEVVNFEWTYPRKESGRLVEPVTDFLLDMPYHIRSILHIPSAELEDSGTYTCNVTESVNDHQDEKAINITVVESGYVRLLGEVGTLQFAELHRSRTLQVVFEAYPPPTVLWFKDNRTLGDSSAGEIALSTRNVSETRYVSELTLVRVKVAEAGHYTMRAFHEDAEVQLSFQLQINVPVRVLELSESHPDSGEQTVRCRGRGMPQPNIIWSACRDLKRCPRELPPTLLGNSSEEESQLETNVTYWEEEQEFEVVSTLRLQHVDRPLSVRCTLRNAVGQDTQEVIVVPHSLPFKVVVISAILALVVLTIISLIILIMLWQKKPRYEIRWKVIESVSSDGHEYIYVDPMQLPYDSTWELPRDQLVLGRTLGSGAFGQVVEATAHGLSHSQATMKVAVKMLKSTARSSEKQALMSELKIMSHLGPHLNVVNLLGACTKGGPIYIITEYCRYGDLVDYLHRNKHTFLQHHSDKRRPPSAELYSNALPVGLPLPSHVSLTGESDGGYMDMSKDESVDYVPMLDMKGDVKYADIESSNYMAPYDNYVPSAPERTCRATLINESPVLSYMDLVGFSYQVANGMEFLASKNCVHRDLAARNVLICEGKLVKICDFGLARDIMRDSNYISKGSTFLPLKWMAPESIFNSLYTTLSDVWSFGILLWEIFTLGGTPYPELPMNEQFYNAIKRGYRMAQPAHASDEIYEIMQKCWEEKFEIRPPFSQLVLLLERLLGEGYKKKYQQVDEEFLRSDHPAILRSQARLPGFHGLRSPLDTSSVLYTAVQPNEGDNDYIIPLPDPKPEVADEGPLEGSPSLASSTLNEVNTSSTISCDSPLEPQDEPEPEPQLELQVEPEPELEQLPDSGCPAPRAEAEDSFL,PDGFR,platelet derived growth factor receptor beta,PDGFRB,TK,1804,453,PDGFRb,RTLGSGAFGQVVEVAVKMLALMSELKIMSHLGLNVVNLLGAYIITEYCRYGDLVDYLHRFLASKNCVHRDLAARNVLIICDFGLA,Human,,Protein tyrosine and serine/threonine kinase,601.0,955.0,1106.0,PF07714,True
+O15530,PDPK1,PDK1,PDK1,3-phosphoinositide-dependent protein kinase 1,AGC,PDK1,nan,PDPK1,MARTTSQLYDAVPIQSSVVLCSCPSPSMVRTQTESSTPPGIPGGSRQGPAMDGTAAEPRPGAGSLQHAQPPPQPRKKRPEDFKFGKILGEGSFSTVVLARELATSREYAIKILEKRHIIKENKVPYVTRERDVMSRLDHPFFVKLYFTFQDDEKLYFGLSYAKNGELLKYIRKIGSFDETCTRFYTAEIVSALEYLHGKGIIHRDLKPENILLNEDMHIQITDFGTAKVLSPESKQARANSFVGTAQYVSPELLTEKSACKSSDLWALGCIIYQLVAGLPPFRAGNEYLIFQKIIKLEYDFPEKFFPKARDLVEKLLVLDATKRLGCEEMEGYGPLKAHPFFESVTWENLHQQTPPKLTAYLPAMSEDDEDCYGNYDNLLSQFGCMQVSSSSSSHSLSASDTGLPQRSGSNIEQYIHDLDSNSFELDLQFSEDEKRLLLEKQAGGNPWHQFVENNLILKMGPVDKRKGLFARRRQLLLTEGPHLYYVDPVNKVLKGEIPWSQELRPEAKNFKTFFVHTPNRTYYLMDPSGNAHKWCRKIQEVWRQRYQSHPDAAVQ,PDK1,3-phosphoinositide dependent protein kinase 1,PDPK1,AGC,1519,27,PDK1,KILGEGSFSTVVLYAIKILYVTRERDVMSRLDPFFVKLYFTYFGLSYAKNGELLKYIRKYLHGKGIIHRDLKPENILLITDFGTA,Human,,Protein kinase domain,83.0,330.0,556.0,PF00069,True
+Q15118,PDK1,PDHK1,PDHK1,[Pyruvate dehydrogenase [lipoamide]] kinase isozyme 1,Atypical,PDHK,nan,PDK1,MRLARLLRGAALAGPGPGLRAAGFSRSFSSDSGSSPASERGVPGQVDFYARFSPSPLSMKQFLDFGSVNACEKTSFMFLRQELPVRLANIMKEISLLPDNLLRTPSVQLVQSWYIQSLQELLDFKDKSAEDAKAIYDFTDTVIRIRNRHNDVIPTMAQGVIEYKESFGVDPVTSQNVQYFLDRFYMSRISIRMLLNQHSLLFGGKGKGSPSHRKHIGSINPNCNVLEVIKDGYENARRLCDLYYINSPELELEELNAKSPGQPIQVVYVPSHLYHMVFELFKNAMRATMEHHANRGVYPPIQVHVTLGNEDLTVKMSDRGGGVPLRKIDRLFNYMYSTAPRPRVETSRAVPLAGFGYGLPISRLYAQYFQGDLKLYSLEGYGTDAVIYIKALSTDSIERLPVYNKAAWKHYNTNHEADDWCVPSREPKDMTTFRSA,PDHK,"[Pyruvate dehydrogenase (acetyl-transferring)] kinase isozyme 1, mitochondrial",PDK1,Atypical,2915,90,PDHK1,,Human,PDHK,,,,,,
+Q15119,PDK2,PDHK2,PDHK2,[Pyruvate dehydrogenase [lipoamide]] kinase isozyme 2,Atypical,PDHK,nan,PDK2,MRWVWALLKNASLAGAPKYIEHFSKFSPSPLSMKQFLDFGSSNACEKTSFTFLRQELPVRLANIMKEINLLPDRVLSTPSVQLVQSWYVQSLLDIMEFLDKDPEDHRTLSQFTDALVTIRNRHNDVVPTMAQGVLEYKDTYGDDPVSNQNIQYFLDRFYLSRISIRMLINQHTLIFDGSTNPAHPKHIGSIDPNCNVSEVVKDAYDMAKLLCDKYYMASPDLEIQEINAANSKQPIHMVYVPSHLYHMLFELFKNAMRATVESHESSLILPPIKVMVALGEEDLSIKMSDRGGGVPLRKIERLFSYMYSTAPTPQPGTGGTPLAGFGYGLPISRLYAKYFQGDLQLFSMEGFGTDAVIYLKALSTDSVERLPVYNKSAWRHYQTIQEAGDWCVPSTEPKNTSTYRVS,PDHK,"[Pyruvate dehydrogenase (acetyl-transferring)] kinase isozyme 2, mitochondrial",PDK2,Atypical,2142,91,PDHK2,,Human,PDHK,,,,,,
+Q15120,PDK3,PDHK3,PDHK3,[Pyruvate dehydrogenase [lipoamide]] kinase isozyme 3,Atypical,PDHK,nan,PDK3,MRLFRWLLKQPVPKQIERYSRFSPSPLSIKQFLDFGRDNACEKTSYMFLRKELPVRLANTMREVNLLPDNLLNRPSVGLVQSWYMQSFLELLEYENKSPEDPQVLDNFLQVLIKVRNRHNDVVPTMAQGVIEYKEKFGFDPFISTNIQYFLDRFYTNRISFRMLINQHTLLFGGDTNPVHPKHIGSIDPTCNVADVVKDAYETAKMLCEQYYLVAPELEVEEFNAKAPDKPIQVVYVPSHLFHMLFELFKNSMRATVELYEDRKEGYPAVKTLVTLGKEDLSIKISDLGGGVPLRKIDRLFNYMYSTAPRPSLEPTRAAPLAGFGYGLPISRLYARYFQGDLKLYSMEGVGTDAVIYLKALSSESFERLPVFNKSAWRHYKTTPEADDWSNPSSEPRDASKYKAKQ,PDHK,"[Pyruvate dehydrogenase (acetyl-transferring)] kinase isozyme 3, mitochondrial",PDK3,Atypical,2143,92,PDHK3,,Human,PDHK,,,,,,
+Q16654,PDK4,PDHK4,PDHK4,[Pyruvate dehydrogenase [lipoamide]] kinase isozyme 4,Atypical,PDHK,nan,PDK4,MKAARFVLRSAGSLNGAGLVPREVEHFSRYSPSPLSMKQLLDFGSENACERTSFAFLRQELPVRLANILKEIDILPTQLVNTSSVQLVKSWYIQSLMDLVEFHEKSPDDQKALSDFVDTLIKVRNRHHNVVPTMAQGIIEYKDACTVDPVTNQNLQYFLDRFYMNRISTRMLMNQHILIFSDSQTGNPSHIGSIDPNCDVVAVVQDAFECSRMLCDQYYLSSPELKLTQVNGKFPDQPIHIVYVPSHLHHMLFELFKNAMRATVEHQENQPSLTPIEVIVVLGKEDLTIKISDRGGGVPLRIIDRLFSYTYSTAPTPVMDNSRNAPLAGFGYGLPISRLYAKYFQGDLNLYSLSGYGTDAIIYLKALSSESIEKLPVFNKSAFKHYQMSSEADDWCIPSREPKNLAKEVAM,PDHK,"[Pyruvate dehydrogenase (acetyl-transferring)] kinase isozyme 4, mitochondrial",PDK4,Atypical,2144,93,PDHK4,,Human,PDHK,,,,,,
+Q9NZJ5,EIF2AK3,PEK,PEK,Eukaryotic translation initiation factor 2-alpha kinase 3,Other,PEK,PEK,EIF2AK3,MERAISPGLLVRALLLLLLLLGLAARTVAAGRARGLPAPTAEAAFGLGAAAAPTSATRVPAAGAVAAAEVTVEDAEALPAAAGEQEPRGPEPDDETELRPRGRSLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLSKPEVFGNKMIIPSLDGALFQWDQDRESMETVPFTVESLLESSYKFGDDVVLVGGKSLTTYGLSAYSGKVRYICSALGCRQWDSDEMEQEEDILLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYIPDMETRAGFIESTFKPNENTEESKIISDVEEQEAAIMDIVIKVSVADWKVMAFSKKGGHLEWEYQFCTPIASAWLLKDGKVIPISLFDDTSYTSNDDVLEDEEDIVEAARGATENSVYLGMYRGQLYLQSSVRISEKFPSSPKALESVTNENAIIPLPTIKWKPLIHSPSRTPVLVGSDEFDKCLSNDKFSHEEYSNGALSILQYPYDNGYYLPYYKRERNKRSTQITVRFLDNPHYNKNIRKKDPVLLLHWWKEIVATILFCIIATTFIVRRLFHPHPHRQRKESETQCQTENKYDSVSGEANDSSWNDIKNSGYISRYLTDFEPIQCLGRGGFGVVFEAKNKVDDCNYAIKRIRLPNRELAREKVMREVKALAKLEHPGIVRYFNAWLEAPPEKWQEKMDEIWLKDESTDWPLSSPSPMDAPSVKIRRMDPFATKEHIEIIAPSPQRSRSFSVGISCDQTSSSESQFSPLEFSGMDHEDISESVDAAYNLQDSCLTDCDVEDGTMDGNDEGHSFELCPSEASPYVRSRERTSSSIVFEDSGCDNASSKEEPKTNRLHIGNHCANKLTAFKPTSSKSSSEATLSISPPRPTTLSLDLTKNTTEKLQPSSPKVYLYIQMQLCRKENLKDWMNGRCTIEERERSVCLHIFLQIAEAVEFLHSKGLMHRDLKPSNIFFTMDDVVKVGDFGLVTAMDQDEEEQTVLTPMPAYARHTGQVGTKLYMSPEQIHGNSYSHKVDIFSLGLILFELLYPFSTQMERVRTLTDVRNLKFPPLFTQKYPCEYVMVQDMLSPSPMERPEAINIIENAVFEDLDFPGKTVLRQRSRSLSSSGTKHSRQSNNSHSPLPSN,PEK,eukaryotic translation initiation factor 2 alpha kinase 3,EIF2AK3,Other,2017,309,PEK,QCLGRGGFGVVFEYAIKRIKVMREVKALAKLEPGIVRYFNAYIQMQLCRKENLKDWMNGFLHSKGLMHRDLKPSNIFFVGDFGLV,Human,PEK,Protein kinase domain,595.0,660.0,1116.0,PF00069,True
+O94921,CDK14,PFTAIRE1,PFTAIRE1,Cyclin-dependent kinase 14,CMGC,CDK,PFTAIRE,CDK14,MCDLIEPQPAEKIGKMKKLRRTLSESFSRIALKKDDTTFDEICVTKMSTRNCQGMDSVIKPLDTIPEDKKVRVQRTQSTFDPFEKPANQVKRVHSENNACINFKTSSTGKESPKVRRHSSPSSPTSPKFGKADSYEKLEKLGEGSYATVYKGKSKVNGKLVALKVIRLQEEEGTPFTAIREASLLKGLKHANIVLLHDIIHTKETLTLVFEYVHTDLCQYMDKHPGGLHPDNVKLFLFQLLRGLSYIHQRYILHRDLKPQNLLISDTGELKLADFGLARAKSVPSHTYSNEVVTLWYRPPDVLLGSTEYSTCLDMWGVGCIFVEMIQGVAAFPGMKDIQDQLERIFLVLGTPNEDTWPGVHSLPHFKPERFTLYSSKNLRQAWNKLSYVNHAEDLASKLLQCSPKNRLSAQAALSHEYFSDLPPRLWELTDMSSIFTVPNVRLQPEAGESMRAFGKNNSYGKSLSNSKH,CDK,cyclin-dependent kinase 14,CDK14,CMGC,1967,213,PFTAIRE1,EKLGEGSYATVYKVALKVITAIREASLLKGLKANIVLLHDITLVFEYVH-TDLCQYMDKYIHQRYILHRDLKPQNLLILADFGLA,Human,PFTAI,Protein kinase domain,135.0,419.0,469.0,PF00069,True
+Q16816,PHKG1,PHKg1,PHKg1,Phosphorylase b kinase gamma catalytic chain,CAMK,PHK,nan,PHKG1,MTRDEALPDSHSAQDFYENYEPKEILGRGVSSVVRRCIHKPTSQEYAVKVIDVTGGGSFSPEEVRELREATLKEVDILRKVSGHPNIIQLKDTYETNTFFFLVFDLMKRGELFDYLTEKVTLSEKETRKIMRALLEVICTLHKLNIVHRDLKPENILLDDNMNIKLTDFGFSCQLEPGERLREVCGTPSYLAPEIIECSMNEDHPGYGKEVDMWSTGVIMYTLLAGSPPFWHRKQMLMLRMIMSGNYQFGSPEWDDYSDTVKDLVSRFLVVQPQNRYTAEEALAHPFFQQYLVEEVRHFSPRGKFKVIALTVLASVRIYYQYRRVKPVTREIVIRDPYALRPLRRLIDAYAFRIYGHWVKKGQQQNRAALFENTPKAVLLSLAEEDY,PHK,"phosphorylase kinase, gamma 1 (muscle)",PHKG1,CAMK,2145,158,PHKg1,EILGRGVSSVVRRYAVKVIATLKEVDILRKVSPNIIQLKDTFLVFDLMKRGELFDYLTETLHKLNIVHRDLKPENILLLTDFGFS,Human,,Protein kinase domain,20.0,288.0,387.0,PF00069,True
+P15735,PHKG2,PHKg2,PHKg2,Phosphorylase b kinase gamma catalytic chain,CAMK,PHK,nan,PHKG2,MTLDVGPEDELPDWAAAKEFYQKYDPKDVIGRGVSSVVRRCVHRATGHEFAVKIMEVTAERLSPEQLEEVREATRRETHILRQVAGHPHIITLIDSYESSSFMFLVFDLMRKGELFDYLTEKVALSEKETRSIMRSLLEAVSFLHANNIVHRDLKPENILLDDNMQIRLSDFGFSCHLEPGEKLRELCGTPGYLAPEILKCSMDETHPGYGKEVDLWACGVILFTLLAGSPPFWHRRQILMLRMIMEGQYQFSSPEWDDRSSTVKDLISRLLQVDPEARLTAEQALQHPFFERCEGSQPWNLTPRQRFRVAVWTVLAAGRVALSTHRVRPLTKNALLRDPYALRSVRHLIDNCAFRLYGHWVKKGEQQNRAALFQHRPPGPFPIMGPEEEGDSAAITEDEAVLVLG,PHK,"phosphorylase kinase, gamma 2 (testis)",PHKG2,CAMK,2147,159,PHKg2,DVIGRGVSSVVRRFAVKIMATRRETHILRQVAPHIITLIDSFLVFDLMRKGELFDYLTEFLHANNIVHRDLKPENILLLSDFGFS,Human,,Protein kinase domain,25.0,291.0,406.0,PF00069,True
+P11309,PIM1,PIM1,PIM1,Serine/threonine-protein kinase pim-1,CAMK,PIM,nan,PIM1,MLLSKINSLAHLRAAPCNDLHATKLAPGKEKEPLESQYQVGPLLGSGGFGSVYSGIRVSDNLPVAIKHVEKDRISDWGELPNGTRVPMEVVLLKKVSSGFSGVIRLLDWFERPDSFVLILERPEPVQDLFDFITERGALQEELARSFFWQVLEAVRHCHNCGVLHRDIKDENILIDLNRGELKLIDFGSGALLKDTVYTDFDGTRVYSPPEWIRYHRYHGRSAAVWSLGILLYDMVCGDIPFEHDEEIIRGQVFFRQRVSSECQHLIRWCLALRPSDRPTFEEIQNHPWMQDVLLPQETAEIHLHSLSPGPSK,PIM,"Pim-1 proto-oncogene, serine/threonine kinase",PIM1,CAMK,2158,160,PIM1,PLLGSGGFGSVYSVAIKHVRVPMEVVLLKKVSSGVIRLLDWVLILERPEVQDLFDFITEHCHNCGVLHRDIKDENILILIDFGSG,Human,,Protein kinase domain,38.0,290.0,313.0,PF00069,True
+Q9P1W9,PIM2,PIM2,PIM2,Serine/threonine-protein kinase pim-2,CAMK,PIM,nan,PIM2,MLTKPLQGPPAPPGTPTPPPGGKDREAFEAEYRLGPLLGKGGFGTVFAGHRLTDRLQVAIKVIPRNRVLGWSPLSDSVTCPLEVALLWKVGAGGGHPGVIRLLDWFETQEGFMLVLERPLPAQDLFDYITEKGPLGEGPSRCFFGQVVAAIQHCHSRGVVHRDIKDENILIDLRRGCAKLIDFGSGALLHDEPYTDFDGTRVYSPPEWISRHQYHALPATVWSLGILLYDMVCGDIPFERDQEILEAELHFPAHVSPDCCALIRRCLAPKPSSRPSLEEILLDPWMQTPAEDVPLNPSKGGPAPLAWSLLP,PIM,"Pim-2 proto-oncogene, serine/threonine kinase",PIM2,CAMK,2159,161,PIM2,PLLGKGGFGTVFAVAIKVITCPLEVALLWKVGPGVIRLLDWMLVLERPLAQDLFDYITEHCHSRGVVHRDIKDENILILIDFGSG,Human,,Protein kinase domain,33.0,286.0,311.0,PF00069,True
+Q15131,CDK10,CDK10,CDK10,Cyclin-dependent kinase 10,CMGC,CDK,CDK10,CDK10,MAEPDLECEQIRLKCIRKEGFFTVPPEHRLGRCRSVKEFEKLNRIGEGTYGIVYRARDTQTDEIVALKKVRMDKEKDGIPISSLREITLLLRLRHPNIVELKEVVVGNHLESIFLVMGYCEQDLASLLENMPTPFSEAQVKCIVLQVLRGLQYLHRNFIIHRDLKVSNLLMTDKGCVKTADFGLARAYGVPVKPMTPKVVTLWYRAPELLLGTTTQTTSIDMWAVGCILAELLAHRPLLPGTSEIHQIDLIVQLLGTPSENIWPGFSKLPLVGQYSLRKQPYNNLKHKFPWLSEAGLRLLHFLFMYDPKKRATAGDCLESSYFKEKPLPCEPELMPTFPHHRNKRAAPATSEGQSKRCKP,CDK,cyclin-dependent kinase 10,CDK10,CMGC,0,200,CDK10,NRIGEGTYGIVYRVALKKVSSLREITLLLRLRPNIVELKEVFLVMGYCE-QDLASLLENYLHRNFIIHRDLKVSNLLMTADFGLA,Human,CDK10,Protein kinase domain,39.0,323.0,360.0,PF00069,True
+P50750,CDK9,CDK9,CDK9,Cyclin-dependent kinase 9,CMGC,CDK,CDK9,CDK9,MAKQYDSVECPFCDEVSKYEKLAKIGQGTFGEVFKARHRKTGQKVALKKVLMENEKEGFPITALREIKILQLLKHENVVNLIEICRTKASPYNRCKGSIYLVFDFCEHDLAGLLSNVLVKFTLSEIKRVMQMLLNGLYYIHRNKILHRDMKAANVLITRDGVLKLADFGLARAFSLAKNSQPNRYTNRVVTLWYRPPELLLGERDYGPPIDLWGAGCIMAEMWTRSPIMQGNTEQHQLALISQLCGSITPEVWPNVDNYELYEKLELVKGQKRKVKDRLKAYVRDPYALDLIDKLLVLDPAQRIDSDDALNHDFFWSDPMPSDLKGMLSTHLTSMFEYLAPPRRKGSQITQQSTNQSRNPATTNQTEFERVF,CDK,cyclin-dependent kinase 9,CDK9,CMGC,1981,207,CDK9,AKIGQGTFGEVFKVALKKVTALREIKILQLLKENVVNLIEIYLVFDFCE-HDLAGLLSNYIHRNKILHRDMKAANVLILADFGLA,Human,CDK9,Protein kinase domain,19.0,315.0,372.0,PF00069,True
+P21127,CDK11B,PITSLRE,PITSLRE,Cyclin-dependent kinase 11B,CMGC,CDK,CDK11,CDK11B,MGDEKDSWKVKTLDEILQEKKRRKEQEEKAEIKRLKNSDDRDSKRDSLEEGELRDHRMEITIRNSPYRREDSMEDRGEEDDSLAIKPPQQMSRKEKAHHRKDEKRKEKRRHRSHSAEGGKHARVKEKEREHERRKRHREEQDKARREWERQKRREMAREHSRRERDRLEQLERKRERERKMREQQKEQREQKERERRAEERRKEREARREVSAHHRTMREDYSDKVKASHWSRSPPRPPRERFELGDGRKPGEARPAPAQKPAQLKEEKMEERDLLSDLQDISDSERKTSSAESSSAESGSGSEEEEEEEEEEEEEGSTSEESEEEEEEEEEEEEETGSNSEEASEQSAEEVSEEEMSEDEERENENHLLVVPESRFDRDSGESEEAEEEVGEGTPQSSALTEGDYVPDSPALSPIELKQELPKYLPALQGCRSVEEFQCLNRIEEGTYGVVYRAKDKKTDEIVALKRLKMEKEKEGFPITSLREINTILKAQHPNIVTVREIVVGSNMDKIYIVMNYVEHDLKSLMETMKQPFLPGEVKTLMIQLLRGVKHLHDNWILHRDLKTSNLLLSHAGILKVGDFGLAREYGSPLKAYTPVVVTLWYRAPELLLGAKEYSTAVDMWSVGCIFGELLTQKPLFPGKSEIDQINKVFKDLGTPSEKIWPGYSELPAVKKMTFSEHPYNNLRKRFGALLSDQGFDLMNKFLTYFPGRRISAEDGLKHEYFRETPLPIDPSMFPTWPAKSEQQRVKRGTSPRPPEGGLGYSQLGDDDLKETGFHLTTTNQGASAAGPGFSLKF,CDK,cyclin-dependent kinase 11B,CDK11B,CMGC,1964,215,PITSLRE,NRIEEGTYGVVYRVALKRLTSLREINTILKAQPNIVTVREIYIVMNYVE-HDLKSLMETHLHDNWILHRDLKTSNLLLVGDFGLA,Human,PITSL,Protein kinase domain,441.0,723.0,795.0,PF00069,True
+Q14680,MELK,MELK,MELK,Maternal embryonic leucine zipper kinase,CAMK,CAMKL,MELK,MELK,MKDYDELLKYYELHETIGTGGFAKVKLACHILTGEMVAIKIMDKNTLGSDLPRIKTEIEALKNLRHQHICQLYHVLETANKIFMVLEYCPGGELFDYIISQDRLSEEETRVVFRQIVSAVAYVHSQGYAHRDLKPENLLFDEYHKLKLIDFGLCAKPKGNKDYHLQTCCGSLAYAAPELIQGKSYLGSEADVWSMGILLYVLMCGFLPFDDDNVMALYKKIMRGKYDVPKWLSPSSILLLQQMLQVDPKKRISMKNLLNHPWIMQDYNYPVEWQSKNPFIHLDDDCVTELSVHHRNNRQTMEDLISLWQYDHLTATYLLLLAKKARGKPVRLRLSSFSCGQASATPFTDIKSNNWSLEDVTASDKNYVAGLIDYDWCEDDLSTGAATPRTSQFTKYWTESNGVESKSLTPALCRTPANKLKNKENVYTPKSAVKNEEYFMFPEPKTPVNKNQHKREILTTPNRYTTPSKARNQCLKETPIKIPVNSTGTDKLMTGVISPERRCRSVELDLNQAHMEETPKRKGAKVFGSLERGLDKVITVLTRSKRKGSARDGPRRLKLHYNVTTTRLVNPDQLLNEIMSILPKKHVDFVQKGYTLKCQTQSDFGKVTMQFELEVCQLQKPDVVGIRRQRLKGDAWVYKRLVEDILSSCKV,CAMKL,maternal embryonic leucine zipper kinase,MELK,CAMK,2102,128,MELK,ETIGTGGFAKVKLVAIKIMRIKTEIEALKNLRQHICQLYHVFMVLEYCPGGELFDYIISYVHSQGYAHRDLKPENLLFLIDFGLC,Human,MELK,Protein kinase domain,11.0,263.0,651.0,PF00069,True
+Q5VT25,CDC42BPA,MRCKa,MRCKa,Serine/threonine-protein kinase MRCK alpha,AGC,DMPK,GEK,CDC42BPA,MSGEVRLRQLEQFILDGPAQTNGQCFSVETLLDILICLYDECNNSPLRREKNILEYLEWAKPFTSKVKQMRLHREDFEILKVIGRGAFGEVAVVKLKNADKVFAMKILNKWEMLKRAETACFREERDVLVNGDNKWITTLHYAFQDDNNLYLVMDYYVGGDLLTLLSKFEDRLPEDMARFYLAEMVIAIDSVHQLHYVHRDIKPDNILMDMNGHIRLADFGSCLKLMEDGTVQSSVAVGTPDYISPEILQAMEDGKGRYGPECDWWSLGVCMYEMLYGETPFYAESLVETYGKIMNHKERFQFPAQVTDVSENAKDLIRRLICSREHRLGQNGIEDFKKHPFFSGIDWDNIRNCEAPYIPEVSSPTDTSNFDVDDDCLKNSETMPPPTHTAFSGHHLPFVGFTYTSSCVLSDRSCLRVTAGPTSLDLDVNVQRTLDNNLATEAYERRIKRLEQEKLELSRKLQESTQTVQALQYSTVDGPLTASKDLEIKNLKEEIEKLRKQVTESSHLEQQLEEANAVRQELDDAFRQIKAYEKQIKTLQQEREDLNKELVQASERLKNQSKELKDAHCQRKLAMQEFMEINERLTELHTQKQKLARHVRDKEEEVDLVMQKVESLRQELRRTERAKKELEVHTEALAAEASKDRKLREQSEHYSKQLENELEGLKQKQISYSPGVCSIEHQQEITKLKTDLEKKSIFYEEELSKREGIHANEIKNLKKELHDSEGQQLALNKEIMILKDKLEKTRRESQSEREEFESEFKQQYEREKVLLTEENKKLTSELDKLTTLYENLSIHNQQLEEEVKDLADKKESVAHWEAQITEIIQWVSDEKDARGYLQALASKMTEELEALRNSSLGTRATDMPWKMRRFAKLDMSARLELQSALDAEIRAKQAIQEELNKVKASNIITECKLKDSEKKNLELLSEIEQLIKDTEELRSEKGIEHQDSQHSFLAFLNTPTDALDQFERSPSCTPASKGRRTVDSTPLSVHTPTLRKKGCPGSTGFPPKRKTHQFFVKSFTTPTKCHQCTSLMVGLIRQGCSCEVCGFSCHITCVNKAPTTCPVPPEQTKGPLGIDPQKGIGTAYEGHVRIPKPAGVKKGWQRALAIVCDFKLFLYDIAEGKASQPSVVISQVIDMRDEEFSVSSVLASDVIHASRKDIPCIFRVTASQLSASNNKCSILMLADTENEKNKWVGVLSELHKILKKNKFRDRSVYVPKEAYDSTLPLIKTTQAAAIIDHERIALGNEEGLFVVHVTKDEIIRVGDNKKIHQIELIPNDQLVAVISGRNRHVRLFPMSALDGRETDFYKLSETKGCQTVTSGKVRHGALTCLCVAMKRQVLCYELFQSKTRHRKFKEIQVPYNVQWMAIFSEQLCVGFQSGFLRYPLNGEGNPYSMLHSNDHTLSFIAHQPMDAICAVEISSKEYLLCFNSIGIYTDCQGRRSRQQELMWPANPSSCCYNAPYLSVYSENAVDIFDVNSMEWIQTLPLKKVRPLNNEGSLNLLGLETIRLIYFKNKMAEGDELVVPETSDNSRKQMVRNINNKRRYSFRVPEEERMQQRREMLRDPEMRNKLISNPTNFNHIAHMGPGDGIQILKDLPMNPRPQESRTVFSGSVSIPSITKSRPEPGRSMSASSGLSARSSAQNGSALKREFSGGSYSAKRQPMPSPSEGSLSSGGMDQGSDAPARDFDGEDSDSPRHSTASNSSNLSSPPSPASPRKTKSLSLESTDRGSWDP,DMPK,CDC42 binding protein kinase alpha,CDC42BPA,AGC,1507,6,MRCKa,KVIGRGAFGEVAVFAMKILCFREERDVLVNGDKWITTLHYAYLVMDYYVGGDLLTLLSKSVHQLHYVHRDIKPDNILMLADFGSC,Human,GEK,Protein kinase domain,77.0,343.0,1732.0,PF00069,True
+P17612,PRKACA,PKACa,PKACa,cAMP-dependent protein kinase catalytic subunit alpha,AGC,PKA,nan,PRKACA,MGNAAAAKKGSEQESVKEFLAKAKEDFLKKWESPAQNTAHLDQFERIKTLGTGSFGRVMLVKHKETGNHYAMKILDKQKVVKLKQIEHTLNEKRILQAVNFPFLVKLEFSFKDNSNLYMVMEYVPGGEMFSHLRRIGRFSEPHARFYAAQIVLTFEYLHSLDLIYRDLKPENLLIDQQGYIQVTDFGFAKRVKGRTWTLCGTPEYLAPEIILSKGYNKAVDWWALGVLIYEMAAGYPPFFADQPIQIYEKIVSGKVRFPSHFSSDLKDLLRNLLQVDLTKRFGNLKNGVNDIKNHKWFATTDWIAIYQRKVEAPFIPKFKGPGDTSNFDDYEEEEIRVSINEKCGKEFSEF,PKA,protein kinase cAMP-activated catalytic subunit alpha,PRKACA,AGC,1476,28,PKACa,KTLGTGSFGRVMLYAMKILHTLNEKRILQAVNPFLVKLEFSYMVMEYVPGGEMFSHLRRYLHSLDLIYRDLKPENLLIVTDFGFA,Human,,Protein kinase domain,44.0,298.0,351.0,PF00069,True
+P22694,PRKACB,PKACb,PKACb,cAMP-dependent protein kinase catalytic subunit beta,AGC,PKA,nan,PRKACB,MGNAATAKKGSEVESVKEFLAKAKEDFLKKWENPTQNNAGLEDFERKKTLGTGSFGRVMLVKHKATEQYYAMKILDKQKVVKLKQIEHTLNEKRILQAVNFPFLVRLEYAFKDNSNLYMVMEYVPGGEMFSHLRRIGRFSEPHARFYAAQIVLTFEYLHSLDLIYRDLKPENLLIDHQGYIQVTDFGFAKRVKGRTWTLCGTPEYLAPEIILSKGYNKAVDWWALGVLIYEMAAGYPPFFADQPIQIYEKIVSGKVRFPSHFSSDLKDLLRNLLQVDLTKRFGNLKNGVSDIKTHKWFATTDWIAIYQRKVEAPFIPKFRGSGDTSNFDDYEEEDIRVSITEKCAKEFGEF,PKA,protein kinase cAMP-activated catalytic subunit beta,PRKACB,AGC,1477,29,PKACb,KTLGTGSFGRVMLYAMKILHTLNEKRILQAVNPFLVRLEYAYMVMEYVPGGEMFSHLRRYLHSLDLIYRDLKPENLLIVTDFGFA,Human,,Protein kinase domain,44.0,298.0,351.0,PF00069,True
+P22612,PRKACG,PKACg,PKACg,cAMP-dependent protein kinase catalytic subunit gamma,AGC,PKA,nan,PRKACG,MGNAPAKKDTEQEESVNEFLAKARGDFLYRWGNPAQNTASSDQFERLRTLGMGSFGRVMLVRHQETGGHYAMKILNKQKVVKMKQVEHILNEKRILQAIDFPFLVKLQFSFKDNSYLYLVMEYVPGGEMFSRLQRVGRFSEPHACFYAAQVVLAVQYLHSLDLIHRDLKPENLLIDQQGYLQVTDFGFAKRVKGRTWTLCGTPEYLAPEIILSKGYNKAVDWWALGVLIYEMAVGFPPFYADQPIQIYEKIVSGRVRFPSKLSSDLKHLLRSLLQVDLTKRFGNLRNGVGDIKNHKWFATTSWIAIYEKKVEAPFIPKYTGPGDASNFDDYEEEELRISINEKCAKEFSEF,PKA,protein kinase cAMP-activated catalytic subunit gamma,PRKACG,AGC,1478,30,PKACg,RTLGMGSFGRVMLYAMKILHILNEKRILQAIDPFLVKLQFSYLVMEYVPGGEMFSRLQRYLHSLDLIHRDLKPENLLIVTDFGFA,Human,,Protein kinase domain,44.0,298.0,351.0,PF00069,True
+P17252,PRKCA,PKCa,PKCa,Protein kinase C alpha type,AGC,PKC,PKCa,PRKCA,MADVFPGNDSTASQDVANRFARKGALRQKNVHEVKDHKFIARFFKQPTFCSHCTDFIWGFGKQGFQCQVCCFVVHKRCHEFVTFSCPGADKGPDTDDPRSKHKFKIHTYGSPTFCDHCGSLLYGLIHQGMKCDTCDMNVHKQCVINVPSLCGMDHTEKRGRIYLKAEVADEKLHVTVRDAKNLIPMDPNGLSDPYVKLKLIPDPKNESKQKTKTIRSTLNPQWNESFTFKLKPSDKDRRLSVEIWDWDRTTRNDFMGSLSFGVSELMKMPASGWYKLLNQEEGEYYNVPIPEGDEEGNMELRQKFEKAKLGPAGNKVISPSEDRKQPSNNLDRVKLTDFNFLMVLGKGSFGKVMLADRKGTEELYAIKILKKDVVIQDDDVECTMVEKRVLALLDKPPFLTQLHSCFQTVDRLYFVMEYVNGGDLMYHIQQVGKFKEPQAVFYAAEISIGLFFLHKRGIIYRDLKLDNVMLDSEGHIKIADFGMCKEHMMDGVTTRTFCGTPDYIAPEIIAYQPYGKSVDWWAYGVLLYEMLAGQPPFDGEDEDELFQSIMEHNVSYPKSLSKEAVSVCKGLMTKHPAKRLGCGPEGERDVREHAFFRRIDWEKLENREIQPPFKPKVCGKGAENFDKFFTRGQPVLTPPDQLVIANIDQSDFEGFSYVNPQFVHPILQSAV,PKC,protein kinase C alpha,PRKCA,AGC,1482,33,PKCa,MVLGKGSFGKVMLYAIKILCTMVEKRVLALLDPFLTQLHSCYFVMEYVNGGDLMYHIQQFLHKRGIIYRDLKLDNVMLIADFGMC,Human,Alpha,Protein kinase domain,341.0,583.0,672.0,PF00069,True
+P05771,PRKCB,PKCb,PKCb,Protein kinase C beta type,AGC,PKC,PKCa,PRKCB,MADPAAGPPPSEGEESTVRFARKGALRQKNVHEVKNHKFTARFFKQPTFCSHCTDFIWGFGKQGFQCQVCCFVVHKRCHEFVTFSCPGADKGPASDDPRSKHKFKIHTYSSPTFCDHCGSLLYGLIHQGMKCDTCMMNVHKRCVMNVPSLCGTDHTERRGRIYIQAHIDRDVLIVLVRDAKNLVPMDPNGLSDPYVKLKLIPDPKSESKQKTKTIKCSLNPEWNETFRFQLKESDKDRRLSVEIWDWDLTSRNDFMGSLSFGISELQKASVDGWFKLLSQEEGEYFNVPVPPEGSEANEELRQKFERAKISQGTKVPEEKTTNTVSKFDNNGNRDRMKLTDFNFLMVLGKGSFGKVMLSERKGTDELYAVKILKKDVVIQDDDVECTMVEKRVLALPGKPPFLTQLHSCFQTMDRLYFVMEYVNGGDLMYHIQQVGRFKEPHAVFYAAEIAIGLFFLQSKGIIYRDLKLDNVMLDSEGHIKIADFGMCKENIWDGVTTKTFCGTPDYIAPEIIAYQPYGKSVDWWAFGVLLYEMLAGQAPFEGEDEDELFQSIMEHNVAYPKSMSKEAVAICKGLMTKHPGKRLGCGPEGERDIKEHAFFRYIDWEKLERKEIQPPYKPKARDKRDTSNFDKEFTRQPVELTPTDKLFIMNLDQNEFAGFSYTNPEFVINV,PKC,protein kinase C beta,PRKCB,AGC,1483,34,PKCb,MVLGKGSFGKVMLYAVKILCTMVEKRVLALPGPFLTQLHSCYFVMEYVNGGDLMYHIQQFLQSKGIIYRDLKLDNVMLIADFGMC,Human,Alpha,Protein kinase domain,344.0,586.0,671.0,PF00069,True
+Q05655,PRKCD,PKCd,PKCd,Protein kinase C delta type,AGC,PKC,PKCd,PRKCD,MAPFLRIAFNSYELGSLQAEDEANQPFCAVKMKEALSTERGKTLVQKKPTMYPEWKSTFDAHIYEGRVIQIVLMRAAEEPVSEVTVGVSVLAERCKKNNGKAEFWLDLQPQAKVLMSVQYFLEDVDCKQSMRSEDEAKFPTMNRRGAIKQAKIHYIKNHEFIATFFGQPTFCSVCKDFVWGLNKQGYKCRQCNAAIHKKCIDKIIGRCTGTAANSRDTIFQKERFNIDMPHRFKVHNYMSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCGINQKLLAEALNQVTQRASRRSDSASSEPVGIYQGFEKKTGVAGEDMQDNSGTYGKIWEGSSKCNINNFIFHKVLGKGSFGKVLLGELKGRGEYFAIKALKKDVVLIDDDVECTMVEKRVLTLAAENPFLTHLICTFQTKDHLFFVMEFLNGGDLMYHIQDKGRFELYRATFYAAEIMCGLQFLHSKGIIYRDLKLDNVLLDRDGHIKIADFGMCKENIFGESRASTFCGTPDYIAPEILQGLKYTFSVDWWSFGVLLYEMLIGQSPFHGDDEDELFESIRVDTPHYPRWITKESKDILEKLFEREPTKRLGVTGNIKIHPFFKTINWTLLEKRRLEPPFRPKVKSPRDYSNFDQEFLNEKARLSYSDKNLIDSMDQSAFAGFSFVNPKFEHLLED,PKC,protein kinase C delta,PRKCD,AGC,1485,36,PKCd,KVLGKGSFGKVLLFAIKALCTMVEKRVLTLAAPFLTHLICTFFVMEFLNGGDLMYHIQDFLHSKGIIYRDLKLDNVLLIADFGMC,Human,Delta,Protein kinase domain,352.0,603.0,676.0,PF00069,True
+Q02156,PRKCE,PKCe,PKCe,Protein kinase C epsilon type,AGC,PKC,PKCh,PRKCE,MVVFNGLLKIKICEAVSLKPTAWSLRHAVGPRPQTFLLDPYIALNVDDSRIGQTATKQKTNSPAWHDEFVTDVCNGRKIELAVFHDAPIGYDDFVANCTIQFEELLQNGSRHFEDWIDLEPEGRVYVIIDLSGSSGEAPKDNEERVFRERMRPRKRQGAVRRRVHQVNGHKFMATYLRQPTYCSHCRDFIWGVIGKQGYQCQVCTCVVHKRCHELIITKCAGLKKQETPDQVGSQRFSVNMPHKFGIHNYKVPTFCDHCGSLLWGLLRQGLQCKVCKMNVHRRCETNVAPNCGVDARGIAKVLADLGVTPDKITNSGQRRKKLIAGAESPQPASGSSPSEEDRSKSAPTSPCDQEIKELENNIRKALSFDNRGEEHRAASSPDGQLMSPGENGEVRQGQAKRLGLDEFNFIKVLGKGSFGKVMLAELKGKDEVYAVKVLKKDVILQDDDVDCTMTEKRILALARKHPYLTQLYCCFQTKDRLFFVMEYVNGGDLMFQIQRSRKFDEPRSRFYAAEVTSALMFLHQHGVIYRDLKLDNILLDAEGHCKLADFGMCKEGILNGVTTTTFCGTPDYIAPEILQELEYGPSVDWWALGVLMYEMMAGQPPFEADNEDDLFESILHDDVLYPVWLSKEAVSILKAFMTKNPHKRLGCVASQNGEDAIKQHPFFKEIDWVLLEQKKIKPPFKPRIKTKRDVNNFDQDFTREEPVLTLVDEAIVKQINQEEFKGFSYFGEDLMP,PKC,protein kinase C epsilon,PRKCE,AGC,1486,38,PKCe,KVLGKGSFGKVMLYAVKVLCTMTEKRILALARPYLTQLYCCFFVMEYVNGGDLMFQIQRFLHQHGVIYRDLKLDNILLLADFGMC,Human,Eta,Protein kinase domain,409.0,667.0,737.0,PF00069,True
+P05129,PRKCG,PKCg,PKCg,Protein kinase C gamma type,AGC,PKC,PKCa,PRKCG,MAGLGPGVGDSEGGPRPLFCRKGALRQKVVHEVKSHKFTARFFKQPTFCSHCTDFIWGIGKQGLQCQVCSFVVHRRCHEFVTFECPGAGKGPQTDDPRNKHKFRLHSYSSPTFCDHCGSLLYGLVHQGMKCSCCEMNVHRRCVRSVPSLCGVDHTERRGRLQLEIRAPTADEIHVTVGEARNLIPMDPNGLSDPYVKLKLIPDPRNLTKQKTRTVKATLNPVWNETFVFNLKPGDVERRLSVEVWDWDRTSRNDFMGAMSFGVSELLKAPVDGWYKLLNQEEGEYYNVPVADADNCSLLQKFEACNYPLELYERVRMGPSSSPIPSPSPSPTDPKRCFFGASPGRLHISDFSFLMVLGKGSFGKVMLAERRGSDELYAIKILKKDVIVQDDDVDCTLVEKRVLALGGRGPGGRPHFLTQLHSTFQTPDRLYFVMEYVTGGDLMYHIQQLGKFKEPHAAFYAAEIAIGLFFLHNQGIIYRDLKLDNVMLDAEGHIKITDFGMCKENVFPGTTTRTFCGTPDYIAPEIIAYQPYGKSVDWWSFGVLLYEMLAGQPPFDGEDEEELFQAIMEQTVTYPKSLSREAVAICKGFLTKHPGKRLGSGPDGEPTIRAHGFFRWIDWERLERLEIPPPFRPRPCGRSGENFDKFFTRAAPALTPPDRLVLASIDQADFQGFTYVNPDFVHPDARSPTSPVPVPVM,PKC,protein kinase C gamma,PRKCG,AGC,1484,35,PKCg,MVLGKGSFGKVMLYAIKILCTLVEKRVLALGGHFLTQLHSTYFVMEYVTGGDLMYHIQQFLHNQGIIYRDLKLDNVMLITDFGMC,Human,Alpha,Protein kinase domain,353.0,599.0,697.0,PF00069,True
+P41743,PRKCI,PKCi,PKCi,Protein kinase C iota type,AGC,PKC,PKCi,PRKCI,MPTQRDSSTMSHTVAGGGSGDHSHQVRVKAYYRGDIMITHFEPSISFEGLCNEVRDMCSFDNEQLFTMKWIDEEGDPCTVSSQLELEEAFRLYELNKDSELLIHVFPCVPERPGMPCPGEDKSIYRRGARRWRKLYCANGHTFQAKRFNRRAHCAICTDRIWGLGRQGYKCINCKLLVHKKCHKLVTIECGRHSLPQEPVMPMDQSSMHSDHAQTVIPYNPSSHESLDQVGEEKEAMNTRESGKASSSLGLQDFDLLRVIGRGSYAKVLLVRLKKTDRIYAMKVVKKELVNDDEDIDWVQTEKHVFEQASNHPFLVGLHSCFQTESRLFFVIEYVNGGDLMFHMQRQRKLPEEHARFYSAEISLALNYLHERGIIYRDLKLDNVLLDSEGHIKLTDYGMCKEGLRPGDTTSTFCGTPNYIAPEILRGEDYGFSVDWWALGVLMFEMMAGRSPFDIVGSSDNPDQNTEDYLFQVILEKQIRIPRSLSVKAASVLKSFLNKDPKERLGCHPQTGFADIQGHPFFRNVDWDMMEQKQVVPPFKPNISGEFGLDNFDSQFTNEPVQLTPDDDDIVRKIDQSEFEGFEYINPLLMSAEECV,PKC,protein kinase C iota,PRKCI,AGC,1490,40,PKCi,RVIGRGSYAKVLLYAMKVVWVQTEKHVFEQASPFLVGLHSCFFVIEYVNGGDLMFHMQRYLHERGIIYRDLKLDNVLLLTDYGMC,Human,Iota,Protein kinase domain,256.0,521.0,596.0,PF00069,True
+Q15139,PRKD1,PKD1,PKD1,Serine/threonine-protein kinase D1,CAMK,PKD,nan,PRKD1,MSAPPVLRPPSPLLPVAAAAAAAAAALVPGSGPGPAPFLAPVAAPVGGISFHLQIGLSREPVLLLQDSSGDYSLAHVREMACSIVDQKFPECGFYGMYDKILLFRHDPTSENILQLVKAASDIQEGDLIEVVLSASATFEDFQIRPHALFVHSYRAPAFCDHCGEMLWGLVRQGLKCEGCGLNYHKRCAFKIPNNCSGVRRRRLSNVSLTGVSTIRTSSAELSTSAPDEPLLQKSPSESFIGREKRSNSQSYIGRPIHLDKILMSKVKVPHTFVIHSYTRPTVCQYCKKLLKGLFRQGLQCKDCRFNCHKRCAPKVPNNCLGEVTINGDLLSPGAESDVVMEEGSDDNDSERNSGLMDDMEEAMVQDAEMAMAECQNDSGEMQDPDPDHEDANRTISPSTSNNIPLMRVVQSVKHTKRKSSTVMKEGWMVHYTSKDTLRKRHYWRLDSKCITLFQNDTGSRYYKEIPLSEILSLEPVKTSALIPNGANPHCFEITTANVVYYVGENVVNPSSPSPNNSVLTSGVGADVARMWEIAIQHALMPVIPKGSSVGTGTNLHRDISVSISVSNCQIQENVDISTVYQIFPDEVLGSGQFGIVYGGKHRKTGRDVAIKIIDKLRFPTKQESQLRNEVAILQNLHHPGVVNLECMFETPERVFVVMEKLHGDMLEMILSSEKGRLPEHITKFLITQILVALRHLHFKNIVHCDLKPENVLLASADPFPQVKLCDFGFARIIGEKSFRRSVVGTPAYLAPEVLRNKGYNRSLDMWSVGVIIYVSLSGTFPFNEDEDIHDQIQNAAFMYPPNPWKEISHEAIDLINNLLQVKMRKRYSVDKTLSHPWLQDYQTWLDLRELECKIGERYITHESDDLRWEKYAGEQGLQYPTHLINPSASHSDTPETEETEMKALGERVSIL,PKD,protein kinase D1,PRKD1,CAMK,1489,163,PKD1,EVLGSGQFGIVYGVAIKIIQLRNEVAILQNLHPGVVNLECMFVVMEKLHGDMLEMILSSHLHFKNIVHCDLKPENVLLLCDFGFA,Human,,Protein kinase domain,587.0,839.0,912.0,PF00069,True
+Q04759,PRKCQ,PKCt,PKCt,Protein kinase C theta type,AGC,PKC,PKCd,PRKCQ,MSPFLRIGLSNFDCGSCQSCQGEAVNPYCAVLVKEYVESENGQMYIQKKPTMYPPWDSTFDAHINKGRVMQIIVKGKNVDLISETTVELYSLAERCRKNNGKTEIWLELKPQGRMLMNARYFLEMSDTKDMNEFETEGFFALHQRRGAIKQAKVHHVKCHEFTATFFPQPTFCSVCHEFVWGLNKQGYQCRQCNAAIHKKCIDKVIAKCTGSAINSRETMFHKERFKIDMPHRFKVYNYKSPTFCEHCGTLLWGLARQGLKCDACGMNVHHRCQTKVANLCGINQKLMAEALAMIESTQQARCLRDTEQIFREGPVEIGLPCSIKNEARPPCLPTPGKREPQGISWESPLDEVDKMCHLPEPELNKERPSLQIKLKIEDFILHKMLGKGSFGKVFLAEFKKTNQFFAIKALKKDVVLMDDDVECTMVEKRVLSLAWEHPFLTHMFCTFQTKENLFFVMEYLNGGDLMYHIQSCHKFDLSRATFYAAEIILGLQFLHSKGIVYRDLKLDNILLDKDGHIKIADFGMCKENMLGDAKTNTFCGTPDYIAPEILLGQKYNHSVDWWSFGVLLYEMLIGQSPFHGQDEEELFHSIRMDNPFYPRWLEKEAKDLLVKLFVREPEKRLGVRGDIRQHPLFREINWEELERKEIDPPFRPKVKSPFDCSNFDKEFLNEKPRLSFADRALINSMDQNMFRNFSFMNPGMERLIS,PKC,protein kinase C theta,PRKCQ,AGC,1488,37,PKCt,KMLGKGSFGKVFLFAIKALCTMVEKRVLSLAWPFLTHMFCTFFVMEYLNGGDLMYHIQSFLHSKGIVYRDLKLDNILLIADFGMC,Human,Delta,Protein kinase domain,382.0,634.0,706.0,PF00069,True
+Q05513,PRKCZ,PKCz,PKCz,Protein kinase C zeta type,AGC,PKC,PKCi,PRKCZ,MPSRTGPKMEGSGGRVRLKAHYGGDIFITSVDAATTFEELCEEVRDMCRLHQQHPLTLKWVDSEGDPCTVSSQMELEEAFRLARQCRDEGLIIHVFPSTPEQPGLPCPGEDKSIYRRGARRWRKLYRANGHLFQAKRFNRRAYCGQCSERIWGLARQGYRCINCKLLVHKRCHGLVPLTCRKHMDSVMPSQEPPVDDKNEDADLPSEETDGIAYISSSRKHDSIKDDSEDLKPVIDGMDGIKISQGLGLQDFDLIRVIGRGSYAKVLLVRLKKNDQIYAMKVVKKELVHDDEDIDWVQTEKHVFEQASSNPFLVGLHSCFQTTSRLFLVIEYVNGGDLMFHMQRQRKLPEEHARFYAAEICIALNFLHERGIIYRDLKLDNVLLDADGHIKLTDYGMCKEGLGPGDTTSTFCGTPNYIAPEILRGEEYGFSVDWWALGVLMFEMMAGRSPFDIITDNPDMNTEDYLFQVILEKPIRIPRFLSVKASHVLKGFLNKDPKERLGCRPQTGFSDIKSHAFFRSIDWDLLEKKQALPPFQPQITDDYGLDNFDTQFTSEPVQLTPDDEDAIKRIDQSEFEGFEYINPLLLSTEESV,PKC,protein kinase C zeta,PRKCZ,AGC,1491,41,PKCz,RVIGRGSYAKVLLYAMKVVWVQTEKHVFEQASPFLVGLHSCFLVIEYVNGGDLMFHMQRFLHERGIIYRDLKLDNVLLLTDYGMC,Human,Iota,Protein kinase domain,254.0,516.0,592.0,PF00069,True
+P51817,PRKX,PRKX,PRKX,cAMP-dependent protein kinase catalytic subunit PRKX,AGC,PKA,nan,PRKX,MEAPGLAQAAAAESDSRKVAEETPDGAPALCPSPEALSPEPPVYSLQDFDTLATVGTGTFGRVHLVKEKTAKHFFALKVMSIPDVIRLKQEQHVHNEKSVLKEVSHPFLIRLFWTWHDERFLYMLMEYVPGGELFSYLRNRGRFSSTTGLFYSAEIICAIEYLHSKEIVYRDLKPENILLDRDGHIKLTDFGFAKKLVDRTWTLCGTPEYLAPEVIQSKGHGRAVDWWALGILIFEMLSGFPPFFDDNPFGIYQKILAGKIDFPRHLDFHVKDLIKKLLVVDRTRRLGNMKNGANDVKHHRWFRSVDWEAVPQRKLKPPIVPKIAGDGDTSNFETYPENDWDTAAPVPQKDLEIFKNF,PKA,"protein kinase, X-linked",PRKX,AGC,2175,31,PRKX,ATVGTGTFGRVHLFALKVMHVHNEKSVLKEVSPFLIRLFWTYMLMEYVPGGELFSYLRNYLHSKEIVYRDLKPENILLLTDFGFA,Human,,Protein kinase domain,51.0,303.0,358.0,PF00069,True
+Q9H422,HIPK3,HIPK3,HIPK3,Homeodomain-interacting protein kinase 3,CMGC,DYRK,HIPK,HIPK3,MASQVLVYPPYVYQTQSSAFCSVKKLKVEPSSCVFQERNYPRTYVNGRNFGNSHPPTKGSAFQTKIPFNRPRGHNFSLQTSAVVLKNTAGATKVIAAQAQQAHVQAPQIGAWRNRLHFLEGPQRCGLKRKSEELDNHSSAMQIVDELSILPAMLQTNMGNPVTVVTATTGSKQNCTTGEGDYQLVQHEVLCSMKNTYEVLDFLGRGTFGQVVKCWKRGTNEIVAIKILKNHPSYARQGQIEVSILARLSTENADEYNFVRAYECFQHRNHTCLVFEMLEQNLYDFLKQNKFSPLPLKVIRPILQQVATALKKLKSLGLIHADLKPENIMLVDPVRQPYRVKVIDFGSASHVSKTVCSTYLQSRYYRAPEIILGLPFCEAIDMWSLGCVIAELFLGWPLYPGALEYDQIRYISQTQGLPGEQLLNVGTKSTRFFCKETDMSHSGWRLKTLEEHEAETGMKSKEARKYIFNSLDDVAHVNTVMDLEGSDLLAEKADRREFVSLLKKMLLIDADLRITPAETLNHPFVNMKHLLDFPHSNHVKSCFHIMDICKSHLNSCDTNNHNKTSLLRPVASSSTATLTANFTKIGTLRSQALTTSAHSVVHHGIPLQAGTAQFGCGDAFQQTLIICPPAIQGIPATHGKPTSYSIRVDNTVPLVTQAPAVQPLQIRPGVLSQTWSGRTQQMLVPAWQQVTPLAPATTTLTSESVAGSHRLGDWGKMISCSNHYNSVMPQPLLTNQITLSAPQPVSVGIAHVVWPQPATTKKNKQCQNRGILVKLMEWEPGREEINAFSWSNSLQNTNIPHSAFISPKIINGKDVEEVSCIETQDNQNSEGEARNCCETSIRQDSDSSVSDKQRQTIIIADSPSPAVSVITISSDTDEEETSQRHSLRECKGSLDCEACQSTLNIDRMCSLSSPDSTLSTSSSGQSSPSPCKRPNSMSDEEQESSCDTVDGSPTSDSSGHDSPFAESTFVEDTHENTELVSSADTETKPAVCSVVVPPVELENGLNADEHMANTDSICQPLIKGRSAPGRLNQPSAVGTRQQKLTSAFQQQHLNFSQVQHFGSGHQEWNGNFGHRRQQAYIPTSVTSNPFTLSHGSPNHTAVHAHLAGNTHLGGQPTLLPYPSSATLSSAAPVAHLLASPCTSRPMLQHPTYNISHPSGIVHQVPVGLNPRLLPSPTIHQTQYKPIFPPHSYIAASPAYTGFPLSPTKLSQYPYM,DYRK,homeodomain interacting protein kinase 3,HIPK3,CMGC,2035,232,HIPK3,DFLGRGTFGQVVKVAIKILQGQIEVSILARLSYNFVRAYECCLVFEMLE-QNLYDFLKQKLKSLGLIHADLKPENIMLVIDFGSA,Human,HIPK,Protein kinase domain,197.0,525.0,1215.0,PF00069,True
+P53350,PLK1,PLK1,PLK1,Serine/threonine-protein kinase PLK1,Other,PLK,nan,PLK1,MSAAVTAGKLARAPADPGKAGVPGVAAPGAPAAAPPAKEIPEVLVDPRSRRRYVRGRFLGKGGFAKCFEISDADTKEVFAGKIVPKSLLLKPHQREKMSMEISIHRSLAHQHVVGFHGFFEDNDFVFVVLELCRRRSLLELHKRRKALTEPEARYYLRQIVLGCQYLHRNRVIHRDLKLGNLFLNEDLEVKIGDFGLATKVEYDGERKKTLCGTPNYIAPEVLSKKGHSFEVDVWSIGCIMYTLLVGKPPFETSCLKETYLRIKKNEYSIPKHINPVAASLIQKMLQTDPTARPTINELLNDEFFTSGYIPARLPITCLTIPPRFSIAPSSLDPSNRKPLTVLNKGLENPLPERPREKEEPVVRETGEVVDCHLSDMLQQLHSVNASKPSERGLVRQEEAEDPACIPIFWVSKWVDYSDKYGLGYQLCDNSVGVLFNDSTRLILYNDGDSLQYIERDGTESYLTVSSHPNSLMKKITLLKYFRNYMSEHLLKAGANITPREGDELARLPYLRTWFRTRSAIILHLSNGSVQINFFQDHTKLILCPLMAAVTYIDEKRDFRTYRLSLLEEYGCCKELASRLRYARTMVDKLLSSRSASNRLKAS,PLK,polo like kinase 1,PLK1,Other,2168,311,PLK1,RFLGKGGFAKCFEFAGKIVKMSMEISIHRSLAQHVVGFHGFFVVLELCRRRSLLELHKRYLHRNRVIHRDLKLGNLFLIGDFGLA,Human,PLK1,Protein kinase domain,53.0,305.0,603.0,PF00069,True
+Q9H4B4,PLK3,PLK3,PLK3,Serine/threonine-protein kinase PLK3,Other,PLK,nan,PLK3,MEPAAGFLSPRPFQRAAAAPAPPAGPGPPPSALRGPELEMLAGLPTSDPGRLITDPRSGRTYLKGRLLGKGGFARCYEATDTETGSAYAVKVIPQSRVAKPHQREKILNEIELHRDLQHRHIVRFSHHFEDADNIYIFLELCSRKSLAHIWKARHTLLEPEVRYYLRQILSGLKYLHQRGILHRDLKLGNFFITENMELKVGDFGLAARLEPPEQRKKTICGTPNYVAPEVLLRQGHGPEADVWSLGCVMYTLLCGSPPFETADLKETYRCIKQVHYTLPASLSLPARQLLAAILRASPRDRPSIDQILRHDFFTKGYTPDRLPISSCVTVPDLTPPNPARSLFAKVTKSLFGRKKKSKNHAQERDEVSGLVSGLMRTSVGHQDARPEAPAASGPAPVSLVETAPEDSSPRGTLASSGDGFEEGLTVATVVESALCALRNCIAFMPPAEQNPAPLAQPEPLVWVSKWVDYSNKFGFGYQLSSRRVAVLFNDGTHMALSANRKTVHYNPTSTKHFSFSVGAVPRALQPQLGILRYFASYMEQHLMKGGDLPSVEEVEVPAPPLLLQWVKTDQALLMLFSDGTVQVNFYGDHTKLILSGWEPLLVTFVARNRSACTYLASHLRQLGCSPDLRQRLRYALRLLRDRSPA,PLK,polo like kinase 3,PLK3,Other,2170,312,PLK3,RLLGKGGFARCYEYAVKVIKILNEIELHRDLQRHIVRFSHHYIFLELCSRKSLAHIWKAYLHQRGILHRDLKLGNFFIVGDFGLA,Human,PLK2,Protein kinase domain,64.0,314.0,646.0,PF00069,True
+Q16512,PKN1,PKN1,PKN1,Serine/threonine-protein kinase N1,AGC,PKN,nan,PKN1,MASDAVQSEPRSWSLLEQLGLAGADLAAPGVQQQLELERERLRREIRKELKLKEGAENLRRATTDLGRSLGPVELLLRGSSRRLDLLHQQLQELHAHVVLPDPAATHDGPQSPGAGGPTCSATNLSRVAGLEKQLAIELKVKQGAENMIQTYSNGSTKDRKLLLTAQQMLQDSKTKIDIIRMQLRRALQAGQLENQAAPDDTQGSPDLGAVELRIEELRHHFRVEHAVAEGAKNVLRLLSAAKAPDRKAVSEAQEKLTESNQKLGLLREALERRLGELPADHPKGRLLREELAAASSAAFSTRLAGPFPATHYSTLCKPAPLTGTLEVRVVGCRDLPETIPWNPTPSMGGPGTPDSRPPFLSRPARGLYSRSGSLSGRSSLKAEAENTSEVSTVLKLDNTVVGQTSWKPCGPNAWDQSFTLELERARELELAVFWRDQRGLCALKFLKLEDFLDNERHEVQLDMEPQGCLVAEVTFRNPVIERIPRLRRQKKIFSKQQGKAFQRARQMNIDVATWVRLLRRLIPNATGTGTFSPGASPGSEARTTGDISVEKLNLGTDSDSSPQKSSRDPPSSPSSLSSPIQESTAPELPSETQETPGPALCSPLRKSPLTLEDFKFLAVLGRGHFGKVLLSEFRPSGELFAIKALKKGDIVARDEVESLMCEKRILAAVTSAGHPFLVNLFGCFQTPEHVCFVMEYSAGGDLMLHIHSDVFSEPRAIFYSACVVLGLQFLHEHKIVYRDLKLDNLLLDTEGYVKIADFGLCKEGMGYGDRTSTFCGTPEFLAPEVLTDTSYTRAVDWWGLGVLLYEMLVGESPFPGDDEEEVFDSIVNDEVRYPRFLSAEAIGIMRRLLRRNPERRLGSSERDAEDVKKQPFFRTLGWEALLARRLPPPFVPTLSGRTDVSNFDEEFTGEAPTLSPPRDARPLTAAEQAAFLDFDFVAGGC,PKN,protein kinase N1,PKN1,AGC,1520,44,PKN1,AVLGRGHFGKVLLFAIKALSLMCEKRILAAVTPFLVNLFGCCFVMEYSAGGDLMLHIHSFLHEHKIVYRDLKLDNLLLIADFGLC,Human,,Protein kinase domain,617.0,874.0,942.0,PF00069,True
+Q16513,PKN2,PKN2,PKN2,Serine/threonine-protein kinase N2,AGC,PKN,nan,PKN2,MASNPERGEILLTELQGDSRSLPFSENVSAVQKLDFSDTMVQQKLDDIKDRIKREIRKELKIKEGAENLRKVTTDKKSLAYVDNILKKSNKKLEELHHKLQELNAHIVVSDPEDITDCPRTPDTPNNDPRCSTSNNRLKALQKQLDIELKVKQGAENMIQMYSNGSSKDRKLHGTAQQLLQDSKTKIEVIRMQILQAVQTNELAFDNAKPVISPLELRMEELRHHFRIEFAVAEGAKNVMKLLGSGKVTDRKALSEAQARFNESSQKLDLLKYSLEQRLNEVPKNHPKSRIIIEELSLVAASPTLSPRQSMISTQNQYSTLSKPAALTGTLEVRLMGCQDILENVPGRSKATSVALPGWSPSETRSSFMSRTSKSKSGSSRNLLKTDDLSNDVCAVLKLDNTVVGQTSWKPISNQSWDQKFTLELDRSRELEISVYWRDWRSLCAVKFLRLEDFLDNQRHGMCLYLEPQGTLFAEVTFFNPVIERRPKLQRQKKIFSKQQGKTFLRAPQMNINIATWGRLVRRAIPTVNHSGTFSPQAPVPTTVPVVDVRIPQLAPPASDSTVTKLDFDLEPEPPPAPPRASSLGEIDESSELRVLDIPGQDSETVFDIQNDRNSILPKSQSEYKPDTPQSGLEYSGIQELEDRRSQQRFQFNLQDFRCCAVLGRGHFGKVLLAEYKNTNEMFAIKALKKGDIVARDEVDSLMCEKRIFETVNSVRHPFLVNLFACFQTKEHVCFVMEYAAGGDLMMHIHTDVFSEPRAVFYAACVVLGLQYLHEHKIVYRDLKLDNLLLDTEGFVKIADFGLCKEGMGYGDRTSTFCGTPEFLAPEVLTETSYTRAVDWWGLGVLIYEMLVGESPFPGDDEEEVFDSIVNDEVRYPRFLSTEAISIMRRLLRRNPERRLGASEKDAEDVKKHPFFRLIDWSALMDKKVKPPFIPTIRGREDVSNFDDEFTSEAPILTPPREPRILSEEEQEMFRDFDYIADWC,PKN,protein kinase N2,PKN2,AGC,1521,45,PKN2,AVLGRGHFGKVLLFAIKALSLMCEKRIFETVNPFLVNLFACCFVMEYAAGGDLMMHIHTYLHEHKIVYRDLKLDNLLLIADFGLC,Human,,Protein kinase domain,662.0,916.0,984.0,PF00069,True
+O43930,PRKY,PRKY,PRKY,Serine/threonine-protein kinase PRKY,AGC,PKA,nan,PRKY,MEAPGPAQAAAAESNSREVTEDAADWAPALCPSPEARSPEAPAYRLQDCDALVTMGTGTFGRVHLVKEKTAKHFFALKVMSIPDVIRRKQEQHVHNEKSVLKEVSHPFLIRLFWTWHEERFLYMLMEYVPGGELFSYLRNRGHFSSTTGLFYSAEIICAIEYLHSKEIVYRDLKPENILLDRDGHIKLTDFGFAKKLVDRTWTLCGTPEYLAPEVIQSKGHGRAVDWWALGILIFEMLSGFPPFFDDNPFGIYQKILAGKLYFPRHLDFHVKTGRMM,PKA,"protein kinase, Y-linked, pseudogene",PRKY,AGC,0,32,PRKY,VTMGTGTFGRVHLFALKVMHVHNEKSVLKEVSPFLIRLFWTYMLMEYVPGGELFSYLRNYLHSKEIVYRDLKPENILLLTDFGFA,Human,,Protein kinase domain,54.0,259.0,277.0,PF00069,True
+Q13523,PRPF4B,PRP4,PRP4,Serine/threonine-protein kinase PRP4 homolog,CMGC,DYRK,PRP4,PRPF4B,MAAAETQSLREQPEMEDANSEKSINEENGEVSEDQSQNKHSRHKKKKHKHRSKHKKHKHSSEEDKDKKHKHKHKHKKHKRKEIIDASDKEGMSPAKRTKLDDLALLEDLEKQRALIKAELDNELMEGKVQSGMGLILQGYESGSEEEGEIHEKARNGNRSSTRSSSTKGKLELVDNKITTKKRSKSRSKERTRHRSDKKKSKGGIEIVKEKTTRSKSKERKKSKSPSKRSKSQDQARKSKSPTLRRRSQEKIGKARSPTDDKVKIEDKSKSKDRKKSPIINESRSRDRGKKSRSPVDLRGKSKDRRSRSKERKSKRSETDKEKKPIKSPSKDASSGKENRSPSRRPGRSPKRRSLSPKPRDKSRRSRSPLLNDRRSKQSKSPSRTLSPGRRAKSRSLERKRREPERRRLSSPRTRPRDDILSRRERSKDASPINRWSPTRRRSRSPIRRRSRSPLRRSRSPRRRSRSPRRRDRGRRSRSRLRRRSRSRGGRRRRSRSKVKEDKFKGSLSEGMKVEQESSSDDNLEDFDVEEEDEEALIEQRRIQRQAIVQKYKYLAEDSNMSVPSEPSSPQSSTRTRSPSPDDILERVAADVKEYERENVDTFEASVKAKHNLMTVEQNNGSSQKKLLAPDMFTESDDMFAAYFDSARLRAAGIGKDFKENPNLRDNWTDAEGYYRVNIGEVLDKRYNVYGYTGQGVFSNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLFRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADNDITPYLVSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVDKVTEREKVTVMSTINPTKDLLADLIGCQRLPEDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQEKI,DYRK,pre-mRNA processing factor 4B,PRPF4B,CMGC,2177,236,PRP4,GYTGQGVFSNVVRVAVKIITGLKELEFLKKLNFHCLRLFRHCLVFEPLS-MNLREVLKKLLKRCNILHADIKPDNILVLCDFGSA,Human,PRP4,Protein kinase domain,689.0,1003.0,1007.0,PF00069,True
+P11801,PSKH1,PSKH1,PSKH1,Serine/threonine-protein kinase H1,CAMK,PSK,nan,PSKH1,MGCGTSKVLPEPPKDVQLDLVKKVEPFSGTKSDVYKHFITEVDSVGPVKAGFPAASQYAHPCPGPPTAGHTEPPSEPPRRARVAKYRAKFDPRVTAKYDIKALIGRGSFSRVVRVEHRATRQPYAIKMIETKYREGREVCESELRVLRRVRHANIIQLVEVFETQERVYMVMELATGGELFDRIIAKGSFTERDATRVLQMVLDGVRYLHALGITHRDLKPENLLYYHPGTDSKIIITDFGLASARKKGDDCLMKTTCGTPEYIAPEVLVRKPYTNSVDMWALGVIAYILLSGTMPFEDDNRTRLYRQILRGKYSYSGEPWPSVSNLAKDFIDRLLTVDPGARMTALQALRHPWVVSMAASSSMKNLHRSISQNLLKRASSRCQSTKSAQSTRSSRSTRSNKSRRVRERELRELNLRYQQQYNG,PSK,protein serine kinase H1,PSKH1,CAMK,0,166,PSKH1,ALIGRGSFSRVVRYAIKMIVCESELRVLRRVRANIIQLVEVYMVMELATGGELFDRIIAYLHALGITHRDLKPENLLYITDFGLA,Human,,Protein kinase domain,98.0,355.0,424.0,PF00069,True
+P04049,RAF1,RAF1,RAF1,RAF proto-oncogene serine/threonine-protein kinase,TKL,RAF,nan,RAF1,MEHIQGAWKTISNGFGFKDAVFDGSSCISPTIVQQFGYQRRASDDGKLTDPSKTSNTIRVFLPNKQRTVVNVRNGMSLHDCLMKALKVRGLQPECCAVFRLLHEHKGKKARLDWNTDAASLIGEELQVDFLDHVPLTTHNFARKTFLKLAFCDICQKFLLNGFRCQTCGYKFHEHCSTKVPTMCVDWSNIRQLLLFPNSTIGDSGVPALPSLTMRRMRESVSRMPVSSQHRYSTPHAFTFNTSSPSSEGSLSQRQRSTSTPNVHMVSTTLPVDSRMIEDAIRSHSESASPSALSSSPNNLSPTGWSQPKTPVPAQRERAPVSGTQEKNKIRPRGQRDSSYYWEIEASEVMLSTRIGSGSFGTVYKGKWHGDVAVKILKVVDPTPEQFQAFRNEVAVLRKTRHVNILLFMGYMTKDNLAIVTQWCEGSSLYKHLHVQETKFQMFQLIDIARQTAQGMDYLHAKNIIHRDMKSNNIFLHEGLTVKIGDFGLATVKSRWSGSQQVEQPTGSVLWMAPEVIRMQDNNPFSFQSDVYSYGIVLYELMTGELPYSHINNRDQIIFMVGRGYASPDLSKLYKNCPKAMKRLVADCVKKVKEERPLFPQILSSIELLQHSLPKINRSASEPSLHRAAHTEDINACTLTTSPRLPVF,RAF,"Raf-1 proto-oncogene, serine/threonine kinase",RAF1,TKL,2184,510,RAF1,TRIGSGSFGTVYKVAVKILAFRNEVAVLRKTRVNILLFMGYAIVTQWCEGSSLYKHLHVYLHAKNIIHRDMKSNNIFLIGDFGLA,Human,RAF,Protein kinase domain,352.0,605.0,648.0,PF00069,True
+P07949,RET,RET,RET,Proto-oncogene tyrosine-protein kinase receptor Ret,TK,Ret,nan,RET,MAKATSGAAGLRLLLLLLLPLLGKVALGLYFSRDAYWEKLYVDQAAGTPLLYVHALRDAPEEVPSFRLGQHLYGTYRTRLHENNWICIQEDTGLLYLNRSLDHSSWEKLSVRNRGFPLLTVYLKVFLSPTSLREGECQWPGCARVYFSFFNTSFPACSSLKPRELCFPETRPSFRIRENRPPGTFHQFRLLPVQFLCPNISVAYRLLEGEGLPFRCAPDSLEVSTRWALDREQREKYELVAVCTVHAGAREEVVMVPFPVTVYDEDDSAPTFPAGVDTASAVVEFKRKEDTVVATLRVFDADVVPASGELVRRYTSTLLPGDTWAQQTFRVEHWPNETSVQANGSFVRATVHDYRLVLNRNLSISENRTMQLAVLVNDSDFQGPGAGVLLLHFNVSVLPVSLHLPSTYSLSVSRRARRFAQIGKVCVENCQAFSGINVQYKLHSSGANCSTLGVVTSAEDTSGILFVNDTKALRRPKCAELHYMVVATDQQTSRQAQAQLLVTVEGSYVAEEAGCPLSCAVSKRRLECEECGGLGSPTGRCEWRQGDGKGITRNFSTCSPSTKTCPDGHCDVVETQDINICPQDCLRGSIVGGHEPGEPRGIKAGYGTCNCFPEEEKCFCEPEDIQDPLCDELCRTVIAAAVLFSFIVSVLLSAFCIHCYHKFAHKPPISSAEMTFRRPAQAFPVSYSSSGARRPSLDSMENQVSVDAFKILEDPKWEFPRKNLVLGKTLGEGEFGKVVKATAFHLKGRAGYTTVAVKMLKENASPSELRDLLSEFNVLKQVNHPHVIKLYGACSQDGPLLLIVEYAKYGSLRGFLRESRKVGPGYLGSGGSRNSSSLDHPDERALTMGDLISFAWQISQGMQYLAEMKLVHRDLAARNILVAEGRKMKISDFGLSRDVYEEDSYVKRSQGRIPVKWMAIESLFDHIYTTQSDVWSFGVLLWEIVTLGGNPYPGIPPERLFNLLKTGHRMERPDNCSEEMYRLMLQCWKQEPDKRPVFADISKDLEKMMVKRRDYLDLAASTPSDSLIYDDGLSEEETPLVDCNNAPLPRALPSTWIENKLYGMSDPNWPGESPVPLTRADGTNTGFPRYPNDSVYANWMLSPSAAKLMDTFDS,Ret,ret proto-oncogene,RET,TK,2185,454,RET,KTLGEGEFGKVVKVAVKMLDLLSEFNVLKQVNPHVIKLYGALLIVEYAKYGSLRGFLREYLAEMKLVHRDLAARNILVISDFGLS,Human,,Protein tyrosine and serine/threonine kinase,725.0,1005.0,1114.0,PF07714,True
+Q15835,GRK1,RHOK,RHOK,Rhodopsin kinase,AGC,GRK,GRK,GRK1,MDFGSLETVVANSAFIAARGSFDGSSSQPSRDKKYLAKLKLPPLSKCESLRDSLSLEFESVCLEQPIGKKLFQQFLQSAEKHLPALELWKDIEDYDTADNDLQPQKAQTILAQYLDPQAKLFCSFLDEGIVAKFKEGPVEIQDGLFQPLLQATLAHLGQAPFQEYLGSLYFLRFLQWKWLEAQPMGEDWFLDFRVLGKGGFGEVSACQMKATGKLYACKKLNKKRLKKRKGYQGAMVEKKILMKVHSRFIVSLAYAFETKADLCLVMTIMNGGDIRYHIYNVNEENPGFPEPRALFYTAQIICGLEHLHQRRIVYRDLKPENVLLDNDGNVRISDLGLAVELLDGQSKTKGYAGTPGFMAPELLQGEEYDFSVDYFALGVTLYEMIAARGPFRARGEKVENKELKHRIISEPVKYPDKFSQASKDFCEALLEKDPEKRLGFRDETCDKLRAHPLFKDLNWRQLEAGMLMPPFIPDSKTVYAKDIQDVGAFSTVKGVAFDKTDTEFFQEFATGNCPIPWQEEMIETGIFGELNVWRSDGQMPDDMKGISGGSSSSSKSGMCLVS,GRK,G protein-coupled receptor kinase 1,GRK1,AGC,1465,16,RHOK,RVLGKGGFGEVSAYACKKLGAMVEKKILMKVHRFIVSLAYACLVMTIMNGGDIRYHIYNHLHQRRIVYRDLKPENVLLISDLGLA,Human,GRK,Protein kinase domain,194.0,443.0,563.0,PF00069,True
+Q13546,RIPK1,RIPK1,RIPK1,Receptor-interacting serine/threonine-protein kinase 1,TKL,RIPK,nan,RIPK1,MQPDMSLNVIKMKSSDFLESAELDSGGFGKVSLCFHRTQGLMIMKTVYKGPNCIEHNEALLEEAKMMNRLRHSRVVKLLGVIIEEGKYSLVMEYMEKGNLMHVLKAEMSTPLSVKGRIILEIIEGMCYLHGKGVIHKDLKPENILVDNDFHIKIADLGLASFKMWSKLNNEEHNELREVDGTAKKNGGTLYYMAPEHLNDVNAKPTEKSDVYSFAVVLWAIFANKEPYENAICEQQLIMCIKSGNRPDVDDITEYCPREIISLMKLCWEANPEARPTFPGIEEKFRPFYLSQLEESVEEDVKSLKKEYSNENAVVKRMQSLQLDCVAVPSSRSNSATEQPGSLHSSQGLGMGPVEESWFAPSLEHPQEENEPSLQSKLQDEANYHLYGSRMDRQTKQQPRQNVAYNREEERRRRVSHDPFAQQRPYENFQNTEGKGTAYSSAASHGNAVHQPSGLTSQPQVLYQNNGLYSSHGFGTRPLDPGTAGPRVWYRPIPSHMPSLHNIPVPETNYLGNTPTMPFSSLPPTDESIKYTIYNSTGIQIGAYNYMEIGGTSSSLLDSTNTNFKEEPAAKYQAIFDNTTSLTDKHLDPIRENLGKHWKNCARKLGFTQSQIDEIDHDYERDGLKEKVYQMLQKWVMREGIKGATVGKLAQALHQCSRIDLLSSLIYVSQN,RIPK,receptor interacting serine/threonine kinase 1,RIPK1,TKL,2189,511,RIPK1,AELDSGGFGKVSLMIMKTVALLEEAKMMNRLRSRVVKLLGVSLVMEYMEKGNLMHVLKAYLHGKGVIHKDLKPENILVIADLGLA,Human,,Protein tyrosine and serine/threonine kinase,21.0,284.0,671.0,PF07714,True
+O43353,RIPK2,RIPK2,RIPK2,Receptor-interacting serine/threonine-protein kinase 2,TKL,RIPK,nan,RIPK2,MNGEAICSALPTIPYHKLADLRYLSRGASGTVSSARHADWRVQVAVKHLHIHTPLLDSERKDVLREAEILHKARFSYILPILGICNEPEFLGIVTEYMPNGSLNELLHRKTEYPDVAWPLRFRILHEIALGVNYLHNMTPPLLHHDLKTQNILLDNEFHVKIADFGLSKWRMMSLSQSRSSKSAPEGGTIIYMPPENYEPGQKSRASIKHDIYSYAVITWEVLSRKQPFEDVTNPLQIMYSVSQGHRPVINEESLPYDIPHRARMISLIESGWAQNPDERPSFLKCLIELEPVLRTFEEITFLEAVIQLKKTKLQSVSSAIHLCDKKKMELSLNIPVNHGPQEESCGSSQLHENSGSPETSRSLPAPQDNDFLSRKAQDCYFMKLHHCPGNHSWDSTISGSQRAAFCDHKTTPCSSAIINPLSTAGNSERLQPGIAQQWIQSKREDIVNQMTEACLNQSLDALLSRDLIMKEDYELVSTKPTRTSKVRQLLDTTDIQGEEFAKVIVQKLKDNKQMGLQPYPEILVVSRSPSLNLLQNKSM,RIPK,receptor interacting serine/threonine kinase 2,RIPK2,TKL,2190,512,RIPK2,RYLSRGASGTVSSVAVKHLDVLREAEILHKARSYILPILGIGIVTEYMPNGSLNELLHRHNMTPPLLHHDLKTQNILLIADFGLS,Human,,Protein tyrosine and serine/threonine kinase,22.0,288.0,540.0,PF07714,True
+Q9Y572,RIPK3,RIPK3,RIPK3,Receptor-interacting serine/threonine-protein kinase 3,TKL,RIPK,nan,RIPK3,MSCVKLWPSGAPAPLVSIEELENQELVGKGGFGTVFRAQHRKWGYDVAVKIVNSKAISREVKAMASLDNEFVLRLEGVIEKVNWDQDPKPALVTKFMENGSLSGLLQSQCPRPWPLLCRLLKEVVLGMFYLHDQNPVLLHRDLKPSNVLLDPELHVKLADFGLSTFQGGSQSGTGSGEPGGTLGYLAPELFVNVNRKASTASDVYSFGILMWAVLAGREVELPTEPSLVYEAVCNRQNRPSLAELPQAGPETPGLEGLKELMQLCWSSEPKDRPSFQECLPKTDEVFQMVENNMNAAVSTVKDFLSQLRSSNRRFSIPESGQGGTEMDGFRRTIENQHSRNDVMVSEWLNKLNLEEPPSSVPKKCPSLTKRSRAQEEQVPQAWTAGTSSDSMAQPPQTPETSTFRNQMPSPTSTGTPSPGPRGNQGAERQGMNWSCRTPEPNPVTGRPLVNIYNCSGVQVGDNNYLTMQQTTALPTWGLAPSGKGRGLQHPPPVGSQEGPKDPEAWSRPQGWYNHSGK,RIPK,receptor interacting serine/threonine kinase 3,RIPK3,TKL,0,513,RIPK3,ELVGKGGFGTVFRVAVKIVAISREVKAMASLDEFVLRLEGVALVTKFMENGSLSGLLQSHDQNPVLLHRDLKPSNVLLLADFGLS,Human,,Protein kinase domain,22.0,280.0,518.0,PF00069,True
+Q13464,ROCK1,ROCK1,ROCK1,Rho-associated protein kinase 1,AGC,DMPK,ROCK,ROCK1,MSTGDSFETRFEKMDNLLRDPKSEVNSDCLLDGLDALVYDLDFPALRKNKNIDNFLSRYKDTINKIRDLRMKAEDYEVVKVIGRGAFGEVQLVRHKSTRKVYAMKLLSKFEMIKRSDSAFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWARFYTAEVVLALDAIHSMGFIHRDVKPDNMLLDKSGHLKLADFGTCMKMNKEGMVRCDTAVGTPDYISPEVLKSQGGDGYYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMNHKNSLTFPDDNDISKEAKNLICAFLTDREVRLGRNGVEEIKRHLFFKNDQWAWETLRDTVAPVVPDLSSDIDTSNFDDLEEDKGEEETFPIPKAFVGNQLPFVGFTYYSNRRYLSSANPNDNRTSSNADKSLQESLQKTIYKLEEQLHNEMQLKDEMEQKCRTSNIKLDKIMKELDEEGNQRRNLESTVSQIEKEKMLLQHRINEYQRKAEQENEKRRNVENEVSTLKDQLEDLKKVSQNSQLANEKLSQLQKQLEEANDLLRTESDTAVRLRKSHTEMSKSISQLESLNRELQERNRILENSKSQTDKDYYQLQAILEAERRDRGHDSEMIGDLQARITSLQEEVKHLKHNLEKVEGERKEAQDMLNHSEKEKNNLEIDLNYKLKSLQQRLEQEVNEHKVTKARLTDKHQSIEEAKSVAMCEMEKKLKEEREAREKAENRVVQIEKQCSMLDVDLKQSQQKLEHLTGNKERMEDEVKNLTLQLEQESNKRLLLQNELKTQAFEADNLKGLEKQMKQEINTLLEAKRLLEFELAQLTKQYRGNEGQMRELQDQLEAEQYFSTLYKTQVKELKEEIEEKNRENLKKIQELQNEKETLATQLDLAETKAESEQLARGLLEEQYFELTQESKKAASRNRQEITDKDHTVSRLEEANSMLTKDIEILRRENEELTEKMKKAEEEYKLEKEEEISNLKAAFEKNINTERTLKTQAVNKLAEIMNRKDFKIDRKKANTQDLRKKEKENRKLQLELNQEREKFNQMVVKHQKELNDMQAQLVEECAHRNELQMQLASKESDIEQLRAKLLDLSDSTSVASFPSADETDGNLPESRIEGWLSVPNRGNIKRYGWKKQYVVVSSKKILFYNDEQDKEQSNPSMVLDIDKLFHVRPVTQGDVYRAETEEIPKIFQILYANEGECRKDVEMEPVQQAEKTNFQNHKGHEFIPTLYHFPANCDACAKPLWHVFKPPPALECRRCHVKCHRDHLDKKEDLICPCKVSYDVTSARDMLLLACSQDEQKKWVTHLVKKIPKNPPSGFVRASPRTLSTRSTANQSFRKVVKNTSGKTS,DMPK,Rho associated coiled-coil containing protein kinase 1,ROCK1,AGC,1503,9,ROCK1,KVIGRGAFGEVQLYAMKLLFFWEERDIMAFANPWVVQLFYAYMVMEYMPGGDLVNLMSNAIHSMGFIHRDVKPDNMLLLADFGTC,Human,ROCK,Protein kinase domain,76.0,338.0,1354.0,PF00069,True
+Q04912,MST1R,RON,RON,Macrophage-stimulating protein receptor,TK,Met,nan,MST1R,MELLPPLPQSFLLLLLLPAKPAAGEDWQCPRTPYAASRDFDVKYVVPSFSAGGLVQAMVTYEGDRNESAVFVAIRNRLHVLGPDLKSVQSLATGPAGDPGCQTCAACGPGPHGPPGDTDTKVLVLDPALPALVSCGSSLQGRCFLHDLEPQGTAVHLAAPACLFSAHHNRPDDCPDCVASPLGTRVTVVEQGQASYFYVASSLDAAVAASFSPRSVSIRRLKADASGFAPGFVALSVLPKHLVSYSIEYVHSFHTGAFVYFLTVQPASVTDDPSALHTRLARLSATEPELGDYRELVLDCRFAPKRRRRGAPEGGQPYPVLRVAHSAPVGAQLATELSIAEGQEVLFGVFVTGKDGGPGVGPNSVVCAFPIDLLDTLIDEGVERCCESPVHPGLRRGLDFFQSPSFCPNPPGLEALSPNTSCRHFPLLVSSSFSRVDLFNGLLGPVQVTALYVTRLDNVTVAHMGTMDGRILQVELVRSLNYLLYVSNFSLGDSGQPVQRDVSRLGDHLLFASGDQVFQVPIQGPGCRHFLTCGRCLRAWHFMGCGWCGNMCGQQKECPGSWQQDHCPPKLTEFHPHSGPLRGSTRLTLCGSNFYLHPSGLVPEGTHQVTVGQSPCRPLPKDSSKLRPVPRKDFVEEFECELEPLGTQAVGPTNVSLTVTNMPPGKHFRVDGTSVLRGFSFMEPVLIAVQPLFGPRAGGTCLTLEGQSLSVGTSRAVLVNGTECLLARVSEGQLLCATPPGATVASVPLSLQVGGAQVPGSWTFQYREDPVVLSISPNCGYINSHITICGQHLTSAWHLVLSFHDGLRAVESRCERQLPEQQLCRLPEYVVRDPQGWVAGNLSARGDGAAGFTLPGFRFLPPPHPPSANLVPLKPEEHAIKFEYIGLGAVADCVGINVTVGGESCQHEFRGDMVVCPLPPSLQLGQDGAPLQVCVDGECHILGRVVRPGPDGVPQSTLLGILLPLLLLVAALATALVFSYWWRRKQLVLPPNLNDLASLDQTAGATPLPILYSGSDYRSGLALPAIDGLDSTTCVHGASFSDSEDESCVPLLRKESIQLRDLDSALLAEVKDVLIPHERVVTHSDRVIGKGHFGVVYHGEYIDQAQNRIQCAIKSLSRITEMQQVEAFLREGLLMRGLNHPNVLALIGIMLPPEGLPHVLLPYMCHGDLLQFIRSPQRNPTVKDLISFGLQVARGMEYLAEQKFVHRDLAARNCMLDESFTVKVADFGLARDILDREYYSVQQHRHARLPVKWMALESLQTYRFTTKSDVWSFGVLLWELLTRGAPPYRHIDPFDLTHFLAQGRRLPQPEYCPDSLYQVMQQCWEADPAVRPTFRVLVGEVEQIVSALLGDHYVQLPATYMNLGPSTSHEMNVRPEQPQFSPMPGNVRRPRPLSEPPRPT,Met,macrophage stimulating 1 receptor,MST1R,TK,1816,447,RON,RVIGKGHFGVVYHCAIKSLAFLREGLLMRGLNPNVLALIGIHVLLPYMCHGDLLQFIRSYLAEQKFVHRDLAARNCMLVADFGLA,Human,,Protein tyrosine and serine/threonine kinase,1084.0,1338.0,1400.0,PF07714,True
+Q01973,ROR1,ROR1,ROR1,Tyrosine-protein kinase transmembrane receptor ROR1,TK,Ror,nan,ROR1,MHRPRRRGTRPPLLALLAALLLAARGAAAQETELSVSAELVPTSSWNISSELNKDSYLTLDEPMNNITTSLGQTAELHCKVSGNPPPTIRWFKNDAPVVQEPRRLSFRSTIYGSRLRIRNLDTTDTGYFQCVATNGKEVVSSTGVLFVKFGPPPTASPGYSDEYEEDGFCQPYRGIACARFIGNRTVYMESLHMQGEIENQITAAFTMIGTSSHLSDKCSQFAIPSLCHYAFPYCDETSSVPKPRDLCRDECEILENVLCQTEYIFARSNPMILMRLKLPNCEDLPQPESPEAANCIRIGIPMADPINKNHKCYNSTGVDYRGTVSVTKSGRQCQPWNSQYPHTHTFTALRFPELNGGHSYCRNPGNQKEAPWCFTLDENFKSDLCDIPACDSKDSKEKNKMEILYILVPSVAIPLAIALLFFFICVCRNNQKSSSAPVQRQPKHVRGQNVEMSMLNAYKPKSKAKELPLSAVRFMEELGECAFGKIYKGHLYLPGMDHAQLVAIKTLKDYNNPQQWTEFQQEASLMAELHHPNIVCLLGAVTQEQPVCMLFEYINQGDLHEFLIMRSPHSDVGCSSDEDGTVKSSLDHGDFLHIAIQIAAGMEYLSSHFFVHKDLAARNILIGEQLHVKISDLGLSREIYSADYYRVQSKSLLPIRWMPPEAIMYGKFSSDSDIWSFGVVLWEIFSFGLQPYYGFSNQEVIEMVRKRQLLPCSEDCPPRMYSLMTECWNEIPSRRPRFKDIHVRLRSWEGLSSHTSSTTPSGGNATTQTTSLSASPVSNLSNPRYPNYMFPSQGITPQGQIAGFIGPPIPQNQRFIPINGYPIPPGYAAFPAAHYQPTGPPRVIQHCPPPKSRSPSSASGSTSTGHVTSLPSSGSNQEANIPLLPHMSIPNHPGGMGITVFGNKSQKPYKIDSKQASLLGDANIHGHTESMISAEL,Ror,receptor tyrosine kinase-like orphan receptor 1,ROR1,TK,0,455,ROR1,EELGECAFGKIYKVAIKTLEFQQEASLMAELHPNIVCLLGACMLFEYINQGDLHEFLIMYLSSHFFVHKDLAARNILIISDLGLS,Human,,Protein tyrosine and serine/threonine kinase,474.0,746.0,937.0,PF07714,True
+Q01974,ROR2,ROR2,ROR2,Tyrosine-protein kinase transmembrane receptor ROR2,TK,Ror,nan,ROR2,MARGSALPRRPLLCIPAVWAAAALLLSVSRTSGEVEVLDPNDPLGPLDGQDGPIPTLKGYFLNFLEPVNNITIVQGQTAILHCKVAGNPPPNVRWLKNDAPVVQEPRRIIIRKTEYGSRLRIQDLDTTDTGYYQCVATNGMKTITATGVLFVRLGPTHSPNHNFQDDYHEDGFCQPYRGIACARFIGNRTIYVDSLQMQGEIENRITAAFTMIGTSTHLSDQCSQFAIPSFCHFVFPLCDARSRTPKPRELCRDECEVLESDLCRQEYTIARSNPLILMRLQLPKCEALPMPESPDAANCMRIGIPAERLGRYHQCYNGSGMDYRGTASTTKSGHQCQPWALQHPHSHHLSSTDFPELGGGHAYCRNPGGQMEGPWCFTQNKNVRMELCDVPSCSPRDSSKMGILYILVPSIAIPLVIACLFFLVCMCRNKQKASASTPQRRQLMASPSQDMEMPLINQHKQAKLKEISLSAVRFMEELGEDRFGKVYKGHLFGPAPGEQTQAVAIKTLKDKAEGPLREEFRHEAMLRARLQHPNVVCLLGVVTKDQPLSMIFSYCSHGDLHEFLVMRSPHSDVGSTDDDRTVKSALEPPDFVHLVAQIAAGMEYLSSHHVVHKDLATRNVLVYDKLNVKISDLGLFREVYAADYYKLLGNSLLPIRWMAPEAIMYGKFSIDSDIWSYGVVLWEVFSYGLQPYCGYSNQDVVEMIRNRQVLPCPDDCPAWVYALMIECWNEFPSRRPRFKDIHSRLRAWGNLSNYNSSAQTSGASNTTQTSSLSTSPVSNVSNARYVGPKQKAPPFPQPQFIPMKGQIRPMVPPPQLYVPVNGYQPVPAYGAYLPNFYPVQIPMQMAPQQVPPQMVPKPSSHHSGSGSTSTGYVTTAPSNTSMADRAALLSEGADDTQNAPEDGAQSTVQEAEEEEEGSVPETELLGDCDTLQVDEAQVQLEA,Ror,receptor tyrosine kinase-like orphan receptor 2,ROR2,TK,0,456,ROR2,EELGEDRFGKVYKVAIKTLEFRHEAMLRARLQPNVVCLLGVSMIFSYCSHGDLHEFLVMYLSSHHVVHKDLATRNVLVISDLGLF,Human,,Protein tyrosine and serine/threonine kinase,474.0,746.0,943.0,PF07714,True
+P08922,ROS1,ROS,ROS,Proto-oncogene tyrosine-protein kinase ROS,TK,Sev,nan,ROS1,MKNIYCLIPKLVNFATLGCLWISVVQCTVLNSCLKSCVTNLGQQLDLGTPHNLSEPCIQGCHFWNSVDQKNCALKCRESCEVGCSSAEGAYEEEVLENADLPTAPFASSIGSHNMTLRWKSANFSGVKYIIQWKYAQLLGSWTYTKTVSRPSYVVKPLHPFTEYIFRVVWIFTAQLQLYSPPSPSYRTHPHGVPETAPLIRNIESSSPDTVEVSWDPPQFPGGPILGYNLRLISKNQKLDAGTQRTSFQFYSTLPNTIYRFSIAAVNEVGEGPEAESSITTSSSAVQQEEQWLFLSRKTSLRKRSLKHLVDEAHCLRLDAIYHNITGISVDVHQQIVYFSEGTLIWAKKAANMSDVSDLRIFYRGSGLISSISIDWLYQRMYFIMDELVCVCDLENCSNIEEITPPSISAPQKIVADSYNGYVFYLLRDGIYRADLPVPSGRCAEAVRIVESCTLKDFAIKPQAKRIIYFNDTAQVFMSTFLDGSASHLILPRIPFADVKSFACENNDFLVTDGKVIFQQDALSFNEFIVGCDLSHIEEFGFGNLVIFGSSSQLHPLPGRPQELSVLFGSHQALVQWKPPALAIGANVILISDIIELFELGPSAWQNWTYEVKVSTQDPPEVTHIFLNISGTMLNVPELQSAMKYKVSVRASSPKRPGPWSEPSVGTTLVPASEPPFIMAVKEDGLWSKPLNSFGPGEFLSSDIGNVSDMDWYNNSLYYSDTKGDVFVWLLNGTDISENYHLPSIAGAGALAFEWLGHFLYWAGKTYVIQRQSVLTGHTDIVTHVKLLVNDMVVDSVGGYLYWTTLYSVESTRLNGESSLVLQTQPWFSGKKVIALTLDLSDGLLYWLVQDSQCIHLYTAVLRGQSTGDTTITEFAAWSTSEISQNALMYYSGRLFWINGFRIITTQEIGQKTSVSVLEPARFNQFTIIQTSLKPLPGNFSFTPKVIPDSVQESSFRIEGNASSFQILWNGPPAVDWGVVFYSVEFSAHSKFLASEQHSLPVFTVEGLEPYALFNLSVTPYTYWGKGPKTSLSLRAPETVPSAPENPRIFILPSGKCCNKNEVVVEFRWNKPKHENGVLTKFEIFYNISNQSITNKTCEDWIAVNVTPSVMSFQLEGMSPRCFIAFQVRAFTSKGPGPYADVVKSTTSEINPFPHLITLLGNKIVFLDMDQNQVVWTFSAERVISAVCYTADNEMGYYAEGDSLFLLHLHNRSSSELFQDSLVFDITVITIDWISRHLYFALKESQNGMQVFDVDLEHKVKYPREVKIHNRNSTIISFSVYPLLSRLYWTEVSNFGYQMFYYSIISHTLHRILQPTATNQQNKRNQCSCNVTEFELSGAMAIDTSNLEKPLIYFAKAQEIWAMDLEGCQCWRVITVPAMLAGKTLVSLTVDGDLIYWIITAKDSTQIYQAKKGNGAIVSQVKALRSRHILAYSSVMQPFPDKAFLSLASDTVEPTILNATNTSLTIRLPLAKTNLTWYGITSPTPTYLVYYAEVNDRKNSSDLKYRILEFQDSIALIEDLQPFSTYMIQIAVKNYYSDPLEHLPPGKEIWGKTKNGVPEAVQLINTTVRSDTSLIISWRESHKPNGPKESVRYQLAISHLALIPETPLRQSEFPNGRLTLLVTRLSGGNIYVLKVLACHSEEMWCTESHPVTVEMFNTPEKPYSLVPENTSLQFNWKAPLNVNLIRFWVELQKWKYNEFYHVKTSCSQGPAYVCNITNLQPYTSYNVRVVVVYKTGENSTSLPESFKTKAGVPNKPGIPKLLEGSKNSIQWEKAEDNGCRITYYILEIRKSTSNNLQNQNLRWKMTFNGSCSSVCTWKSKNLKGIFQFRVVAANNLGFGEYSGISENIILVGDDFWIPETSFILTIIVGIFLVVTIPLTFVWHRRLKNQKSAKEGVTVLINEDKELAELRGLAAGVGLANACYAIHTLPTQEEIENLPAFPREKLTLRLLLGSGAFGEVYEGTAVDILGVGSGEIKVAVKTLKKGSTDQEKIEFLKEAHLMSKFNHPNILKQLGVCLLNEPQYIILELMEGGDLLTYLRKARMATFYGPLLTLVDLVDLCVDISKGCVYLERMHFIHRDLAARNCLVSVKDYTSPRIVKIGDFGLARDIYKNDYYRKRGEGLLPVRWMAPESLMDGIFTTQSDVWSFGILIWEILTLGHQPYPAHSNLDVLNYVQTGGRLEPPRNCPDDLWNLMTQCWAQEPDQRPTFHRIQDQLQLFRNFFLNSIYKSRDEANNSGVINESFEGEDGDVICLNSDDIMPVALMETKNREGLNYMVLATECGQGEEKSEGPLGSQESESCGLRKEEKEPHADKDFCQEKQVAYCPSGKPEGLNYACLTHSGYGDGSD,Sev,"ROS proto-oncogene 1 , receptor tyrosine kinase",ROS1,TK,1840,458,ROS,LLLGSGAFGEVYEVAVKTLEFLKEAHLMSKFNPNILKQLGVYIILELMEGGDLLTYLRKYLERMHFIHRDLAARNCLVIGDFGLA,Human,,Protein tyrosine and serine/threonine kinase,1948.0,2215.0,2347.0,PF07714,True
+Q15349,RPS6KA2,"RSK3_b, RSK3","Domain2_RSK1, RSK1",Ribosomal protein S6 kinase alpha-2,"CAMK, AGC","RSKb, RSK","RSKp90, RSKb",RPS6KA2,MDLSMKKFAVRRFFSVYLRRKSRSKSSSLSRLEEEGVVKEIDISHHVKEGFEKADPSQFELLKVLGQGSYGKVFLVRKVKGSDAGQLYAMKVLKKATLKVRDRVRSKMERDILAEVNHPFIVKLHYAFQTEGKLYLILDFLRGGDLFTRLSKEVMFTEEDVKFYLAELALALDHLHSLGIIYRDLKPENILLDEEGHIKITDFGLSKEAIDHDKRAYSFCGTIEYMAPEVVNRRGHTQSADWWSFGVLMFEMLTGSLPFQGKDRKETMALILKAKLGMPQFLSGEAQSLLRALFKRNPCNRLGAGIDGVEEIKRHPFFVTIDWNTLYRKEIKPPFKPAVGRPEDTFHFDPEFTARTPTDSPGVPPSANAHHLFRGFSFVASSLIQEPSQQDLHKVPVHPIVQQLHGNNIHFTDGYEIKEDIGVGSYSVCKRCVHKATDTEYAVKIIDKSKRDPSEEIEILLRYGQHPNIITLKDVYDDGKFVYLVMELMRGGELLDRILRQRYFSEREASDVLCTITKTMDYLHSQGVVHRDLKPSNILYRDESGSPESIRVCDFGFAKQLRAGNGLLMTPCYTANFVAPEVLKRQGYDAACDIWSLGILLYTMLAGFTPFANGPDDTPEEILARIGSGKYALSGGNWDSISDAAKDVVSKMLHVDPHQRLTAMQVLKHPWVVNREYLSPNQLSRQDVHLVKGAMAATYFALNRTPQAPRLEPVLSSNLAQRRGMKRLTSTRL,RSK,ribosomal protein S6 kinase A2,RPS6KA2,AGC,1529,53,RSK1,KVLGQGSYGKVFLYAMKVLRSKMERDILAEVNPFIVKLHYAYLILDFLRGGDLFTRLSKHLHSLGIIYRDLKPENILLITDFGLS,Human,RSK,Protein kinase domain,59.0,318.0,733.0,PF00069,True
+P51812,RPS6KA3,"RSK2_b, RSK2","Domain2_RSK2, RSK2",Ribosomal protein S6 kinase alpha-3,"CAMK, AGC","RSKb, RSK","RSKp90, RSKb",RPS6KA3,MPLAQLADPWQKMAVESPSDSAENGQQIMDEPMGEEEINPQTEEVSIKEIAITHHVKEGHEKADPSQFELLKVLGQGSFGKVFLVKKISGSDARQLYAMKVLKKATLKVRDRVRTKMERDILVEVNHPFIVKLHYAFQTEGKLYLILDFLRGGDLFTRLSKEVMFTEEDVKFYLAELALALDHLHSLGIIYRDLKPENILLDEEGHIKLTDFGLSKESIDHEKKAYSFCGTVEYMAPEVVNRRGHTQSADWWSFGVLMFEMLTGTLPFQGKDRKETMTMILKAKLGMPQFLSPEAQSLLRMLFKRNPANRLGAGPDGVEEIKRHSFFSTIDWNKLYRREIHPPFKPATGRPEDTFYFDPEFTAKTPKDSPGIPPSANAHQLFRGFSFVAITSDDESQAMQTVGVHSIVQQLHRNSIQFTDGYEVKEDIGVGSYSVCKRCIHKATNMEFAVKIIDKSKRDPTEEIEILLRYGQHPNIITLKDVYDDGKYVYVVTELMKGGELLDKILRQKFFSEREASAVLFTITKTVEYLHAQGVVHRDLKPSNILYVDESGNPESIRICDFGFAKQLRAENGLLMTPCYTANFVAPEVLKRQGYDAACDIWSLGVLLYTMLTGYTPFANGPDDTPEEILARIGSGKFSLSGGYWNSVSDTAKDLVSKMLHVDPHQRLTAALVLRHPWIVHWDQLPQYQLNRQDAPHLVKGAMAATYSALNRNQSPVLEPVGRSTLAQRRGIKKITSTAL,RSK,ribosomal protein S6 kinase A3,RPS6KA3,AGC,1528,55,RSK2,KVLGQGSFGKVFLYAMKVLRTKMERDILVEVNPFIVKLHYAYLILDFLRGGDLFTRLSKHLHSLGIIYRDLKPENILLLTDFGLS,Human,RSK,Protein kinase domain,68.0,327.0,740.0,PF00069,True
+Q15418,RPS6KA1,"RSK1_b, RSK1","Domain2_RSK3, RSK3",Ribosomal protein S6 kinase alpha-1,"CAMK, AGC","RSKb, RSK","RSKp90, RSKb",RPS6KA1,MPLAQLKEPWPLMELVPLDPENGQTSGEEAGLQPSKDEGVLKEISITHHVKAGSEKADPSHFELLKVLGQGSFGKVFLVRKVTRPDSGHLYAMKVLKKATLKVRDRVRTKMERDILADVNHPFVVKLHYAFQTEGKLYLILDFLRGGDLFTRLSKEVMFTEEDVKFYLAELALGLDHLHSLGIIYRDLKPENILLDEEGHIKLTDFGLSKEAIDHEKKAYSFCGTVEYMAPEVVNRQGHSHSADWWSYGVLMFEMLTGSLPFQGKDRKETMTLILKAKLGMPQFLSTEAQSLLRALFKRNPANRLGSGPDGAEEIKRHVFYSTIDWNKLYRREIKPPFKPAVAQPDDTFYFDTEFTSRTPKDSPGIPPSAGAHQLFRGFSFVATGLMEDDGKPRAPQAPLHSVVQQLHGKNLVFSDGYVVKETIGVGSYSECKRCVHKATNMEYAVKVIDKSKRDPSEEIEILLRYGQHPNIITLKDVYDDGKHVYLVTELMRGGELLDKILRQKFFSEREASFVLHTIGKTVEYLHSQGVVHRDLKPSNILYVDESGNPECLRICDFGFAKQLRAENGLLMTPCYTANFVAPEVLKRQGYDEGCDIWSLGILLYTMLAGYTPFANGPSDTPEEILTRIGSGKFTLSGGNWNTVSETAKDLVSKMLHVDPHQRLTAKQVLQHPWVTQKDKLPQSQLSHQDLQLVKGAMAATYSALNSSKPTPQLKPIESSILAQRRVRKLPSTTL,RSK,ribosomal protein S6 kinase A1,RPS6KA1,AGC,1527,54,RSK3,KVLGQGSFGKVFLYAMKVLRTKMERDILADVNPFVVKLHYAYLILDFLRGGDLFTRLSKHLHSLGIIYRDLKPENILLLTDFGLS,Human,RSK,Protein kinase domain,62.0,320.0,735.0,PF00069,True
+P34925,RYK,RYK,RYK,Tyrosine-protein kinase RYK,TK,Ryk,nan,RYK,MRGAARLGRPGRSCLPGARGLRAPPPPPLLLLLALLPLLPAPGAAAAPAPRPPELQSASAGPSVSLYLSEDEVRRLIGLDAELYYVRNDLISHYALSFSLLVPSETNFLHFTWHAKSKVEYKLGFQVDNVLAMDMPQVNISVQGEVPRTLSVFRVELSCTGKVDSEVMILMQLNLTVNSSKNFTVLNFKRRKMCYKKLEEVKTSALDKNTSRTIYDPVHAAPTTSTRVFYISVGVCCAVIFLVAIILAVLHLHSMKRIELDDSISASSSSQGLSQPSTQTTQYLRADTPNNATPITSYPTLRIEKNDLRSVTLLEAKGKVKDIAISRERITLKDVLQEGTFGRIFHGILIDEKDPNKEKQAFVKTVKDQASEIQVTMMLTESCKLRGLHHRNLLPITHVCIEEGEKPMVILPYMNWGNLKLFLRQCKLVEANNPQAISQQDLVHMAIQIACGMSYLARREVIHKDLAARNCVIDDTLQVKITDNALSRDLFPMDYHCLGDNENRPVRWMALESLVNNEFSSASDVWAFGVTLWELMTLGQTPYVDIDPFEMAAYLKDGYRIAQPINCPDELFAVMACCWALDPEERPKFQQLVQCLTEFHAALGAYV,Ryk,receptor-like tyrosine kinase,RYK,TK,0,457,RYK,DVLQEGTFGRIFHAFVKTVMMLTESCKLRGLHRNLLPITHVMVILPYMNWGNLKLFLRQYLARREVIHKDLAARNCVIITDNALS,Human,,Protein tyrosine and serine/threonine kinase,330.0,596.0,607.0,PF07714,True
+O00444,PLK4,PLK4,PLK4,Serine/threonine-protein kinase PLK4,Other,PLK,nan,PLK4,MATCIGEKIEDFKVGNLLGKGSFAGVYRAESIHTGLEVAIKMIDKKAMYKAGMVQRVQNEVKIHCQLKHPSILELYNYFEDSNYVYLVLEMCHNGEMNRYLKNRVKPFSENEARHFMHQIITGMLYLHSHGILHRDLTLSNLLLTRNMNIKIADFGLATQLKMPHEKHYTLCGTPNYISPEIATRSAHGLESDVWSLGCMFYTLLIGRPPFDTDTVKNTLNKVVLADYEMPSFLSIEAKDLIHQLLRRNPADRLSLSSVLDHPFMSRNSSTKSKDLGTVEDSIDSGHATISTAITASSSTSISGSLFDKRRLLIGQPLPNKMTVFPKNKSSTDFSSSGDGNSFYTQWGNQETSNSGRGRVIQDAEERPHSRYLRRAYSSDRSGTSNSQSQAKTYTMERCHSAEMLSVSKRSGGGENEERYSPTDNNANIFNFFKEKTSSSSGSFERPDNNQALSNHLCPGKTPFPFADPTPQTETVQQWFGNLQINAHLRKTTEYDSISPNRDFQGHPDLQKDTSKNAWTDTKVKKNSDASDNAHSVKQQNTMKYMTALHSKPEIIQQECVFGSDPLSEQSKTRGMEPPWGYQNRTLRSITSPLVAHRLKPIRQKTKKAVVSILDSEEVCVELVKEYASQEYVKEVLQISSDGNTITIYYPNGGRGFPLADRPPSPTDNISRYSFDNLPEKYWRKYQYASRFVQLVRSKSPKITYFTRYAKCILMENSPGADFEVWFYDGVKIHKTEDFIQVIEKTGKSYTLKSESEVNSLKEEIKMYMDHANEGHRICLALESIISEEERKTRSAPFFPIIIGRKPGSTSSPKALSPPPSVDSNYPTRERASFNRMVMHSAASPTQAPILNPSMVTNEGLGLTTTASGTDISSNSLKDCLPKSAQLLKSVFVKNVGWATQLTSGAVWVQFNDGSQLVVQAGVSSISYTSPNGQTTRYGENEKLPDYIKQKLQCLSSILLMFSNPTPNFH,PLK,polo like kinase 4,PLK4,Other,2171,314,PLK4,NLLGKGSFAGVYRVAIKMIRVQNEVKIHCQLKPSILELYNYYLVLEMCHNGEMNRYLKNYLHSHGILHRDLTLSNLLLIADFGLA,Human,SAK,Protein kinase domain,13.0,265.0,970.0,PF00069,True
+Q15759,MAPK11,p38b,p38b,Mitogen-activated protein kinase 11,CMGC,MAPK,p38,MAPK11,MSGPRAGFYRQELNKTVWEVPQRLQGLRPVGSGAYGSVCSAYDARLRQKVAVKKLSRPFQSLIHARRTYRELRLLKHLKHENVIGLLDVFTPATSIEDFSEVYLVTTLMGADLNNIVKCQALSDEHVQFLVYQLLRGLKYIHSAGIIHRDLKPSNVAVNEDCELRILDFGLARQADEEMTGYVATRWYRAPEIMLNWMHYNQTVDIWSVGCIMAELLQGKALFPGSDYIDQLKRIMEVVGTPSPEVLAKISSEHARTYIQSLPPMPQKDLSSIFRGANPLAIDLLGRMLVLDSDQRVSAAEALAHAYFSQYHDPEDEPEAEPYDESVEAKERTLEEWKELTYQEVLSFKPPEPPKPPGSLEIEQ,MAPK,mitogen-activated protein kinase 11,MAPK11,CMGC,1500,250,p38b,RPVGSGAYGSVCSVAVKKLRTYRELRLLKHLKENVIGLLDVYLVTTLMG-ADLNNIVKCYIHSAGIIHRDLKPSNVAVILDFGLA,Human,p38,Protein kinase domain,27.0,308.0,364.0,PF00069,True
+P53778,MAPK12,p38g,p38g,Mitogen-activated protein kinase 12,CMGC,MAPK,p38,MAPK12,MSSPPPARSGFYRQEVTKTAWEVRAVYRDLQPVGSGAYGAVCSAVDGRTGAKVAIKKLYRPFQSELFAKRAYRELRLLKHMRHENVIGLLDVFTPDETLDDFTDFYLVMPFMGTDLGKLMKHEKLGEDRIQFLVYQMLKGLRYIHAAGIIHRDLKPGNLAVNEDCELKILDFGLARQADSEMTGYVVTRWYRAPEVILNWMRYTQTVDIWSVGCIMAEMITGKTLFKGSDHLDQLKEIMKVTGTPPAEFVQRLQSDEAKNYMKGLPELEKKDFASILTNASPLAVNLLEKMLVLDAEQRVTAGEALAHPYFESLHDTEDEPQVQKYDDSFDDVDRTLDEWKRVTYKEVLSFKPPRQLGARVSKETPL,MAPK,mitogen-activated protein kinase 12,MAPK12,CMGC,1501,252,p38g,QPVGSGAYGAVCSVAIKKLRAYRELRLLKHMRENVIGLLDVYLVMPFMG-TDLGKLMKHYIHAAGIIHRDLKPGNLAVILDFGLA,Human,p38,Protein kinase domain,27.0,311.0,367.0,PF00069,True
+O15264,MAPK13,p38d,p38d,Mitogen-activated protein kinase 13,CMGC,MAPK,p38,MAPK13,MSLIRKKGFYKQDVNKTAWELPKTYVSPTHVGSGAYGSVCSAIDKRSGEKVAIKKLSRPFQSEIFAKRAYRELLLLKHMQHENVIGLLDVFTPASSLRNFYDFYLVMPFMQTDLQKIMGMEFSEEKIQYLVYQMLKGLKYIHSAGVVHRDLKPGNLAVNEDCELKILDFGLARHADAEMTGYVVTRWYRAPEVILSWMHYNQTVDIWSVGCIMAEMLTGKTLFKGKDYLDQLTQILKVTGVPGTEFVQKLNDKAAKSYIQSLPQTPRKDFTQLFPRASPQAADLLEKMLELDVDKRLTAAQALTHPFFEPFRDPEEETEAQQPFDDSLEHEKLTVDEWKQHIYKEIVNFSPIARKDSRRRSGMKL,MAPK,mitogen-activated protein kinase 13,MAPK13,CMGC,1502,251,p38d,THVGSGAYGSVCSVAIKKLRAYRELLLLKHMQENVIGLLDVYLVMPFMQ-TDLQKIMGMYIHSAGVVHRDLKPGNLAVILDFGLA,Human,p38,Protein kinase domain,28.0,308.0,365.0,PF00069,True
+Q9Y2H9,MAST1,MAST1,MAST1,Microtubule-associated serine/threonine-protein kinase 1,AGC,MAST,nan,MAST1,MSDSLWTALSNFSMPSFPGGSMFRRTKSCRTSNRKSLILTSTSPTLPRPHSPLPGHLGSSPLDSPRNFSPNTPAHFSFASSRRADGRRWSLASLPSSGYGTNTPSSTVSSSCSSQERLHQLPYQPTVDELHFLSKHFGSTESITDEDGGRRSPAVRPRSRSLSPGRSPSSYDNEIVMMNHVYKERFPKATAQMEEKLRDFTRAYEPDSVLPLADGVLSFIHHQIIELARDCLTKSRDGLITTVYFYELQENLEKLLQDAYERSESLEVAFVTQLVKKLLIIISRPARLLECLEFNPEEFYHLLEAAEGHAKEGHLVKTDIPRYIIRQLGLTRDPFPDVVHLEEQDSGGSNTPEQDDLSEGRSSKAKKPPGENDFDTIKLISNGAYGAVYLVRHRDTRQRFAMKKINKQNLILRNQIQQAFVERDILTFAENPFVVGMFCSFETRRHLCMVMEYVEGGDCATLLKNIGALPVEMARMYFAETVLALEYLHNYGIVHRDLKPDNLLITSMGHIKLTDFGLSKMGLMSLTTNLYEGHIEKDAREFLDKQVCGTPEYIAPEVILRQGYGKPVDWWAMGIILYEFLVGCVPFFGDTPEELFGQVISDDILWPEGDEALPTEAQLLISSLLQTNPLVRLGAGGAFEVKQHSFFRDLDWTGLLRQKAEFIPHLESEDDTSYFDTRSDRYHHVNSYDEDDTTEEEPVEIRQFSSCSPRFSKVYSSMEQLSQHEPKTPVAAAGSSKREPSTKGPEEKVAGKREGLGGLTLREKTWRGGSPEIKRFSASEASFLEGEASPPLGARRRFSALLEPSRFSAPQEDEDEARLRRPPRPSSDPAGSLDARAPKEETQGEGTSSAGDSEATDRPRPGDLCPPSKDGDASGPRATNDLVLRRARHQQMSGDVAVEKRPSRTGGKVIKSASATALSVMIPAVDPHGSSPLASPMSPRSLSSNPSSRDSSPSRDYSPAVSGLRSPITIQRSGKKYGFTLRAIRVYMGDTDVYSVHHIVWHVEEGGPAQEAGLCAGDLITHVNGEPVHGMVHPEVVELILKSGNKVAVTTTPFENTSIRIGPARRSSYKAKMARRNKRPSAKEGQESKKRSSLFRKITKQSNLLHTSRSLSSLNRSLSSSDSLPGSPTHGLPARSPTHSYRSTPDSAYLGASSQSSSPASSTPNSPASSASHHIRPSTLHGLSPKLHRQYRSARCKSAGNIPLSPLAHTPSPTQASPPPLPGHTVGSSHTTQSFPAKLHSSPPVVRPRPKSAEPPRSPLLKRVQSAEKLGASLSADKKGALRKHSLEVGHPDFRKDFHGELALHSLAESDGETPPVEGLGAPRQVAVRRLGRQESPLSLGADPLLPEGASRPPVSSKEKESPGGAEACTPPRATTPGGRTLERDVGCTRHQSVQTEDGTGGMARAVAKAALSPVQEHETGRRSSSGEAGTPLVPIVVEPARPGAKAVVPQPLGADSKGLQEPAPLAPSVPEAPRGRERWVLEVVEERTTLSGPRSKPASPKLSPEPQTPSLAPAKCSAPSSAVTPVPPASLLGSGTKPQVGLTSRCPAEAVPPAGLTKKGVSSPAPPGP,MAST,microtubule associated serine/threonine kinase 1,MAST1,AGC,1510,18,MAST1,KLISNGAYGAVYLFAMKKIQAFVERDILTFAEPFVVGMFCSCMVMEYVEGGDCATLLKNYLHNYGIVHRDLKPDNLLILTDFGLS,Human,MAST,Protein kinase domain,376.0,647.0,1570.0,PF00069,True
+O00141,SGK1,SGK1,SGK,Serine/threonine-protein kinase Sgk1,AGC,SGK,nan,SGK1,MTVKTEAAKGTLTYSRMRGMVAILIAFMKQRRMGLNDFIQKIANNSYACKHPEVQSILKISQPQEPELMNANPSPPPSPSQQINLGPSSNPHAKPSDFHFLKVIGKGSFGKVLLARHKAEEVFYAVKVLQKKAILKKKEEKHIMSERNVLLKNVKHPFLVGLHFSFQTADKLYFVLDYINGGELFYHLQRERCFLEPRARFYAAEIASALGYLHSLNIVYRDLKPENILLDSQGHIVLTDFGLCKENIEHNSTTSTFCGTPEYLAPEVLHKQPYDRTVDWWCLGAVLYEMLYGLPPFYSRNTAEMYDNILNKPLQLKPNITNSARHLLEGLLQKDRTKRLGAKDDFMEIKSHVFFSLINWDDLINKKITPPFNPNVSGPNDLRHFDPEFTEEPVPNSIGKSPDSVLVTASVKEAAEAFLGFSYAPPTDSFL,SGK,serum/glucocorticoid regulated kinase 1,SGK1,AGC,1534,64,SGK1,KVIGKGSFGKVLLYAVKVLHIMSERNVLLKNVPFLVGLHFSYFVLDYINGGELFYHLQRYLHSLNIVYRDLKPENILLLTDFGLC,Human,,Protein kinase domain,98.0,355.0,431.0,PF00069,True
+Q9H2G2,SLK,SLK,SLK,STE20-like serine/threonine-protein kinase,STE,STE20,SLK,SLK,MSFFNFRKIFKLGSEKKKKQYEHVKRDLNPEDFWEIIGELGDGAFGKVYKAQNKETSVLAAAKVIDTKSEEELEDYMVEIDILASCDHPNIVKLLDAFYYENNLWILIEFCAGGAVDAVMLELERPLTESQIQVVCKQTLDALNYLHDNKIIHRDLKAGNILFTLDGDIKLADFGVSAKNTRTIQRRDSFIGTPYWMAPEVVMCETSKDRPYDYKADVWSLGITLIEMAEIEPPHHELNPMRVLLKIAKSEPPTLAQPSRWSSNFKDFLKKCLEKNVDARWTTSQLLQHPFVTVDSNKPIRELIAEAKAEVTEEVEDGKEEDEEEETENSLPIPASKRASSDLSIASSEEDKLSQNACILESVSEKTERSNSEDKLNSKILNEKPTTDEPEKAVEDINEHITDAQLEAMTELHDRTAVIKENEREKRPKLENLPDTEDQETVDINSVSEGKENNIMITLETNIEHNLKSEEEKDQEKQQMFENKLIKSEEIKDTILQTVDLVSQETGEKEANIQAVDSEVGLTKEDTQEKLGEDDKTQKDVISNTSDVIGTCEAADVAQKVDEDSAEDTQSNDGKEVVEVGQKLINKPMVGPEAGGTKEVPIKEIVEMNEIEEGKNKEQAINSSENIMDINEEPGTTEGEEITESSSTEEMEVRSVVADTDQKALGSEVQDASKVTTQIDKEKKEIPVSIKKEPEVTVVSQPTEPQPVLIPSININSDSGENKEEIGSLSKTETILPPESENPKENDNDSGTGSTADTSSIDLNLSISSFLSKTKDSGSISLQETRRQKKTLKKTRKFIVDGVEVSVTTSKIVTDSDSKTEELRFLRRQELRELRFLQKEEQRAQQQLNSKLQQQREQIFRRFEQEMMSKKRQYDQEIENLEKQQKQTIERLEQEHTNRLRDEAKRIKGEQEKELSKFQNMLKNRKKEVINEVEKAPKELRKELMKRRKEELAQSQHAQEQEFVQKQQQELDGSLKKIIQQQKAELANIERECLNNKQQLMRAREAAIWELEERHLQEKHQLLKQQLKDQYFMQRHQLLKRHEKETEQMQRYNQRLIEELKNRQTQERARLPKIQRSEAKTRMAMFKKSLRINSTATPDQDRDKIKQFAAQEEKRQKNERMAQHQKHENQMRDLQLQCEANVRELHQLQNEKCHLLVEHETQKLKELDEEHSQELKEWREKLRPRKKTLEEEFARKLQEQEVFFKMTGESECLNPSTQSRISKFYPIPSLHSTGS,STE20,STE20 like kinase,SLK,STE,2200,374,SLK,GELGDGAFGKVYKAAAKVIDYMVEIDILASCDPNIVKLLDAWILIEFCAGGAVDAVMLEYLHDNKIIHRDLKAGNILFLADFGVS,Human,SLK,Protein kinase domain,35.0,292.0,1235.0,PF00069,True
+Q9NYY3,PLK2,PLK2,PLK2,Serine/threonine-protein kinase PLK2,Other,PLK,nan,PLK2,MELLRTITYQPAASTKMCEQALGKGCGADSKKKRPPQPPEESQPPQSQAQVPPAAPHHHHHHSHSGPEISRIIVDPTTGKRYCRGKVLGKGGFAKCYEMTDLTNNKVYAAKIIPHSRVAKPHQREKIDKEIELHRILHHKHVVQFYHYFEDKENIYILLEYCSRRSMAHILKARKVLTEPEVRYYLRQIVSGLKYLHEQEILHRDLKLGNFFINEAMELKVGDFGLAARLEPLEHRRRTICGTPNYLSPEVLNKQGHGCESDIWALGCVMYTMLLGRPPFETTNLKETYRCIREARYTMPSSLLAPAKHLIASMLSKNPEDRPSLDDIIRHDFFLQGFTPDRLSSSCCHTVPDFHLSSPAKNFFKKAAAALFGGKKDKARYIDTHNRVSKEDEDIYKLRHDLKKTSITQQPSKHRTDEELQPPTTTVARSGTPAVENKQQIGDAIRMIVRGTLGSCSSSSECLEDSTMGSVADTVARVLRGCLENMPEADCIPKEQLSTSFQWVTKWVDYSNKYGFGYQLSDHTVGVLFNNGAHMSLLPDKKTVHYYAELGQCSVFPATDAPEQFISQVTVLKYFSHYMEENLMDGGDLPSVTDIRRPRLYLLQWLKSDKALMMLFNDGTFQVNFYHDHTKIIICSQNEEYLLTYINEDRISTTFRLTTLLMSGCSSELKNRMEYALNMLLQRCN,PLK,polo like kinase 2,PLK2,Other,2169,313,PLK2,KVLGKGGFAKCYEYAAKIIKIDKEIELHRILHKHVVQFYHYYILLEYCSRRSMAHILKAYLHEQEILHRDLKLGNFFIVGDFGLA,Human,PLK2,Protein kinase domain,84.0,334.0,685.0,PF00069,True
+Q16584,MAP3K11,MLK3,MLK3,Mitogen-activated protein kinase kinase kinase 11,TKL,MLK,MLK,MAP3K11,MEPLKSLFLKSPLGSWNGSGSGGGGGGGGGRPEGSPKAAGYANPVWTALFDYEPSGQDELALRKGDRVEVLSRDAAISGDEGWWAGQVGGQVGIFPSNYVSRGGGPPPCEVASFQELRLEEVIGIGGFGKVYRGSWRGELVAVKAARQDPDEDISVTAESVRQEARLFAMLAHPNIIALKAVCLEEPNLCLVMEYAAGGPLSRALAGRRVPPHVLVNWAVQIARGMHYLHCEALVPVIHRDLKSNNILLLQPIESDDMEHKTLKITDFGLAREWHKTTQMSAAGTYAWMAPEVIKASTFSKGSDVWSFGVLLWELLTGEVPYRGIDCLAVAYGVAVNKLTLPIPSTCPEPFAQLMADCWAQDPHRRPDFASILQQLEALEAQVLREMPRDSFHSMQEGWKREIQGLFDELRAKEKELLSREEELTRAAREQRSQAEQLRRREHLLAQWELEVFERELTLLLQQVDRERPHVRRRRGTFKRSKLRARDGGERISMPLDFKHRITVQASPGLDRRRNVFEVGPGDSPTFPRFRAIQLEPAEPGQAWGRQSPRRLEDSSNGERRACWAWGPSSPKPGEAQNGRRRSRMDEATWYLDSDDSSPLGSPSTPPALNGNPPRPSLEPEEPKRPVPAERGSSSGTPKLIQRALLRGTALLASLGLGRDLQPPGGPGRERGESPTTPPTPTPAPCPTEPPPSPLICFSLKTPDSPPTPAPLLLDLGIPVGQRSAKSPRREEEPRGGTVSPPPGTSRSAPGTPGTPRSPPLGLISRPRPSPLRSRIDPWSFVSAGPRPSPLPSPQPAPRRAPWTLFPDSDPFWDSPPANPFQGGPQDCRAQTKDMGAQAPWVPEAGP,MLK,mitogen-activated protein kinase kinase kinase 11,MAP3K11,TKL,2071,502,MLK3,EVIGIGGFGKVYRVAVKAASVRQEARLFAMLAPNIIALKAVCLVMEYAAGGPLSRALAGCEALVPVIHRDLKSNNILLITDFGLA,Human,MLK,Protein tyrosine and serine/threonine kinase,118.0,376.0,847.0,PF07714,True
+P12931,SRC,SRC,SRC,Proto-oncogene tyrosine-protein kinase Src,TK,Src,nan,SRC,MGSNKSKPKDASQRRRSLEPAENVHGAGGGAFPASQTPSKPASADGHRGPSAAFAPAAAEPKLFGGFNSSDTVTSPQRAGPLAGGVTTFVALYDYESRTETDLSFKKGERLQIVNNTEGDWWLAHSLSTGQTGYIPSNYVAPSDSIQAEEWYFGKITRRESERLLLNAENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYITSRTQFNSLQQLVAYYSKHADGLCHRLTTVCPTSKPQTQGLAKDAWEIPRESLRLEVKLGQGCFGEVWMGTWNGTTRVAIKTLKPGTMSPEAFLQEAQVMKKLRHEKLVQLYAVVSEEPIYIVTEYMSKGSLLDFLKGETGKYLRLPQLVDMAAQIASGMAYVERMNYVHRDLRAANILVGENLVCKVADFGLARLIEDNEYTARQGAKFPIKWTAPEAALYGRFTIKSDVWSFGILLTELTTKGRVPYPGMVNREVLDQVERGYRMPCPPECPESLHDLMCQCWRKEPEERPTFEYLQAFLEDYFTSTEPQYQPGENL,Src,"SRC proto-oncogene, non-receptor tyrosine kinase",SRC,TK,2206,462,SRC,VKLGQGCFGEVWMVAIKTLAFLQEAQVMKKLREKLVQLYAVYIVTEYMSKGSLLDFLKGYVERMNYVHRDLRAANILVVADFGLA,Human,SrcA,Protein tyrosine and serine/threonine kinase,271.0,518.0,536.0,PF07714,True
+Q96SB4,SRPK1,SRPK1,SRPK1,SRSF protein kinase 1,CMGC,SRPK,nan,SRPK1,MERKVLALQARKKRTKAKKDKAQRKSETQHRGSAPHSESDLPEQEEEILGSDDDEQEDPNDYCKGGYHLVKIGDLFNGRYHVIRKLGWGHFSTVWLSWDIQGKKFVAMKVVKSAEHYTETALDEIRLLKSVRNSDPNDPNREMVVQLLDDFKISGVNGTHICMVFEVLGHHLLKWIIKSNYQGLPLPCVKKIIQQVLQGLDYLHTKCRIIHTDIKPENILLSVNEQYIRRLAAEATEWQRSGAPPPSGSAVSTAPQPKPADKMSKNKKKKLKKKQKRQAELLEKRMQEIEEMEKESGPGQKRPNKQEESESPVERPLKENPPNKMTQEKLEESSTIGQDQTLMERDTEGGAAEINCNGVIEVINYTQNSNNETLRHKEDLHNANDCDVQNLNQESSFLSSQNGDSSTSQETDSCTPITSEVSDTMVCQSSSTVGQSFSEQHISQLQESIRAEIPCEDEQEQEHNGPLDNKGKSTAGNFLVNPLEPKNAEKLKVKIADLGNACWVHKHFTEDIQTRQYRSLEVLIGSGYNTPADIWSTACMAFELATGDYLFEPHSGEEYTRDEDHIALIIELLGKVPRKLIVAGKYSKEFFTKKGDLKHITKLKPWGLFEVLVEKYEWSQEEAAGFTDFLLPMLELIPEKRATAAECLRHPWLNS,SRPK,SRSF protein kinase 1,SRPK1,CMGC,2208,256,SRPK1,RKLGWGHFSTVWLVAMKVVTALDEIRLLKSVREMVVQLLDDCMVFEVLG-HHLLKWIIKLHTKCRIIHTDIKPENILLIADLGNA,Human,,Protein kinase domain,80.0,228.0,655.0,PF00069,True
+P78362,SRPK2,SRPK2,SRPK2,SRSF protein kinase 2,CMGC,SRPK,nan,SRPK2,MSVNSEKSSSSERPEPQQKAPLVPPPPPPPPPPPPPLPDPTPPEPEEEILGSDDEEQEDPADYCKGGYHPVKIGDLFNGRYHVIRKLGWGHFSTVWLCWDMQGKRFVAMKVVKSAQHYTETALDEIKLLKCVRESDPSDPNKDMVVQLIDDFKISGMNGIHVCMVFEVLGHHLLKWIIKSNYQGLPVRCVKSIIRQVLQGLDYLHSKCKIIHTDIKPENILMCVDDAYVRRMAAEATEWQKAGAPPPSGSAVSTAPQQKPIGKISKNKKKKLKKKQKRQAELLEKRLQEIEELEREAERKIIEENITSAAPSNDQDGEYCPEVKLKTTGLEEAAEAETAKDNGEAEDQEEKEDAEKENIEKDEDDVDQELANIDPTWIESPKTNGHIENGPFSLEQQLDDEDDDEEDCPNPEEYNLDEPNAESDYTYSSSYEQFNGELPNGRHKIPESQFPEFSTSLFSGSLEPVACGSVLSEGSPLTEQEESSPSHDRSRTVSASSTGDLPKAKTRAADLLVNPLDPRNADKIRVKIADLGNACWVHKHFTEDIQTRQYRSIEVLIGAGYSTPADIWSTACMAFELATGDYLFEPHSGEDYSRDEDHIAHIIELLGSIPRHFALSGKYSREFFNRRGELRHITKLKPWSLFDVLVEKYGWPHEDAAQFTDFLIPMLEMVPEKRASAGECLRHPWLNS,SRPK,SRSF protein kinase 2,SRPK2,CMGC,2209,257,SRPK2,RKLGWGHFSTVWLVAMKVVTALDEIKLLKCVRDMVVQLIDDCMVFEVLG-HHLLKWIIKLHSKCKIIHTDIKPENILMIADLGNA,Human,,Protein kinase domain,81.0,223.0,688.0,PF00069,True
+O76039,CDKL5,CDKL5,CDKL5,Cyclin-dependent kinase-like 5,CMGC,CDKL,nan,CDKL5,MKIPNIGNVMNKFEILGVVGEGAYGVVLKCRHKETHEIVAIKKFKDSEENEEVKETTLRELKMLRTLKQENIVELKEAFRRRGKLYLVFEYVEKNMLELLEEMPNGVPPEKVKSYIYQLIKAIHWCHKNDIVHRDIKPENLLISHNDVLKLCDFGFARNLSEGNNANYTEYVATRWYRSPELLLGAPYGKSVDMWSVGCILGELSDGQPLFPGESEIDQLFTIQKVLGPLPSEQMKLFYSNPRFHGLRFPAVNHPQSLERRYLGILNSVLLDLMKNLLKLDPADRYLTEQCLNHPTFQTQRLLDRSPSRSAKRKPYHVESSTLSNRNQAGKSTALQSHHRSNSKDIQNLSVGLPRADEGLPANESFLNGNLAGASLSPLHTKTYQASSQPGSTSKDLTNNNIPHLLSPKEAKSKTEFDFNIDPKPSEGPGTKYLKSNSRSQQNRHSFMESSQSKAGTLQPNEKQSRHSYIDTIPQSSRSPSYRTKAKSHGALSDSKSVSNLSEARAQIAEPSTSRYFPSSCLDLNSPTSPTPTRHSDTRTLLSPSGRNNRNEGTLDSRRTTTRHSKTMEELKLPEHMDSSHSHSLSAPHESFSYGLGYTSPFSSQQRPHRHSMYVTRDKVRAKGLDGSLSIGQGMAARANSLQLLSPQPGEQLPPEMTVARSSVKETSREGTSSFHTRQKSEGGVYHDPHSDDGTAPKENRHLYNDPVPRRVGSFYRVPSPRPDNSFHENNVSTRVSSLPSESSSGTNHSKRQPAFDPWKSPENISHSEQLKEKEKQGFFRSMKKKKKKSQTVPNSDSPDLLTLQKSIHSASTPSSRPKEWRPEKISDLQTQSQPLKSLRKLLHLSSASNHPASSDPRFQPLTAQQTKNSFSEIRIHPLSQASGGSSNIRQEPAPKGRPALQLPGQMDPGWHVSSVTRSATEGPSYSEQLGAKSGPNGHPYNRTNRSRMPNLNDLKETAL,CDKL,cyclin dependent kinase like 5,CDKL5,CMGC,0,216,CDKL5,GVVGEGAYGVVLKVAIKKFTTLRELKMLRTLKENIVELKEAYLVFEYVE-KNMLELLEEWCHKNDIVHRDIKPENLLILCDFGFA,Human,,Protein kinase domain,14.0,297.0,960.0,PF00069,True
+Q9UL54,TAOK2,TAO2,TAO2,Serine/threonine-protein kinase TAO2,STE,STE20,TAO,TAOK2,MPAGGRAGSLKDPDVAELFFKDDPEKLFSDLREIGHGSFGAVYFARDVRNSEVVAIKKMSYSGKQSNEKWQDIIKEVRFLQKLRHPNTIQYRGCYLREHTAWLVMEYCLGSASDLLEVHKKPLQEVEIAAVTHGALQGLAYLHSHNMIHRDVKAGNILLSEPGLVKLGDFGSASIMAPANSFVGTPYWMAPEVILAMDEGQYDGKVDVWSLGITCIELAERKPPLFNMNAMSALYHIAQNESPVLQSGHWSEYFRNFVDSCLQKIPQDRPTSEVLLKHRFVLRERPPTVIMDLIQRTKDAVRELDNLQYRKMKKILFQEAPNGPGAEAPEEEEEAEPYMHRAGTLTSLESSHSVPSMSISASSQSSSVNSLADASDNEEEEEEEEEEEEEEEGPEAREMAMMQEGEHTVTSHSSIIHRLPGSDNLYDDPYQPEITPSPLQPPAAPAPTSTTSSARRRAYCRNRDHFATIRTASLVSRQIQEHEQDSALREQLSGYKRMRRQHQKQLLALESRLRGEREEHSARLQRELEAQRAGFGAEAEKLARRHQAIGEKEARAAQAEERKFQQHILGQQKKELAALLEAQKRTYKLRKEQLKEELQENPSTPKREKAEWLLRQKEQLQQCQAEEEAGLLRRQRQYFELQCRQYKRKMLLARHSLDQDLLREDLNKKQTQKDLECALLLRQHEATRELELRQLQAVQRTRAELTRLQHQTELGNQLEYNKRREQELRQKHAAQVRQQPKSLKVRAGQRPPGLPLPIPGALGPPNTGTPIEQQPCSPGQEAVLDQRMLGEEEEAVGERRILGKEGATLEPKQQRILGEESGAPSPSPQKHGSLVDEEVWGLPEEIEELRVPSLVPQERSIVGQEEAGTWSLWGKEDESLLDEEFELGWVQGPALTPVPEEEEEEEEGAPIGTPRDPGDGCPSPDIPPEPPPTHLRPCPASQLPGLLSHGLLAGLSFAVGSSSGLLPLLLLLLLPLLAAQGGGGLQAALLALEVGLVGLGASYLLLCTALHLPSSLFLLLAQGTALGAVLGLSWRRGLMGVPLGLGAAWLLAWPGLALPLVAMAAGGRWVRQQGPRVRRGISRLWLRVLLRLSPMAFRALQGCGAVGDRGLFALYPKTNKDGFRSRLPVPGPRRRNPRTTQHPLALLARVWVLCKGWNWRLARASQGLASHLPPWAIHTLASWGLLRGERPTRIPRLLPRSQRQLGPPASRQPLPGTLAGRRSRTRQSRALPPWR,STE20,TAO kinase 2,TAOK2,STE,2234,377,TAO2,REIGHGSFGAVYFVAIKKMDIIKEVRFLQKLRPNTIQYRGCWLVMEYCLGSASDLLEVHYLHSHNMIHRDVKAGNILLLGDFGSA,Human,TAO,Protein kinase domain,29.0,281.0,1235.0,PF00069,True
+P43405,SYK,SYK,SYK,Tyrosine-protein kinase SYK,TK,Syk,nan,SYK,MASSGMADSANHLPFFFGNITREEAEDYLVQGGMSDGLYLLRQSRNYLGGFALSVAHGRKAHHYTIERELNGTYAIAGGRTHASPADLCHYHSQESDGLVCLLKKPFNRPQGVQPKTGPFEDLKENLIREYVKQTWNLQGQALEQAIISQKPQLEKLIATTAHEKMPWFHGKISREESEQIVLIGSKTNGKFLIRARDNNGSYALCLLHEGKVLHYRIDKDKTGKLSIPEGKKFDTLWQLVEHYSYKADGLLRVLTVPCQKIGTQGNVNFGGRPQLPGSHPATWSAGGIISRIKSYSFPKPGHRKSSPAQGNRQESTVSFNPYEPELAPWAADKGPQREALPMDTEVYESPYADPEEIRPKEVYLDRKLLTLEDKELGSGNFGTVKKGYYQMKKVVKTVAVKILKNEANDPALKDELLAEANVMQQLDNPYIVRMIGICEAESWMLVMEMAELGPLNKYLQQNRHVKDKNIIELVHQVSMGMKYLEESNFVHRDLAARNVLLVTQHYAKISDFGLSKALRADENYYKAQTHGKWPVKWYAPECINYYKFSSKSDVWSFGVLMWEAFSYGQKPYRGMKGSEVTAMLEKGERMGCPAGCPREMYDLMNLCWTYDVENRPGFAAVELRLRNYYYDVVN,Syk,spleen tyrosine kinase,SYK,TK,2230,470,SYK,KELGSGNFGTVKKVAVKILELLAEANVMQQLDPYIVRMIGIMLVMEMAELGPLNKYLQQYLEESNFVHRDLAARNVLLISDFGLS,Human,,Protein tyrosine and serine/threonine kinase,374.0,623.0,635.0,PF07714,True
+O43318,MAP3K7,TAK1,TAK1,Mitogen-activated protein kinase kinase kinase 7,TKL,MLK,TAK1,MAP3K7,MSTASAASSSSSSSAGEMIEAPSQVLNFEEIDYKEIEVEEVVGRGAFGVVCKAKWRAKDVAIKQIESESERKAFIVELRQLSRVNHPNIVKLYGACLNPVCLVMEYAEGGSLYNVLHGAEPLPYYTAAHAMSWCLQCSQGVAYLHSMQPKALIHRDLKPPNLLLVAGGTVLKICDFGTACDIQTHMTNNKGSAAWMAPEVFEGSNYSEKCDVFSWGIILWEVITRRKPFDEIGGPAFRIMWAVHNGTRPPLIKNLPKPIESLMTRCWSKDPSQRPSMEEIVKIMTHLMRYFPGADEPLQYPCQYSDEGQSNSATSTGSFMDIASTNTSNKSDTNMEQVPATNDTIKRLESKLLKNQAKQQSESGRLSLGASRGSSVESLPPTSEGKRMSADMSEIEARIAATTAYSKPKRGHRKTASFGNILDVPEIVISGNGQPRRRSIQDLTVTGTEPGQVSSRSSSPSVRMITTSGPTSEKPTRSHPWTPDDSTDTNGSDNSIPMAYLTLDHQLQPLAPCPNSKESMAVFEQHCKMAQEYMKVQTEIALLLQRKQELVAELDQDEKDQQNTSRLVQEHKKLLDENKSLSTYYQQCKKQLEVIRSQQQKRQGTS,MLK,mitogen-activated protein kinase kinase kinase 7,MAP3K7,TKL,0,504,TAK1,EVVGRGAFGVVCKVAIKQIAFIVELRQLSRVNPNIVKLYGACLVMEYAEGGSLYNVLHGSMQPKALIHRDLKPPNLLLICDFGTA,Human,TAK1,Protein tyrosine and serine/threonine kinase,36.0,283.0,606.0,PF07714,True
+Q13873,BMPR2,BMPR2,BMPR2,Bone morphogenetic protein receptor type-2,TKL,STKR,STKR2,BMPR2,MTSSLQRPWRVPWLPWTILLVSTAAASQNQERLCAFKDPYQQDLGIGESRISHENGTILCSKGSTCYGLWEKSKGDINLVKQGCWSHIGDPQECHYEECVVTTTPPSIQNGTYRFCCCSTDLCNVNFTENFPPPDTTPLSPPHSFNRDETIIIALASVSVLAVLIVALCFGYRMLTGDRKQGLHSMNMMEAAASEPSLDLDNLKLLELIGRGRYGAVYKGSLDERPVAVKVFSFANRQNFINEKNIYRVPLMEHDNIARFIVGDERVTADGRMEYLLVMEYYPNGSLCKYLSLHTSDWVSSCRLAHSVTRGLAYLHTELPRGDHYKPAISHRDLNSRNVLVKNDGTCVISDFGLSMRLTGNRLVRPGEEDNAAISEVGTIRYMAPEVLEGAVNLRDCESALKQVDMYALGLIYWEIFMRCTDLFPGESVPEYQMAFQTEVGNHPTFEDMQVLVSREKQRPKFPEAWKENSLAVRSLKETIEDCWDQDAEARLTAQCAEERMAELMMIWERNKSVSPTVNPMSTAMQNERNLSHNRRVPKIGPYPDYSSSSYIEDSIHHTDSIVKNISSEHSMSSTPLTIGEKNRNSINYERQQAQARIPSPETSVTSLSTNTTTTNTTGLTPSTGMTTISEMPYPDETNLHTTNVAQSIGPTPVCLQLTEEDLETNKLDPKEVDKNLKESSDENLMEHSLKQFSGPDPLSSTSSSLLYPLIKLAVEATGQQDFTQTANGQACLIPDVLPTQIYPLPKQQNLPKRPTSLPLNTKNSTKEPRLKFGSKHKSNLKQVETGVAKMNTINAAEPHVVTVTMNGVAGRNHSVNSHAATTQYANGTVLSGQTTNIVTHRAQEMLQNQFIGEDTRLNINSSPDEHEPLLRREQQAGHDEGVLDRLVDRRERPLEGGRTNSNNNNSNPCSEQDVLAQGVPSTAADPGPSKPRRAQRPNSLDLSATNVLDGSSIQIGESTQDGKSGSGEKIKKRVKTPYSLKRWRPSTWVISTESLDCEVNNNGSNRAVHSKSSTAVYLAEGGTATTMVSKDIGMNCL,STKR,bone morphogenetic protein receptor type II,BMPR2,TKL,1794,526,BMPR2,ELIGRGRYGAVYKVAVKVFNFINEKNIYRVPLDNIARFIVGLLVMEYYPNGSLCKYLSLDHYKPAISHRDLNSRNVLVISDFGLS,Human,Type2,Protein kinase domain,205.0,496.0,1038.0,PF00069,True
+P42680,TEC,TEC,TEC,Tyrosine-protein kinase Tec,TK,Tec,nan,TEC,MNFNTILEEILIKRSQQKKKTSPLNYKERLFVLTKSMLTYYEGRAEKKYRKGFIDVSKIKCVEIVKNDDGVIPCQNKYPFQVVHDANTLYIFAPSPQSRDLWVKKLKEEIKNNNNIMIKYHPKFWTDGSYQCCRQTEKLAPGCEKYNLFESSIRKALPPAPETKKRRPPPPIPLEEEDNSEEIVVAMYDFQAAEGHDLRLERGQEYLILEKNDVHWWRARDKYGNEGYIPSNYVTGKKSNNLDQYEWYCRNMNRSKAEQLLRSEDKEGGFMVRDSSQPGLYTVSLYTKFGGEGSSGFRHYHIKETTTSPKKYYLAEKHAFGSIPEIIEYHKHNAAGLVTRLRYPVSVKGKNAPTTAGFSYEKWEINPSELTFMRELGSGLFGVVRLGKWRAQYKVAIKAIREGAMCEEDFIEEAKVMMKLTHPKLVQLYGVCTQQKPIYIVTEFMERGCLLNFLRQRQGHFSRDVLLSMCQDVCEGMEYLERNSFIHRDLAARNCLVSEAGVVKVSDFGMARYVLDDQYTSSSGAKFPVKWCPPEVFNYSRFSSKSDVWSFGVLMWEVFTEGRMPFEKYTNYEVVTMVTRGHRLYQPKLASNYVYEVMLRCWQEKPEGRPSFEDLLRTIDELVECEETFGR,Tec,tec protein tyrosine kinase,TEC,TK,2238,475,TEC,RELGSGLFGVVRLVAIKAIDFIEEAKVMMKLTPKLVQLYGVYIVTEFMERGCLLNFLRQYLERNSFIHRDLAARNCLVVSDFGMA,Human,,Protein tyrosine and serine/threonine kinase,370.0,618.0,631.0,PF07714,True
+Q02763,TEK,TIE2,TIE2,Angiopoietin-1 receptor,TK,Tie,nan,TEK,MDSLASLVLCGVSLLLSGTVEGAMDLILINSLPLVSDAETSLTCIASGWRPHEPITIGRDFEALMNQHQDPLEVTQDVTREWAKKVVWKREKASKINGAYFCEGRVRGEAIRIRTMKMRQQASFLPATLTMTVDKGDNVNISFKKVLIKEEDAVIYKNGSFIHSVPRHEVPDILEVHLPHAQPQDAGVYSARYIGGNLFTSAFTRLIVRRCEAQKWGPECNHLCTACMNNGVCHEDTGECICPPGFMGRTCEKACELHTFGRTCKERCSGQEGCKSYVFCLPDPYGCSCATGWKGLQCNEACHPGFYGPDCKLRCSCNNGEMCDRFQGCLCSPGWQGLQCEREGIQRMTPKIVDLPDHIEVNSGKFNPICKASGWPLPTNEEMTLVKPDGTVLHPKDFNHTDHFSVAIFTIHRILPPDSGVWVCSVNTVAGMVEKPFNISVKVLPKPLNAPNVIDTGHNFAVINISSEPYFGDGPIKSKKLLYKPVNHYEAWQHIQVTNEIVTLNYLEPRTEYELCVQLVRRGEGGEGHPGPVRRFTTASIGLPPPRGLNLLPKSQTTLNLTWQPIFPSSEDDFYVEVERRSVQKSDQQNIKVPGNLTSVLLNNLHPREQYVVRARVNTKAQGEWSEDLTAWTLSDILPPQPENIKISNITHSSAVISWTILDGYSISSITIRYKVQGKNEDQHVDVKIKNATITQYQLKGLEPETAYQVDIFAENNIGSSNPAFSHELVTLPESQAPADLGGGKMLLIAILGSAGMTCLTVLLAFLIILQLKRANVQRRMAQAFQNVREEPAVQFNSGTLALNRKVKNNPDPTIYPVLDWNDIKFQDVIGEGNFGQVLKARIKKDGLRMDAAIKRMKEYASKDDHRDFAGELEVLCKLGHHPNIINLLGACEHRGYLYLAIEYAPHGNLLDFLRKSRVLETDPAFAIANSTASTLSSQQLLHFAADVARGMDYLSQKQFIHRDLAARNILVGENYVAKIADFGLSRGQEVYVKKTMGRLPVRWMAIESLNYSVYTTNSDVWSYGVLLWEIVSLGGTPYCGMTCAELYEKLPQGYRLEKPLNCDDEVYDLMRQCWREKPYERPSFAQILVSLNRMLEERKTYVNTTLYEKFTYAGIDCSAEEAA,Tie,TEK receptor tyrosine kinase,TEK,TK,1842,477,TIE2,DVIGEGNFGQVLKAAIKRMDFAGELEVLCKLGPNIINLLGAYLAIEYAPHGNLLDFLRKYLSQKQFIHRDLAARNILVIADFGLS,Human,,Protein tyrosine and serine/threonine kinase,824.0,1091.0,1124.0,PF07714,True
+Q15569,TESK1,TESK1,TESK1,Dual specificity testis-specific protein kinase 1,TKL,LISK,TESK,TESK1,MAGERPPLRGPGPGPGEVPGEGPPGPGGTGGGPGRGRPSSYRALRSAVSSLARVDDFHCAEKIGAGFFSEVYKVRHRQSGQVMVLKMNKLPSNRGNTLREVQLMNRLRHPNILRFMGVCVHQGQLHALTEYMNGGTLEQLLSSPEPLSWPVRLHLALDIARGLRYLHSKGVFHRDLTSKNCLVRREDRGFTAVVGDFGLAEKIPVYREGARKEPLAVVGSPYWMAPEVLRGELYDEKADVFAFGIVLCELIARVPADPDYLPRTEDFGLDVPAFRTLVGDDCPLPFLLLAIHCCNLEPSTRAPFTEITQHLEWILEQLPEPAPLTRTALTHNQGSVARGGPSATLPRPDPRLSRSRSDLFLPPSPESPPNWGDNLTRVNPFSLREDLRGGKIKLLDTPSKPVLPLVPPSPFPSTQLPLVTTPETLVQPGTPARRCRSLPSSPELPRRMETALPGPGPPAVGPSAEEKMECEGSSPEPEPPGPAPQLPLAVATDNFISTCSSASQPWSPRSGPVLNNNPPAVVVNSPQGWAGEPWNRAQHSLPRAAALERTEPSPPPSAPREPDEGLPCPGCCLGPFSFGFLSMCPRPTPAVARYRNLNCEAGSLLCHRGHHAKPPTPSLQLPGARS,LISK,testis-specific kinase 1,TESK1,TKL,2239,492,TESK1,EKIGAGFFSEVYKMVLKMNNTLREVQLMNRLRPNILRFMGVHALTEYMNGGTLEQLLSSYLHSKGVFHRDLTSKNCLVVGDFGLA,Human,TESK,Protein tyrosine and serine/threonine kinase,59.0,311.0,626.0,PF07714,True
+P37173,TGFBR2,TGFbR2,TGFbR2,TGF-beta receptor type-2,TKL,STKR,STKR2,TGFBR2,MGRGLLRGLWPLHIVLWTRIASTIPPHVQKSVNNDMIVTDNNGAVKFPQLCKFCDVRFSTCDNQKSCMSNCSITSICEKPQEVCVAVWRKNDENITLETVCHDPKLPYHDFILEDAASPKCIMKEKKKPGETFFMCSCSSDECNDNIIFSEEYNTSNPDLLLVIFQVTGISLLPPLGVAISVIIIFYCYRVNRQQKLSSTWETGKTRKLMEFSEHCAIILEDDRSDISSTCANNINHNTELLPIELDTLVGKGRFAEVYKAKLKQNTSEQFETVAVKIFPYEEYASWKTEKDIFSDINLKHENILQFLTAEERKTELGKQYWLITAFHAKGNLQEYLTRHVISWEDLRKLGSSLARGIAHLHSDHTPCGRPKMPIVHRDLKSSNILVKNDLTCCLCDFGLSLRLDPTLSVDDLANSGQVGTARYMAPEVLESRMNLENVESFKQTDVYSMALVLWEMTSRCNAVGEVKDYEPPFGSKVREHPCVESMKDNVLRDRGRPEIPSFWLNHQGIQMVCETLTECWDHDPEARLTAQCVAERFSELEHLDRLSGRSCSEEKIPEDGSLNTTK,STKR,transforming growth factor beta receptor II,TGFBR2,TKL,1795,527,TGFbR2,TLVGKGRFAEVYKVAVKIFSWKTEKDIFSDINENILQFLTAWLITAFHAKGNLQEYLTRGRPKMPIVHRDLKSSNILVLCDFGLS,Human,Type2,Protein tyrosine and serine/threonine kinase,244.0,537.0,567.0,PF07714,True
+P35590,TIE1,TIE1,TIE1,Tyrosine-protein kinase receptor Tie-1,TK,Tie,nan,TIE1,MVWRVPPFLLPILFLASHVGAAVDLTLLANLRLTDPQRFFLTCVSGEAGAGRGSDAWGPPLLLEKDDRIVRTPPGPPLRLARNGSHQVTLRGFSKPSDLVGVFSCVGGAGARRTRVIYVHNSPGAHLLPDKVTHTVNKGDTAVLSARVHKEKQTDVIWKSNGSYFYTLDWHEAQDGRFLLQLPNVQPPSSGIYSATYLEASPLGSAFFRLIVRGCGAGRWGPGCTKECPGCLHGGVCHDHDGECVCPPGFTGTRCEQACREGRFGQSCQEQCPGISGCRGLTFCLPDPYGCSCGSGWRGSQCQEACAPGHFGADCRLQCQCQNGGTCDRFSGCVCPSGWHGVHCEKSDRIPQILNMASELEFNLETMPRINCAAAGNPFPVRGSIELRKPDGTVLLSTKAIVEPEKTTAEFEVPRLVLADSGFWECRVSTSGGQDSRRFKVNVKVPPVPLAAPRLLTKQSRQLVVSPLVSFSGDGPISTVRLHYRPQDSTMDWSTIVVDPSENVTLMNLRPKTGYSVRVQLSRPGEGGEGAWGPPTLMTTDCPEPLLQPWLEGWHVEGTDRLRVSWSLPLVPGPLVGDGFLLRLWDGTRGQERRENVSSPQARTALLTGLTPGTHYQLDVQLYHCTLLGPASPPAHVLLPPSGPPAPRHLHAQALSDSEIQLTWKHPEALPGPISKYVVEVQVAGGAGDPLWIDVDRPEETSTIIRGLNASTRYLFRMRASIQGLGDWSNTVEESTLGNGLQAEGPVQESRAAEEGLDQQLILAVVGSVSATCLTILAALLTLVCIRRSCLHRRRTFTYQSGSGEETILQFSSGTLTLTRRPKLQPEPLSYPVLEWEDITFEDLIGEGNFGQVIRAMIKKDGLKMNAAIKMLKEYASENDHRDFAGELEVLCKLGHHPNIINLLGACKNRGYLYIAIEYAPYGNLLDFLRKSRVLETDPAFAREHGTASTLSSRQLLRFASDAANGMQYLSEKQFIHRDLAARNVLVGENLASKIADFGLSRGEEVYVKKTMGRLPVRWMAIESLNYSVYTTKSDVWSFGVLLWEIVSLGGTPYCGMTCAELYEKLPQGYRMEQPRNCDDEVYELMRQCWRDRPYERPPFAQIALQLGRMLEARKAYVNMSLFENFTYAGIDATAEEA,Tie,tyrosine kinase with immunoglobulin like and EGF like domains 1,TIE1,TK,1841,478,TIE1,DLIGEGNFGQVIRAAIKMLDFAGELEVLCKLGPNIINLLGAYIAIEYAPYGNLLDFLRKYLSEKQFIHRDLAARNVLVIADFGLS,Human,,Protein tyrosine and serine/threonine kinase,839.0,1106.0,1138.0,PF07714,True
+Q8WZ42,TTN,TTN,TTN,Titin,CAMK,MLCK,nan,TTN,MTTQAPTFTQPLQSVVVLEGSTATFEAHISGFPVPEVSWFRDGQVISTSTLPGVQISFSDGRAKLTIPAVTKANSGRYSLKATNGSGQATSTAELLVKAETAPPNFVQRLQSMTVRQGSQVRLQVRVTGIPTPVVKFYRDGAEIQSSLDFQISQEGDLYSLLIAEAYPEDSGTYSVNATNSVGRATSTAELLVQGEEEVPAKKTKTIVSTAQISESRQTRIEKKIEAHFDARSIATVEMVIDGAAGQQLPHKTPPRIPPKPKSRSPTPPSIAAKAQLARQQSPSPIRHSPSPVRHVRAPTPSPVRSVSPAARISTSPIRSVRSPLLMRKTQASTVATGPEVPPPWKQEGYVASSSEAEMRETTLTTSTQIRTEERWEGRYGVQEQVTISGAAGAAASVSASASYAAEAVATGAKEVKQDADKSAAVATVVAAVDMARVREPVISAVEQTAQRTTTTAVHIQPAQEQVRKEAEKTAVTKVVVAADKAKEQELKSRTKEVITTKQEQMHVTHEQIRKETEKTFVPKVVISAAKAKEQETRISEEITKKQKQVTQEAIRQETEITAASMVVVATAKSTKLETVPGAQEETTTQQDQMHLSYEKIMKETRKTVVPKVIVATPKVKEQDLVSRGREGITTKREQVQITQEKMRKEAEKTALSTIAVATAKAKEQETILRTRETMATRQEQIQVTHGKVDVGKKAEAVATVVAAVDQARVREPREPGHLEESYAQQTTLEYGYKERISAAKVAEPPQRPASEPHVVPKAVKPRVIQAPSETHIKTTDQKGMHISSQIKKTTDLTTERLVHVDKRPRTASPHFTVSKISVPKTEHGYEASIAGSAIATLQKELSATSSAQKITKSVKAPTVKPSETRVRAEPTPLPQFPFADTPDTYKSEAGVEVKKEVGVSITGTTVREERFEVLHGREAKVTETARVPAPVEIPVTPPTLVSGLKNVTVIEGESVTLECHISGYPSPTVTWYREDYQIESSIDFQITFQSGIARLMIREAFAEDSGRFTCSAVNEAGTVSTSCYLAVQVSEEFEKETTAVTEKFTTEEKRFVESRDVVMTDTSLTEEQAGPGEPAAPYFITKPVVQKLVEGGSVVFGCQVGGNPKPHVYWKKSGVPLTTGYRYKVSYNKQTGECKLVISMTFADDAGEYTIVVRNKHGETSASASLLEEADYELLMKSQQEMLYQTQVTAFVQEPKVGETAPGFVYSEYEKEYEKEQALIRKKMAKDTVVVRTYVEDQEFHISSFEERLIKEIEYRIIKTTLEELLEEDGEEKMAVDISESEAVESGFDSRIKNYRILEGMGVTFHCKMSGYPLPKIAWYKDGKRIKHGERYQMDFLQDGRASLRIPVVLPEDEGIYTAFASNIKGNAICSGKLYVEPAAPLGAPTYIPTLEPVSRIRSLSPRSVSRSPIRMSPARMSPARMSPARMSPARMSPGRRLEETDESQLERLYKPVFVLKPVSFKCLEGQTARFDLKVVGRPMPETFWFHDGQQIVNDYTHKVVIKEDGTQSLIIVPATPSDSGEWTVVAQNRAGRSSISVILTVEAVEHQVKPMFVEKLKNVNIKEGSRLEMKVRATGNPNPDIVWLKNSDIIVPHKYPKIRIEGTKGEAALKIDSTVSQDSAWYTATAINKAGRDTTRCKVNVEVEFAEPEPERKLIIPRGTYRAKEIAAPELEPLHLRYGQEQWEEGDLYDKEKQQKPFFKKKLTSLRLKRFGPAHFECRLTPIGDPTMVVEWLHDGKPLEAANRLRMINEFGYCSLDYGVAYSRDSGIITCRATNKYGTDHTSATLIVKDEKSLVEESQLPEGRKGLQRIEELERMAHEGALTGVTTDQKEKQKPDIVLYPEPVRVLEGETARFRCRVTGYPQPKVNWYLNGQLIRKSKRFRVRYDGIHYLDIVDCKSYDTGEVKVTAENPEGVIEHKVKLEIQQREDFRSVLRRAPEPRPEFHVHEPGKLQFEVQKVDRPVDTTETKEVVKLKRAERITHEKVPEESEELRSKFKRRTEEGYYEAITAVELKSRKKDESYEELLRKTKDELLHWTKELTEEEKKALAEEGKITIPTFKPDKIELSPSMEAPKIFERIQSQTVGQGSDAHFRVRVVGKPDPECEWYKNGVKIERSDRIYWYWPEDNVCELVIRDVTAEDSASIMVKAINIAGETSSHAFLLVQAKQLITFTQELQDVVAKEKDTMATFECETSEPFVKVKWYKDGMEVHEGDKYRMHSDRKVHFLSILTIDTSDAEDYSCVLVEDENVKTTAKLIVEGAVVEFVKELQDIEVPESYSGELECIVSPENIEGKWYHNDVELKSNGKYTITSRRGRQNLTVKDVTKEDQGEYSFVIDGKKTTCKLKMKPRPIAILQGLSDQKVCEGDIVQLEVKVSLESVEGVWMKDGQEVQPSDRVHIVIDKQSHMLLIEDMTKEDAGNYSFTIPALGLSTSGRVSVYSVDVITPLKDVNVIEGTKAVLECKVSVPDVTSVKWYLNDEQIKPDDRVQAIVKGTKQRLVINRTHASDEGPYKLIVGRVETNCNLSVEKIKIIRGLRDLTCTETQNVVFEVELSHSGIDVLWNFKDKEIKPSSKYKIEAHGKIYKLTVLNMMKDDEGKYTFYAGENMTSGKLTVAGGAISKPLTDQTVAESQEAVFECEVANPDSKGEWLRDGKHLPLTNNIRSESDGHKRRLIIAATKLDDIGEYTYKVATSKTSAKLKVEAVKIKKTLKNLTVTETQDAVFTVELTHPNVKGVQWIKNGVVLESNEKYAISVKGTIYSLRIKNCAIVDESVYGFRLGRLGASARLHVETVKIIKKPKDVTALENATVAFEVSVSHDTVPVKWFHKSVEIKPSDKHRLVSERKVHKLMLQNISPSDAGEYTAVVGQLECKAKLFVETLHITKTMKNIEVPETKTASFECEVSHFNVPSMWLKNGVEIEMSEKFKIVVQGKLHQLIIMNTSTEDSAEYTFVCGNDQVSATLTVTPIMITSMLKDINAEEKDTITFEVTVNYEGISYKWLKNGVEIKSTDKCQMRTKKLTHSLNIRNVHFGDAADYTFVAGKATSTATLYVEARHIEFRKHIKDIKVLEKKRAMFECEVSEPDITVQWMKDDQELQITDRIKIQKEKYVHRLLIPSTRMSDAGKYTVVAGGNVSTAKLFVEGRDVRIRSIKKEVQVIEKQRAVVEFEVNEDDVDAHWYKDGIEINFQVQERHKYVVERRIHRMFISETRQSDAGEYTFVAGRNRSSVTLYVNAPEPPQVLQELQPVTVQSGKPARFCAVISGRPQPKISWYKEEQLLSTGFKCKFLHDGQEYTLLLIEAFPEDAAVYTCEAKNDYGVATTSASLSVEVPEVVSPDQEMPVYPPAIITPLQDTVTSEGQPARFQCRVSGTDLKVSWYSKDKKIKPSRFFRMTQFEDTYQLEIAEAYPEDEGTYTFVASNAVGQVSSTANLSLEAPESILHERIEQEIEMEMKEFSSSFLSAEEEGLHSAELQLSKINETLELLSESPVYPTKFDSEKEGTGPIFIKEVSNADISMGDVATLSVTVIGIPKPKIQWFFNGVLLTPSADYKFVFDGDDHSLIILFTKLEDEGEYTCMASNDYGKTICSAYLKINSKGEGHKDTETESAVAKSLEKLGGPCPPHFLKELKPIRCAQGLPAIFEYTVVGEPAPTVTWFKENKQLCTSVYYTIIHNPNGSGTFIVNDPQREDSGLYICKAENMLGESTCAAELLVLLEDTDMTDTPCKAKSTPEAPEDFPQTPLKGPAVEALDSEQEIATFVKDTILKAALITEENQQLSYEHIAKANELSSQLPLGAQELQSILEQDKLTPESTREFLCINGSIHFQPLKEPSPNLQLQIVQSQKTFSKEGILMPEEPETQAVLSDTEKIFPSAMSIEQINSLTVEPLKTLLAEPEGNYPQSSIEPPMHSYLTSVAEEVLSPKEKTVSDTNREQRVTLQKQEAQSALILSQSLAEGHVESLQSPDVMISQVNYEPLVPSEHSCTEGGKILIESANPLENAGQDSAVRIEEGKSLRFPLALEEKQVLLKEEHSDNVVMPPDQIIESKREPVAIKKVQEVQGRDLLSKESLLSGIPEEQRLNLKIQICRALQAAVASEQPGLFSEWLRNIEKVEVEAVNITQEPRHIMCMYLVTSAKSVTEEVTIIIEDVDPQMANLKMELRDALCAIIYEEIDILTAEGPRIQQGAKTSLQEEMDSFSGSQKVEPITEPEVESKYLISTEEVSYFNVQSRVKYLDATPVTKGVASAVVSDEKQDESLKPSEEKEESSSESGTEEVATVKIQEAEGGLIKEDGPMIHTPLVDTVSEEGDIVHLTTSITNAKEVNWYFENKLVPSDEKFKCLQDQNTYTLVIDKVNTEDHQGEYVCEALNDSGKTATSAKLTVVKRAAPVIKRKIEPLEVALGHLAKFTCEIQSAPNVRFQWFKAGREIYESDKCSIRSSKYISSLEILRTQVVDCGEYTCKASNEYGSVSCTATLTVTEAYPPTFLSRPKSLTTFVGKAAKFICTVTGTPVIETIWQKDGAALSPSPNWRISDAENKHILELSNLTIQDRGVYSCKASNKFGADICQAELIIIDKPHFIKELEPVQSAINKKVHLECQVDEDRKVTVTWSKDGQKLPPGKDYKICFEDKIATLEIPLAKLKDSGTYVCTASNEAGSSSCSATVTVREPPSFVKKVDPSYLMLPGESARLHCKLKGSPVIQVTWFKNNKELSESNTVRMYFVNSEAILDITDVKVEDSGSYSCEAVNDVGSDSCSTEIVIKEPPSFIKTLEPADIVRGTNALLQCEVSGTGPFEISWFKDKKQIRSSKKYRLFSQKSLVCLEIFSFNSADVGEYECVVANEVGKCGCMATHLLKEPPTFVKKVDDLIALGGQTVTLQAAVRGSEPISVTWMKGQEVIREDGKIKMSFSNGVAVLIIPDVQISFGGKYTCLAENEAGSQTSVGELIVKEPAKIIERAELIQVTAGDPATLEYTVAGTPELKPKWYKDGRPLVASKKYRISFKNNVAQLKFYSAELHDSGQYTFEISNEVGSSSCETTFTVLDRDIAPFFTKPLRNVDSVVNGTCRLDCKIAGSLPMRVSWFKDGKEIAASDRYRIAFVEGTASLEIIRVDMNDAGNFTCRATNSVGSKDSSGALIVQEPPSFVTKPGSKDVLPGSAVCLKSTFQGSTPLTIRWFKGNKELVSGGSCYITKEALESSLELYLVKTSDSGTYTCKVSNVAGGVECSANLFVKEPATFVEKLEPSQLLKKGDATQLACKVTGTPPIKITWFANDREIKESSKHRMSFVESTAVLRLTDVGIEDSGEYMCEAQNEAGSDHCSSIVIVKESPYFTKEFKPIEVLKEYDVMLLAEVAGTPPFEITWFKDNTILRSGRKYKTFIQDHLVSLQILKFVAADAGEYQCRVTNEVGSSICSARVTLREPPSFIKKIESTSSLRGGTAAFQATLKGSLPITVTWLKDSDEITEDDNIRMTFENNVASLYLSGIEVKHDGKYVCQAKNDAGIQRCSALLSVKEPATITEEAVSIDVTQGDPATLQVKFSGTKEITAKWFKDGQELTLGSKYKISVTDTVSILKIISTEKKDSGEYTFEVQNDVGRSSCKARINVLDLIIPPSFTKKLKKMDSIKGSFIDLECIVAGSHPISIQWFKDDQEISASEKYKFSFHDNTAFLEISQLEGTDSGTYTCSATNKAGHNQCSGHLTVKEPPYFVEKPQSQDVNPNTRVQLKALVGGTAPMTIKWFKDNKELHSGAARSVWKDDTSTSLELFAAKATDSGTYICQLSNDVGTATSKATLFVKEPPQFIKKPSPVLVLRNGQSTTFECQITGTPKIRVSWYLDGNEITAIQKHGISFIDGLATFQISGARVENSGTYVCEARNDAGTASCSIELKVKEPPTFIRELKPVEVVKYSDVELECEVTGTPPFEVTWLKNNREIRSSKKYTLTDRVSVFNLHITKCDPSDTGEYQCIVSNEGGSCSCSTRVALKEPPSFIKKIENTTTVLKSSATFQSTVAGSPPISITWLKDDQILDEDDNVYISFVDSVATLQIRSVDNGHSGRYTCQAKNESGVERCYAFLLVQEPAQIVEKAKSVDVTEKDPMTLECVVAGTPELKVKWLKDGKQIVPSRYFSMSFENNVASFRIQSVMKQDSGQYTFKVENDFGSSSCDAYLRVLDQNIPPSFTKKLTKMDKVLGSSIHMECKVSGSLPISAQWFKDGKEISTSAKYRLVCHERSVSLEVNNLELEDTANYTCKVSNVAGDDACSGILTVKEPPSFLVKPGRQQAIPDSTVEFKAILKGTPPFKIKWFKDDVELVSGPKCFIGLEGSTSFLNLYSVDASKTGQYTCHVTNDVGSDSCTTMLLVTEPPKFVKKLEASKIVKAGDSSRLECKIAGSPEIRVVWFRNEHELPASDKYRMTFIDSVAVIQMNNLSTEDSGDFICEAQNPAGSTSCSTKVIVKEPPVFSSFPPIVETLKNAEVSLECELSGTPPFEVVWYKDKRQLRSSKKYKIASKNFHTSIHILNVDTSDIGEYHCKAQNEVGSDTCVCTVKLKEPPRFVSKLNSLTVVAGEPAELQASIEGAQPIFVQWLKEKEEVIRESENIRITFVENVATLQFAKAEPANAGKYICQIKNDGGMRENMATLMVLEPAVIVEKAGPMTVTVGETCTLECKVAGTPELSVEWYKDGKLLTSSQKHKFSFYNKISSLRILSVERQDAGTYTFQVQNNVGKSSCTAVVDVSDRAVPPSFTRRLKNTGGVLGASCILECKVAGSSPISVAWFHEKTKIVSGAKYQTTFSDNVCTLQLNSLDSSDMGNYTCVAANVAGSDECRAVLTVQEPPSFVKEPEPLEVLPGKNVTFTSVIRGTPPFKVNWFRGARELVKGDRCNIYFEDTVAELELFNIDISQSGEYTCVVSNNAGQASCTTRLFVKEPAAFLKRLSDHSVEPGKSIILESTYTGTLPISVTWKKDGFNITTSEKCNIVTTEKTCILEILNSTKRDAGQYSCEIENEAGRDVCGALVSTLEPPYFVTELEPLEAAVGDSVSLQCQVAGTPEITVSWYKGDTKLRPTPEYRTYFTNNVATLVFNKVNINDSGEYTCKAENSIGTASSKTVFRIQERQLPPSFARQLKDIEQTVGLPVTLTCRLNGSAPIQVCWYRDGVLLRDDENLQTSFVDNVATLKILQTDLSHSGQYSCSASNPLGTASSSARLTAREPKKSPFFDIKPVSIDVIAGESADFECHVTGAQPMRITWSKDNKEIRPGGNYTITCVGNTPHLRILKVGKGDSGQYTCQATNDVGKDMCSAQLSVKEPPKFVKKLEASKVAKQGESIQLECKISGSPEIKVSWFRNDSELHESWKYNMSFINSVALLTINEASAEDSGDYICEAHNGVGDASCSTALTVKAPPVFTQKPSPVGALKGSDVILQCEISGTPPFEVVWVKDRKQVRNSKKFKITSKHFDTSLHILNLEASDVGEYHCKATNEVGSDTCSCSVKFKEPPRFVKKLSDTSTLIGDAVELRAIVEGFQPISVVWLKDRGEVIRESENTRISFIDNIATLQLGSPEASNSGKYICQIKNDAGMRECSAVLTVLEPARIIEKPEPMTVTTGNPFALECVVTGTPELSAKWFKDGRELSADSKHHITFINKVASLKIPCAEMSDKGLYSFEVKNSVGKSNCTVSVHVSDRIVPPSFIRKLKDVNAILGASVVLECRVSGSAPISVGWFQDGNEIVSGPKCQSSFSENVCTLNLSLLEPSDTGIYTCVAANVAGSDECSAVLTVQEPPSFEQTPDSVEVLPGMSLTFTSVIRGTPPFKVKWFKGSRELVPGESCNISLEDFVTELELFEVQPLESGDYSCLVTNDAGSASCTTHLFVKEPATFVKRLADFSVETGSPIVLEATYTGTPPISVSWIKDEYLISQSERCSITMTEKSTILEILESTIEDYAQYSCLIENEAGQDICEALVSVLEPPYFIEPLEHVEAVIGEPATLQCKVDGTPEIRISWYKEHTKLRSAPAYKMQFKNNVASLVINKVDHSDVGEYSCKADNSVGAVASSAVLVIKARKLPPFFARKLKDVHETLGFPVAFECRINGSEPLQVSWYKDGVLLKDDANLQTSFVHNVATLQILQTDQSHIGQYNCSASNPLGTASSSAKLILSEHEVPPFFDLKPVSVDLALGESGTFKCHVTGTAPIKITWAKDNREIRPGGNYKMTLVENTATLTVLKVGKGDAGQYTCYASNIAGKDSCSAQLGVQEPPRFIKKLEPSRIVKQDEFTRYECKIGGSPEIKVLWYKDETEIQESSKFRMSFVDSVAVLEMHNLSVEDSGDYTCEAHNAAGSASSSTSLKVKEPPIFRKKPHPIETLKGADVHLECELQGTPPFHVSWYKDKRELRSGKKYKIMSENFLTSIHILNVDAADIGEYQCKATNDVGSDTCVGSIALKAPPRFVKKLSDISTVVGKEVQLQTTIEGAEPISVVWFKDKGEIVRESDNIWISYSENIATLQFSRVEPANAGKYTCQIKNDAGMQECFATLSVLEPATIVEKPESIKVTTGDTCTLECTVAGTPELSTKWFKDGKELTSDNKYKISFFNKVSGLKIINVAPSDSGVYSFEVQNPVGKDSCTASLQVSDRTVPPSFTRKLKETNGLSGSSVVMECKVYGSPPISVSWFHEGNEISSGRKYQTTLTDNTCALTVNMLEESDSGDYTCIATNMAGSDECSAPLTVREPPSFVQKPDPMDVLTGTNVTFTSIVKGTPPFSVSWFKGSSELVPGDRCNVSLEDSVAELELFDVDTSQSGEYTCIVSNEAGKASCTTHLYIKAPAKFVKRLNDYSIEKGKPLILEGTFTGTPPISVTWKKNGINVTPSQRCNITTTEKSAILEIPSSTVEDAGQYNCYIENASGKDSCSAQILILEPPYFVKQLEPVKVSVGDSASLQCQLAGTPEIGVSWYKGDTKLRPTTTYKMHFRNNVATLVFNQVDINDSGEYICKAENSVGEVSASTFLTVQEQKLPPSFSRQLRDVQETVGLPVVFDCAISGSEPISVSWYKDGKPLKDSPNVQTSFLDNTATLNIFKTDRSLAGQYSCTATNPIGSASSSARLILTEGKNPPFFDIRLAPVDAVVGESADFECHVTGTQPIKVSWAKDSREIRSGGKYQISYLENSAHLTVLKVDKGDSGQYTCYAVNEVGKDSCTAQLNIKERLIPPSFTKRLSETVEETEGNSFKLEGRVAGSQPITVAWYKNNIEIQPTSNCEITFKNNTLVLQVRKAGMNDAGLYTCKVSNDAGSALCTSSIVIKEPKKPPVFDQHLTPVTVSEGEYVQLSCHVQGSEPIRIQWLKAGREIKPSDRCSFSFASGTAVLELRDVAKADSGDYVCKASNVAGSDTTKSKVTIKDKPAVAPATKKAAVDGRLFFVSEPQSIRVVEKTTATFIAKVGGDPIPNVKWTKGKWRQLNQGGRVFIHQKGDEAKLEIRDTTKTDSGLYRCVAFNEHGEIESNVNLQVDERKKQEKIEGDLRAMLKKTPILKKGAGEEEEIDIMELLKNVDPKEYEKYARMYGITDFRGLLQAFELLKQSQEEETHRLEIEEIERSERDEKEFEELVSFIQQRLSQTEPVTLIKDIENQTVLKDNDAVFEIDIKINYPEIKLSWYKGTEKLEPSDKFEISIDGDRHTLRVKNCQLKDQGNYRLVCGPHIASAKLTVIEPAWERHLQDVTLKEGQTCTMTCQFSVPNVKSEWFRNGRILKPQGRHKTEVEHKVHKLTIADVRAEDQGQYTCKYEDLETSAELRIEAEPIQFTKRIQNIVVSEHQSATFECEVSFDDAIVTWYKGPTELTESQKYNFRNDGRCHYMTIHNVTPDDEGVYSVIARLEPRGEARSTAELYLTTKEIKLELKPPDIPDSRVPIPTMPIRAVPPEEIPPVVAPPIPLLLPTPEEKKPPPKRIEVTKKAVKKDAKKVVAKPKEMTPREEIVKKPPPPTTLIPAKAPEIIDVSSKAEEVKIMTITRKKEVQKEKEAVYEKKQAVHKEKRVFIESFEEPYDELEVEPYTEPFEQPYYEEPDEDYEEIKVEAKKEVHEEWEEDFEEGQEYYEREEGYDEGEEEWEEAYQEREVIQVQKEVYEESHERKVPAKVPEKKAPPPPKVIKKPVIEKIEKTSRRMEEEKVQVTKVPEVSKKIVPQKPSRTPVQEEVIEVKVPAVHTKKMVISEEKMFFASHTEEEVSVTVPEVQKEIVTEEKIHVAISKRVEPPPKVPELPEKPAPEEVAPVPIPKKVEPPAPKVPEVPKKPVPEEKKPVPVPKKEPAAPPKVPEVPKKPVPEEKIPVPVAKKKEAPPAKVPEVQKGVVTEEKITIVTQREESPPPAVPEIPKKKVPEERKPVPRKEEEVPPPPKVPALPKKPVPEEKVAVPVPVAKKAPPPRAEVSKKTVVEEKRFVAEEKLSFAVPQRVEVTRHEVSAEEEWSYSEEEEGVSISVYREEEREEEEEAEVTEYEVMEEPEEYVVEEKLHIISKRVEAEPAEVTERQEKKIVLKPKIPAKIEEPPPAKVPEAPKKIVPEKKVPAPVPKKEKVPPPKVPEEPKKPVPEKKVPPKVIKMEEPLPAKVTERHMQITQEEKVLVAVTKKEAPPKARVPEEPKRAVPEEKVLKLKPKREEEPPAKVTEFRKRVVKEEKVSIEAPKREPQPIKEVTIMEEKERAYTLEEEAVSVQREEEYEEYEEYDYKEFEEYEPTEEYDQYEEYEEREYERYEEHEEYITEPEKPIPVKPVPEEPVPTKPKAPPAKVLKKAVPEEKVPVPIPKKLKPPPPKVPEEPKKVFEEKIRISITKREKEQVTEPAAKVPMKPKRVVAEEKVPVPRKEVAPPVRVPEVPKELEPEEVAFEEEVVTHVEEYLVEEEEEYIHEEEEFITEEEVVPVIPVKVPEVPRKPVPEEKKPVPVPKKKEAPPAKVPEVPKKPEEKVPVLIPKKEKPPPAKVPEVPKKPVPEEKVPVPVPKKVEAPPAKVPEVPKKPVPEKKVPVPAPKKVEAPPAKVPEVPKKLIPEEKKPTPVPKKVEAPPPKVPKKREPVPVPVALPQEEEVLFEEEIVPEEEVLPEEEEVLPEEEEVLPEEEEVLPEEEEIPPEEEEVPPEEEYVPEEEEFVPEEEVLPEVKPKVPVPAPVPEIKKKVTEKKVVIPKKEEAPPAKVPEVPKKVEEKRIILPKEEEVLPVEVTEEPEEEPISEEEIPEEPPSIEEVEEVAPPRVPEVIKKAVPEAPTPVPKKVEAPPAKVSKKIPEEKVPVPVQKKEAPPAKVPEVPKKVPEKKVLVPKKEAVPPAKGRTVLEEKVSVAFRQEVVVKERLELEVVEAEVEEIPEEEEFHEVEEYFEEGEFHEVEEFIKLEQHRVEEEHRVEKVHRVIEVFEAEEVEVFEKPKAPPKGPEISEKIIPPKKPPTKVVPRKEPPAKVPEVPKKIVVEEKVRVPEEPRVPPTKVPEVLPPKEVVPEKKVPVPPAKKPEAPPPKVPEAPKEVVPEKKVPVPPPKKPEVPPTKVPEVPKAAVPEKKVPEAIPPKPESPPPEVPEAPKEVVPEKKVPAAPPKKPEVTPVKVPEAPKEVVPEKKVPVPPPKKPEVPPTKVPEVPKVAVPEKKVPEAIPPKPESPPPEVFEEPEEVALEEPPAEVVEEPEPAAPPQVTVPPKKPVPEKKAPAVVAKKPELPPVKVPEVPKEVVPEKKVPLVVPKKPEAPPAKVPEVPKEVVPEKKVAVPKKPEVPPAKVPEVPKKPVLEEKPAVPVPERAESPPPEVYEEPEEIAPEEEIAPEEEKPVPVAEEEEPEVPPPAVPEEPKKIIPEKKVPVIKKPEAPPPKEPEPEKVIEKPKLKPRPPPPPPAPPKEDVKEKIFQLKAIPKKKVPEKPQVPEKVELTPLKVPGGEKKVRKLLPERKPEPKEEVVLKSVLRKRPEEEEPKVEPKKLEKVKKPAVPEPPPPKPVEEVEVPTVTKRERKIPEPTKVPEIKPAIPLPAPEPKPKPEAEVKTIKPPPVEPEPTPIAAPVTVPVVGKKAEAKAPKEEAAKPKGPIKGVPKKTPSPIEAERRKLRPGSGGEKPPDEAPFTYQLKAVPLKFVKEIKDIILTESEFVGSSAIFECLVSPSTAITTWMKDGSNIRESPKHRFIADGKDRKLHIIDVQLSDAGEYTCVLRLGNKEKTSTAKLVVEELPVRFVKTLEEEVTVVKGQPLYLSCELNKERDVVWRKDGKIVVEKPGRIVPGVIGLMRALTINDADDTDAGTYTVTVENANNLECSSCVKVVEVIRDWLVKPIRDQHVKPKGTAIFACDIAKDTPNIKWFKGYDEIPAEPNDKTEILRDGNHLYLKIKNAMPEDIAEYAVEIEGKRYPAKLTLGEREVELLKPIEDVTIYEKESASFDAEISEADIPGQWKLKGELLRPSPTCEIKAEGGKRFLTLHKVKLDQAGEVLYQALNAITTAILTVKEIELDFAVPLKDVTVPERRQARFECVLTREANVIWSKGPDIIKSSDKFDIIADGKKHILVINDSQFDDEGVYTAEVEGKKTSARLFVTGIRLKFMSPLEDQTVKEGETATFVCELSHEKMHVVWFKNDAKLHTSRTVLISSEGKTHKLEMKEVTLDDISQIKAQVKELSSTAQLKVLEADPYFTVKLHDKTAVEKDEITLKCEVSKDVPVKWFKDGEEIVPSPKYSIKADGLRRILKIKKADLKDKGEYVCDCGTDKTKANVTVEARLIKVEKPLYGVEVFVGETAHFEIELSEPDVHGQWKLKGQPLTASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAANAKSAANLKVKELPLIFITPLSDVKVFEKDEAKFECEVSREPKTFRWLKGTQEITGDDRFELIKDGTKHSMVIKSAAFEDEAKYMFEAEDKHTSGKLIIEGIRLKFLTPLKDVTAKEKESAVFTVELSHDNIRVKWFKNDQRLHTTRSVSMQDEGKTHSITFKDLSIDDTSQIRVEAMGMSSEAKLTVLEGDPYFTGKLQDYTGVEKDEVILQCEISKADAPVKWFKDGKEIKPSKNAVIKADGKKRMLILKKALKSDIGQYTCDCGTDKTSGKLDIEDREIKLVRPLHSVEVMETETARFETEISEDDIHANWKLKGEALLQTPDCEIKEEGKIHSLVLHNCRLDQTGGVDFQAANVKSSAHLRVKPRVIGLLRPLKDVTVTAGETATFDCELSYEDIPVEWYLKGKKLEPSDKVVPRSEGKVHTLTLRDVKLEDAGEVQLTAKDFKTHANLFVKEPPVEFTKPLEDQTVEEGATAVLECEVSRENAKVKWFKNGTEILKSKKYEIVADGRVRKLVIHDCTPEDIKTYTCDAKDFKTSCNLNVVPPHVEFLRPLTDLQVREKEMARFECELSRENAKVKWFKDGAEIKKGKKYDIISKGAVRILVINKCLLDDEAEYSCEVRTARTSGMLTVLEEEAVFTKNLANIEVSETDTIKLVCEVSKPGAEVIWYKGDEEIIETGRYEILTEGRKRILVIQNAHLEDAGNYNCRLPSSRTDGKVKVHELAAEFISKPQNLEILEGEKAEFVCSISKESFPVQWKRDDKTLESGDKYDVIADGKKRVLVVKDATLQDMGTYVVMVGAARAAAHLTVIEKLRIVVPLKDTRVKEQQEVVFNCEVNTEGAKAKWFRNEEAIFDSSKYIILQKDLVYTLRIRDAHLDDQANYNVSLTNHRGENVKSAANLIVEEEDLRIVEPLKDIETMEKKSVTFWCKVNRLNVTLKWTKNGEEVPFDNRVSYRVDKYKHMLTIKDCGFPDEGEYIVTAGQDKSVAELLIIEAPTEFVEHLEDQTVTEFDDAVFSCQLSREKANVKWYRNGREIKEGKKYKFEKDGSIHRLIIKDCRLDDECEYACGVEDRKSRARLFVEEIPVEIIRPPQDILEAPGADVVFLAELNKDKVEVQWLRNNMVVVQGDKHQMMSEGKIHRLQICDIKPRDQGEYRFIAKDKEARAKLELAAAPKIKTADQDLVVDVGKPLTMVVPYDAYPKAEAEWFKENEPLSTKTIDTTAEQTSFRILEAKKGDKGRYKIVLQNKHGKAEGFINLKVIDVPGPVRNLEVTETFDGEVSLAWEEPLTDGGSKIIGYVVERRDIKRKTWVLATDRAESCEFTVTGLQKGGVEYLFRVSARNRVGTGEPVETDNPVEARSKYDVPGPPLNVTITDVNRFGVSLTWEPPEYDGGAEITNYVIELRDKTSIRWDTAMTVRAEDLSATVTDVVEGQEYSFRVRAQNRIGVGKPSAATPFVKVADPIERPSPPVNLTSSDQTQSSVQLKWEPPLKDGGSPILGYIIERCEEGKDNWIRCNMKLVPELTYKVTGLEKGNKYLYRVSAENKAGVSDPSEILGPLTADDAFVEPTMDLSAFKDGLEVIVPNPITILVPSTGYPRPTATWCFGDKVLETGDRVKMKTLSAYAELVISPSERSDKGIYTLKLENRVKTISGEIDVNVIARPSAPKELKFGDITKDSVHLTWEPPDDDGGSPLTGYVVEKREVSRKTWTKVMDFVTDLEFTVPDLVQGKEYLFKVCARNKCGPGEPAYVDEPVNMSTPATVPDPPENVKWRDRTANSIFLTWDPPKNDGGSRIKGYIVERCPRGSDKWVACGEPVAETKMEVTGLEEGKWYAYRVKALNRQGASKPSRPTEEIQAVDTQEAPEIFLDVKLLAGLTVKAGTKIELPATVTGKPEPKITWTKADMILKQDKRITIENVPKKSTVTIVDSKRSDTGTYIIEAVNVCGRATAVVEVNVLDKPGPPAAFDITDVTNESCLLTWNPPRDDGGSKITNYVVERRATDSEVWHKLSSTVKDTNFKATKLIPNKEYIFRVAAENMYGVGEPVQASPITAKYQFDPPGPPTRLEPSDITKDAVTLTWCEPDDDGGSPITGYWVERLDPDTDKWVRCNKMPVKDTTYRVKGLTNKKKYRFRVLAENLAGPGKPSKSTEPILIKDPIDPPWPPGKPTVKDVGKTSVRLNWTKPEHDGGAKIESYVIEMLKTGTDEWVRVAEGVPTTQHLLPGLMEGQEYSFRVRAVNKAGESEPSEPSDPVLCREKLYPPSPPRWLEVINITKNTADLKWTVPEKDGGSPITNYIVEKRDVRRKGWQTVDTTVKDTKCTVTPLTEGSLYVFRVAAENAIGQSDYTEIEDSVLAKDTFTTPGPPYALAVVDVTKRHVDLKWEPPKNDGGRPIQRYVIEKKERLGTRWVKAGKTAGPDCNFRVTDVIEGTEVQFQVRAENEAGVGHPSEPTEILSIEDPTSPPSPPLDLHVTDAGRKHIAIAWKPPEKNGGSPIIGYHVEMCPVGTEKWMRVNSRPIKDLKFKVEEGVVPDKEYVLRVRAVNAIGVSEPSEISENVVAKDPDCKPTIDLETHDIIVIEGEKLSIPVPFRAVPVPTVSWHKDGKEVKASDRLTMKNDHISAHLEVPKSVRADAGIYTITLENKLGSATASINVKVIGLPGPCKDIKASDITKSSCKLTWEPPEFDGGTPILHYVLERREAGRRTYIPVMSGENKLSWTVKDLIPNGEYFFRVKAVNKVGGGEYIELKNPVIAQDPKQPPDPPVDVEVHNPTAEAMTITWKPPLYDGGSKIMGYIIEKIAKGEERWKRCNEHLVPILTYTAKGLEEGKEYQFRVRAENAAGISEPSRATPPTKAVDPIDAPKVILRTSLEVKRGDEIALDASISGSPYPTITWIKDENVIVPEEIKKRAAPLVRRRKGEVQEEEPFVLPLTQRLSIDNSKKGESQLRVRDSLRPDHGLYMIKVENDHGIAKAPCTVSVLDTPGPPINFVFEDIRKTSVLCKWEPPLDDGGSEIINYTLEKKDKTKPDSEWIVVTSTLRHCKYSVTKLIEGKEYLFRVRAENRFGPGPPCVSKPLVAKDPFGPPDAPDKPIVEDVTSNSMLVKWNEPKDNGSPILGYWLEKREVNSTHWSRVNKSLLNALKANVDGLLEGLTYVFRVCAENAAGPGKFSPPSDPKTAHDPISPPGPPIPRVTDTSSTTIELEWEPPAFNGGGEIVGYFVDKQLVGTNEWSRCTEKMIKVRQYTVKEIREGADYKLRVSAVNAAGEGPPGETQPVTVAEPQEPPAVELDVSVKGGIQIMAGKTLRIPAVVTGRPVPTKVWTKEEGELDKDRVVIDNVGTKSELIIKDALRKDHGRYVITATNSCGSKFAAARVEVFDVPGPVLDLKPVVTNRKMCLLNWSDPEDDGGSEITGFIIERKDAKMHTWRQPIETERSKCDITGLLEGQEYKFRVIAKNKFGCGPPVEIGPILAVDPLGPPTSPERLTYTERTKSTITLDWKEPRSNGGSPIQGYIIEKRRHDKPDFERVNKRLCPTTSFLVENLDEHQMYEFRVKAVNEIGESEPSLPLNVVIQDDEVPPTIKLRLSVRGDTIKVKAGEPVHIPADVTGLPMPKIEWSKNETVIEKPTDALQITKEEVSRSEAKTELSIPKAVREDKGTYTVTASNRLGSVFRNVHVEVYDRPSPPRNLAVTDIKAESCYLTWDAPLDNGGSEITHYVIDKRDASRKKAEWEEVTNTAVEKRYGIWKLIPNGQYEFRVRAVNKYGISDECKSDKVVIQDPYRLPGPPGKPKVLARTKGSMLVSWTPPLDNGGSPITGYWLEKREEGSPYWSRVSRAPITKVGLKGVEFNVPRLLEGVKYQFRAMAINAAGIGPPSEPSDPEVAGDPIFPPGPPSCPEVKDKTKSSISLGWKPPAKDGGSPIKGYIVEMQEEGTTDWKRVNEPDKLITTCECVVPNLKELRKYRFRVKAVNEAGESEPSDTTGEIPATDIQEEPEVFIDIGAQDCLVCKAGSQIRIPAVIKGRPTPKSSWEFDGKAKKAMKDGVHDIPEDAQLETAENSSVIIIPECKRSHTGKYSITAKNKAGQKTANCRVKVMDVPGPPKDLKVSDITRGSCRLSWKMPDDDGGDRIKGYVIEKRTIDGKAWTKVNPDCGSTTFVVPDLLSEQQYFFRVRAENRFGIGPPVETIQRTTARDPIYPPDPPIKLKIGLITKNTVHLSWKPPKNDGGSPVTHYIVECLAWDPTGTKKEAWRQCNKRDVEELQFTVEDLVEGGEYEFRVKAVNAAGVSKPSATVGPVTVKDQTCPPSIDLKEFMEVEEGTNVNIVAKIKGVPFPTLTWFKAPPKKPDNKEPVLYDTHVNKLVVDDTCTLVIPQSRRSDTGLYTITAVNNLGTASKEMRLNVLGRPGPPVGPIKFESVSADQMTLSWFPPKDDGGSKITNYVIEKREANRKTWVHVSSEPKECTYTIPKLLEGHEYVFRIMAQNKYGIGEPLDSEPETARNLFSVPGAPDKPTVSSVTRNSMTVNWEEPEYDGGSPVTGYWLEMKDTTSKRWKRVNRDPIKAMTLGVSYKVTGLIEGSDYQFRVYAINAAGVGPASLPSDPATARDPIAPPGPPFPKVTDWTKSSADLEWSPPLKDGGSKVTGYIVEYKEEGKEEWEKGKDKEVRGTKLVVTGLKEGAFYKFRVRAVNIAGIGEPGEVTDVIEMKDRLVSPDLQLDASVRDRIVVHAGGVIRIIAYVSGKPPPTVTWNMNERTLPQEATIETTAISSSMVIKNCQRSHQGVYSLLAKNEAGERKKTIIVDVLDVPGPVGTPFLAHNLTNESCKLTWFSPEDDGGSPITNYVIEKRESDRRAWTPVTYTVTRQNATVQGLIQGKAYFFRIAAENSIGMGPFVETSEALVIREPITVPERPEDLEVKEVTKNTVTLTWNPPKYDGGSEIINYVLESRLIGTEKFHKVTNDNLLSRKYTVKGLKEGDTYEYRVSAVNIVGQGKPSFCTKPITCKDELAPPTLHLDFRDKLTIRVGEAFALTGRYSGKPKPKVSWFKDEADVLEDDRTHIKTTPATLALEKIKAKRSDSGKYCVVVENSTGSRKGFCQVNVVDRPGPPVGPVSFDEVTKDYMVISWKPPLDDGGSKITNYIIEKKEVGKDVWMPVTSASAKTTCKVSKLLEGKDYIFRIHAENLYGISDPLVSDSMKAKDRFRVPDAPDQPIVTEVTKDSALVTWNKPHDGGKPITNYILEKRETMSKRWARVTKDPIHPYTKFRVPDLLEGCQYEFRVSAENEIGIGDPSPPSKPVFAKDPIAKPSPPVNPEAIDTTCNSVDLTWQPPRHDGGSKILGYIVEYQKVGDEEWRRANHTPESCPETKYKVTGLRDGQTYKFRVLAVNAAGESDPAHVPEPVLVKDRLEPPELILDANMAREQHIKVGDTLRLSAIIKGVPFPKVTWKKEDRDAPTKARIDVTPVGSKLEIRNAAHEDGGIYSLTVENPAGSKTVSVKVLVLDKPGPPRDLEVSEIRKDSCYLTWKEPLDDGGSVITNYVVERRDVASAQWSPLSATSKKKSHFAKHLNEGNQYLFRVAAENQYGRGPFVETPKPIKALDPLHPPGPPKDLHHVDVDKTEVSLVWNKPDRDGGSPITGYLVEYQEEGTQDWIKFKTVTNLECVVTGLQQGKTYRFRVKAENIVGLGLPDTTIPIECQEKLVPPSVELDVKLIEGLVVKAGTTVRFPAIIRGVPVPTAKWTTDGSEIKTDEHYTVETDNFSSVLTIKNCLRRDTGEYQITVSNAAGSKTVAVHLTVLDVPGPPTGPINILDVTPEHMTISWQPPKDDGGSPVINYIVEKQDTRKDTWGVVSSGSSKTKLKIPHLQKGCEYVFRVRAENKIGVGPPLDSTPTVAKHKFSPPSPPGKPVVTDITENAATVSWTLPKSDGGSPITGYYMERREVTGKWVRVNKTPIADLKFRVTGLYEGNTYEFRVFAENLAGLSKPSPSSDPIKACRPIKPPGPPINPKLKDKSRETADLVWTKPLSDGGSPILGYVVECQKPGTAQWNRINKDELIRQCAFRVPGLIEGNEYRFRIKAANIVGEGEPRELAESVIAKDILHPPEVELDVTCRDVITVRVGQTIRILARVKGRPEPDITWTKEGKVLVREKRVDLIQDLPRVELQIKEAVRADHGKYIISAKNSSGHAQGSAIVNVLDRPGPCQNLKVTNVTKENCTISWENPLDNGGSEITNFIVEYRKPNQKGWSIVASDVTKRLIKANLLANNEYYFRVCAENKVGVGPTIETKTPILAINPIDRPGEPENLHIADKGKTFVYLKWRRPDYDGGSPNLSYHVERRLKGSDDWERVHKGSIKETHYMVDRCVENQIYEFRVQTKNEGGESDWVKTEEVVVKEDLQKPVLDLKLSGVLTVKAGDTIRLEAGVRGKPFPEVAWTKDKDATDLTRSPRVKIDTRADSSKFSLTKAKRSDGGKYVVTATNTAGSFVAYATVNVLDKPGPVRNLKIVDVSSDRCTVCWDPPEDDGGCEIQNYILEKCETKRMVWSTYSATVLTPGTTVTRLIEGNEYIFRVRAENKIGTGPPTESKPVIAKTKYDKPGRPDPPEVTKVSKEEMTVVWNPPEYDGGKSITGYFLEKKEKHSTRWVPVNKSAIPERRMKVQNLLPDHEYQFRVKAENEIGIGEPSLPSRPVVAKDPIEPPGPPTNFRVVDTTKHSITLGWGKPVYDGGAPIIGYVVEMRPKIADASPDEGWKRCNAAAQLVRKEFTVTSLDENQEYEFRVCAQNQVGIGRPAELKEAIKPKEILEPPEIDLDASMRKLVIVRAGCPIRLFAIVRGRPAPKVTWRKVGIDNVVRKGQVDLVDTMAFLVIPNSTRDDSGKYSLTLVNPAGEKAVFVNVRVLDTPGPVSDLKVSDVTKTSCHVSWAPPENDGGSQVTHYIVEKREADRKTWSTVTPEVKKTSFHVTNLVPGNEYYFRVTAVNEYGPGVPTDVPKPVLASDPLSEPDPPRKLEVTEMTKNSATLAWLPPLRDGGAKIDGYITSYREEEQPADRWTEYSVVKDLSLVVTGLKEGKKYKFRVAARNAVGVSLPREAEGVYEAKEQLLPPKILMPEQITIKAGKKLRIEAHVYGKPHPTCKWKKGEDEVVTSSHLAVHKADSSSILIIKDVTRKDSGYYSLTAENSSGTDTQKIKVVVMDAPGPPQPPFDISDIDADACSLSWHIPLEDGGSNITNYIVEKCDVSRGDWVTALASVTKTSCRVGKLIPGQEYIFRVRAENRFGISEPLTSPKMVAQFPFGVPSEPKNARVTKVNKDCIFVAWDRPDSDGGSPIIGYLIERKERNSLLWVKANDTLVRSTEYPCAGLVEGLEYSFRIYALNKAGSSPPSKPTEYVTARMPVDPPGKPEVIDVTKSTVSLIWARPKHDGGSKIIGYFVEACKLPGDKWVRCNTAPHQIPQEEYTATGLEEKAQYQFRAIARTAVNISPPSEPSDPVTILAENVPPRIDLSVAMKSLLTVKAGTNVCLDATVFGKPMPTVSWKKDGTLLKPAEGIKMAMQRNLCTLELFSVNRKDSGDYTITAENSSGSKSATIKLKVLDKPGPPASVKINKMYSDRAMLSWEPPLEDGGSEITNYIVDKRETSRPNWAQVSATVPITSCSVEKLIEGHEYQFRICAENKYGVGDPVFTEPAIAKNPYDPPGRCDPPVISNITKDHMTVSWKPPADDGGSPITGYLLEKRETQAVNWTKVNRKPIIERTLKATGLQEGTEYEFRVTAINKAGPGKPSDASKAAYARDPQYPPGPPAFPKVYDTTRSSVSLSWGKPAYDGGSPIIGYLVEVKRADSDNWVRCNLPQNLQKTRFEVTGLMEDTQYQFRVYAVNKIGYSDPSDVPDKHYPKDILIPPEGELDADLRKTLILRAGVTMRLYVPVKGRPPPKITWSKPNVNLRDRIGLDIKSTDFDTFLRCENVNKYDAGKYILTLENSCGKKEYTIVVKVLDTPGPPVNVTVKEISKDSAYVTWEPPIIDGGSPIINYVVQKRDAERKSWSTVTTECSKTSFRVANLEEGKSYFFRVFAENEYGIGDPGETRDAVKASQTPGPVVDLKVRSVSKSSCSIGWKKPHSDGGSRIIGYVVDFLTEENKWQRVMKSLSLQYSAKDLTEGKEYTFRVSAENENGEGTPSEITVVARDDVVAPDLDLKGLPDLCYLAKENSNFRLKIPIKGKPAPSVSWKKGEDPLATDTRVSVESSAVNTTLIVYDCQKSDAGKYTITLKNVAGTKEGTISIKVVGKPGIPTGPIKFDEVTAEAMTLKWAPPKDDGGSEITNYILEKRDSVNNKWVTCASAVQKTTFRVTRLHEGMEYTFRVSAENKYGVGEGLKSEPIVARHPFDVPDAPPPPNIVDVRHDSVSLTWTDPKKTGGSPITGYHLEFKERNSLLWKRANKTPIRMRDFKVTGLTEGLEYEFRVMAINLAGVGKPSLPSEPVVALDPIDPPGKPEVINITRNSVTLIWTEPKYDGGHKLTGYIVEKRDLPSKSWMKANHVNVPECAFTVTDLVEGGKYEFRIRAKNTAGAISAPSESTETIICKDEYEAPTIVLDPTIKDGLTIKAGDTIVLNAISILGKPLPKSSWSKAGKDIRPSDITQITSTPTSSMLTIKYATRKDAGEYTITATNPFGTKVEHVKVTVLDVPGPPGPVEISNVSAEKATLTWTPPLEDGGSPIKSYILEKRETSRLLWTVVSEDIQSCRHVATKLIQGNEYIFRVSAVNHYGKGEPVQSEPVKMVDRFGPPGPPEKPEVSNVTKNTATVSWKRPVDDGGSEITGYHVERREKKSLRWVRAIKTPVSDLRCKVTGLQEGSTYEFRVSAENRAGIGPPSEASDSVLMKDAAYPPGPPSNPHVTDTTKKSASLAWGKPHYDGGLEITGYVVEHQKVGDEAWIKDTTGTALRITQFVVPDLQTKEKYNFRISAINDAGVGEPAVIPDVEIVEREMAPDFELDAELRRTLVVRAGLSIRIFVPIKGRPAPEVTWTKDNINLKNRANIENTESFTLLIIPECNRYDTGKFVMTIENPAGKKSGFVNVRVLDTPGPVLNLRPTDITKDSVTLHWDLPLIDGGSRITNYIVEKREATRKSYSTATTKCHKCTYKVTGLSEGCEYFFRVMAENEYGIGEPTETTEPVKASEAPSPPDSLNIMDITKSTVSLAWPKPKHDGGSKITGYVIEAQRKGSDQWTHITTVKGLECVVRNLTEGEEYTFQVMAVNSAGRSAPRESRPVIVKEQTMLPELDLRGIYQKLVIAKAGDNIKVEIPVLGRPKPTVTWKKGDQILKQTQRVNFETTATSTILNINECVRSDSGPYPLTARNIVGEVGDVITIQVHDIPGPPTGPIKFDEVSSDFVTFSWDPPENDGGVPISNYVVEMRQTDSTTWVELATTVIRTTYKATRLTTGLEYQFRVKAQNRYGVGPGITSACIVANYPFKVPGPPGTPQVTAVTKDSMTISWHEPLSDGGSPILGYHVERKERNGILWQTVSKALVPGNIFKSSGLTDGIAYEFRVIAENMAGKSKPSKPSEPMLALDPIDPPGKPVPLNITRHTVTLKWAKPEYTGGFKITSYIVEKRDLPNGRWLKANFSNILENEFTVSGLTEDAAYEFRVIAKNAAGAISPPSEPSDAITCRDDVEAPKIKVDVKFKDTVILKAGEAFRLEADVSGRPPPTMEWSKDGKELEGTAKLEIKIADFSTNLVNKDSTRRDSGAYTLTATNPGGFAKHIFNVKVLDRPGPPEGPLAVTEVTSEKCVLSWFPPLDDGGAKIDHYIVQKRETSRLAWTNVASEVQVTKLKVTKLLKGNEYIFRVMAVNKYGVGEPLESEPVLAVNPYGPPDPPKNPEVTTITKDSMVVCWGHPDSDGGSEIINYIVERRDKAGQRWIKCNKKTLTDLRYKVSGLTEGHEYEFRIMAENAAGISAPSPTSPFYKACDTVFKPGPPGNPRVLDTSRSSISIAWNKPIYDGGSEITGYMVEIALPEEDEWQIVTPPAGLKATSYTITGLTENQEYKIRIYAMNSEGLGEPALVPGTPKAEDRMLPPEIELDADLRKVVTIRACCTLRLFVPIKGRPAPEVKWARDHGESLDKASIESTSSYTLLIVGNVNRFDSGKYILTVENSSGSKSAFVNVRVLDTPGPPQDLKVKEVTKTSVTLTWDPPLLDGGSKIKNYIVEKRESTRKAYSTVATNCHKTSWKVDQLQEGCSYYFRVLAENEYGIGLPAETAESVKASERPLPPGKITLMDVTRNSVSLSWEKPEHDGGSRILGYIVEMQTKGSDKWATCATVKVTEATITGLIQGEEYSFRVSAQNEKGISDPRQLSVPVIAKDLVIPPAFKLLFNTFTVLAGEDLKVDVPFIGRPTPAVTWHKDNVPLKQTTRVNAESTENNSLLTIKDACREDVGHYVVKLTNSAGEAIETLNVIVLDKPGPPTGPVKMDEVTADSITLSWGPPKYDGGSSINNYIVEKRDTSTTTWQIVSATVARTTIKACRLKTGCEYQFRIAAENRYGKSTYLNSEPTVAQYPFKVPGPPGTPVVTLSSRDSMEVQWNEPISDGGSRVIGYHLERKERNSILWVKLNKTPIPQTKFKTTGLEEGVEYEFRVSAENIVGIGKPSKVSECYVARDPCDPPGRPEAIIVTRNSVTLQWKKPTYDGGSKITGYIVEKKELPEGRWMKASFTNIIDTHFEVTGLVEDHRYEFRVIARNAAGVFSEPSESTGAITARDEVDPPRISMDPKYKDTIVVHAGESFKVDADIYGKPIPTIQWIKGDQELSNTARLEIKSTDFATSLSVKDAVRVDSGNYILKAKNVAGERSVTVNVKVLDRPGPPEGPVVISGVTAEKCTLAWKPPLQDGGSDIINYIVERRETSRLVWTVVDANVQTLSCKVTKLLEGNEYTFRIMAVNKYGVGEPLESEPVVAKNPFVVPDAPKAPEVTTVTKDSMIVVWERPASDGGSEILGYVLEKRDKEGIRWTRCHKRLIGELRLRVTGLIENHDYEFRVSAENAAGLSEPSPPSAYQKACDPIYKPGPPNNPKVIDITRSSVFLSWSKPIYDGGCEIQGYIVEKCDVSVGEWTMCTPPTGINKTNIEVEKLLEKHEYNFRICAINKAGVGEHADVPGPIIVEEKLEAPDIDLDLELRKIINIRAGGSLRLFVPIKGRPTPEVKWGKVDGEIRDAAIIDVTSSFTSLVLDNVNRYDSGKYTLTLENSSGTKSAFVTVRVLDTPSPPVNLKVTEITKDSVSITWEPPLLDGGSKIKNYIVEKREATRKSYAAVVTNCHKNSWKIDQLQEGCSYYFRVTAENEYGIGLPAQTADPIKVAEVPQPPGKITVDDVTRNSVSLSWTKPEHDGGSKIIQYIVEMQAKHSEKWSECARVKSLQAVITNLTQGEEYLFRVVAVNEKGRSDPRSLAVPIVAKDLVIEPDVKPAFSSYSVQVGQDLKIEVPISGRPKPTITWTKDGLPLKQTTRINVTDSLDLTTLSIKETHKDDGGQYGITVANVVGQKTASIEIVTLDKPDPPKGPVKFDDVSAESITLSWNPPLYTGGCQITNYIVQKRDTTTTVWDVVSATVARTTLKVTKLKTGTEYQFRIFAENRYGQSFALESDPIVAQYPYKEPGPPGTPFATAISKDSMVIQWHEPVNNGGSPVIGYHLERKERNSILWTKVNKTIIHDTQFKAQNLEEGIEYEFRVYAENIVGVGKASKNSECYVARDPCDPPGTPEPIMVKRNEITLQWTKPVYDGGSMITGYIVEKRDLPDGRWMKASFTNVIETQFTVSGLTEDQRYEFRVIAKNAAGAISKPSDSTGPITAKDEVELPRISMDPKFRDTIVVNAGETFRLEADVHGKPLPTIEWLRGDKEIEESARCEIKNTDFKALLIVKDAIRIDGGQYILRASNVAGSKSFPVNVKVLDRPGPPEGPVQVTGVTSEKCSLTWSPPLQDGGSDISHYVVEKRETSRLAWTVVASEVVTNSLKVTKLLEGNEYVFRIMAVNKYGVGEPLESAPVLMKNPFVLPGPPKSLEVTNIAKDSMTVCWNRPDSDGGSEIIGYIVEKRDRSGIRWIKCNKRRITDLRLRVTGLTEDHEYEFRVSAENAAGVGEPSPATVYYKACDPVFKPGPPTNAHIVDTTKNSITLAWGKPIYDGGSEILGYVVEICKADEEEWQIVTPQTGLRVTRFEISKLTEHQEYKIRVCALNKVGLGEATSVPGTVKPEDKLEAPELDLDSELRKGIVVRAGGSARIHIPFKGRPTPEITWSREEGEFTDKVQIEKGVNYTQLSIDNCDRNDAGKYILKLENSSGSKSAFVTVKVLDTPGPPQNLAVKEVRKDSAFLVWEPPIIDGGAKVKNYVIDKRESTRKAYANVSSKCSKTSFKVENLTEGAIYYFRVMAENEFGVGVPVETVDAVKAAEPPSPPGKVTLTDVSQTSASLMWEKPEHDGGSRVLGYVVEMQPKGTEKWSIVAESKVCNAVVTGLSSGQEYQFRVKAYNEKGKSDPRVLGVPVIAKDLTIQPSLKLPFNTYSIQAGEDLKIEIPVIGRPRPNISWVKDGEPLKQTTRVNVEETATSTVLHIKEGNKDDFGKYTVTATNSAGTATENLSVIVLEKPGPPVGPVRFDEVSADFVVISWEPPAYTGGCQISNYIVEKRDTTTTTWHMVSATVARTTIKITKLKTGTEYQFRIFAENRYGKSAPLDSKAVIVQYPFKEPGPPGTPFVTSISKDQMLVQWHEPVNDGGTKIIGYHLEQKEKNSILWVKLNKTPIQDTKFKTTGLDEGLEYEFKVSAENIVGIGKPSKVSECFVARDPCDPPGRPEAIVITRNNVTLKWKKPAYDGGSKITGYIVEKKDLPDGRWMKASFTNVLETEFTVSGLVEDQRYEFRVIARNAAGNFSEPSDSSGAITARDEIDAPNASLDPKYKDVIVVHAGETFVLEADIRGKPIPDVVWSKDGKELEETAARMEIKSTIQKTTLVVKDCIRTDGGQYILKLSNVGGTKSIPITVKVLDRPGPPEGPLKVTGVTAEKCYLAWNPPLQDGGANISHYIIEKRETSRLSWTQVSTEVQALNYKVTKLLPGNEYIFRVMAVNKYGIGEPLESGPVTACNPYKPPGPPSTPEVSAITKDSMVVTWARPVDDGGTEIEGYILEKRDKEGVRWTKCNKKTLTDLRLRVTGLTEGHSYEFRVAAENAAGVGEPSEPSVFYRACDALYPPGPPSNPKVTDTSRSSVSLAWSKPIYDGGAPVKGYVVEVKEAAADEWTTCTPPTGLQGKQFTVTKLKENTEYNFRICAINSEGVGEPATLPGSVVAQERIEPPEIELDADLRKVVVLRASATLRLFVTIKGRPEPEVKWEKAEGILTDRAQIEVTSSFTMLVIDNVTRFDSGRYNLTLENNSGSKTAFVNVRVLDSPSAPVNLTIREVKKDSVTLSWEPPLIDGGAKITNYIVEKRETTRKAYATITNNCTKTTFRIENLQEGCSYYFRVLASNEYGIGLPAETTEPVKVSEPPLPPGRVTLVDVTRNTATIKWEKPESDGGSKITGYVVEMQTKGSEKWSTCTQVKTLEATISGLTAGEEYVFRVAAVNEKGRSDPRQLGVPVIARDIEIKPSVELPFHTFNVKAREQLKIDVPFKGRPQATVNWRKDGQTLKETTRVNVSSSKTVTSLSIKEASKEDVGTYELCVSNSAGSITVPITIIVLDRPGPPGPIRIDEVSCDSITISWNPPEYDGGCQISNYIVEKKETTSTTWHIVSQAVARTSIKIVRLTTGSEYQFRVCAENRYGKSSYSESSAVVAEYPFSPPGPPGTPKVVHATKSTMLVTWQVPVNDGGSRVIGYHLEYKERSSILWSKANKILIADTQMKVSGLDEGLMYEYRVYAENIAGIGKCSKSCEPVPARDPCDPPGQPEVTNITRKSVSLKWSKPHYDGGAKITGYIVERRELPDGRWLKCNYTNIQETYFEVTELTEDQRYEFRVFARNAADSVSEPSESTGPIIVKDDVEPPRVMMDVKFRDVIVVKAGEVLKINADIAGRPLPVISWAKDGIEIEERARTEIISTDNHTLLTVKDCIRRDTGQYVLTLKNVAGTRSVAVNCKVLDKPGPPAGPLEINGLTAEKCSLSWGRPQEDGGADIDYYIVEKRETSHLAWTICEGELQMTSCKVTKLLKGNEYIFRVTGVNKYGVGEPLESVAIKALDPFTVPSPPTSLEITSVTKESMTLCWSRPESDGGSEISGYIIERREKNSLRWVRVNKKPVYDLRVKSTGLREGCEYEYRVYAENAAGLSLPSETSPLIRAEDPVFLPSPPSKPKIVDSGKTTITIAWVKPLFDGGAPITGYTVEYKKSDDTDWKTSIQSLRGTEYTISGLTTGAEYVFRVKSVNKVGASDPSDSSDPQIAKEREEEPLFDIDSEMRKTLIVKAGASFTMTVPFRGRPVPNVLWSKPDTDLRTRAYVDTTDSRTSLTIENANRNDSGKYTLTIQNVLSAASLTLVVKVLDTPGPPTNITVQDVTKESAVLSWDVPENDGGAPVKNYHIEKREASKKAWVSVTNNCNRLSYKVTNLQEGAIYYFRVSGENEFGVGIPAETKEGVKITEKPSPPEKLGVTSISKDSVSLTWLKPEHDGGSRIVHYVVEALEKGQKNWVKCAVAKSTHHVVSGLRENSEYFFRVFAENQAGLSDPRELLLPVLIKEQLEPPEIDMKNFPSHTVYVRAGSNLKVDIPISGKPLPKVTLSRDGVPLKATMRFNTEITAENLTINLKESVTADAGRYEITAANSSGTTKAFINIVVLDRPGPPTGPVVISDITEESVTLKWEPPKYDGGSQVTNYILLKRETSTAVWTEVSATVARTMMKVMKLTTGEEYQFRIKAENRFGISDHIDSACVTVKLPYTTPGPPSTPWVTNVTRESITVGWHEPVSNGGSAVVGYHLEMKDRNSILWQKANKLVIRTTHFKVTTISAGLIYEFRVYAENAAGVGKPSHPSEPVLAIDACEPPRNVRITDISKNSVSLSWQQPAFDGGSKITGYIVERRDLPDGRWTKASFTNVTETQFIISGLTQNSQYEFRVFARNAVGSISNPSEVVGPITCIDSYGGPVIDLPLEYTEVVKYRAGTSVKLRAGISGKPAPTIEWYKDDKELQTNALVCVENTTDLASILIKDADRLNSGCYELKLRNAMGSASATIRVQILDKPGPPGGPIEFKTVTAEKITLLWRPPADDGGAKITHYIVEKRETSRVVWSMVSEHLEECIITTTKIIKGNEYIFRVRAVNKYGIGEPLESDSVVAKNAFVTPGPPGIPEVTKITKNSMTVVWSRPIADGGSDISGYFLEKRDKKSLGWFKVLKETIRDTRQKVTGLTENSDYQYRVCAVNAAGQGPFSEPSEFYKAADPIDPPGPPAKIRIADSTKSSITLGWSKPVYDGGSAVTGYVVEIRQGEEEEWTTVSTKGEVRTTEYVVSNLKPGVNYYFRVSAVNCAGQGEPIEMNEPVQAKDILEAPEIDLDVALRTSVIAKAGEDVQVLIPFKGRPPPTVTWRKDEKNLGSDARYSIENTDSSSLLTIPQVTRNDTGKYILTIENGVGEPKSSTVSVKVLDTPAACQKLQVKHVSRGTVTLLWDPPLIDGGSPIINYVIEKRDATKRTWSVVSHKCSSTSFKLIDLSEKTPFFFRVLAENEIGIGEPCETTEPVKAAEVPAPIRDLSMKDSTKTSVILSWTKPDFDGGSVITEYVVERKGKGEQTWSHAGISKTCEIEVSQLKEQSVLEFRVFAKNEKGLSDPVTIGPITVKELIITPEVDLSDIPGAQVTVRIGHNVHLELPYKGKPKPSISWLKDGLPLKESEFVRFSKTENKITLSIKNAKKEHGGKYTVILDNAVCRIAVPITVITLGPPSKPKGPIRFDEIKADSVILSWDVPEDNGGGEITCYSIEKRETSQTNWKMVCSSVARTTFKVPNLVKDAEYQFRVRAENRYGVSQPLVSSIIVAKHQFRIPGPPGKPVIYNVTSDGMSLTWDAPVYDGGSEVTGFHVEKKERNSILWQKVNTSPISGREYRATGLVEGLDYQFRVYAENSAGLSSPSDPSKFTLAVSPVDPPGTPDYIDVTRETITLKWNPPLRDGGSKIVGYSIEKRQGNERWVRCNFTDVSECQYTVTGLSPGDRYEFRIIARNAVGTISPPSQSSGIIMTRDENVPPIVEFGPEYFDGLIIKSGESLRIKALVQGRPVPRVTWFKDGVEIEKRMNMEITDVLGSTSLFVRDATRDHRGVYTVEAKNASGSAKAEIKVKVQDTPGKVVGPIRFTNITGEKMTLWWDAPLNDGCAPITHYIIEKRETSRLAWALIEDKCEAQSYTAIKLINGNEYQFRVSAVNKFGVGRPLDSDPVVAQIQYTVPDAPGIPEPSNITGNSITLTWARPESDGGSEIQQYILERREKKSTRWVKVISKRPISETRFKVTGLTEGNEYEFHVMAENAAGVGPASGISRLIKCREPVNPPGPPTVVKVTDTSKTTVSLEWSKPVFDGGMEIIGYIIEMCKADLGDWHKVNAEACVKTRYTVTDLQAGEEYKFRVSAINGAGKGDSCEVTGTIKAVDRLTAPELDIDANFKQTHVVRAGASIRLFIAYQGRPTPTAVWSKPDSNLSLRADIHTTDSFSTLTVENCNRNDAGKYTLTVENNSGSKSITFTVKVLDTPGPPGPITFKDVTRGSATLMWDAPLLDGGARIHHYVVEKREASRRSWQVISEKCTRQIFKVNDLAEGVPYYFRVSAVNEYGVGEPYEMPEPIVATEQPAPPRRLDVVDTSKSSAVLAWLKPDHDGGSRITGYLLEMRQKGSDFWVEAGHTKQLTFTVERLVEKTEYEFRVKAKNDAGYSEPREAFSSVIIKEPQIEPTADLTGITNQLITCKAGSPFTIDVPISGRPAPKVTWKLEEMRLKETDRVSITTTKDRTTLTVKDSMRGDSGRYFLTLENTAGVKTFSVTVVVIGRPGPVTGPIEVSSVSAESCVLSWGEPKDGGGTEITNYIVEKRESGTTAWQLVNSSVKRTQIKVTHLTKYMEYSFRVSSENRFGVSKPLESAPIIAEHPFVPPSAPTRPEVYHVSANAMSIRWEEPYHDGGSKIIGYWVEKKERNTILWVKENKVPCLECNYKVTGLVEGLEYQFRTYALNAAGVSKASEASRPIMAQNPVDAPGRPEVTDVTRSTVSLIWSAPAYDGGSKVVGYIIERKPVSEVGDGRWLKCNYTIVSDNFFTVTALSEGDTYEFRVLAKNAAGVISKGSESTGPVTCRDEYAPPKAELDARLHGDLVTIRAGSDLVLDAAVGGKPEPKIIWTKGDKELDLCEKVSLQYTGKRATAVIKFCDRSDSGKYTLTVKNASGTKAVSVMVKVLDSPGPCGKLTVSRVTQEKCTLAWSLPQEDGGAEITHYIVERRETSRLNWVIVEGECPTLSYVVTRLIKNNEYIFRVRAVNKYGPGVPVESEPIVARNSFTIPSPPGIPEEVGTGKEHIIIQWTKPESDGGNEISNYLVDKREKKSLRWTRVNKDYVVYDTRLKVTSLMEGCDYQFRVTAVNAAGNSEPSEASNFISCREPSYTPGPPSAPRVVDTTKHSISLAWTKPMYDGGTDIVGYVLEMQEKDTDQWYRVHTNATIRNTEFTVPDLKMGQKYSFRVAAVNVKGMSEYSESIAEIEPVERIEIPDLELADDLKKTVTIRAGASLRLMVSVSGRPPPVITWSKQGIDLASRAIIDTTESYSLLIVDKVNRYDAGKYTIEAENQSGKKSATVLVKVYDTPGPCPSVKVKEVSRDSVTITWEIPTIDGGAPVNNYIVEKREAAMRAFKTVTTKCSKTLYRISGLVEGTMYYFRVLPENIYGIGEPCETSDAVLVSEVPLVPAKLEVVDVTKSTVTLAWEKPLYDGGSRLTGYVLEACKAGTERWMKVVTLKPTVLEHTVTSLNEGEQYLFRIRAQNEKGVSEPRETVTAVTVQDLRVLPTIDLSTMPQKTIHVPAGRPVELVIPIAGRPPPAASWFFAGSKLRESERVTVETHTKVAKLTIRETTIRDTGEYTLELKNVTGTTSETIKVIILDKPGPPTGPIKIDEIDATSITISWEPPELDGGAPLSGYVVEQRDAHRPGWLPVSESVTRSTFKFTRLTEGNEYVFRVAATNRFGIGSYLQSEVIECRSSIRIPGPPETLQIFDVSRDGMTLTWYPPEDDGGSQVTGYIVERKEVRADRWVRVNKVPVTMTRYRSTGLTEGLEYEHRVTAINARGSGKPSRPSKPIVAMDPIAPPGKPQNPRVTDTTRTSVSLAWSVPEDEGGSKVTGYLIEMQKVDQHEWTKCNTTPTKIREYTLTHLPQGAEYRFRVLACNAGGPGEPAEVPGTVKVTEMLEYPDYELDERYQEGIFVRQGGVIRLTIPIKGKPFPICKWTKEGQDISKRAMIATSETHTELVIKEADRGDSGTYDLVLENKCGKKAVYIKVRVIGSPNSPEGPLEYDDIQVRSVRVSWRPPADDGGADILGYILERREVPKAAWYTIDSRVRGTSLVVKGLKENVEYHFRVSAENQFGISKPLKSEEPVTPKTPLNPPEPPSNPPEVLDVTKSSVSLSWSRPKDDGGSRVTGYYIERKETSTDKWVRHNKTQITTTMYTVTGLVPDAEYQFRIIAQNDVGLSETSPASEPVVCKDPFDKPSQPGELEILSISKDSVTLQWEKPECDGGKEILGYWVEYRQSGDSAWKKSNKERIKDKQFTIGGLLEATEYEFRVFAENETGLSRPRRTAMSIKTKLTSGEAPGIRKEMKDVTTKLGEAAQLSCQIVGRPLPDIKWYRFGKELIQSRKYKMSSDGRTHTLTVMTEEQEDEGVYTCIATNEVGEVETSSKLLLQATPQFHPGYPLKEKYYGAVGSTLRLHVMYIGRPVPAMTWFHGQKLLQNSENITIENTEHYTHLVMKNVQRKTHAGKYKVQLSNVFGTVDAILDVEIQDKPDKPTGPIVIEALLKNSAVISWKPPADDGGSWITNYVVEKCEAKEGAEWQLVSSAISVTTCRIVNLTENAGYYFRVSAQNTFGISDPLEVSSVVIIKSPFEKPGAPGKPTITAVTKDSCVVAWKPPASDGGAKIRNYYLEKREKKQNKWISVTTEEIRETVFSVKNLIEGLEYEFRVKCENLGGESEWSEISEPITPKSDVPIQAPHFKEELRNLNVRYQSNATLVCKVTGHPKPIVKWYRQGKEIIADGLKYRIQEFKGGYHQLIIASVTDDDATVYQVRATNQGGSVSGTASLEVEVPAKIHLPKTLEGMGAVHALRGEVVSIKIPFSGKPDPVITWQKGQDLIDNNGHYQVIVTRSFTSLVFPNGVERKDAGFYVVCAKNRFGIDQKTVELDVADVPDPPRGVKVSDVSRDSVNLTWTEPASDGGSKITNYIVEKCATTAERWLRVGQARETRYTVINLFGKTSYQFRVIAENKFGLSKPSEPSEPTITKEDKTRAMNYDEEVDETREVSMTKASHSSTKELYEKYMIAEDLGRGEFGIVHRCVETSSKKTYMAKFVKVKGTDQVLVKKEISILNIARHRNILHLHESFESMEELVMIFEFISGLDIFERINTSAFELNEREIVSYVHQVCEALQFLHSHNIGHFDIRPENIIYQTRRSSTIKIIEFGQARQLKPGDNFRLLFTAPEYYAPEVHQHDVVSTATDMWSLGTLVYVLLSGINPFLAETNQQIIENIMNAEYTFDEEAFKEISIEAMDFVDRLLVKERKSRMTASEALQHPWLKQKIERVSTKVIRTLKHRRYYHTLIKKDLNMVVSAARISCGGAIRSQKGVSVAKVKVASIEIGPVSGQIMHAVGEEGGHVKYVCKIENYDQSTQVTWYFGVRQLENSEKYEITYEDGVAILYVKDITKLDDGTYRCKVVNDYGEDSSYAELFVKGVREVYDYYCRRTMKKIKRRTDTMRLLERPPEFTLPLYNKTAYVGENVRFGVTITVHPEPHVTWYKSGQKIKPGDNDKKYTFESDKGLYQLTINSVTTDDDAEYTVVARNKYGEDSCKAKLTVTLHPPPTDSTLRPMFKRLLANAECQEGQSVCFEIRVSGIPPPTLKWEKDGQPLSLGPNIEIIHEGLDYYALHIRDTLPEDTGYYRVTATNTAGSTSCQAHLQVERLRYKKQEFKSKEEHERHVQKQIDKTLRMAEILSGTESVPLTQVAKEALREAAVLYKPAVSTKTVKGEFRLEIEEKKEERKLRMPYDVPEPRKYKQTTIEEDQRIKQFVPMSDMKWYKKIRDQYEMPGKLDRVVQKRPKRIRLSRWEQFYVMPLPRITDQYRPKWRIPKLSQDDLEIVRPARRRTPSPDYDFYYRPRRRSLGDISDEELLLPIDDYLAMKRTEEERLRLEEELELGFSASPPSRSPPHFELSSLRYSSPQAHVKVEETRKDFRYSTYHIPTKAEASTSYAELRERHAQAAYRQPKQRQRIMAEREDEELLRPVTTTQHLSEYKSELDFMSKEEKSRKKSRRQREVTEITEIEEEYEISKHAQRESSSSASRLLRRRRSLSPTYIELMRPVSELIRSRPQPAEEYEDDTERRSPTPERTRPRSPSPVSSERSLSRFERSARFDIFSRYESMKAALKTQKTSERKYEVLSQQPFTLDHAPRITLRMRSHRVPCGQNTRFILNVQSKPTAEVKWYHNGVELQESSKIHYTNTSGVLTLEILDCHTDDSGTYRAVCTNYKGEASDYATLDVTGGDYTTYASQRRDEEVPRSVFPELTRTEAYAVSSFKKTSEMEASSSVREVKSQMTETRESLSSYEHSASAEMKSAALEEKSLEEKSTTRKIKTTLAARILTKPRSMTVYEGESARFSCDTDGEPVPTVTWLRKGQVLSTSARHQVTTTKYKSTFEISSVQASDEGNYSVVVENSEGKQEAEFTLTIQKARVTEKAVTSPPRVKSPEPRVKSPEAVKSPKRVKSPEPSHPKAVSPTETKPTPTEKVQHLPVSAPPKITQFLKAEASKEIAKLTCVVESSVLRAKEVTWYKDGKKLKENGHFQFHYSADGTYELKINNLTESDQGEYVCEISGEGGTSKTNLQFMGQAFKSIHEKVSKISETKKSDQKTTESTVTRKTEPKAPEPISSKPVIVTGLQDTTVSSDSVAKFAVKATGEPRPTAIWTKDGKAITQGGKYKLSEDKGGFFLEIHKTDTSDSGLYTCTVKNSAGSVSSSCKLTIKAIKDTEAQKVSTQKTSEITPQKKAVVQEEISQKALRSEEIKMSEAKSQEKLALKEEASKVLISEEVKKSAATSLEKSIVHEEITKTSQASEEVRTHAEIKAFSTQMSINEGQRLVLKANIAGATDVKWVLNGVELTNSEEYRYGVSGSDQTLTIKQASHRDEGILTCISKTKEGIVKCQYDLTLSKELSDAPAFISQPRSQNINEGQNVLFTCEISGEPSPEIEWFKNNLPISISSNVSISRSRNVYSLEIRNASVSDSGKYTIKAKNFRGQCSATASLMVLPLVEEPSREVVLRTSGDTSLQGSFSSQSVQMSASKQEASFSSFSSSSASSMTEMKFASMSAQSMSSMQESFVEMSSSSFMGISNMTQLESSTSKMLKAGIRGIPPKIEALPSDISIDEGKVLTVACAFTGEPTPEVTWSCGGRKIHSQEQGRFHIENTDDLTTLIIMDVQKQDGGLYTLSLGNEFGSDSATVNIHIRSI,MLCK,titin,TTN,CAMK,0,154,TTN,EDLGRGEFGIVHRYMAKFVLVKKEISILNIARRNILHLHESVMIFEFISGLDIFERINTFLHSHNIGHFDIRPENIIYIIEFGQA,Human,,Protein kinase domain,32178.0,32432.0,34350.0,PF00069,False
+Q9UKI8,TLK1,TLK1,TLK1,Serine/threonine-protein kinase tousled-like 1,Other,TLK,nan,TLK1,MSVQSSSGSLEGPPSWSQLSTSPTPGSAAAARSLLNHTPPSGRPREGAMDELHSLDPRRQELLEARFTGVASGSTGSTGSCSVGAKASTNNESSNHSFGSLGSLSDKESETPEKKQSESSRGRKRKAENQNESSQGKSIGGRGHKISDYFEYQGGNGSSPVRGIPPAIRSPQNSHSHSTPSSSVRPNSPSPTALAFGDHPIVQPKQLSFKIIQTDLTMLKLAALESNKIQDLEKKEGRIDDLLRANCDLRRQIDEQQKLLEKYKERLNKCISMSKKLLIEKSTQEKLSSREKSMQDRLRLGHFTTVRHGASFTEQWTDGFAFQNLVKQQEWVNQQREDIERQRKLLAKRKPPTANNSQAPSTNSEPKQRKNKAVNGAENDPFVRPNLPQLLTLAEYHEQEEIFKLRLGHLKKEEAEIQAELERLERVRNLHIRELKRINNEDNSQFKDHPTLNERYLLLHLLGRGGFSEVYKAFDLYEQRYAAVKIHQLNKSWRDEKKENYHKHACREYRIHKELDHPRIVKLYDYFSLDTDTFCTVLEYCEGNDLDFYLKQHKLMSEKEARSIVMQIVNALRYLNEIKPPIIHYDLKPGNILLVDGTACGEIKITDFGLSKIMDDDSYGVDGMDLTSQGAGTYWYLPPECFVVGKEPPKISNKVDVWSVGVIFFQCLYGRKPFGHNQSQQDILQENTILKATEVQFPVKPVVSSEAKAFIRRCLAYRKEDRFDVHQLANDPYLLPHMRRSNSSGNLHMAGLTASPTPPSSSIITY,TLK,tousled like kinase 1,TLK1,Other,2242,323,TLK1,HLLGRGGFSEVYKAAVKIHHACREYRIHKELDPRIVKLYDYCTVLEYCEGNDLDFYLKQNEIKPPIIHYDLKPGNILLITDFGLS,Human,,Protein kinase domain,458.0,734.0,766.0,PF00069,True
+Q86UE8,TLK2,TLK2,TLK2,Serine/threonine-protein kinase tousled-like 2,Other,TLK,nan,TLK2,MMEELHSLDPRRQELLEARFTGVGVSKGPLNSESSNQSLCSVGSLSDKEVETPEKKQNDQRNRKRKAEPYETSQGKGTPRGHKISDYFEFAGGSAPGTSPGRSVPPVARSSPQHSLSNPLPRRVEQPLYGLDGSAAKEATEEQSALPTLMSVMLAKPRLDTEQLAQRGAGLCFTFVSAQQNSPSSTGSGNTEHSCSSQKQISIQHRQTQSDLTIEKISALENSKNSDLEKKEGRIDDLLRANCDLRRQIDEQQKMLEKYKERLNRCVTMSKKLLIEKSKQEKMACRDKSMQDRLRLGHFTTVRHGASFTEQWTDGYAFQNLIKQQERINSQREEIERQRKMLAKRKPPAMGQAPPATNEQKQRKSKTNGAENETPSSGNTELKDTAPALGAHSLLRLTLAEYHEQEEIFKLRLGHLKKEEAEIQAELERLERVRNLHIRELKRIHNEDNSQFKDHPTLNDRYLLLHLLGRGGFSEVYKAFDLTEQRYVAVKIHQLNKNWRDEKKENYHKHACREYRIHKELDHPRIVKLYDYFSLDTDSFCTVLEYCEGNDLDFYLKQHKLMSEKEARSIIMQIVNALKYLNEIKPPIIHYDLKPGNILLVNGTACGEIKITDFGLSKIMDDDSYNSVDGMELTSQGAGTYWYLPPECFVVGKEPPKISNKVDVWSVGVIFYQCLYGRKPFGHNQSQQDILQENTILKATEVQFPPKPVVTPEAKAFIRRCLAYRKEDRIDVQQLACDPYLLPHIRKSVSTSSPAGAAIASTSGASNNSSSN,TLK,tousled like kinase 2,TLK2,Other,2243,324,TLK2,HLLGRGGFSEVYKVAVKIHHACREYRIHKELDPRIVKLYDYCTVLEYCEGNDLDFYLKQNEIKPPIIHYDLKPGNILLITDFGLS,Human,,Protein kinase domain,464.0,741.0,772.0,PF00069,True
+Q13470,TNK1,TNK1,TNK1,Non-receptor tyrosine-protein kinase TNK1,TK,Ack,nan,TNK1,MLPEAGSLWLLKLLRDIQLAQFYWPILEELNVTRPEHFDFVKPEDLDGIGMGRPAQRRLSEALKRLRSGPKSKNWVYKILGGFAPEHKEPTLPSDSPRHLPEPEGGLKCLIPEGAVCRGELLGSGCFGVVHRGLWTLPSGKSVPVAVKSLRVGPEGPMGTELGDFLREVSVMMNLEHPHVLRLHGLVLGQPLQMVMELAPLGSLHARLTAPAPTPPLLVALLCLFLRQLAGAMAYLGARGLVHRDLATRNLLLASPRTIKVADFGLVRPLGGARGRYVMGGPRPIPYAWCAPESLRHGAFSSASDVWMFGVTLWEMFSGGEEPWAGVPPYLILQRLEDRARLPRPPLCSRALYSLALRCWAPHPADRPSFSHLEGLLQEAGPSEACCVRDVTEPGALRMETGDPITVIEGSSSFHSPDSTIWKGQNGRTFKVGSFPASAVTLADAGGLPATRPVHRGTPARGDQHPGSIDGDRKKANLWDAPPARGQRRNMPLERMKGISRSLESVLSLGPRPTGGGSSPPEIRQARAVPQGPPGLPPRPPLSSSSPQPSQPSRERLPWPKRKPPHNHPMGMPGARKAAALSGGLLSDPELQRKIMEVELSVHGVTHQECQTALGATGGDVVSAIRNLKVDQLFHLSSRSRADCWRILEHYQWDLSAASRYVLARP,Ack,"tyrosine kinase, non-receptor, 1",TNK1,TK,2245,395,TNK1,ELLGSGCFGVVHRVAVKSLDFLREVSVMMNLEPHVLRLHGLQMVMELAPLGSLHARLTAYLGARGLVHRDLATRNLLLVADFGLV,Human,,Protein tyrosine and serine/threonine kinase,119.0,374.0,666.0,PF07714,True
+O75962,TRIO,Trio,Trio,Triple functional domain protein,CAMK,Trio,nan,TRIO,MSGSSGGAAAPAASSGPAAAASAAGSGCGGGAGEGAEEAAKDLADIAAFFRSGFRKNDEMKAMDVLPILKEKVAYLSGGRDKRGGPILTFPARSNHDRIRQEDLRRLISYLACIPSEEVCKRGFTVIVDMRGSKWDSIKPLLKILQESFPCCIHVALIIKPDNFWQKQRTNFGSSKFEFETNMVSLEGLTKVVDPSQLTPEFDGCLEYNHEEWIEIRVAFEDYISNATHMLSRLEELQDILAKKELPQDLEGARNMIEEHSQLKKKVIKAPIEDLDLEGQKLLQRIQSSESFPKKNSGSGNADLQNLLPKVSTMLDRLHSTRQHLHQMWHVRKLKLDQCFQLRLFEQDAEKMFDWITHNKGLFLNSYTEIGTSHPHAMELQTQHNHFAMNCMNVYVNINRIMSVANRLVESGHYASQQIRQIASQLEQEWKAFAAALDERSTLLDMSSIFHQKAEKYMSNVDSWCKACGEVDLPSELQDLEDAIHHHQGIYEHITLAYSEVSQDGKSLLDKLQRPLTPGSSDSLTASANYSKAVHHVLDVIHEVLHHQRQLENIWQHRKVRLHQRLQLCVFQQDVQQVLDWIENHGEAFLSKHTGVGKSLHRARALQKRHEDFEEVAQNTYTNADKLLEAAEQLAQTGECDPEEIYQAAHQLEDRIQDFVRRVEQRKILLDMSVSFHTHVKELWTWLEELQKELLDDVYAESVEAVQDLIKRFGQQQQTTLQVTVNVIKEGEDLIQQLRDSAISSNKTPHNSSINHIETVLQQLDEAQSQMEELFQERKIKLELFLQLRIFERDAIDIISDLESWNDELSQQMNDFDTEDLTIAEQRLQHHADKALTMNNLTFDVIHQGQDLLQYVNEVQASGVELLCDRDVDMATRVQDLLEFLHEKQQELDLAAEQHRKHLEQCVQLRHLQAEVKQVLGWIRNGESMLNAGLITASSLQEAEQLQREHEQFQHAIEKTHQSALQVQQKAEAMLQANHYDMDMIRDCAEKVASHWQQLMLKMEDRLKLVNASVAFYKTSEQVCSVLESLEQEYKREEDWCGGADKLGPNSETDHVTPMISKHLEQKEAFLKACTLARRNADVFLKYLHRNSVNMPGMVTHIKAPEQQVKNILNELFQRENRVLHYWTMRKRRLDQCQQYVVFERSAKQALEWIHDNGEFYLSTHTSTGSSIQHTQELLKEHEEFQITAKQTKERVKLLIQLADGFCEKGHAHAAEIKKCVTAVDKRYRDFSLRMEKYRTSLEKALGISSDSNKSSKSLQLDIIPASIPGSEVKLRDAAHELNEEKRKSARRKEFIMAELIQTEKAYVRDLRECMDTYLWEMTSGVEEIPPGIVNKELIIFGNMQEIYEFHNNIFLKELEKYEQLPEDVGHCFVTWADKFQMYVTYCKNKPDSTQLILEHAGSYFDEIQQRHGLANSISSYLIKPVQRITKYQLLLKELLTCCEEGKGEIKDGLEVMLSVPKRANDAMHLSMLEGFDENIESQGELILQESFQVWDPKTLIRKGRERHLFLFEMSLVFSKEVKDSSGRSKYLYKSKLFTSELGVTEHVEGDPCKFALWVGRTPTSDNKIVLKASSIENKQDWIKHIREVIQERTIHLKGALKEPIHIPKTAPATRQKGRRDGEDLDSQGDGSSQPDTISIASRTSQNTLDSDKLSGGCELTVVIHDFTACNSNELTIRRGQTVEVLERPHDKPDWCLVRTTDRSPAAEGLVPCGSLCIAHSRSSMEMEGIFNHKDSLSVSSNDASPPASVASLQPHMIGAQSSPGPKRPGNTLRKWLTSPVRRLSSGKADGHVKKLAHKHKKSREVRKSADAGSQKDSDDSAATPQDETVEERGRNEGLSSGTLSKSSSSGMQSCGEEEGEEGADAVPLPPPMAIQQHSLLQPDSQDDKASSRLLVRPTSSETPSAAELVSAIEELVKSKMALEDRPSSLLVDQGDSSSPSFNPSDNSLLSSSSPIDEMEERKSSSLKRRHYVLQELVETERDYVRDLGYVVEGYMALMKEDGVPDDMKGKDKIVFGNIHQIYDWHRDFFLGELEKCLEDPEKLGSLFVKHERRLHMYIAYCQNKPKSEHIVSEYIDTFFEDLKQRLGHRLQLTDLLIKPVQRIMKYQLLLKDFLKYSKKASLDTSELERAVEVMCIVPRRCNDMMNVGRLQGFDGKIVAQGKLLLQDTFLVTDQDAGLLPRCRERRIFLFEQIVIFSEPLDKKKGFSMPGFLFKNSIKVSCLCLEENVENDPCKFALTSRTGDVVETFILHSSSPSVRQTWIHEINQILENQRNFLNALTSPIEYQRNHSGGGGGGGSGGSGGGGGSGGGGAPSGGSGHSGGPSSCGGAPSTSRSRPSRIPQPVRHHPPVLVSSAASSQAEADKMSGTSTPGPSLPPPGAAPEAGPSAPSRRPPGADAEGSEREAEPIPKMKVLESPRKGAANASGSSPDAPAKDARASLGTLPLGKPRAGAASPLNSPLSSAVPSLGKEPFPPSSPLQKGGSFWSSIPASPASRPGSFTFPGDSDSLQRQTPRHAAPGKDTDRMSTCSSASEQSVQSTQSNGSESSSSSNISTMLVTHDYTAVKEDEINVYQGEVVQILASNQQNMFLVFRAATDQCPAAEGWIPGFVLGHTSAVIVENPDGTLKKSTSWHTALRLRKKSEKKDKDGKREGKLENGYRKSREGLSNKVSVKLLNPNYIYDVPPEFVIPLSEVTCETGETVVLRCRVCGRPKASITWKGPEHNTLNNDGHYSISYSDLGEATLKIVGVTTEDDGIYTCIAVNDMGSASSSASLRVLGPGMDGIMVTWKDNFDSFYSEVAELGRGRFSVVKKCDQKGTKRAVATKFVNKKLMKRDQVTHELGILQSLQHPLLVGLLDTFETPTSYILVLEMADQGRLLDCVVRWGSLTEGKIRAHLGEVLEAVRYLHNCRIAHLDLKPENILVDESLAKPTIKLADFGDAVQLNTTYYIHQLLGNPEFAAPEIILGNPVSLTSDTWSVGVLTYVLLSGVSPFLDDSVEETCLNICRLDFSFPDDYFKGVSQKAKEFVCFLLQEDPAKRPSAALALQEQWLQAGNGRSTGVLDTSRLTSFIERRKHQNDVRPIRSIKNFLQSRLLPRV,Trio,trio Rho guanine nucleotide exchange factor,TRIO,CAMK,0,177,Trio,AELGRGRFSVVKKVATKFVQVTHELGILQSLQPLLVGLLDTILVLEMADQGRLLDCVVRYLHNCRIAHLDLKPENILVLADFGDA,Human,,Protein kinase domain,2796.0,3050.0,3097.0,PF00069,False
+P04629,NTRK1,TRKA,TRKA,High affinity nerve growth factor receptor,TK,Trk,nan,NTRK1,MLRGGRRGQLGWHSWAAGPGSLLAWLILASAGAAPCPDACCPHGSSGLRCTRDGALDSLHHLPGAENLTELYIENQQHLQHLELRDLRGLGELRNLTIVKSGLRFVAPDAFHFTPRLSRLNLSFNALESLSWKTVQGLSLQELVLSGNPLHCSCALRWLQRWEEEGLGGVPEQKLQCHGQGPLAHMPNASCGVPTLKVQVPNASVDVGDDVLLRCQVEGRGLEQAGWILTELEQSATVMKSGGLPSLGLTLANVTSDLNRKNVTCWAENDVGRAEVSVQVNVSFPASVQLHTAVEMHHWCIPFSVDGQPAPSLRWLFNGSVLNETSFIFTEFLEPAANETVRHGCLRLNQPTHVNNGNYTLLAANPFGQASASIMAAFMDNPFEFNPEDPIPVSFSPVDTNSTSGDPVEKKDETPFGVSVAVGLAVFACLFLSTLLLVLNKCGRRNKFGINRPAVLAPEDGLAMSLHFMTLGGSSLSPTEGKGSGLQGHIIENPQYFSDACVHHIKRRDIVLKWELGEGAFGKVFLAECHNLLPEQDKMLVAVKALKEASESARQDFQREAELLTMLQHQHIVRFFGVCTEGRPLLMVFEYMRHGDLNRFLRSHGPDAKLLAGGEDVAPGPLGLGQLLAVASQVAAGMVYLAGLHFVHRDLATRNCLVGQGLVVKIGDFGMSRDIYSTDYYRVGGRTMLPIRWMPPESILYRKFTTESDVWSFGVVLWEIFTYGKQPWYQLSNTEAIDCITQGRELERPRACPPEVYAIMRGCWQREPQQRHSIKDVHARLQALAQAPPVYLDVLG,Trk,"neurotrophic tyrosine kinase, receptor, type 1",NTRK1,TK,1817,480,TRKA,WELGEGAFGKVFLVAVKALDFQREAELLTMLQQHIVRFFGVLMVFEYMRHGDLNRFLRSYLAGLHFVHRDLATRNCLVIGDFGMS,Human,,Protein tyrosine and serine/threonine kinase,512.0,781.0,796.0,PF07714,True
+Q16620,NTRK2,TRKB,TRKB,BDNF/NT-3 growth factors receptor,TK,Trk,nan,NTRK2,MSSWIRWHGPAMARLWGFCWLVVGFWRAAFACPTSCKCSASRIWCSDPSPGIVAFPRLEPNSVDPENITEIFIANQKRLEIINEDDVEAYVGLRNLTIVDSGLKFVAHKAFLKNSNLQHINFTRNKLTSLSRKHFRHLDLSELILVGNPFTCSCDIMWIKTLQEAKSSPDTQDLYCLNESSKNIPLANLQIPNCGLPSANLAAPNLTVEEGKSITLSCSVAGDPVPNMYWDVGNLVSKHMNETSHTQGSLRITNISSDDSGKQISCVAENLVGEDQDSVNLTVHFAPTITFLESPTSDHHWCIPFTVKGNPKPALQWFYNGAILNESKYICTKIHVTNHTEYHGCLQLDNPTHMNNGDYTLIAKNEYGKDEKQISAHFMGWPGIDDGANPNYPDVIYEDYGTAANDIGDTTNRSNEIPSTDVTDKTGREHLSVYAVVVIASVVGFCLLVMLFLLKLARHSKFGMKGPASVISNDDDSASPLHHISNGSNTPSSSEGGPDAVIIGMTKIPVIENPQYFGITNSQLKPDTFVQHIKRHNIVLKRELGEGAFGKVFLAECYNLCPEQDKILVAVKTLKDASDNARKDFHREAELLTNLQHEHIVKFYGVCVEGDPLIMVFEYMKHGDLNKFLRAHGPDAVLMAEGNPPTELTQSQMLHIAQQIAAGMVYLASQHFVHRDLATRNCLVGENLLVKIGDFGMSRDVYSTDYYRVGGHTMLPIRWMPPESIMYRKFTTESDVWSLGVVLWEIFTYGKQPWYQLSNNEVIECITQGRVLQRPRTCPQEVYELMLGCWQREPHMRKNIKGIHTLLQNLAKASPVYLDILG,Trk,"neurotrophic tyrosine kinase, receptor, type 2",NTRK2,TK,1818,481,TRKB,RELGEGAFGKVFLVAVKTLDFHREAELLTNLQEHIVKFYGVIMVFEYMKHGDLNKFLRAYLASQHFVHRDLATRNCLVIGDFGMS,Human,,Protein tyrosine and serine/threonine kinase,539.0,806.0,822.0,PF07714,True
+Q16288,NTRK3,TRKC,TRKC,NT-3 growth factor receptor,TK,Trk,nan,NTRK3,MDVSLCPAKCSFWRIFLLGSVWLDYVGSVLACPANCVCSKTEINCRRPDDGNLFPLLEGQDSGNSNGNASINITDISRNITSIHIENWRSLHTLNAVDMELYTGLQKLTIKNSGLRSIQPRAFAKNPHLRYINLSSNRLTTLSWQLFQTLSLRELQLEQNFFNCSCDIRWMQLWQEQGEAKLNSQNLYCINADGSQLPLFRMNISQCDLPEISVSHVNLTVREGDNAVITCNGSGSPLPDVDWIVTGLQSINTHQTNLNWTNVHAINLTLVNVTSEDNGFTLTCIAENVVGMSNASVALTVYYPPRVVSLEEPELRLEHCIEFVVRGNPPPTLHWLHNGQPLRESKIIHVEYYQEGEISEGCLLFNKPTHYNNGNYTLIAKNPLGTANQTINGHFLKEPFPESTDNFILFDEVSPTPPITVTHKPEEDTFGVSIAVGLAAFACVLLVVLFVMINKYGRRSKFGMKGPVAVISGEEDSASPLHHINHGITTPSSLDAGPDTVVIGMTRIPVIENPQYFRQGHNCHKPDTYVQHIKRRDIVLKRELGEGAFGKVFLAECYNLSPTKDKMLVAVKALKDPTLAARKDFQREAELLTNLQHEHIVKFYGVCGDGDPLIMVFEYMKHGDLNKFLRAHGPDAMILVDGQPRQAKGELGLSQMLHIASQIASGMVYLASQHFVHRDLATRNCLVGANLLVKIGDFGMSRDVYSTDYYRLFNPSGNDFCIWCEVGGHTMLPIRWMPPESIMYRKFTTESDVWSFGVILWEIFTYGKQPWFQLSNTEVIECITQGRVLERPRVCPKEVYDVMLGCWQREPQQRLNIKEIYKILHALGKATPIYLDILG,Trk,"neurotrophic tyrosine kinase, receptor, type 3",NTRK3,TK,1819,482,TRKC,RELGEGAFGKVFLVAVKALDFQREAELLTNLQEHIVKFYGVIMVFEYMKHGDLNKFLRAYLASQHFVHRDLATRNCLVIGDFGMS,Human,,Protein tyrosine and serine/threonine kinase,539.0,823.0,839.0,PF07714,True
+Q9Y4A5,TRRAP,TRRAP,TRRAP,Transformation/transcription domain-associated protein,Atypical,PIKK,TRRAP,TRRAP,MAFVATQGATVVDQTTLMKKYLQFVAALTDVNTPDETKLKMMQEVSENFENVTSSPQYSTFLEHIIPRFLTFLQDGEVQFLQEKPAQQLRKLVLEIIHRIPTNEHLRPHTKNVLSVMFRFLETENEENVLICLRIIIELHKQFRPPITQEIHHFLDFVKQIYKELPKVVNRYFENPQVIPENTVPPPEMVGMITTIAVKVNPEREDSETRTHSIIPRGSLSLKVLAELPIIVVLMYQLYKLNIHNVVAEFVPLIMNTIAIQVSAQARQHKLYNKELYADFIAAQIKTLSFLAYIIRIYQELVTKYSQQMVKGMLQLLSNCPAETAHLRKELLIAAKHILTTELRNQFIPCMDKLFDESILIGSGYTARETLRPLAYSTLADLVHHVRQHLPLSDLSLAVQLFAKNIDDESLPSSIQTMSCKLLLNLVDCIRSKSEQESGNGRDVLMRMLEVFVLKFHTIARYQLSAIFKKCKPQSELGAVEAALPGVPTAPAAPGPAPSPAPVPAPPPPPPPPPPATPVTPAPVPPFEKQGEKDKEDKQTFQVTDCRSLVKTLVCGVKTITWGITSCKAPGEAQFIPNKQLQPKETQIYIKLVKYAMQALDIYQVQIAGNGQTYIRVANCQTVRMKEEKEVLEHFAGVFTMMNPLTFKEIFQTTVPYMVERISKNYALQIVANSFLANPTTSALFATILVEYLLDRLPEMGSNVELSNLYLKLFKLVFGSVSLFAAENEQMLKPHLHKIVNSSMELAQTAKEPYNYFLLLRALFRSIGGGSHDLLYQEFLPLLPNLLQGLNMLQSGLHKQHMKDLFVELCLTVPVRLSSLLPYLPMLMDPLVSALNGSQTLVSQGLRTLELCVDNLQPDFLYDHIQPVRAELMQALWRTLRNPADSISHVAYRVLGKFGGSNRKMLKESQKLHYVVTEVQGPSITVEFSDCKASLQLPMEKAIETALDCLKSANTEPYYRRQAWEVIKCFLVAMMSLEDNKHALYQLLAHPNFTEKTIPNVIISHRYKAQDTPARKTFEQALTGAFMSAVIKDLRPSALPFVASLIRHYTMVAVAQQCGPFLLPCYQVGSQPSTAMFHSEENGSKGMDPLVLIDAIAICMAYEEKELCKIGEVALAVIFDVASIILGSKERACQLPLFSYIVERLCACCYEQAWYAKLGGVVSIKFLMERLPLTWVLQNQQTFLKALLFVMMDLTGEVSNGAVAMAKTTLEQLLMRCATPLKDEERAEEIVAAQEKSFHHVTHDLVREVTSPNSTVRKQAMHSLQVLAQVTGKSVTVIMEPHKEVLQDMVPPKKHLLRHQPANAQIGLMEGNTFCTTLQPRLFTMDLNVVEHKVFYTELLNLCEAEDSALTKLPCYKSLPSLVPLRIAALNALAACNYLPQSREKIIAALFKALNSTNSELQEAGEACMRKFLEGATIEVDQIHTHMRPLLMMLGDYRSLTLNVVNRLTSVTRLFPNSFNDKFCDQMMQHLRKWMEVVVITHKGGQRSDGNESISECGRCPLSPFCQFEEMKICSAIINLFHLIPAAPQTLVKPLLEVVMKTERAMLIEAGSPFREPLIKFLTRHPSQTVELFMMEATLNDPQWSRMFMSFLKHKDARPLRDVLAANPNRFITLLLPGGAQTAVRPGSPSTSTMRLDLQFQAIKIISIIVKNDDSWLASQHSLVSQLRRVWVSENFQERHRKENMAATNWKEPKLLAYCLLNYCKRNYGDIELLFQLLRAFTGRFLCNMTFLKEYMEEEIPKNYSIAQKRALFFRFVDFNDPNFGDELKAKVLQHILNPAFLYSFEKGEGEQLLGPPNPEGDNPESITSVFITKVLDPEKQADMLDSLRIYLLQYATLLVEHAPHHIHDNNKNRNSKLRRLMTFAWPCLLSKACVDPACKYSGHLLLAHIIAKFAIHKKIVLQVFHSLLKAHAMEARAIVRQAMAILTPAVPARMEDGHQMLTHWTRKIIVEEGHTVPQLVHILHLIVQHFKVYYPVRHHLVQHMVSAMQRLGFTPSVTIEQRRLAVDLSEVVIKWELQRIKDQQPDSDMDPNSSGEGVNSVSSSIKRGLSVDSAQEVKRFRTATGAISAVFGRSQSLPGADSLLAKPIDKQHTDTVVNFLIRVACQVNDNTNTAGSPGEVLSRRCVNLLKTALRPDMWPKSELKLQWFDKLLMTVEQPNQVNYGNICTGLEVLSFLLTVLQSPAILSSFKPLQRGIAACMTCGNTKVLRAVHSLLSRLMSIFPTEPSTSSVASKYEELECLYAAVGKVIYEGLTNYEKATNANPSQLFGTLMILKSACSNNPSYIDRLISVFMRSLQKMVREHLNPQAASGSTEATSGTSELVMLSLELVKTRLAVMSMEMRKNFIQAILTSLIEKSPDAKILRAVVKIVEEWVKNNSPMAANQTPTLREKSILLVKMMTYIEKRFPEDLELNAQFLDLVNYVYRDETLSGSELTAKLEPAFLSGLRCAQPLIRAKFFEVFDNSMKRRVYERLLYVTCSQNWEAMGNHFWIKQCIELLLAVCEKSTPIGTSCQGAMLPSITNVINLADSHDRAAFAMVTHVKQEPRERENSESKEEDVEIDIELAPGDQTSTPKTKELSEKDIGNQLHMLTNRHDKFLDTLREVKTGALLSAFVQLCHISTTLAEKTWVQLFPRLWKILSDRQQHALAGEISPFLCSGSHQVQRDCQPSALNCFVEAMSQCVPPIPIRPCVLKYLGKTHNLWFRSTLMLEHQAFEKGLSLQIKPKQTTEFYEQESITPPQQEILDSLAELYSLLQEEDMWAGLWQKRCKYSETATAIAYEQHGFFEQAQESYEKAMDKAKKEHERSNASPAIFPEYQLWEDHWIRCSKELNQWEALTEYGQSKGHINPYLVLECAWRVSNWTAMKEALVQVEVSCPKEMAWKVNMYRGYLAICHPEEQQLSFIERLVEMASSLAIREWRRLPHVVSHVHTPLLQAAQQIIELQEAAQINAGLQPTNLGRNNSLHDMKTVVKTWRNRLPIVSDDLSHWSSIFMWRQHHYQGKPTWSGMHSSSIVTAYENSSQHDPSSNNAMLGVHASASAIIQYGKIARKQGLVNVALDILSRIHTIPTVPIVDCFQKIRQQVKCYLQLAGVMGKNECMQGLEVIESTNLKYFTKEMTAEFYALKGMFLAQINKSEEANKAFSAAVQMHDVLVKAWAMWGDYLENIFVKERQLHLGVSAITCYLHACRHQNESKSRKYLAKVLWLLSFDDDKNTLADAVDKYCIGVPPIQWLAWIPQLLTCLVGSEGKLLLNLISQVGRVYPQAVYFPIRTLYLTLKIEQRERYKSDPGPIRATAPMWRCSRIMHMQRELHPTLLSSLEGIVDQMVWFRENWHEEVLRQLQQGLAKCYSVAFEKSGAVSDAKITPHTLNFVKKLVSTFGVGLENVSNVSTMFSSAASESLARRAQATAQDPVFQKLKGQFTTDFDFSVPGSMKLHNLISKLKKWIKILEAKTKQLPKFFLIEEKCRFLSNFSAQTAEVEIPGEFLMPKPTHYYIKIARFMPRVEIVQKHNTAARRLYIRGHNGKIYPYLVMNDACLTESRREERVLQLLRLLNPCLEKRKETTKRHLFFTVPRVVAVSPQMRLVEDNPSSLSLVEIYKQRCAKKGIEHDNPISRYYDRLATVQARGTQASHQVLRDILKEVQSNMVPRSMLKEWALHTFPNATDYWTFRKMFTIQLALIGFAEFVLHLNRLNPEMLQIAQDTGKLNVAYFRFDINDATGDLDANRPVPFRLTPNISEFLTTIGVSGPLTASMIAVARCFAQPNFKVDGILKTVLRDEIIAWHKKTQEDTSSPLSAAGQPENMDSQQLVSLVQKAVTAIMTRLHNLAQFEGGESKVNTLVAAANSLDNLCRMDPAWHPWL,PIKK,Transformation/transcription domain-associated protein,TRRAP,Atypical,2256,99,TRRAP,VQKHNTAARRLYIYLVMNDESRREERVLQLLRFFTVPRVVAMRLVEDNPVEIYKQRCAKAEFV--LHLNRLNPEMLQITIGVSGP,Human,TRRAP,,,,,,
+P33981,TTK,TTK,TTK,Dual specificity protein kinase TTK,Other,TTK,nan,TTK,MESEDLSGRELTIDSIMNKVRDIKNKFKNEDLTDELSLNKISADTTDNSGTVNQIMMMANNPEDWLSLLLKLEKNSVPLSDALLNKLIGRYSQAIEALPPDKYGQNESFARIQVRFAELKAIQEPDDARDYFQMARANCKKFAFVHISFAQFELSQGNVKKSKQLLQKAVERGAVPLEMLEIALRNLNLQKKQLLSEEEKKNLSASTVLTAQESFSGSLGHLQNRNNSCDSRGQTTKARFLYGENMPPQDAEIGYRNSLRQTNKTKQSCPFGRVPVNLLNSPDCDVKTDDSVVPCFMKRQTSRSECRDLVVPGSKPSGNDSCELRNLKSVQNSHFKEPLVSDEKSSELIITDSITLKNKTESSLLAKLEETKEYQEPEVPESNQKQWQSKRKSECINQNPAASSNHWQIPELARKVNTEQKHTTFEQPVFSVSKQSPPISTSKWFDPKSICKTPSSNTLDDYMSCFRTPVVKNDFPPACQLSTPYGQPACFQQQQHQILATPLQNLQVLASSSANECISVKGRIYSILKQIGSGGSSKVFQVLNEKKQIYAIKYVNLEEADNQTLDSYRNEIAYLNKLQQHSDKIIRLYDYEITDQYIYMVMECGNIDLNSWLKKKKSIDPWERKSYWKNMLEAVHTIHQHGIVHSDLKPANFLIVDGMLKLIDFGIANQMQPDTTSVVKDSQVGTVNYMPPEAIKDMSSSRENGKSKSKISPKSDVWSLGCILYYMTYGKTPFQQIINQISKLHAIIDPNHEIEFPDIPEKDLQDVLKCCLKRDPKQRISIPELLAHPYVQIQTHPVNQMAKGTTEEMKYVLGQLVGLNSPNSILKAAKTLYEHYSGGESHNSSSSKTFEKKRGKK,TTK,TTK protein kinase,TTK,Other,2264,326,TTK,KQIGSGGSSKVFQYAIKYVSYRNEIAYLNKLQDKIIRLYDYYMVMECGN-IDLNSWLKKTIHQHGIVHSDLKPANFLILIDFGIA,Human,,Protein kinase domain,525.0,791.0,857.0,PF00069,True
+P42681,TXK,TXK,TXK,Tyrosine-protein kinase TXK,TK,Tec,nan,TXK,MILSSYNTIQSVFCCCCCCSVQKRQMRTQISLSTDEELPEKYTQRRRPWLSQLSNKKQSNTGRVQPSKRKPLPPLPPSEVAEEKIQVKALYDFLPREPCNLALRRAEEYLILEKYNPHWWKARDRLGNEGLIPSNYVTENKITNLEIYEWYHRNITRNQAEHLLRQESKEGAFIVRDSRHLGSYTISVFMGARRSTEAAIKHYQIKKNDSGQWYVAERHAFQSIPELIWYHQHNAAGLMTRLRYPVGLMGSCLPATAGFSYEKWEIDPSELAFIKEIGSGQFGVVHLGEWRSHIQVAIKAINEGSMSEEDFIEEAKVMMKLSHSKLVQLYGVCIQRKPLYIVTEFMENGCLLNYLRENKGKLRKEMLLSVCQDICEGMEYLERNGYIHRDLAARNCLVSSTCIVKISDFGMTRYVLDDEYVSSFGAKFPIKWSPPEVFLFNKYSSKSDVWSFGVLMWEVFTEGKMPFENKSNLQVVEAISEGFRLYRPHLAPMSIYEVMYSCWHEKPEGRPTFAELLRAVTEIAETW,Tec,TXK tyrosine kinase,TXK,TK,2268,476,TXK,KEIGSGQFGVVHLVAIKAIDFIEEAKVMMKLSSKLVQLYGVYIVTEFMENGCLLNYLREYLERNGYIHRDLAARNCLVISDFGMT,Human,,Protein tyrosine and serine/threonine kinase,272.0,518.0,527.0,PF07714,True
+P29597,TYK2,"TYK2_b, TYK2","TYK2, Domain2_TYK2",Non-receptor tyrosine-protein kinase TYK2,TK,"JakB, Jak",nan,TYK2,MPLRHWGMARGSKPVGDGAQPMAAMGGLKVLLHWAGPGGGEPWVTFSESSLTAEEVCIHIAHKVGITPPCFNLFALFDAQAQVWLPPNHILEIPRDASLMLYFRIRFYFRNWHGMNPREPAVYRCGPPGTEASSDQTAQGMQLLDPASFEYLFEQGKHEFVNDVASLWELSTEEEIHHFKNESLGMAFLHLCHLALRHGIPLEEVAKKTSFKDCIPRSFRRHIRQHSALTRLRLRNVFRRFLRDFQPGRLSQQMVMVKYLATLERLAPRFGTERVPVCHLRLLAQAEGEPCYIRDSGVAPTDPGPESAAGPPTHEVLVTGTGGIQWWPVEEEVNKEEGSSGSSGRNPQASLFGKKAKAHKAVGQPADRPREPLWAYFCDFRDITHVVLKEHCVSIHRQDNKCLELSLPSRAAALSFVSLVDGYFRLTADSSHYLCHEVAPPRLVMSIRDGIHGPLLEPFVQAKLRPEDGLYLIHWSTSHPYRLILTVAQRSQAPDGMQSLRLRKFPIEQQDGAFVLEGWGRSFPSVRELGAALQGCLLRAGDDCFSLRRCCLPQPGETSNLIIMRGARASPRTLNLSQLSFHRVDQKEITQLSHLGQGTRTNVYEGRLRVEGSGDPEEGKMDDEDPLVPGRDRGQELRVVLKVLDPSHHDIALAFYETASLMSQVSHTHLAFVHGVCVRGPENIMVTEYVEHGPLDVWLRRERGHVPMAWKMVVAQQLASALSYLENKNLVHGNVCGRNILLARLGLAEGTSPFIKLSDPGVGLGALSREERVERIPWLAPECLPGGANSLSTAMDKWGFGATLLEICFDGEAPLQSRSPSEKEHFYQRQHRLPEPSCPQLATLTSQCLTYEPTQRPSFRTILRDLTRLQPHNLADVLTVNPDSPASDPTVFHKRYLKKIRDLGEGHFGKVSLYCYDPTNDGTGEMVAVKALKADCGPQHRSGWKQEIDILRTLYHEHIIKYKGCCEDQGEKSLQLVMEYVPLGSLRDYLPRHSIGLAQLLLFAQQICEGMAYLHAQHYIHRDLAARNVLLDNDRLVKIGDFGLAKAVPEGHEYYRVREDGDSPVFWYAPECLKEYKFYYASDVWSFGVTLYELLTHCDSSQSPPTKFLELIGIAQGQMTVLRLTELLERGERLPRPDKCPCEVYHLMKNCWETEASFRPTFENLIPILKTVHEKYQGQAPSVFSVC,JakA,tyrosine kinase 2,TYK2,TK,2269,441,TYK2,RDLGEGHFGKVSLVAVKALGWKQEIDILRTLYEHIIKYKGCQLVMEYVPLGSLRDYLPRYLHAQHYIHRDLAARNVLLIGDFGLA,Human,,Protein tyrosine and serine/threonine kinase,590.0,866.0,1187.0,PF07714,True
+Q06418,TYRO3,TYRO3,TYRO3,Tyrosine-protein kinase receptor TYRO3,TK,Axl,nan,TYRO3,MALRRSMGRPGLPPLPLPPPPRLGLLLAALASLLLPESAAAGLKLMGAPVKLTVSQGQPVKLNCSVEGMEEPDIQWVKDGAVVQNLDQLYIPVSEQHWIGFLSLKSVERSDAGRYWCQVEDGGETEISQPVWLTVEGVPFFTVEPKDLAVPPNAPFQLSCEAVGPPEPVTIVWWRGTTKIGGPAPSPSVLNVTGVTQSTMFSCEAHNLKGLASSRTATVHLQALPAAPFNITVTKLSSSNASVAWMPGADGRALLQSCTVQVTQAPGGWEVLAVVVPVPPFTCLLRDLVPATNYSLRVRCANALGPSPYADWVPFQTKGLAPASAPQNLHAIRTDSGLILEWEEVIPEAPLEGPLGPYKLSWVQDNGTQDELTVEGTRANLTGWDPQKDLIVRVCVSNAVGCGPWSQPLVVSSHDRAGQQGPPHSRTSWVPVVLGVLTALVTAAALALILLRKRRKETRFGQAFDSVMARGEPAVHFRAARSFNRERPERIEATLDSLGISDELKEKLEDVLIPEQQFTLGRMLGKGEFGSVREAQLKQEDGSFVKVAVKMLKADIIASSDIEEFLREAACMKEFDHPHVAKLVGVSLRSRAKGRLPIPMVILPFMKHGDLHAFLLASRIGENPFNLPLQTLIRFMVDIACGMEYLSSRNFIHRDLAARNCMLAEDMTVCVADFGLSRKIYSGDYYRQGCASKLPVKWLALESLADNLYTVQSDVWAFGVTMWEIMTRGQTPYAGIENAEIYNYLIGGNRLKQPPECMEDVYDLMYQCWSADPKQRPSFTCLRMELENILGQLSVLSASQDPLYINIERAEEPTAGGSLELPGRDQPYSGAGDGSGMGAVGGTPSDCRYILTPGGLAEQPGQAEHQPESPLNETQRLLLLQQGLLPHSSC,Axl,TYRO3 protein tyrosine kinase,TYRO3,TK,1836,399,TYRO3,RMLGKGEFGSVREVAVKMLEFLREAACMKEFDPHVAKLVGVMVILPFMKHGDLHAFLLAYLSSRNFIHRDLAARNCMLVADFGLS,Human,,Protein tyrosine and serine/threonine kinase,519.0,786.0,890.0,PF07714,True
+O75385,ULK1,ULK1,ULK1,Serine/threonine-protein kinase ULK1,Other,ULK,nan,ULK1,MEPGRGGTETVGKFEFSRKDLIGHGAFAVVFKGRHREKHDLEVAVKCINKKNLAKSQTLLGKEIKILKELKHENIVALYDFQEMANSVYLVMEYCNGGDLADYLHAMRTLSEDTIRLFLQQIAGAMRLLHSKGIIHRDLKPQNILLSNPAGRRANPNSIRVKIADFGFARYLQSNMMAATLCGSPMYMAPEVIMSQHYDGKADLWSIGTIVYQCLTGKAPFQASSPQDLRLFYEKNKTLVPTIPRETSAPLRQLLLALLQRNHKDRMDFDEFFHHPFLDASPSVRKSPPVPVPSYPSSGSGSSSSSSSTSHLASPPSLGEMQQLQKTLASPADTAGFLHSSRDSGGSKDSSCDTDDFVMVPAQFPGDLVAEAPSAKPPPDSLMCSGSSLVASAGLESHGRTPSPSPPCSSSPSPSGRAGPFSSSRCGASVPIPVPTQVQNYQRIERNLQSPTQFQTPRSSAIRRSGSTSPLGFARASPSPPAHAEHGGVLARKMSLGGGRPYTPSPQVGTIPERPGWSGTPSPQGAEMRGGRSPRPGSSAPEHSPRTSGLGCRLHSAPNLSDLHVVRPKLPKPPTDPLGAVFSPPQASPPQPSHGLQSCRNLRGSPKLPDFLQRNPLPPILGSPTKAVPSFDFPKTPSSQNLLALLARQGVVMTPPRNRTLPDLSEVGPFHGQPLGPGLRPGEDPKGPFGRSFSTSRLTDLLLKAAFGTQAPDPGSTESLQEKPMEIAPSAGFGGSLHPGARAGGTSSPSPVVFTVGSPPSGSTPPQGPRTRMFSAGPTGSASSSARHLVPGPCSEAPAPELPAPGHGCSFADPITANLEGAVTFEAPDLPEETLMEQEHTEILRGLRFTLLFVQHVLEIAALKGSASEAAGGPEYQLQESVVADQISLLSREWGFAEQLVLYLKVAELLSSGLQSAIDQIRAGKLCLSSTVKQVVRRLNELYKASVVSCQGLSLRLQRFFLDKQRLLDRIHSITAERLIFSHAVQMVQSAALDEMFQHREGCVPRYHKALLLLEGLQHMLSDQADIENVTKCKLCIERRLSALLTGICA,ULK,unc-51 like autophagy activating kinase 1,ULK1,Other,2271,328,ULK1,DLIGHGAFAVVFKVAVKCILLGKEIKILKELKENIVALYDFYLVMEYCNGGDLADYLHALLHSKGIIHRDLKPQNILLIADFGFA,Human,ULK,Protein kinase domain,17.0,278.0,1050.0,PF00069,True
+Q8IYT8,ULK2,ULK2,ULK2,Serine/threonine-protein kinase ULK2,Other,ULK,nan,ULK2,MEVVGDFEYSKRDLVGHGAFAVVFRGRHRQKTDWEVAIKSINKKNLSKSQILLGKEIKILKELQHENIVALYDVQELPNSVFLVMEYCNGGDLADYLQAKGTLSEDTIRVFLHQIAAAMRILHSKGIIHRDLKPQNILLSYANRRKSSVSGIRIKIADFGFARYLHSNMMAATLCGSPMYMAPEVIMSQHYDAKADLWSIGTVIYQCLVGKPPFQANSPQDLRMFYEKNRSLMPSIPRETSPYLANLLLGLLQRNQKDRMDFEAFFSHPFLEQGPVKKSCPVPVPMYSGSVSGSSCGSSPSCRFASPPSLPDMQHIQEENLSSPPLGPPNYLQVSKDSASTSSKNSSCDTDDFVLVPHNISSDHSCDMPVGTAGRRASNEFLVCGGQCQPTVSPHSETAPIPVPTQIRNYQRIEQNLTSTASSGTNVHGSPRSAVVRRSNTSPMGFLRPGSCSPVPADTAQTVGRRLSTGSSRPYSPSPLVGTIPEQFSQCCCGHPQGHDSRSRNSSGSPVPQAQSPQSLLSGARLQSAPTLTDIYQNKQKLRKQHSDPVCPSHTGAGYSYSPQPSRPGSLGTSPTKHLGSSPRSSDWFFKTPLPTIIGSPTKTTAPFKIPKTQASSNLLALVTRHGPAEEQSKDGNEPRECAHCLLVQGSERQRAEQQSKAVFGRSVSTGKLSDQQGKTPICRHQGSTDSLNTERPMDIAPAGACGGVLAPPAGTAASSKAVLFTVGSPPHSAAAPTCTHMFLRTRTTSVGPSNSGGSLCAMSGRVCVGSPPGPGFGSSPPGAEAAPSLRYVPYGASPPSLEGLITFEAPELPEETLMEREHTDTLRHLNVMLMFTECVLDLTAMRGGNPELCTSAVSLYQIQESVVVDQISQLSKDWGRVEQLVLYMKAAQLLAASLHLAKAQIKSGKLSPSTAVKQVVKNLNERYKFCITMCKKLTEKLNRFFSDKQRFIDEINSVTAEKLIYNCAVEMVQSAALDEMFQQTEDIVYRYHKAALLLEGLSRILQDPADIENVHKYKCSIERRLSALCHSTATV,ULK,unc-51 like autophagy activating kinase 2,ULK2,Other,2272,329,ULK2,DLVGHGAFAVVFRVAIKSILLGKEIKILKELQENIVALYDVFLVMEYCNGGDLADYLQAILHSKGIIHRDLKPQNILLIADFGFA,Human,ULK,Protein kinase domain,9.0,271.0,1036.0,PF00069,True
+Q99986,VRK1,VRK1,VRK1,Serine/threonine-protein kinase VRK1,CK1,VRK,nan,VRK1,MPRVKAAQAGRQSSAKRHLAEQFAVGEIITDMAKKEWKVGLPIGQGGFGCIYLADMNSSESVGSDAPCVVKVEPSDNGPLFTELKFYQRAAKPEQIQKWIRTRKLKYLGVPKYWGSGLHDKNGKSYRFMIMDRFGSDLQKIYEANAKRFSRKTVLQLSLRILDILEYIHEHEYVHGDIKASNLLLNYKNPDQVYLVDYGLAYRYCPEGVHKEYKEDPKRCHDGTIEFTSIDAHNGVAPSRRGDLEILGYCMIQWLTGHLPWEDNLKDPKYVRDSKIRYRENIASLMDKCFPEKNKPGEIAKYMETVKLLDYTEKPLYENLRDILLQGLKAIGSKDDGKLDLSVVENGGLKAKTITKKRKKEIEESKEPGVEDTEWSNTQTEEAIQTRSRTRKRVQK,VRK,vaccinia related kinase 1,VRK1,CK1,2275,193,VRK1,LPIGQGGFGCIYLCVVKVEPLFTELKFYQRAALGVPKYWGSFMIMDRFG-SDLQKIYEAYIHEHEYVHGDIKASNLLLLVDYGLA,Human,,Protein kinase domain,42.0,274.0,396.0,PF00069,True
+Q86Y07,VRK2,VRK2,VRK2,Serine/threonine-protein kinase VRK2,CK1,VRK,nan,VRK2,MPPKRNEKYKLPIPFPEGKVLDDMEGNQWVLGKKIGSGGFGLIYLAFPTNKPEKDARHVVKVEYQENGPLFSELKFYQRVAKKDCIKKWIERKQLDYLGIPLFYGSGLTEFKGRSYRFMVMERLGIDLQKISGQNGTFKKSTVLQLGIRMLDVLEYIHENEYVHGDIKAANLLLGYKNPDQVYLADYGLSYRYCPNGNHKQYQENPRKGHNGTIEFTSLDAHKGVALSRRSDVEILGYCMLRWLCGKLPWEQNLKDPVAVQTAKTNLLDELPQSVLKWAPSGSSCCEIAQFLVCAHSLAYDEKPNYQALKKILNPHGIPLGPLDFSTKGQSINVHTPNSQKVDSQKAATKQVNKAHNRLIEKKVHSERSAESCATWKVQKEEKLIGLMNNEAAQESTRRRQKYQESQEPLNEVNSFPQKISYTQFPNSFYEPHQDFTSPDIFKKSRSPSWYKYTSTVSTGITDLESSTGLWPTISQFTLSEETNADVYYYRIIIPVLLMLVFLALFFL,VRK,vaccinia related kinase 2,VRK2,CK1,2276,194,VRK2,KKIGSGGFGLIYLHVVKVEPLFSELKFYQRVALGIPLFYGSFMVMERLG-IDLQKISGQYIHENEYVHGDIKAANLLLLADYGLS,Human,,Protein kinase domain,31.0,264.0,508.0,PF00069,True
+P30291,WEE1,Wee1,Wee1,Wee1-like protein kinase,Other,WEE,nan,WEE1,MSFLSRQQPPPPRRAGAACTLRQKLIFSPCSDCEEEEEEEEEEGSGHSTGEDSAFQEPDSPLPPARSPTEPGPERRRSPGPAPGSPGELEEDLLLPGACPGADEAGGGAEGDSWEEEGFGSSSPVKSPAAPYFLGSSFSPVRCGGPGDASPRGCGARRAGEGRRSPRPDHPGTPPHKTFRKLRLFDTPHTPKSLLSKARGIDSSSVKLRGSSLFMDTEKSGKREFDVRQTPQVNINPFTPDSLLLHSSGQCRRRKRTYWNDSCGEDMEASDYELEDETRPAKRITITESNMKSRYTTEFHELEKIGSGEFGSVFKCVKRLDGCIYAIKRSKKPLAGSVDEQNALREVYAHAVLGQHSHVVRYFSAWAEDDHMLIQNEYCNGGSLADAISENYRIMSYFKEAELKDLLLQVGRGLRYIHSMSLVHMDIKPSNIFISRTSIPNAASEEGDEDDWASNKVMFKIGDLGHVTRISSPQVEEGDSRFLANEVLQENYTHLPKADIFALALTVVCAAGAEPLPRNGDQWHEIRQGRLPRIPQVLSQEFTELLKVMIHPDPERRPSAMALVKHSVLLSASRKSAEQLRIELNAEKFKNSLLQKELKKAQMAKAAAEERALFTDRMATRSTTQSNRTSRLIGKKMNRSVSLTIY,WEE,WEE1 G2 checkpoint kinase,WEE1,Other,2278,333,Wee1,EKIGSGEFGSVFKYAIKRSNALREVYAHAVLGSHVVRYFSALIQNEYCNGGSLADAISEYIHSMSLVHMDIKPSNIFIIGDLGHV,Human,,Protein kinase domain,299.0,568.0,646.0,PF00069,True
+P07947,YES1,YES,YES,Tyrosine-protein kinase Yes,TK,Src,nan,YES1,MGCIKSKENKSPAIKYRPENTPEPVSTSVSHYGAEPTTVSPCPSSSAKGTAVNFSSLSMTPFGGSSGVTPFGGASSSFSVVPSSYPAGLTGGVTIFVALYDYEARTTEDLSFKKGERFQIINNTEGDWWEARSIATGKNGYIPSNYVAPADSIQAEEWYFGKMGRKDAERLLLNPGNQRGIFLVRESETTKGAYSLSIRDWDEIRGDNVKHYKIRKLDNGGYYITTRAQFDTLQKLVKHYTEHADGLCHKLTTVCPTVKPQTQGLAKDAWEIPRESLRLEVKLGQGCFGEVWMGTWNGTTKVAIKTLKPGTMMPEAFLQEAQIMKKLRHDKLVPLYAVVSEEPIYIVTEFMSKGSLLDFLKEGDGKYLKLPQLVDMAAQIADGMAYIERMNYIHRDLRAANILVGENLVCKIADFGLARLIEDNEYTARQGAKFPIKWTAPEAALYGRFTIKSDVWSFGILQTELVTKGRVPYPGMVNREVLEQVERGYRMPCPQGCPESLHELMNLCWKKDPDERPTFEYIQSFLEDYFTATEPQYQPGENL,Src,"YES proto-oncogene 1, Src family tyrosine kinase",YES1,TK,2284,463,YES,VKLGQGCFGEVWMVAIKTLAFLQEAQIMKKLRDKLVPLYAVYIVTEFMSKGSLLDFLKEYIERMNYIHRDLRAANILVIADFGLA,Human,SrcA,Protein tyrosine and serine/threonine kinase,278.0,526.0,543.0,PF07714,True
+O00506,STK25,YSK1,YSK1,Serine/threonine-protein kinase 25,STE,STE20,YSK,STK25,MAHLRGFANQHSRVDPEELFTKLDRIGKGSFGEVYKGIDNHTKEVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSPYITRYFGSYLKSTKLWIIMEYLGGGSALDLLKPGPLEETYIATILREILKGLDYLHSERKIHRDIKAANVLLSEQGDVKLADFGVAGQLTDTQIKRNTFVGTPFWMAPEVIKQSAYDFKADIWSLGITAIELAKGEPPNSDLHPMRVLFLIPKNSPPTLEGQHSKPFKEFVEACLNKDPRFRPTAKELLKHKFITRYTKKTSFLTELIDRYKRWKSEGHGEESSSEDSDIDGEAEDGEQGPIWTFPPTIRPSPHSKLHKGTALHSSQKPAEPVKRQPRSQCLSTLVRPVFGELKEKHKQSGGSVGALEELENAFSLAEESCPGISDKLMVHLVERVQRFSHNRNHLTSTR,STE20,serine/threonine kinase 25,STK25,STE,2218,381,YSK1,DRIGKGSFGEVYKVAIKIIDIQQEITVLSQCDPYITRYFGSWIIMEYLGGGSALDLLKPYLHSERKIHRDIKAANVLLLADFGVA,Human,YSK,Protein kinase domain,21.0,270.0,426.0,PF00069,True
+P43403,ZAP70,ZAP70,ZAP70,Tyrosine-protein kinase ZAP-70,TK,Syk,nan,ZAP70,MPDPAAHLPFFYGSISRAEAEEHLKLAGMADGLFLLRQCLRSLGGYVLSLVHDVRFHHFPIERQLNGTYAIAGGKAHCGPAELCEFYSRDPDGLPCNLRKPCNRPSGLEPQPGVFDCLRDAMVRDYVRQTWKLEGEALEQAIISQAPQVEKLIATTAHERMPWYHSSLTREEAERKLYSGAQTDGKFLLRPRKEQGTYALSLIYGKTVYHYLISQDKAGKYCIPEGTKFDTLWQLVEYLKLKADGLIYCLKEACPNSSASNASGAAAPTLPAHPSTLTHPQRRIDTLNSDGYTPEPARITSPDKPRPMPMDTSVYESPYSDPEELKDKKLFLKRDNLLIADIELGCGNFGSVRQGVYRMRKKQIDVAIKVLKQGTEKADTEEMMREAQIMHQLDNPYIVRLIGVCQAEALMLVMEMAGGGPLHKFLVGKREEIPVSNVAELLHQVSMGMKYLEEKNFVHRDLAARNVLLVNRHYAKISDFGLSKALGADDSYYTARSAGKWPLKWYAPECINFRKFSSRSDVWSYGVTMWEALSYGQKPYKKMKGPEVMAFIEQGKRMECPPECPPELYALMSDCWIYKWEDRPDFLTVEQRMRACYYSLASKVEGPPGSTQKAEAACA,Syk,zeta chain of T cell receptor associated protein kinase 70kDa,ZAP70,TK,2285,471,ZAP70,IELGCGNFGSVRQVAIKVLEMMREAQIMHQLDPYIVRLIGVMLVMEMAGGGPLHKFLVGYLEEKNFVHRDLAARNVLLISDFGLS,Human,,Protein tyrosine and serine/threonine kinase,342.0,592.0,619.0,PF07714,True
+O43283,MAP3K13,LZK,LZK,Mitogen-activated protein kinase kinase kinase 13,TKL,MLK,LZK,MAP3K13,MANFQEHLSCSSSPHLPFSESKTFNGLQDELTAMGNHPSPKLLEDQQEKGMVRTELIESVHSPVTTTVLTSVSEDSRDQFENSVLQLREHDESETAVSQGNSNTVDGESTSGTEDIKIQFSRSGSGSGGFLEGLFGCLRPVWNIIGKAYSTDYKLQQQDTWEVPFEEISELQWLGSGAQGAVFLGKFRAEEVAIKKVREQNETDIKHLRKLKHPNIIAFKGVCTQAPCYCIIMEYCAHGQLYEVLRAGRKITPRLLVDWSTGIASGMNYLHLHKIIHRDLKSPNVLVTHTDAVKISDFGTSKELSDKSTKMSFAGTVAWMAPEVIRNEPVSEKVDIWSFGVVLWELLTGEIPYKDVDSSAIIWGVGSNSLHLPVPSTCPDGFKILMKQTWQSKPRNRPSFRQTLMHLDIASADVLATPQETYFKSQAEWREEVKKHFEKIKSEGTCIHRLDEELIRRRREELRHALDIREHYERKLERANNLYMELSAIMLQLEMREKELIKREQAVEKKYPGTYKRHPVRPIIHPNAMEKLMKRKGVPHKSGMQTKRPDLLRSEGIPTTEVAPTASPLSGSPKMSTSSSKSRYRSKPRHRRGNSRGSHSDFAAILKNQPAQENSPHPTYLHQAQSQYPSLHHHNSLQQQYQQPPPAMSQSHHPRLNMHGQDIATCANNLRYFGPAAALRSPLSNHAQRQLPGSSPDLISTAMAADCWRSSEPDKGQAGPWGCCQADAYDPCLQCRPEQYGSLDIPSAEPVGRSPDLSKSPAHNPLLENAQSSEKTEENEFSGCRSESSLGTSHLGTPPALPRKTRPLQKSGDDSSEEEEGEVDSEVEFPRRQRPHRCISSCQSYSTFSSENFSVSDGEEGNTSDHSNSPDELADKLEDRLAEKLDDLLSQTPEIPIDISSHSDGLSDKECAVRRVKTQMSLGKLCVEERGYENPMQFEESDCDSSDGECSDATVRTNKHYSSATW,MLK,mitogen-activated protein kinase kinase kinase 13,MAP3K13,TKL,2073,499,LZK,QWLGSGAQGAVFLVAIKKVQNETDIKHLRKLKPNIIAFKGVCIIMEYCAHGQLYEVLRAYLHLHKIIHRDLKSPNVLVISDFGTS,Human,LZK,Protein tyrosine and serine/threonine kinase,172.0,405.0,966.0,PF07714,True
+Q08345,DDR1,DDR1,DDR1,Epithelial discoidin domain-containing receptor 1,TK,DDR,nan,DDR1,MGPEALSSLLLLLLVASGDADMKGHFDPAKCRYALGMQDRTIPDSDISASSSWSDSTAARHSRLESSDGDGAWCPAGSVFPKEEEYLQVDLQRLHLVALVGTQGRHAGGLGKEFSRSYRLRYSRDGRRWMGWKDRWGQEVISGNEDPEGVVLKDLGPPMVARLVRFYPRADRVMSVCLRVELYGCLWRDGLLSYTAPVGQTMYLSEAVYLNDSTYDGHTVGGLQYGGLGQLADGVVGLDDFRKSQELRVWPGYDYVGWSNHSFSSGYVEMEFEFDRLRAFQAMQVHCNNMHTLGARLPGGVECRFRRGPAMAWEGEPMRHNLGGNLGDPRARAVSVPLGGRVARFLQCRFLFAGPWLLFSEISFISDVVNNSSPALGGTFPPAPWWPPGPPPTNFSSLELEPRGQQPVAKAEGSPTAILIGCLVAIILLLLLIIALMLWRLHWRRLLSKAERRVLEEELTVHLSVPGDTILINNRPGPREPPPYQEPRPRGNPPHSAPCVPNGSALLLSNPAYRLLLATYARPPRGPGPPTPAWAKPTNTQAYSGDYMEPEKPGAPLLPPPPQNSVPHYAEADIVTLQGVTGGNTYAVPALPPGAVGDGPPRVDFPRSRLRFKEKLGEGQFGEVHLCEVDSPQDLVSLDFPLNVRKGHPLLVAVKILRPDATKNARNDFLKEVKIMSRLKDPNIIRLLGVCVQDDPLCMITDYMENGDLNQFLSAHQLEDKAAEGAPGDGQAAQGPTISYPMLLHVAAQIASGMRYLATLNFVHRDLATRNCLVGENFTIKIADFGMSRNLYAGDYYRVQGRAVLPIRWMAWECILMGKFTTASDVWAFGVTLWEVLMLCRAQPFGQLTDEQVIENAGEFFRDQGRQVYLSRPPACPQGLYELMLRCWSRESEQRPPFSQLHRFLAEDALNTV,DDR,discoidin domain receptor tyrosine kinase 1,DDR1,TK,1843,404,DDR1,EKLGEGQFGEVHLVAVKILDFLKEVKIMSRLKPNIIRLLGVCMITDYMENGDLNQFLSAYLATLNFVHRDLATRNCLVIADFGMS,Human,,Protein tyrosine and serine/threonine kinase,610.0,905.0,913.0,PF07714,True
+Q86TW2,ADCK1,ADCK1,ADCK1,Uncharacterized aarF domain-containing protein kinase 1,Atypical,ABC1,ABC1-B,ADCK1,MARKALKLASWTSMALAASGIYFYSNKYLDPNDFGAVRVGRAVATTAVISYDYLTSLKSVPYGSEEYLQLRSKSWPVFLQVHLRSARRLCELCCANRGTFIKVGQHLGALDYLLPEEYTSTLKVLHSQAPQSSMQEIRQVIREDLGKEIHDLFQSFDDTPLGTASLAQVHKAVLHDGRTVAVKVQHPKVRAQSSKDILLMEVLVLAVKQLFPEFEFMWLVDEAKKNLPLELDFLNEGRNAEKVSQMLRHFDFLKVPRIHWDLSTERVLLMEFVDGGQVNDRDYMERNKIDVNEISRHLGKMYSEMIFVNGFVHCDPHPGNVLVRKHPGTGKAEIVLLDHGLYQMLTEEFRLNYCHLWQSLIWTDMKRVKEYSQRLGAGDLYPLFACMLTARSWDSVNRGISQAPVTATEDLEIRNNAANYLPQISHLLNHVPRQMLLILKTNDLLRGIEAALGTRASASSFLNMSRCCIRALAEHKKKNTCSFFRRTQISFSEAFNLWQINLHELILRVKGLKLADRVLALICWLFPAPL,ABC1,Uncharacterized aarF domain-containing protein kinase 1,ADCK1,Atypical,1925,72,ADCK1,TPLGTASLAQVHKVAVKVQDFLNEGRNAEKVSLKVPRIHWDERVLLMEFGQVNDRDYMEFVNG--FVHCDPHPGNVLVLLDHGLY,Human,ABC1-,,,,,,
+P35968,KDR,KDR,KDR,Vascular endothelial growth factor receptor 2,TK,VEGFR,nan,KDR,MQSKVLLAVALWLCVETRAASVGLPSVSLDLPRLSIQKDILTIKANTTLQITCRGQRDLDWLWPNNQSGSEQRVEVTECSDGLFCKTLTIPKVIGNDTGAYKCFYRETDLASVIYVYVQDYRSPFIASVSDQHGVVYITENKNKTVVIPCLGSISNLNVSLCARYPEKRFVPDGNRISWDSKKGFTIPSYMISYAGMVFCEAKINDESYQSIMYIVVVVGYRIYDVVLSPSHGIELSVGEKLVLNCTARTELNVGIDFNWEYPSSKHQHKKLVNRDLKTQSGSEMKKFLSTLTIDGVTRSDQGLYTCAASSGLMTKKNSTFVRVHEKPFVAFGSGMESLVEATVGERVRIPAKYLGYPPPEIKWYKNGIPLESNHTIKAGHVLTIMEVSERDTGNYTVILTNPISKEKQSHVVSLVVYVPPQIGEKSLISPVDSYQYGTTQTLTCTVYAIPPPHHIHWYWQLEEECANEPSQAVSVTNPYPCEEWRSVEDFQGGNKIEVNKNQFALIEGKNKTVSTLVIQAANVSALYKCEAVNKVGRGERVISFHVTRGPEITLQPDMQPTEQESVSLWCTADRSTFENLTWYKLGPQPLPIHVGELPTPVCKNLDTLWKLNATMFSNSTNDILIMELKNASLQDQGDYVCLAQDRKTKKRHCVVRQLTVLERVAPTITGNLENQTTSIGESIEVSCTASGNPPPQIMWFKDNETLVEDSGIVLKDGNRNLTIRRVRKEDEGLYTCQACSVLGCAKVEAFFIIEGAQEKTNLEIIILVGTAVIAMFFWLLLVIILRTVKRANGGELKTGYLSIVMDPDELPLDEHCERLPYDASKWEFPRDRLKLGKPLGRGAFGQVIEADAFGIDKTATCRTVAVKMLKEGATHSEHRALMSELKILIHIGHHLNVVNLLGACTKPGGPLMVIVEFCKFGNLSTYLRSKRNEFVPYKTKGARFRQGKDYVGAIPVDLKRRLDSITSSQSSASSGFVEEKSLSDVEEEEAPEDLYKDFLTLEHLICYSFQVAKGMEFLASRKCIHRDLAARNILLSEKNVVKICDFGLARDIYKDPDYVRKGDARLPLKWMAPETIFDRVYTIQSDVWSFGVLLWEIFSLGASPYPGVKIDEEFCRRLKEGTRMRAPDYTTPEMYQTMLDCWHGEPSQRPTFSELVEHLGNLLQANAQQDGKDYIVLPISETLSMEEDSGLSLPTSPVSCMEEEEVCDPKFHYDNTAGISQYLQNSKRKSRPVSVKTFEDIPLEEPEVKVIPDDNQTDSGMVLASEELKTLEDRTKLSPSFGGMVPSKSRESVASEGSNQTSGYQSGYHSDDTDTTVYSSEEAELLKLIEIGVQTGSTAQILQPDSGTTLSSPPV,VEGFR,kinase insert domain receptor,KDR,TK,1813,485,KDR,KPLGRGAFGQVIEVAVKMLALMSELKILIHIGLNVVNLLGAMVIVEFCKFGNLSTYLRSFLASRKCIHRDLAARNILLICDFGLA,Human,,Protein tyrosine and serine/threonine kinase,834.0,1160.0,1356.0,PF07714,True
+Q8NER5,ACVR1C,ALK7,ALK7,Activin receptor type-1C,TKL,STKR,STKR1,ACVR1C,MTRALCSALRQALLLLAAAAELSPGLKCVCLLCDSSNFTCQTEGACWASVMLTNGKEQVIKSCVSLPELNAQVFCHSSNNVTKTECCFTDFCNNITLHLPTASPNAPKLGPMELAIIITVPVCLLSIAAMLTVWACQGRQCSYRKKKRPNVEEPLSECNLVNAGKTLKDLIYDVTASGSGSGLPLLVQRTIARTIVLQEIVGKGRFGEVWHGRWCGEDVAVKIFSSRDERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSEYHEQGSLYDYLNRNIVTVAGMIKLALSIASGLAHLHMEIVGTQGKPAIAHRDIKSKNILVKKCETCAIADLGLAVKHDSILNTIDIPQNPKVGTKRYMAPEMLDDTMNVNIFESFKRADIYSVGLVYWEIARRCSVGGIVEEYQLPYYDMVPSDPSIEEMRKVVCDQKFRPSIPNQWQSCEALRVMGRIMRECWYANGAARLTALRIKKTISQLCVKEDCKA,STKR,activin A receptor type IC,ACVR1C,TKL,0,522,ALK7,EIVGKGRFGEVWHVAVKIFSWFREAEIYQTVMENILGFIAAWLVSEYHEQGSLYDYLNRTQGKPAIAHRDIKSKNILVIADLGLA,Human,Type1,Protein tyrosine and serine/threonine kinase,196.0,480.0,493.0,PF07714,True
+Q96GD4,AURKB,AurB,AurB,Aurora kinase B,Other,Aur,nan,AURKB,MAQKENSYPWPYGRQTAPSGLSTLPQRVLRKEPVTPSALVLMSRSNVQPTAAPGQKVMENSSGTPDILTRHFTIDDFEIGRPLGKGKFGNVYLAREKKSHFIVALKVLFKSQIEKEGVEHQLRREIEIQAHLHHPNILRLYNYFYDRRRIYLILEYAPRGELYKELQKSCTFDEQRTATIMEELADALMYCHGKKVIHRDIKPENLLLGLKGELKIADFGWSVHAPSLRRKTMCGTLDYLPPEMIEGRMHNEKVDLWCIGVLCYELLVGNPPFESASHNETYRRIVKVDLKFPASVPMGAQDLISKLLRHNPSERLPLAQVSAHPWVRANSRRVLPPSALQSVA,Aur,aurora kinase B,AURKB,Other,1937,261,AurB,RPLGKGKFGNVYLVALKVLQLRREIEIQAHLHPNILRLYNYYLILEYAPRGELYKELQKYCHGKKVIHRDIKPENLLLIADFGWS,Human,,Protein kinase domain,77.0,327.0,344.0,PF00069,True
+O14965,AURKA,AurA,AurA,Aurora kinase A,Other,Aur,nan,AURKA,MDRSKENCISGPVKATAPVGGPKRVLVTQQFPCQNPLPVNSGQAQRVLCPSNSSQRIPLQAQKLVSSHKPVQNQKQKQLQATSVPHPVSRPLNNTQKSKQPLPSAPENNPEEELASKQKNEESKKRQWALEDFEIGRPLGKGKFGNVYLAREKQSKFILALKVLFKAQLEKAGVEHQLRREVEIQSHLRHPNILRLYGYFHDATRVYLILEYAPLGTVYRELQKLSKFDEQRTATYITELANALSYCHSKRVIHRDIKPENLLLGSAGELKIADFGWSVHAPSSRRTTLCGTLDYLPPEMIEGRMHDEKVDLWSLGVLCYEFLVGKPPFEANTYQETYKRISRVEFTFPDFVTEGARDLISRLLKHNPSQRPMLREVLEHPWITANSSKPSNCQNKESASKQS,Aur,aurora kinase A,AURKA,Other,1936,259,AurA,RPLGKGKFGNVYLLALKVLQLRREVEIQSHLRPNILRLYGYYLILEYAPLGTVYRELQKYCHSKRVIHRDIKPENLLLIADFGWS,Human,,Protein kinase domain,133.0,383.0,403.0,PF00069,True
+Q13164,MAPK7,Erk5,Erk5,Mitogen-activated protein kinase 7,CMGC,MAPK,ERK5,MAPK7,MAEPLKEEDGEDGSAEPPGPVKAEPAHTAASVAAKNLALLKARSFDVTFDVGDEYEIIETIGNGAYGVVSSARRRLTGQQVAIKKIPNAFDVVTNAKRTLRELKILKHFKHDNIIAIKDILRPTVPYGEFKSVYVVLDLMESDLHQIIHSSQPLTLEHVRYFLYQLLRGLKYMHSAQVIHRDLKPSNLLVNENCELKIGDFGMARGLCTSPAEHQYFMTEYVATRWYRAPELMLSLHEYTQAIDLWSVGCIFGEMLARRQLFPGKNYVHQLQLIMMVLGTPSPAVIQAVGAERVRAYIQSLPPRQPVPWETVYPGADRQALSLLGRMLRFEPSARISAAAALRHPFLAKYHDPDDEPDCAPPFDFAFDREALTRERIKEAIVAEIEDFHARREGIRQQIRFQPSLQPVASEPGCPDVEMPSPWAPSGDCAMESPPPAPPPCPGPAPDTIDLTLQPPPPVSEPAPPKKDGAISDNTKAALKAALLKSLRSRLRDGPSAPLEAPEPRKPVTAQERQREREEKRRRRQERAKEREKRRQERERKERGAGASGGPSTDPLAGLVLSDNDRSLLERWTRMARPAAPALTSVPAPAPAPTPTPTPVQPTSPPPGPVAQPTGPQPQSAGSTSGPVPQPACPPPGPAPHPTGPPGPIPVPAPPQIATSTSLLAAQSLVPPPGLPGSSTPGVLPYFPPGLPPPDAGGAPQSSMSESPDVNLVTQQLSKSQVEDPLPPVFSGTPKGSGAGYGVGFDLEEFLNQSFDMGVADGPQDGQADSASLSASLLADWLEGHGMNPADIESLQREIQMDSPMLLADLPDLQDP,MAPK,mitogen-activated protein kinase 7,MAPK7,CMGC,2093,243,Erk5,ETIGNGAYGVVSSVAIKKIRTLRELKILKHFKDNIIAIKDIYVVLDLME-SDLHQIIHSYMHSAQVIHRDLKPSNLLVIGDFGMA,Human,ERK5,Protein kinase domain,55.0,347.0,816.0,PF00069,True
+O43683,BUB1,BUB1,BUB1,Mitotic checkpoint serine/threonine-protein kinase BUB1,Other,BUB,nan,BUB1,MDTPENVLQMLEAHMQSYKGNDPLGEWERYIQWVEENFPENKEYLITLLEHLMKEFLDKKKYHNDPRFISYCLKFAEYNSDLHQFFEFLYNHGIGTLSSPLYIAWAGHLEAQGELQHASAVLQRGIQNQAEPREFLQQQYRLFQTRLTETHLPAQARTSEPLHNVQVLNQMITSKSNPGNNMACISKNQGSELSGVISSACDKESNMERRVITISKSEYSVHSSLASKVDVEQVVMYCKEKLIRGESEFSFEELRAQKYNQRRKHEQWVNEDRHYMKRKEANAFEEQLLKQKMDELHKKLHQVVETSHEDLPASQERSEVNPARMGPSVGSQQELRAPCLPVTYQQTPVNMEKNPREAPPVVPPLANAISAALVSPATSQSIAPPVPLKAQTVTDSMFAVASKDAGCVNKSTHEFKPQSGAEIKEGCETHKVANTSSFHTTPNTSLGMVQATPSKVQPSPTVHTKEALGFIMNMFQAPTLPDISDDKDEWQSLDQNEDAFEAQFQKNVRSSGAWGVNKIISSLSSAFHVFEDGNKENYGLPQPKNKPTGARTFGERSVSRLPSKPKEEVPHAEEFLDDSTVWGIRCNKTLAPSPKSPGDFTSAAQLASTPFHKLPVESVHILEDKENVVAKQCTQATLDSCEENMVVPSRDGKFSPIQEKSPKQALSSHMYSASLLRLSQPAAGGVLTCEAELGVEACRLTDTDAAIAEDPPDAIAGLQAEWMQMSSLGTVDAPNFIVGNPWDDKLIFKLLSGLSKPVSSYPNTFEWQCKLPAIKPKTEFQLGSKLVYVHHLLGEGAFAQVYEATQGDLNDAKNKQKFVLKVQKPANPWEFYIGTQLMERLKPSMQHMFMKFYSAHLFQNGSVLVGELYSYGTLLNAINLYKNTPEKVMPQGLVISFAMRMLYMIEQVHDCEIIHGDIKPDNFILGNGFLEQDDEDDLSAGLALIDLGQSIDMKLFPKGTIFTAKCETSGFQCVEMLSNKPWNYQIDYFGVAATVYCMLFGTYMKVKNEGGECKPEGLFRRLPHLDMWNEFFHVMLNIPDCHHLPSLDLLRQKLKKVFQQHYTNKIRALRNRLIVLLLECKRSRK,BUB,BUB1 mitotic checkpoint serine/threonine kinase,BUB1,Other,1949,262,BUB1,HLLGEGAFAQVYEFVLKVQIGTQLMERLKPSMHMFMKFYSAVLVGELYSYGTLLNAINLQVHDCEIIHGDIKPDNFILLIDLGQS,Human,,Protein kinase domain,790.0,1004.0,1085.0,PF00069,True
+Q16832,DDR2,DDR2,DDR2,Discoidin domain-containing receptor 2,TK,DDR,nan,DDR2,MILIPRMLLVLFLLLPILSSAKAQVNPAICRYPLGMSGGQIPDEDITASSQWSESTAAKYGRLDSEEGDGAWCPEIPVEPDDLKEFLQIDLHTLHFITLVGTQGRHAGGHGIEFAPMYKINYSRDGTRWISWRNRHGKQVLDGNSNPYDIFLKDLEPPIVARFVRFIPVTDHSMNVCMRVELYGCVWLDGLVSYNAPAGQQFVLPGGSIIYLNDSVYDGAVGYSMTEGLGQLTDGVSGLDDFTQTHEYHVWPGYDYVGWRNESATNGYIEIMFEFDRIRNFTTMKVHCNNMFAKGVKIFKEVQCYFRSEASEWEPNAISFPLVLDDVNPSARFVTVPLHHRMASAIKCQYHFADTWMMFSEITFQSDAAMYNNSEALPTSPMAPTTYDPMLKVDDSNTRILIGCLVAIIFILLAIIVIILWRQFWQKMLEKASRRMLDDEMTVSLSLPSDSSMFNNNRSSSPSEQGSNSTYDRIFPLRPDYQEPSRLIRKLPEFAPGEEESGCSGVVKPVQPSGPEGVPHYAEADIVNLQGVTGGNTYSVPAVTMDLLSGKDVAVEEFPRKLLTFKEKLGEGQFGEVHLCEVEGMEKFKDKDFALDVSANQPVLVAVKMLRADANKNARNDFLKEIKIMSRLKDPNIIHLLAVCITDDPLCMITEYMENGDLNQFLSRHEPPNSSSSDVRTVSYTNLKFMATQIASGMKYLSSLNFVHRDLATRNCLVGKNYTIKIADFGMSRNLYSGDYYRIQGRAVLPIRWMSWESILLGKFTTASDVWAFGVTLWETFTFCQEQPYSQLSDEQVIENTGEFFRDQGRQTYLPQPAICPDSVYKLMLSCWRRDTKNRPSFQEIHLLLLQQGDE,DDR,discoidin domain receptor tyrosine kinase 2,DDR2,TK,1844,405,DDR2,EKLGEGQFGEVHLVAVKMLDFLKEIKIMSRLKPNIIHLLAVCMITEYMENGDLNQFLSRYLSSLNFVHRDLATRNCLVIADFGMS,Human,,Protein tyrosine and serine/threonine kinase,563.0,846.0,855.0,PF07714,True
+Q13308,PTK7,CCK4,CCK4,Inactive tyrosine-protein kinase 7,TK,CCK4,nan,PTK7,MGAARGSPARPRRLPLLSVLLLPLLGGTQTAIVFIKQPSSQDALQGRRALLRCEVEAPGPVHVYWLLDGAPVQDTERRFAQGSSLSFAAVDRLQDSGTFQCVARDDVTGEEARSANASFNIKWIEAGPVVLKHPASEAEIQPQTQVTLRCHIDGHPRPTYQWFRDGTPLSDGQSNHTVSSKERNLTLRPAGPEHSGLYSCCAHSAFGQACSSQNFTLSIADESFARVVLAPQDVVVARYEEAMFHCQFSAQPPPSLQWLFEDETPITNRSRPPHLRRATVFANGSLLLTQVRPRNAGIYRCIGQGQRGPPIILEATLHLAEIEDMPLFEPRVFTAGSEERVTCLPPKGLPEPSVWWEHAGVRLPTHGRVYQKGHELVLANIAESDAGVYTCHAANLAGQRRQDVNITVATVPSWLKKPQDSQLEEGKPGYLDCLTQATPKPTVVWYRNQMLISEDSRFEVFKNGTLRINSVEVYDGTWYRCMSSTPAGSIEAQARVQVLEKLKFTPPPQPQQCMEFDKEATVPCSATGREKPTIKWERADGSSLPEWVTDNAGTLHFARVTRDDAGNYTCIASNGPQGQIRAHVQLTVAVFITFKVEPERTTVYQGHTALLQCEAQGDPKPLIQWKGKDRILDPTKLGPRMHIFQNGSLVIHDVAPEDSGRYTCIAGNSCNIKHTEAPLYVVDKPVPEESEGPGSPPPYKMIQTIGLSVGAAVAYIIAVLGLMFYCKKRCKAKRLQKQPEGEEPEMECLNGGPLQNGQPSAEIQEEVALTSLGSGPAATNKRHSTSDKMHFPRSSLQPITTLGKSEFGEVFLAKAQGLEEGVAETLVLVKSLQSKDEQQQLDFRRELEMFGKLNHANVVRLLGLCREAEPHYMVLEYVDLGDLKQFLRISKSKDEKLKSQPLSTKQKVALCTQVALGMEHLSNNRFVHKDLAARNCLVSAQRQVKVSALGLSKDVYNSEYYHFRQAWVPLRWMSPEAILEGDFSTKSDVWAFGVLMWEVFTHGEMPHGGQADDEVLADLQAGKARLPQPEGCPSKLYRLMQRCWALSPKDRPSFSEIASALGDSTVDSKP,CCK4,protein tyrosine kinase 7 (inactive),PTK7,TK,0,401,CCK4,TTLGKSEFGEVFLVLVKSLDFRRELEMFGKLNANVVRLLGLYMVLEYVDLGDLKQFLRIHLSNNRFVHKDLAARNCLVVSALGLS,Human,,Protein tyrosine and serine/threonine kinase,799.0,1061.0,1070.0,PF07714,True
+P53667,LIMK1,LIMK1,LIMK1,LIM domain kinase 1,TKL,LISK,LIMK,LIMK1,MRLTLLCCTWREERMGEEGSELPVCASCGQRIYDGQYLQALNADWHADCFRCCDCSASLSHQYYEKDGQLFCKKDYWARYGESCHGCSEQITKGLVMVAGELKYHPECFICLTCGTFIGDGDTYTLVEHSKLYCGHCYYQTVVTPVIEQILPDSPGSHLPHTVTLVSIPASSHGKRGLSVSIDPPHGPPGCGTEHSHTVRVQGVDPGCMSPDVKNSIHVGDRILEINGTPIRNVPLDEIDLLIQETSRLLQLTLEHDPHDTLGHGLGPETSPLSSPAYTPSGEAGSSARQKPVLRSCSIDRSPGAGSLGSPASQRKDLGRSESLRVVCRPHRIFRPSDLIHGEVLGKGCFGQAIKVTHRETGEVMVMKELIRFDEETQRTFLKEVKVMRCLEHPNVLKFIGVLYKDKRLNFITEYIKGGTLRGIIKSMDSQYPWSQRVSFAKDIASGMAYLHSMNIIHRDLNSHNCLVRENKNVVVADFGLARLMVDEKTQPEGLRSLKKPDRKKRYTVVGNPYWMAPEMINGRSYDEKVDVFSFGIVLCEIIGRVNADPDYLPRTMDFGLNVRGFLDRYCPPNCPPSFFPITVRCCDLDPEKRPSFVKLEHWLETLRMHLAGHLPLGPQLEQLDRGFWETYRRGESGLPAHPEVPD,LISK,LIM domain kinase 1,LIMK1,TKL,2054,490,LIMK1,EVLGKGCFGQAIKMVMKELTFLKEVKVMRCLEPNVLKFIGVNFITEYIKGGTLRGIIKSYLHSMNIIHRDLNSHNCLVVADFGLA,Human,LIMK,Protein tyrosine and serine/threonine kinase,342.0,602.0,647.0,PF07714,True
+Q6ZMQ8,AATK,LMR1,LMR1,Serine/threonine-protein kinase LMTK1,TK,Lmr,nan,AATK,MSSSFFNPSFAFSSHFDPDGAPLSELSWPSSLAVVAVSFSGLFAVIVLMLACLCCKKGGIGFKEFENAEGDEYAADLAQGSPATAAQNGPDVYVLPLTEVSLPMAKQPGRSVQLLKSTDVGRHSLLYLKEIGRGWFGKVFLGEVNSGISSAQVVVKELQASASVQEQMQFLEEVQPYRALKHSNLLQCLAQCAEVTPYLLVMEFCPLGDLKGYLRSCRVAESMAPDPRTLQRMACEVACGVLHLHRNNFVHSDLALRNCLLTADLTVKIGDYGLAHCKYREDYFVTADQLWVPLRWIAPELVDEVHSNLLVVDQTKSGNVWSLGVTIWELFELGTQPYPQHSDQQVLAYTVREQQLKLPKPQLQLTLSDRWYEVMQFCWLQPEQRPTAEEVHLLLSYLCAKGATEAEEEFERRWRSLRPGGGGVGPGPGAAGPMLGGVVELAAASSFPLLEQFAGDGFHADGDDVLTVTETSRGLNFEYKWEAGRGAEAFPATLSPGRTARLQELCAPDGAPPGVVPVLSAHSPSLGSEYFIRLEEAAPAAGHDPDCAGCAPSPPATADQDDDSDGSTAASLAMEPLLGHGPPVDVPWGRGDHYPRRSLARDPLCPSRSPSPSAGPLSLAEGGAEDADWGVAAFCPAFFEDPLGTSPLGSSGAPPLPLTGEDELEEVGARRAAQRGHWRSNVSANNNSGSRCPESWDPVSAGGHAEGCPSPKQTPRASPEPGYPGEPLLGLQAASAQEPGCCPGLPHLCSAQGLAPAPCLVTPSWTETASSGGDHPQAEPKLATEAEGTTGPRLPLPSVPSPSQEGAPLPSEEASAPDAPDALPDSPTPATGGEVSAIKLASALNGSSSSPEVEAPSSEDEDTAEATSGIFTDTSSDGLQARRPDVVPAFRSLQKQVGTPDSLDSLDIPSSASDGGYEVFSPSATGPSGGQPRALDSGYDTENYESPEFVLKEAQEGCEPQAFAELASEGEGPGPETRLSTSLSGLNEKNPYRDSAYFSDLEAEAEATSGPEKKCGGDRAPGPELGLPSTGQPSEQVCLRPGVSGEAQGSGPGEVLPPLLQLEGSSPEPSTCPSGLVPEPPEPQGPAKVRPGPSPSCSQFFLLTPVPLRSEGNSSEFQGPPGLLSGPAPQKRMGGPGTPRAPLRLALPGLPAALEGRPEEEEEDSEDSDESDEELRCYSVQEPSEDSEEEAPAVPVVVAESQSARNLRSLLKMPSLLSETFCEDLERKKKAVSFFDDVTVYLFDQESPTRELGEPFPGAKESPPTFLRGSPGSPSAPNRPQQADGSPNGSTAEEGGGFAWDDDFPLMTAKAAFAMALDPAAPAPAAPTPTPAPFSRFTVSPAPTSRFSITHVSDSDAESKRGPEAGAGGESKEA,Lmr,apoptosis-associated tyrosine kinase,AATK,TK,0,443,LMR1,KEIGRGWFGKVFLVVVKELQFLEEVQPYRALKSNLLQCLAQLLVMEFCPLGDLKGYLRSHLHRNNFVHSDLALRNCLLIGDYGLA,Human,,Protein tyrosine and serine/threonine kinase,128.0,392.0,1374.0,PF07714,True
+Q8IWU2,LMTK2,LMR2,LMR2,Serine/threonine-protein kinase LMTK2,TK,Lmr,nan,LMTK2,MPGPPALRRRLLLLLLVLLIAGSAGAAPLPQTGAGEAPPAAEVSSSFVILCVCSLIILIVLIANCVSCCKDPEIDFKEFEDNFDDEIDFTPPAEDTPSVQSPAEVFTLSVPNISLPAPSQFQPSVEGLKSQVARHSLNYIQEIGNGWFGKVLLGEIYTGTSVARVIVKELKASANPKEQDTFLKNGEPYYILQHPNILQCVGQCVEAIPYLLVFEFCDLGDLKAYLRSEQEHMRGDSQTMLLQRMACEVAAGLAAMHKLHFLHSDLALRNCFLTSDLNVKVGDYGIGFSRYKEDYIETDDKKVFPLRWTAPELVTSFQDRLLTADQTKYSNIWSLGVTLWELFDNAAQPYSNLSNLDVLNQVIRERDTKLPKPQLEQPYSDRWYEVLQFCWLSPEKRPAAEDVHRLLTYLRLQSQRDSEVDFEQQWNALKPNTNSRDSSNNAAFPILDHFARDRLGREMEEVLTVTETSQGLSFEYVWEAAKHDHFDERSRGHLDEGLSYTSIFYPVEVFESSLSDPGPGKQDDSGQDVPLRVPGVVPVFDAHNLSVGSDYYIQLEEKSGSNLELDYPPALLTTDMDNPERTGPELSQLTALRSVELEESSTDEDFFQSSTDPKDSSLPGDLHVTSGPESPFNNIFNDVDKSEDLPSHQKIFDLMELNGVQADFKPATLSSSLDNPKESVITGHFEKEKPRKIFDSEPLCLSDNLMHQDNFDPLNVQELSENFLFLQEKNLLKGSLSSKEHINDLQTELKNAGFTEAMLETSCRNSLDTELQFAENKPGLSLLQENVSTKGDDTDVMLTGDTLSTSLQSSPEVQVPPTSFETEETPRRVPPDSLPTQGETQPTCLDVIVPEDCLHQDISPDAVTVPVEILSTDARTHSLDNRSQDSPGESEETLRLTESDSVLADDILASRVSVGSSLPELGQELHNKPFSEDHHSHRRLEKNLEAVETLNQLNSKDAAKEAGLVSALSSDSTSQDSLLEDSLSAPFPASEPSLETPDSLESVDVHEALLDSLGSHTPQKLVPPDKPADSGYETENLESPEWTLHPAPEGTADSEPATTGDGGHSGLPPNPVIVISDAGDGHRGTEVTPETFTAGSQGSYRDSAYFSDNDSEPEKRSEEVPGTSPSALVLVQEQPLPEPVLPEQSPAAQDSCLEARKSQPDESCLSALHNSSDLELRATPEPAQTGVPQQVHPTEDEASSPWSVLNAELSSGDDFETQDDRPCTLASTGTNTNELLAYTNSALDKSLSSHSEGPKLKEPDIEGKYLGKLGVSGMLDLSEDGMDADEEDENSDDSDEDLRAFNLHSLSSESEDETEHPVPIILSNEDGRHLRSLLKPTAANAPDPLPEDWKKEKKAVTFFDDVTVYLFDQETPTKELGPCGGEACGPDLSGPAPASGSPYLSRCINSESSTDEEGGGFEWDDDFSPDPFMSKTTSNLLSSKPSLQTSKYFSPPPPARSTEQSWPHSAPYSRFSISPANIASFSLTHLTDSDIEQGGSSEDGEKD,Lmr,lemur tyrosine kinase 2,LMTK2,TK,0,444,LMR2,QEIGNGWFGKVLLVIVKELTFLKNGEPYYILQPNILQCVGQLLVFEFCDLGDLKAYLRSAMHKLHFLHSDLALRNCFLVGDYGIG,Human,,Protein tyrosine and serine/threonine kinase,138.0,406.0,1503.0,PF07714,True
+Q96Q04,LMTK3,LMR3,LMR3,Serine/threonine-protein kinase LMTK3,TK,Lmr,nan,LMTK3,MPAPGALILLAAVSASGCLASPAHPDGFALGRAPLAPPYAVVLISCSGLLAFIFLLLTCLCCKRGDVGFKEFENPEGEDCSGEYTPPAEETSSSQSLPDVYILPLAEVSLPMPAPQPSHSDMTTPLGLSRQHLSYLQEIGSGWFGKVILGEIFSDYTPAQVVVKELRASAGPLEQRKFISEAQPYRSLQHPNVLQCLGLCVETLPFLLIMEFCQLGDLKRYLRAQRPPEGLSPELPPRDLRTLQRMGLEIARGLAHLHSHNYVHSDLALRNCLLTSDLTVRIGDYGLAHSNYKEDYYLTPERLWIPLRWAAPELLGELHGTFMVVDQSRESNIWSLGVTLWELFEFGAQPYRHLSDEEVLAFVVRQQHVKLARPRLKLPYADYWYDILQSCWRPPAQRPSASDLQLQLTYLLSERPPRPPPPPPPPRDGPFPWPWPPAHSAPRPGTLSSPFPLLDGFPGADPDDVLTVTESSRGLNLECLWEKARRGAGRGGGAPAWQPASAPPAPHANPSNPFYEALSTPSVLPVISARSPSVSSEYYIRLEEHGSPPEPLFPNDWDPLDPGVPAPQAPQAPSEVPQLVSETWASPLFPAPRPFPAQSSASGSFLLSGWDPEGRGAGETLAGDPAEVLGERGTAPWVEEEEEEEEGSSPGEDSSSLGGGPSRRGPLPCPLCSREGACSCLPLERGDAVAGWGGHPALGCPHPPEDDSSLRAERGSLADLPMAPPASAPPEFLDPLMGAAAPQYPGRGPPPAPPPPPPPPRAPADPAASPDPPSAVASPGSGLSSPGPKPGDSGYETETPFSPEGAFPGGGAAEEEGVPRPRAPPEPPDPGAPRPPPDPGPLPLPGPREKPTFVVQVSTEQLLMSLREDVTRNLLGEKGATARETGPRKAGRGPGNREKVPGLNRDPTVLGNGKQAPSLSLPVNGVTVLENGDQRAPGIEEKAAENGALGSPEREEKVLENGELTPPRREEKALENGELRSPEAGEKVLVNGGLTPPKSEDKVSENGGLRFPRNTERPPETGPWRAPGPWEKTPESWGPAPTIGEPAPETSLERAPAPSAVVSSRNGGETAPGPLGPAPKNGTLEPGTERRAPETGGAPRAPGAGRLDLGSGGRAPVGTGTAPGGGPGSGVDAKAGWVDNTRPQPPPPPLPPPPEAQPRRLEPAPPRARPEVAPEGEPGAPDSRAGGDTALSGDGDPPKPERKGPEMPRLFLDLGPPQGNSEQIKARLSRLSLALPPLTLTPFPGPGPRRPPWEGADAGAAGGEAGGAGAPGPAEEDGEDEDEDEEEDEEAAAPGAAAGPRGPGRARAAPVPVVVSSADADAARPLRGLLKSPRGADEPEDSELERKRKMVSFHGDVTVYLFDQETPTNELSVQAPPEGDTDPSTPPAPPTPPHPATPGDGFPSNDSGFGGSFEWAEDFPLLPPPGPPLCFSRFSVSPALETPGPPARAPDARPAGPVEN,Lmr,lemur tyrosine kinase 3,LMTK3,TK,0,445,LMR3,QEIGSGWFGKVILVVVKELKFISEAQPYRSLQPNVLQCLGLLLIMEFCQLGDLKRYLRAHLHSHNYVHSDLALRNCLLIGDYGLA,Human,,Protein tyrosine and serine/threonine kinase,135.0,407.0,1460.0,PF07714,True
+Q15375,EPHA7,EphA7,EphA7,Ephrin type-A receptor 7,TK,Eph,nan,EPHA7,MVFQTRYPSWIILCYIWLLRFAHTGEAQAAKEVLLLDSKAQQTELEWISSPPNGWEEISGLDENYTPIRTYQVCQVMEPNQNNWLRTNWISKGNAQRIFVELKFTLRDCNSLPGVLGTCKETFNLYYYETDYDTGRNIRENLYVKIDTIAADESFTQGDLGERKMKLNTEVREIGPLSKKGFYLAFQDVGACIALVSVKVYYKKCWSIIENLAIFPDTVTGSEFSSLVEVRGTCVSSAEEEAENAPRMHCSAEGEWLVPIGKCICKAGYQQKGDTCEPCGRGFYKSSSQDLQCSRCPTHSFSDKEGSSRCECEDGYYRAPSDPPYVACTRPPSAPQNLIFNINQTTVSLEWSPPADNGGRNDVTYRILCKRCSWEQGECVPCGSNIGYMPQQTGLEDNYVTVMDLLAHANYTFEVEAVNGVSDLSRSQRLFAAVSITTGQAAPSQVSGVMKERVLQRSVELSWQEPEHPNGVITEYEIKYYEKDQRERTYSTVKTKSTSASINNLKPGTVYVFQIRAFTAAGYGNYSPRLDVATLEEATGKMFEATAVSSEQNPVIIIAVVAVAGTIILVFMVFGFIIGRRHCGYSKADQEGDEELYFHFKFPGTKTYIDPETYEDPNRAVHQFAKELDASCIKIERVIGAGEFGEVCSGRLKLPGKRDVAVAIKTLKVGYTEKQRRDFLCEASIMGQFDHPNVVHLEGVVTRGKPVMIVIEFMENGALDAFLRKHDGQFTVIQLVGMLRGIAAGMRYLADMGYVHRDLAARNILVNSNLVCKVSDFGLSRVIEDDPEAVYTTTGGKIPVRWTAPEAIQYRKFTSASDVWSYGIVMWEVMSYGERPYWDMSNQDVIKAIEEGYRLPAPMDCPAGLHQLMLDCWQKERAERPKFEQIVGILDKMIRNPNSLKTPLGTCSRPISPLLDQNTPDFTTFCSVGEWLQAIKMERYKDNFTAAGYNSLESVARMTIEDVMSLGITLVGHQKKIMSSIQTMRAQMLHLHGTGIQV,Eph,EPH receptor A7,EPHA7,TK,1827,415,EphA7,RVIGAGEFGEVCSVAIKTLDFLCEASIMGQFDPNVVHLEGVMIVIEFMENGALDAFLRKYLADMGYVHRDLAARNILVVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,633.0,888.0,998.0,PF07714,True
+P51813,BMX,BMX,BMX,Cytoplasmic tyrosine-protein kinase BMX,TK,Tec,nan,BMX,MDTKSILEELLLKRSQQKKKMSPNNYKERLFVLTKTNLSYYEYDKMKRGSRKGSIEIKKIRCVEKVNLEEQTPVERQYPFQIVYKDGLLYVYASNEESRSQWLKALQKEIRGNPHLLVKYHSGFFVDGKFLCCQQSCKAAPGCTLWEAYANLHTAVNEEKHRVPTFPDRVLKIPRAVPVLKMDAPSSSTTLAQYDNESKKNYGSQPPSSSTSLAQYDSNSKKIYGSQPNFNMQYIPREDFPDWWQVRKLKSSSSSEDVASSNQKERNVNHTTSKISWEFPESSSSEEEENLDDYDWFAGNISRSQSEQLLRQKGKEGAFMVRNSSQVGMYTVSLFSKAVNDKKGTVKHYHVHTNAENKLYLAENYCFDSIPKLIHYHQHNSAGMITRLRHPVSTKANKVPDSVSLGNGIWELKREEITLLKELGSGQFGVVQLGKWKGQYDVAVKMIKEGSMSEDEFFQEAQTMMKLSHPKLVKFYGVCSKEYPIYIVTEYISNGCLLNYLRSHGKGLEPSQLLEMCYDVCEGMAFLESHQFIHRDLAARNCLVDRDLCVKVSDFGMTRYVLDDQYVSSVGTKFPVKWSAPEVFHYFKYSSKSDVWAFGILMWEVFSLGKQPYDLYDNSQVVLKVSQGHRLYRPHLASDTIYQIMYSCWHELPEKRPTFQQLLSSIEPLREKDKH,Tec,BMX non-receptor tyrosine kinase,BMX,TK,1942,472,BMX,KELGSGQFGVVQLVAVKMIEFFQEAQTMMKLSPKLVKFYGVYIVTEYISNGCLLNYLRSFLESHQFIHRDLAARNCLVVSDFGMT,Human,,Protein tyrosine and serine/threonine kinase,417.0,665.0,675.0,PF07714,True
+P42679,MATK,CTK,CTK,Megakaryocyte-associated tyrosine-protein kinase,TK,Csk,nan,MATK,MAGRGSLVSWRAFHGCDSAEELPRVSPRFLRAWHPPPVSARMPTRRWAPGTQCITKCEHTRPKPGELAFRKGDVVTILEACENKSWYRVKHHTSGQEGLLAAGALREREALSADPKLSLMPWFHGKISGQEAVQQLQPPEDGLFLVRESARHPGDYVLCVSFGRDVIHYRVLHRDGHLTIDEAVFFCNLMDMVEHYSKDKGAICTKLVRPKRKHGTKSAEEELARAGWLLNLQHLTLGAQIGEGEFGAVLQGEYLGQKVAVKNIKCDVTAQAFLDETAVMTKMQHENLVRLLGVILHQGLYIVMEHVSKGNLVNFLRTRGRALVNTAQLLQFSLHVAEGMEYLESKKLVHRDLAARNILVSEDLVAKVSDFGLAKAERKGLDSSRLPVKWTAPEALKHGKFTSKSDVWSFGVLLWEVFSYGRAPYPKMSLKEVSEAVEKGYRMEPPEGCPGPVHVLMSSCWEAEPARRPPFRKLAEKLARELRSAGAPASVSGQDADGSTSPRSQEP,Csk,megakaryocyte-associated tyrosine kinase,MATK,TK,2101,403,CTK,AQIGEGEFGAVLQVAVKNIAFLDETAVMTKMQENLVRLLGVYIVMEHVSKGNLVNFLRTYLESKKLVHRDLAARNILVVSDFGLA,Human,,Protein tyrosine and serine/threonine kinase,236.0,478.0,507.0,PF07714,True
+P42685,FRK,FRK,FRK,Tyrosine-protein kinase FRK,TK,Src,nan,FRK,MSNICQRLWEYLEPYLPCLSTEADKSTVIENPGALCSPQSQRHGHYFVALFDYQARTAEDLSFRAGDKLQVLDTLHEGWWFARHLEKRRDGSSQQLQGYIPSNYVAEDRSLQAEPWFFGAIGRSDAEKQLLYSENKTGSFLIRESESQKGEFSLSVLDGAVVKHYRIKRLDEGGFFLTRRRIFSTLNEFVSHYTKTSDGLCVKLGKPCLKIQVPAPFDLSYKTVDQWEIDRNSIQLLKRLGSGQFGEVWEGLWNNTTPVAVKTLKPGSMDPNDFLREAQIMKNLRHPKLIQLYAVCTLEDPIYIITELMRHGSLQEYLQNDTGSKIHLTQQVDMAAQVASGMAYLESRNYIHRDLAARNVLVGEHNIYKVADFGLARVFKVDNEDIYESRHEIKLPVKWTAPEAIRSNKFSIKSDVWSFGILLYEIITYGKMPYSGMTGAQVIQMLAQNYRLPQPSNCPQQFYNIMLECWNAEPKERPTFETLRWKLEDYFETDSSYSDANNFIR,Src,fyn-related Src family tyrosine kinase,FRK,TK,2025,459,FRK,KRLGSGQFGEVWEVAVKTLDFLREAQIMKNLRPKLIQLYAVYIITELMRHGSLQEYLQNYLESRNYIHRDLAARNVLVVADFGLA,Human,Frk,Protein tyrosine and serine/threonine kinase,234.0,486.0,505.0,PF07714,True
+Q9HC98,NEK6,NEK6,NEK6,Serine/threonine-protein kinase Nek6,Other,NEK,nan,NEK6,MAGQPGHMPHGGSSNNLCHTLGPVHPPDPQRHPNTLSFRCSLADFQIEKKIGRGQFSEVYKATCLLDRKTVALKKVQIFEMMDAKARQDCVKEIGLLKQLNHPNIIKYLDSFIEDNELNIVLELADAGDLSQMIKYFKKQKRLIPERTVWKYFVQLCSAVEHMHSRRVMHRDIKPANVFITATGVVKLGDLGLGRFFSSETTAAHSLVGTPYYMSPERIHENGYNFKSDIWSLGCLLYEMAALQSPFYGDKMNLFSLCQKIEQCDYPPLPGEHYSEKLRELVSMCICPDPHQRPDIGYVHQVAKQMHIWMSST,NEK,NIMA related kinase 6,NEK6,Other,2121,288,NEK6,KKIGRGQFSEVYKVALKKVDCVKEIGLLKQLNPNIIKYLDSNIVLELADAGDLSQMIKYHMHSRRVMHRDIKPANVFILGDLGLG,Human,NEK6,Protein kinase domain,45.0,296.0,313.0,PF00069,True
+Q8TDX7,NEK7,NEK7,NEK7,Serine/threonine-protein kinase Nek7,Other,NEK,nan,NEK7,MDEQSQGMQGPPVPQFQPQKALRPDMGYNTLANFRIEKKIGRGQFSEVYRAACLLDGVPVALKKVQIFDLMDAKARADCIKEIDLLKQLNHPNVIKYYASFIEDNELNIVLELADAGDLSRMIKHFKKQKRLIPERTVWKYFVQLCSALEHMHSRRVMHRDIKPANVFITATGVVKLGDLGLGRFFSSKTTAAHSLVGTPYYMSPERIHENGYNFKSDIWSLGCLLYEMAALQSPFYGDKMNLYSLCKKIEQCDYPPLPSDHYSEELRQLVNMCINPDPEKRPDVTYVYDVAKRMHACTASS,NEK,NIMA related kinase 7,NEK7,Other,2122,289,NEK7,KKIGRGQFSEVYRVALKKVDCIKEIDLLKQLNPNVIKYYASNIVLELADAGDLSRMIKHHMHSRRVMHRDIKPANVFILGDLGLG,Human,NEK6,Protein kinase domain,35.0,287.0,302.0,PF00069,True
+Q2M2I8,AAK1,AAK1,AAK1,AP2-associated protein kinase 1,Other,NAK,nan,AAK1,MKKFFDSRREQGGSGLGSGSSGGGGSTSGLGSGYIGRVFGIGRQQVTVDEVLAEGGFAIVFLVRTSNGMKCALKRMFVNNEHDLQVCKREIQIMRDLSGHKNIVGYIDSSINNVSSGDVWEVLILMDFCRGGQVVNLMNQRLQTGFTENEVLQIFCDTCEAVARLHQCKTPIIHRDLKVENILLHDRGHYVLCDFGSATNKFQNPQTEGVNAVEDEIKKYTTLSYRAPEMVNLYSGKIITTKADIWALGCLLYKLCYFTLPFGESQVAICDGNFTIPDNSRYSQDMHCLIRYMLEPDPDKRPDIYQVSYFSFKLLKKECPIPNVQNSPIPAKLPEPVKASEAAAKKTQPKARLTDPIPTTETSIAPRQRPKAGQTQPNPGILPIQPALTPRKRATVQPPPQAAGSSNQPGLLASVPQPKPQAPPSQPLPQTQAKQPQAPPTPQQTPSTQAQGLPAQAQATPQHQQQLFLKQQQQQQQPPPAQQQPAGTFYQQQQAQTQQFQAVHPATQKPAIAQFPVVSQGGSQQQLMQNFYQQQQQQQQQQQQQQLATALHQQQLMTQQAALQQKPTMAAGQQPQPQPAAAPQPAPAQEPAIQAPVRQQPKVQTTPPPAVQGQKVGSLTPPSSPKTQRAGHRRILSDVTHSAVFGVPASKSTQLLQAAAAEASLNKSKSATTTPSGSPRTSQQNVYNPSEGSTWNPFDDDNFSKLTAEELLNKDFAKLGEGKHPEKLGGSAESLIPGFQSTQGDAFATTSFSAGTAEKRKGGQTVDSGLPLLSVSDPFIPLQVPDAPEKLIEGLKSPDTSLLLPDLLPMTDPFGSTSDAVIEKADVAVESLIPGLEPPVPQRLPSQTESVTSNRTDSLTGEDSLLDCSLLSNPTTDLLEEFAPTAISAPVHKAAEDSNLISGFDVPEGSDKVAEDEFDPIPVLITKNPQGGHSRNSSGSSESSLPNLARSLLLVDQLIDL,NAK,AP2 associated kinase 1,AAK1,Other,1921,277,AAK1,EVLAEGGFAIVFLCALKRMVCKREIQIMRDLSKNIVGYIDSLILMDFCRGGQVVNLMNQHQCKTPIIHRDLKVENILLLCDFGSA,Human,BIKE,Protein kinase domain,48.0,307.0,961.0,PF00069,True
+Q96QT4,TRPM7,ChaK1,ChaK1,Transient receptor potential cation channel subfamily M member 7,Atypical,Alpha,ChaK,TRPM7,MSQKSWIESTLTKRECVYIIPSSKDPHRCLPGCQICQQLVRCFCGRLVKQHACFTASLAMKYSDVKLGDHFNQAIEEWSVEKHTEQSPTDAYGVINFQGGSHSYRAKYVRLSYDTKPEVILQLLLKEWQMELPKLVISVHGGMQKFELHPRIKQLLGKGLIKAAVTTGAWILTGGVNTGVAKHVGDALKEHASRSSRKICTIGIAPWGVIENRNDLVGRDVVAPYQTLLNPLSKLNVLNNLHSHFILVDDGTVGKYGAEVRLRRELEKTINQQRIHARIGQGVPVVALIFEGGPNVILTVLEYLQESPPVPVVVCEGTGRAADLLAYIHKQTEEGGNLPDAAEPDIISTIKKTFNFGQNEALHLFQTLMECMKRKELITVFHIGSDEHQDIDVAILTALLKGTNASAFDQLILTLAWDRVDIAKNHVFVYGQQWLVGSLEQAMLDALVMDRVAFVKLLIENGVSMHKFLTIPRLEELYNTKQGPTNPMLFHLVRDVKQGNLPPGYKITLIDIGLVIEYLMGGTYRCTYTRKRFRLIYNSLGGNNRRSGRNTSSSTPQLRKSHESFGNRADKKEKMRHNHFIKTAQPYRPKIDTVMEEGKKKRTKDEIVDIDDPETKRFPYPLNELLIWACLMKRQVMARFLWQHGEESMAKALVACKIYRSMAYEAKQSDLVDDTSEELKQYSNDFGQLAVELLEQSFRQDETMAMKLLTYELKNWSNSTCLKLAVSSRLRPFVAHTCTQMLLSDMWMGRLNMRKNSWYKVILSILVPPAILLLEYKTKAEMSHIPQSQDAHQMTMDDSENNFQNITEEIPMEVFKEVRILDSNEGKNEMEIQMKSKKLPITRKFYAFYHAPIVKFWFNTLAYLGFLMLYTFVVLVQMEQLPSVQEWIVIAYIFTYAIEKVREIFMSEAGKVNQKIKVWFSDYFNISDTIAIISFFIGFGLRFGAKWNFANAYDNHVFVAGRLIYCLNIIFWYVRLLDFLAVNQQAGPYVMMIGKMVANMFYIVVIMALVLLSFGVPRKAILYPHEAPSWTLAKDIVFHPYWMIFGEVYAYEIDVCANDSVIPQICGPGTWLTPFLQAVYLFVQYIIMVNLLIAFFNNVYLQVKAISNIVWKYQRYHFIMAYHEKPVLPPPLIILSHIVSLFCCICKRRKKDKTSDGPKLFLTEEDQKKLHDFEEQCVEMYFNEKDDKFHSGSEERIRVTFERVEQMCIQIKEVGDRVNYIKRSLQSLDSQIGHLQDLSALTVDTLKTLTAQKASEASKVHNEITRELSISKHLAQNLIDDGPVRPSVWKKHGVVNTLSSSLPQGDLESNNPFHCNILMKDDKDPQCNIFGQDLPAVPQRKEFNFPEAGSSSGALFPSAVSPPELRQRLHGVELLKIFNKNQKLGSSSTSIPHLSSPPTKFFVSTPSQPSCKSHLETGTKDQETVCSKATEGDNTEFGAFVGHRDSMDLQRFKETSNKIKILSNNNTSENTLKRVSSLAGFTDCHRTSIPVHSKQAEKISRRPSTEDTHEVDSKAALIPDWLQDRPSNREMPSEEGTLNGLTSPFKPAMDTNYYYSAVERNNLMRLSQSIPFTPVPPRGEPVTVYRLEESSPNILNNSMSSWSQLGLCAKIEFLSKEEMGGGLRRAVKVQCTWSEHDILKSGHLYIIKSFLPEVVNTWSSIYKEDTVLHLCLREIQQQRAAQKLTFAFNQMKPKSIPYSPRFLEVFLLYCHSAGQWFAVEECMTGEFRKYNNNNGDEIIPTNTLEEIMLAFSHWTYEYTRGELLVLDLQGVGENLTDPSVIKAEEKRSCDMVFGPANLGEDAIKNFRAKHHCNSCCRKLKLPDLKRNDYTPDKIIFPQDEPSDLNLQPGNSTKESESTNSVRLML,Alpha,Transient receptor potential cation channel subfamily M member 7,TRPM7,Atypical,499,78,ChaK1,,Human,ChaK,,,,,,
+Q14289,PTK2B,PYK2,PYK2,Protein-tyrosine kinase 2-beta,TK,FAK,nan,PTK2B,MSGVSEPLSRVKLGTLRRPEGPAEPMVVVPVDVEKEDVRILKVCFYSNSFNPGKNFKLVKCTVQTEIREIITSILLSGRIGPNIRLAECYGLRLKHMKSDEIHWLHPQMTVGEVQDKYECLHVEAEWRYDLQIRYLPEDFMESLKEDRTTLLYFYQQLRNDYMQRYASKVSEGMALQLGCLELRRFFKDMPHNALDKKSNFELLEKEVGLDLFFPKQMQENLKPKQFRKMIQQTFQQYASLREEECVMKFFNTLAGFANIDQETYRCELIQGWNITVDLVIGPKGIRQLTSQDAKPTCLAEFKQIRSIRCLPLEEGQAVLQLGIEGAPQALSIKTSSLAEAENMADLIDGYCRLQGEHQGSLIIHPRKDGEKRNSLPQIPMLNLEARRSHLSESCSIESDIYAEIPDETLRRPGGPQYGIAREDVVLNRILGEGFFGEVYEGVYTNHKGEKINVAVKTCKKDCTLDNKEKFMSEAVIMKNLDHPHIVKLIGIIEEEPTWIIMELYPYGELGHYLERNKNSLKVLTLVLYSLQICKAMAYLESINCVHRDIAVRNILVASPECVKLGDFGLSRYIEDEDYYKASVTRLPIKWMSPESINFRRFTTASDVWMFAVCMWEILSFGKQPFFWLENKDVIGVLEKGDRLPKPDLCPPVLYTLMTRCWDYDPSDRPRFTELVCSLSDVYQMEKDIAMEQERNARYRTPKILEPTAFQEPPPKPSRPKYRPPPQTNLLAPKLQFQVPEGLCASSPTLTSPMEYPSPVNSLHTPPLHRHNVFKRHSMREEDFIQPSSREEAQQLWEAEKVKMRQILDKQQKQMVEDYQWLRQEEKSLDPMVYMNDKSPLTPEKEVGYLEFTGPPQKPPRLGAQSIQPTANLDRTDDLVYLNVMELVRAVLELKNELCQLPPEGYVVVVKNVGLTLRKLIGSVDDLLPSLPSSSRTEIEGTQKLLNKDLAELINKMRLAQQNAVTSLSEECKRQMLTASHTLAVDAKNLLDAVDQAKVLANLAHPPAE,FAK,protein tyrosine kinase 2 beta,PTK2B,TK,2181,424,PYK2,RILGEGFFGEVYEVAVKTCKFMSEAVIMKNLDPHIVKLIGIWIIMELYPYGELGHYLERYLESINCVHRDIAVRNILVLGDFGLS,Human,,Protein tyrosine and serine/threonine kinase,427.0,679.0,1009.0,PF07714,True
+Q9H3Y6,SRMS,SRM,SRM,Tyrosine-protein kinase Srms,TK,Src,nan,SRMS,MEPFLRRRLAFLSFFWDKIWPAGGEPDHGTPGSLDPNTDPVPTLPAEPCSPFPQLFLALYDFTARCGGELSVRRGDRLCALEEGGGYIFARRLSGQPSAGLVPITHVAKASPETLSDQPWYFSGVSRTQAQQLLLSPPNEPGAFLIRPSESSLGGYSLSVRAQAKVCHYRVSMAADGSLYLQKGRLFPGLEELLTYYKANWKLIQNPLLQPCMPQKAPRQDVWERPHSEFALGRKLGEGYFGEVWEGLWLGSLPVAIKVIKSANMKLTDLAKEIQTLKGLRHERLIRLHAVCSGGEPVYIVTELMRKGNLQAFLGTPEGRALRLPPLLGFACQVAEGMSYLEEQRVVHRDLAARNVLVDDGLACKVADFGLARLLKDDIYSPSSSSKIPVKWTAPEAANYRVFSQKSDVWSFGVLLHEVFTYGQCPYEGMTNHETLQQIMRGYRLPRPAACPAEVYVLMLECWRSSPEERPSFATLREKLHAIHRCHP,Src,src-related kinase lacking C-terminal regulatory tyrosine and N-terminal myristylation sites,SRMS,TK,2207,469,SRM,RKLGEGYFGEVWEVAIKVIDLAKEIQTLKGLRERLIRLHAVYIVTELMRKGNLQAFLGTYLEEQRVVHRDLAARNVLVVADFGLA,Human,SRM,Protein tyrosine and serine/threonine kinase,232.0,480.0,488.0,PF07714,True
+O94804,STK10,LOK,LOK,Serine/threonine-protein kinase 10,STE,STE20,SLK,STK10,MAFANFRRILRLSTFEKRKSREYEHVRRDLDPNEVWEIVGELGDGAFGKVYKAKNKETGALAAAKVIETKSEEELEDYIVEIEILATCDHPYIVKLLGAYYHDGKLWIMIEFCPGGAVDAIMLELDRGLTEPQIQVVCRQMLEALNFLHSKRIIHRDLKAGNVLMTLEGDIRLADFGVSAKNLKTLQKRDSFIGTPYWMAPEVVMCETMKDTPYDYKADIWSLGITLIEMAQIEPPHHELNPMRVLLKIAKSDPPTLLTPSKWSVEFRDFLKIALDKNPETRPSAAQLLEHPFVSSITSNKALRELVAEAKAEVMEEIEDGRDEGEEEDAVDAASTLENHTQNSSEVSPPSLNADKPLEESPSTPLAPSQSQDSVNEPCSQPSGDRSLQTTSPPVVAPGNENGLAVPVPLRKSRPVSMDARIQVAQEKQVAEQGGDLSPAANRSQKASQSRPNSSALETLGGEKLANGSLEPPAQAAPGPSKRDSDCSSLCTSESMDYGTNLSTDLSLNKEMGSLSIKDPKLYKKTLKRTRKFVVDGVEVSITTSKIISEDEKKDEEMRFLRRQELRELRLLQKEEHRNQTQLSNKHELQLEQMHKRFEQEINAKKKFFDTELENLERQQKQQVEKMEQDHAVRRREEARRIRLEQDRDYTRFQEQLKLMKKEVKNEVEKLPRQQRKESMKQKMEEHTQKKQLLDRDFVAKQKEDLELAMKRLTTDNRREICDKERECLMKKQELLRDREAALWEMEEHQLQERHQLVKQQLKDQYFLQRHELLRKHEKEREQMQRYNQRMIEQLKVRQQQEKARLPKIQRSEGKTRMAMYKKSLHINGGGSAAEQREKIKQFSQQEEKRQKSERLQQQQKHENQMRDMLAQCESNMSELQQLQNEKCHLLVEHETQKLKALDESHNQNLKEWRDKLRPRKKALEEDLNQKKREQEMFFKLSEEAECPNPSTPSKAAKFFPYSSADAS,STE20,serine/threonine kinase 10,STK10,STE,2211,373,LOK,GELGDGAFGKVYKAAAKVIDYIVEIEILATCDPYIVKLLGAWIMIEFCPGGAVDAIMLEFLHSKRIIHRDLKAGNVLMLADFGVS,Human,SLK,Protein kinase domain,37.0,294.0,968.0,PF00069,True
+Q8IVH8,MAP4K3,KHS2,KHS2,Mitogen-activated protein kinase kinase kinase kinase 3,STE,STE20,KHS,MAP4K3,MNPGFDLSRRNPQEDFELIQRIGSGTYGDVYKARNVNTGELAAIKVIKLEPGEDFAVVQQEIIMMKDCKHPNIVAYFGSYLRRDKLWICMEFCGGGSLQDIYHVTGPLSELQIAYVSRETLQGLYYLHSKGKMHRDIKGANILLTDNGHVKLADFGVSAQITATIAKRKSFIGTPYWMAPEVAAVERKGGYNQLCDLWAVGITAIELAELQPPMFDLHPMRALFLMTKSNFQPPKLKDKMKWSNSFHHFVKMALTKNPKKRPTAEKLLQHPFVTQHLTRSLAIELLDKVNNPDHSTYHDFDDDDPEPLVAVPHRIHSTSRNVREEKTRSEITFGQVKFDPPLRKETEPHHELPDSDGFLDSSEEIYYTARSNLDLQLEYGQGHQGGYFLGANKSLLKSVEEELHQRGHVAHLEDDEGDDDESKHSTLKAKIPPPLPPKPKSIFIPQEMHSTEDENQGTIKRCPMSGSPAKPSQVPPRPPPPRLPPHKPVALGNGMSSFQLNGERDGSLCQQQNEHRGTNLSRKEKKDVPKPISNGLPPTPKVHMGACFSKVFNGCPLKIHCASSWINPDTRDQYLIFGAEEGIYTLNLNELHETSMEQLFPRRCTWLYVMNNCLLSISGKASQLYSHNLPGLFDYARQMQKLPVAIPAHKLPDRILPRKFSVSAKIPETKWCQKCCVVRNPYTGHKYLCGALQTSIVLLEWVEPMQKFMLIKHIDFPIPCPLRMFEMLVVPEQEYPLVCVGVSRGRDFNQVVRFETVNPNSTSSWFTESDTPQTNVTHVTQLERDTILVCLDCCIKIVNLQGRLKSSRKLSSELTFDFQIESIVCLQDSVLAFWKHGMQGRSFRSNEVTQEISDSTRIFRLLGSDRVVVLESRPTDNPTANSNLYILAGHENSY,STE20,mitogen-activated protein kinase kinase kinase kinase 3,MAP4K3,STE,2087,356,KHS2,QRIGSGTYGDVYKAAIKVIVVQQEIIMMKDCKPNIVAYFGSWICMEFCGGGSLQDIYHVYLHSKGKMHRDIKGANILLLADFGVS,Human,KHS,Protein kinase domain,16.0,273.0,894.0,PF00069,True
+O95747,OXSR1,OSR1,OSR1,Serine/threonine-protein kinase OSR1,STE,STE20,FRAY,OXSR1,MSEDSSALPWSINRDDYELQEVIGSGATAVVQAAYCAPKKEKVAIKRINLEKCQTSMDELLKEIQAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLATGGDITRNKVRKTFVGTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETGVQDKEMLKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFFQKAKNKEFLQEKTLQRAPTISERAKKVRRVPGSSGRLHKTEDGGWEWSDDEFDEESEEGKAAISQLRSPRVKESISNSELFPTTDPVGTLLQVPEQISAHLPQPAGQIATQPTQVSLPPTAEPAKTAQALSSGSGSQETKIPISLVLRLRNSKKELNDIRFEFTPGRDTAEGVSQELISAGLVDGRDLVIVAANLQKIVEEPQSNRSVTFKLASGVEGSDIPDDGKLIGFAQLSIS,STE20,oxidative stress responsive 1,OXSR1,STE,2132,353,OSR1,EVIGSGATAVVQAVAIKRIELLKEIQAMSQCHPNIVSYYTSWLVMKLLSGGSVLDIIKHYLHKNGQIHRDVKAGNILLIADFGVS,Human,FRAY,Protein kinase domain,17.0,291.0,527.0,PF00069,True
+Q9NQU5,PAK6,PAK6,PAK6,Serine/threonine-protein kinase PAK 6,STE,STE20,PAKB,PAK6,MFRKKKKKRPEISAPQNFQHRVHTSFDPKEGKFVGLPPQWQNILDTLRRPKPVVDPSRITRVQLQPMKTVVRGSAMPVDGYISGLLNDIQKLSVISSNTLRGRSPTSRRRAQSLGLLGDEHWATDPDMYLQSPQSERTDPHGLYLSCNGGTPAGHKQMPWPEPQSPRVLPNGLAAKAQSLGPAEFQGASQRCLQLGACLQSSPPGASPPTGTNRHGMKAAKHGSEEARPQSCLVGSATGRPGGEGSPSPKTRESSLKRRLFRSMFLSTAATAPPSSSKPGPPPQSKPNSSFRPPQKDNPPSLVAKAQSLPSDQPVGTFSPLTTSDTSSPQKSLRTAPATGQLPGRSSPAGSPRTWHAQISTSNLYLPQDPTVAKGALAGEDTGVVTHEQFKAALRMVVDQGDPRLLLDSYVKIGEGSTGIVCLAREKHSGRQVAVKMMDLRKQQRRELLFNEVVIMRDYQHFNVVEMYKSYLVGEELWVLMEFLQGGALTDIVSQVRLNEEQIATVCEAVLQALAYLHAQGVIHRDIKSDSILLTLDGRVKLSDFGFCAQISKDVPKRKSLVGTPYWMAPEVISRSLYATEVDIWSLGIMVIEMVDGEPPYFSDSPVQAMKRLRDSPPPKLKNSHKVSPVLRDFLERMLVRDPQERATAQELLDHPFLLQTGLPECLVPLIQLYRKQTSTC,STE20,p21 protein (Cdc42/Rac)-activated kinase 6,PAK6,STE,2137,371,PAK6,VKIGEGSTGIVCLVAVKMMLLFNEVVIMRDYQFNVVEMYKSWVLMEFLQGGALTDIVSQYLHAQGVIHRDIKSDSILLLSDFGFC,Human,PAKB,Protein kinase domain,411.0,658.0,681.0,PF00069,True
+O96013,PAK4,PAK4,PAK4,Serine/threonine-protein kinase PAK 4,STE,STE20,PAKB,PAK4,MFGKRKKRVEISAPSNFEHRVHTGFDQHEQKFTGLPRQWQSLIEESARRPKPLVDPACITSIQPGAPKTIVRGSKGAKDGALTLLLDEFENMSVTRSNSLRRDSPPPPARARQENGMPEEPATTARGGPGKAGSRGRFAGHSEAGGGSGDRRRAGPEKRPKSSREGSGGPQESSRDKRPLSGPDVGTPQPAGLASGAKLAAGRPFNTYPRADTDHPSRGAQGEPHDVAPNGPSAGGLAIPQSSSSSSRPPTRARGAPSPGVLGPHASEPQLAPPACTPAAPAVPGPPGPRSPQREPQRVSHEQFRAALQLVVDPGDPRSYLDNFIKIGEGSTGIVCIATVRSSGKLVAVKKMDLRKQQRRELLFNEVVIMRDYQHENVVEMYNSYLVGDELWVVMEFLEGGALTDIVTHTRMNEEQIAAVCLAVLQALSVLHAQGVIHRDIKSDSILLTHDGRVKLSDFGFCAQVSKEVPRRKSLVGTPYWMAPELISRLPYGPEVDIWSLGIMVIEMVDGEPPYFNEPPLKAMKMIRDNLPPRLKNLHKVSPSLKGFLDRLLVRDPAQRATAAELLKHPFLAKAGPPASIVPLMRQNRTR,STE20,p21 protein (Cdc42/Rac)-activated kinase 4,PAK4,STE,2136,370,PAK4,IKIGEGSTGIVCIVAVKKMLLFNEVVIMRDYQENVVEMYNSWVVMEFLEGGALTDIVTHVLHAQGVIHRDIKSDSILLLSDFGFC,Human,PAKB,Protein kinase domain,326.0,572.0,591.0,PF00069,True
+Q9P289,STK26,MST4,MST4,Serine/threonine-protein kinase MST4,STE,STE20,YSK,STK26,MAHSPVAVQVPGMQNNIADPEELFTKLERIGKGSFGEVFKGIDNRTQQVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSSYVTKYYGSYLKGSKLWIIMEYLGGGSALDLLRAGPFDEFQIATMLKEILKGLDYLHSEKKIHRDIKAANVLLSEQGDVKLADFGVAGQLTDTQIKRNTFVGTPFWMAPEVIQQSAYDSKADIWSLGITAIELAKGEPPNSDMHPMRVLFLIPKNNPPTLVGDFTKSFKEFIDACLNKDPSFRPTAKELLKHKFIVKNSKKTSYLTELIDRFKRWKAEGHSDDESDSEGSDSESTSRENNTHPEWSFTTVRKKPDPKKVQNGAEQDLVQTLSCLSMIITPAFAELKQQDENNASRNQAIEELEKSIAVAEAACPGITDKMVKKLIEKFQKCSADESP,STE20,serine/threonine protein kinase 26,STK26,STE,2287,382,MST4,ERIGKGSFGEVFKVAIKIIDIQQEITVLSQCDSYVTKYYGSWIIMEYLGGGSALDLLRAYLHSEKKIHRDIKAANVLLLADFGVA,Human,YSK,Protein kinase domain,24.0,274.0,416.0,PF00069,True
+Q9UEW8,STK39,STLK3,STLK3,STE20/SPS1-related proline-alanine-rich protein kinase,STE,STE20,FRAY,STK39,MAEPSGSPVHVQLPQQAAPVTAAAAAAPAAATAAPAPAAPAAPAPAPAPAAQAVGWPICRDAYELQEVIGSGATAVVQAALCKPRQERVAIKRINLEKCQTSMDELLKEIQAMSQCSHPNVVTYYTSFVVKDELWLVMKLLSGGSMLDIIKYIVNRGEHKNGVLEEAIIATILKEVLEGLDYLHRNGQIHRDLKAGNILLGEDGSVQIADFGVSAFLATGGDVTRNKVRKTFVGTPCWMAPEVMEQVRGYDFKADMWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPTLETGVEDKEMMKKYGKSFRKLLSLCLQKDPSKRPTAAELLKCKFFQKAKNREYLIEKLLTRTPDIAQRAKKVRRVPGSSGHLHKTEDGDWEWSDDEMDEKSEEGKAAFSQEKSRRVKEENPEIAVSASTIPEQIQSLSVHDSQGPPNANEDYREASSCAVNLVLRLRNSRKELNDIRFEFTPGRDTADGVSQELFSAGLVDGHDVVIVAANLQKIVDDPKALKTLTFKLASGCDGSEIPDEVKLIGFAQLSVS,STE20,serine/threonine kinase 39,STK39,STE,2224,354,STLK3,EVIGSGATAVVQAVAIKRIELLKEIQAMSQCSPNVVTYYTSWLVMKLLSGGSMLDIIKYYLHRNGQIHRDLKAGNILLIADFGVS,Human,FRAY,Protein kinase domain,63.0,337.0,545.0,PF00069,True
+Q7RTN6,STRADA,STLK5,STLK5,STE20-related kinase adapter protein alpha,STE,STE20,STLK,STRADA,MSFLVSKPERIRRWVSEKFIVEGLRDLELFGEQPPGDTRRKTNDASSESIASFSKQEVMSSFLPEGGCYELLTVIGKGFEDLMTVNLARYKPTGEYVTVRRINLEACSNEMVTFLQGELHVSKLFNHPNIVPYRATFIADNELWVVTSFMAYGSAKDLICTHFMDGMNELAIAYILQGVLKALDYIHHMGYVHRSVKASHILISVDGKVYLSGLRSNLSMISHGQRQRVVHDFPKYSVKVLPWLSPEVLQQNLQGYDAKSDIYSVGITACELANGHVPFKDMPATQMLLEKLNGTVPCLLDTSTIPAEELTMSPSRSVANSGLSDSLTTSTPRPSNGDSPSHPYHRTFSPHFHHFVEQCLQRNPDARPSASTLLNHSFFKQIKRRASEALPELLRPVTPITNFEGSQSQDHSGIFGLVTNLEELEVDDWEF,STE20,STE20-related kinase adaptor alpha,STRADA,STE,0,376,STLK5,TVIGKGFEDLMTVVTVRRIFLQGELHVSKLFNPNIVPYRATWVVTSFMAYGSAKDLICTYIHHMGYVHRSVKASHILILSGLRSN,Human,STLK,Protein kinase domain,69.0,379.0,431.0,PF00069,True
+Q9C0K7,STRADB,STLK6,STLK6,STE20-related kinase adapter protein beta,STE,STE20,STLK,STRADB,MSLLDCFCTSRTQVESLRPEKQSETSIHQYLVDEPTLSWSRPSTRASEVLCSTNVSHYELQVEIGRGFDNLTSVHLARHTPTGTLVTIKITNLENCNEERLKALQKAVILSHFFRHPNITTYWTVFTVGSWLWVISPFMAYGSASQLLRTYFPEGMSETLIRNILFGAVRGLNYLHQNGCIHRSIKASHILISGDGLVTLSGLSHLHSLVKHGQRHRAVYDFPQFSTSVQPWLSPELLRQDLHGYNVKSDIYSVGITACELASGQVPFQDMHRTQMLLQKLKGPPYSPLDISIFPQSESRMKNSQSGVDSGIGESVLVSSGTHTVNSDRLHTPSSKTFSPAFFSLVQLCLQQDPEKRPSASSLLSHVFFKQMKEESQDSILSLLPPAYNKPSISLPPVLPWTEPECDFPDEKDSYWEF,STE20,STE20-related kinase adaptor beta,STRADB,STE,0,375,STLK6,VEIGRGFDNLTSVVTIKITALQKAVILSHFFRPNITTYWTVWVISPFMAYGSASQLLRTYLHQNGCIHRSIKASHILILSGLSHL,Human,STLK,Protein kinase domain,58.0,369.0,418.0,PF00069,True
+Q9H2K8,TAOK3,TAO3,TAO3,Serine/threonine-protein kinase TAO3,STE,STE20,TAO,TAOK3,MRKGVLKDPEIADLFYKDDPEELFIGLHEIGHGSFGAVYFATNAHTSEVVAIKKMSYSGKQTHEKWQDILKEVKFLRQLKHPNTIEYKGCYLKEHTAWLVMEYCLGSASDLLEVHKKPLQEVEIAAITHGALHGLAYLHSHALIHRDIKAGNILLTEPGQVKLADFGSASMASPANSFVGTPYWMAPEVILAMDEGQYDGKVDIWSLGITCIELAERKPPLFNMNAMSALYHIAQNDSPTLQSNEWTDSFRRFVDYCLQKIPQERPTSAELLRHDFVRRDRPLRVLIDLIQRTKDAVRELDNLQYRKMKKILFQETRNGPLNESQEDEEDSEHGTSLNREMDSLGSNHSIPSMSVSTGSQSSSVNSMQEVMDESSSELVMMHDDESTINSSSSVVHKKDHVFIRDEAGHGDPRPEPRPTQSVQSQALHYRNRERFATIKSASLVTRQIHEHEQENELREQMSGYKRMRRQHQKQLIALENKLKAEMDEHRLKLQKEVETHANNSSIELEKLAKKQVAIIEKEAKVAAADEKKFQQQILAQQKKDLTTFLESQKKQYKICKEKIKEEMNEDHSTPKKEKQERISKHKENLQHTQAEEEAHLLTQQRLYYDKNCRFFKRKIMIKRHEVEQQNIREELNKKRTQKEMEHAMLIRHDESTRELEYRQLHTLQKLRMDLIRLQHQTELENQLEYNKRRERELHRKHVMELRQQPKNLKAMEMQIKKQFQDTCKVQTKQYKALKNHQLEVTPKNEHKTILKTLKDEQTRKLAILAEQYEQSINEMMASQALRLDEAQEAECQALRLQLQQEMELLNAYQSKIKMQTEAQHERELQKLEQRVSLRRAHLEQKIEEELAALQKERSERIKNLLERQEREIETFDMESLRMGFGNLVTLDFPKEDYR,STE20,TAO kinase 3,TAOK3,STE,2235,378,TAO3,HEIGHGSFGAVYFVAIKKMDILKEVKFLRQLKPNTIEYKGCWLVMEYCLGSASDLLEVHYLHSHALIHRDIKAGNILLLADFGSA,Human,TAO,Protein kinase domain,28.0,277.0,898.0,PF00069,True
+Q7L7X3,TAOK1,TAO1,TAO1,Serine/threonine-protein kinase TAO1,STE,STE20,TAO,TAOK1,MPSTNRAGSLKDPEIAELFFKEDPEKLFTDLREIGHGSFGAVYFARDVRTNEVVAIKKMSYSGKQSTEKWQDIIKEVKFLQRIKHPNSIEYKGCYLREHTAWLVMEYCLGSASDLLEVHKKPLQEVEIAAITHGALQGLAYLHSHTMIHRDIKAGNILLTEPGQVKLADFGSASMASPANSFVGTPYWMAPEVILAMDEGQYDGKVDVWSLGITCIELAERKPPLFNMNAMSALYHIAQNESPTLQSNEWSDYFRNFVDSCLQKIPQDRPTSEELLKHIFVLRERPETVLIDLIQRTKDAVRELDNLQYRKMKKLLFQEAHNGPAVEAQEEEEEQDHGVGRTGTVNSVGSNQSIPSMSISASSQSSSVNSLPDVSDDKSELDMMEGDHTVMSNSSVIHLKPEEENYREEGDPRTRASDPQSPPQVSRHKSHYRNREHFATIRTASLVTRQMQEHEQDSELREQMSGYKRMRRQHQKQLMTLENKLKAEMDEHRLRLDKDLETQRNNFAAEMEKLIKKHQAAMEKEAKVMSNEEKKFQQHIQAQQKKELNSFLESQKREYKLRKEQLKEELNENQSTPKKEKQEWLSKQKENIQHFQAEEEANLLRRQRQYLELECRRFKRRMLLGRHNLEQDLVREELNKRQTQKDLEHAMLLRQHESMQELEFRHLNTIQKMRCELIRLQHQTELTNQLEYNKRRERELRRKHVMEVRQQPKSLKSKELQIKKQFQDTCKIQTRQYKALRNHLLETTPKSEHKAVLKRLKEEQTRKLAILAEQYDHSINEMLSTQALRLDEAQEAECQVLKMQLQQELELLNAYQSKIKMQAEAQHDRELRELEQRVSLRRALLEQKIEEEMLALQNERTERIRSLLERQAREIEAFDSESMRLGFSNMVLSNLSPEAFSHSYPGASGWSHNPTGGPGPHWGHPMGGPPQAWGHPMQGGPQPWGHPSGPMQGVPRGSSMGVRNSPQALRRTASGGRTEQGMSRSTSVTSQISNGSHMSYT,STE20,TAO kinase 1,TAOK1,STE,2233,379,TAO1,REIGHGSFGAVYFVAIKKMDIIKEVKFLQRIKPNSIEYKGCWLVMEYCLGSASDLLEVHYLHSHTMIHRDIKAGNILLLADFGSA,Human,TAO,Protein kinase domain,29.0,280.0,1001.0,PF00069,True
+O95819,MAP4K4,HGK,ZC1/HGK,Mitogen-activated protein kinase kinase kinase kinase 4,STE,STE20,MSN,MAP4K4,MANDSPAKSLVDIDLSSLRDPAGIFELVEVVGNGTYGQVYKGRHVKTGQLAAIKVMDVTEDEEEEIKLEINMLKKYSHHRNIATYYGAFIKKSPPGHDDQLWLVMEFCGAGSITDLVKNTKGNTLKEDWIAYISREILRGLAHLHIHHVIHRDIKGQNVLLTENAEVKLVDFGVSAQLDRTVGRRNTFIGTPYWMAPEVIACDENPDATYDYRSDLWSCGITAIEMAEGAPPLCDMHPMRALFLIPRNPPPRLKSKKWSKKFFSFIEGCLVKNYMQRPSTEQLLKHPFIRDQPNERQVRIQLKDHIDRTRKKRGEKDETEYEYSGSEEEEEEVPEQEGEPSSIVNVPGESTLRRDFLRLQQENKERSEALRRQQLLQEQQLREQEEYKRQLLAERQKRIEQQKEQRRRLEEQQRREREARRQQEREQRRREQEEKRRLEELERRRKEEEERRRAEEEKRRVEREQEYIRRQLEEEQRHLEVLQQQLLQEQAMLLECRWREMEEHRQAERLQRQLQQEQAYLLSLQHDHRRPHPQHSQQPPPPQQERSKPSFHAPEPKAHYEPADRAREVEDRFRKTNHSSPEAQSKQTGRVLEPPVPSRSESFSNGNSESVHPALQRPAEPQVPVRTTSRSPVLSRRDSPLQGSGQQNSQAGQRNSTSIEPRLLWERVEKLVPRPGSGSSSGSSNSGSQPGSHPGSQSGSGERFRVRSSSKSEGSPSQRLENAVKKPEDKKEVFRPLKPADLTALAKELRAVEDVRPPHKVTDYSSSSEESGTTDEEDDDVEQEGADESTSGPEDTRAASSLNLSNGETESVKTMIVHDDVESEPAMTPSKEGTLIVRQTQSASSTLQKHKSSSSFTPFIDPRLLQISPSSGTTVTSVVGFSCDGMRPEAIRQDPTRKGSVVNVNPTNTRPQSDTPEIRKYKKRFNSEILCAALWGVNLLVGTESGLMLLDRSGQGKVYPLINRRRFQQMDVLEGLNVLVTISGKKDKLRVYYLSWLRNKILHNDPEVEKKQGWTTVGDLEGCVHYKVVKYERIKFLVIALKSSVEVYAWAPKPYHKFMAFKSFGELVHKPLLVDLTVEEGQRLKVIYGSCAGFHAVDVDSGSVYDIYLPTHIQCSIKPHAIIILPNTDGMELLVCYEDEGVYVNTYGRITKDVVLQWGEMPTSVAYIRSNQTMGWGEKAIEIRSVETGHLDGVFMHKRAQRLKFLCERNDKVFFASVRSGGSSQVYFMTLGRTSLLSW,STE20,mitogen-activated protein kinase kinase kinase kinase 4,MAP4K4,STE,2088,359,HGK,EVVGNGTYGQVYKAAIKVMEIKLEINMLKKYSRNIATYYGAWLVMEFCGAGSITDLVKNHLHIHHVIHRDIKGQNVLLLVDFGVS,Human,MSN,Protein kinase domain,25.0,289.0,1239.0,PF00069,True
+Q9UKE5,TNIK,TNIK,ZC2/TNIK,TRAF2 and NCK-interacting protein kinase,STE,STE20,MSN,TNIK,MASDSPARSLDEIDLSALRDPAGIFELVELVGNGTYGQVYKGRHVKTGQLAAIKVMDVTGDEEEEIKQEINMLKKYSHHRNIATYYGAFIKKNPPGMDDQLWLVMEFCGAGSVTDLIKNTKGNTLKEEWIAYICREILRGLSHLHQHKVIHRDIKGQNVLLTENAEVKLVDFGVSAQLDRTVGRRNTFIGTPYWMAPEVIACDENPDATYDFKSDLWSLGITAIEMAEGAPPLCDMHPMRALFLIPRNPAPRLKSKKWSKKFQSFIESCLVKNHSQRPATEQLMKHPFIRDQPNERQVRIQLKDHIDRTKKKRGEKDETEYEYSGSEEEEEENDSGEPSSILNLPGESTLRRDFLRLQLANKERSEALRRQQLEQQQRENEEHKRQLLAERQKRIEEQKEQRRRLEEQQRREKELRKQQEREQRRHYEEQMRREEERRRAEHEQEYIRRQLEEEQRQLEILQQQLLHEQALLLEYKRKQLEEQRQAERLQRQLKQERDYLVSLQHQRQEQRPVEKKPLYHYKEGMSPSEKPAWAKEVEERSRLNRQSSPAMPHKVANRISDPNLPPRSESFSISGVQPARTPPMLRPVDPQIPHLVAVKSQGPALTASQSVHEQPTKGLSGFQEALNVTSHRVEMPRQNSDPTSENPPLPTRIEKFDRSSWLRQEEDIPPKVPQRTTSISPALARKNSPGNGSALGPRLGSQPIRASNPDLRRTEPILESPLQRTSSGSSSSSSTPSSQPSSQGGSQPGSQAGSSERTRVRANSKSEGSPVLPHEPAKVKPEESRDITRPSRPASYKKAIDEDLTALAKELRELRIEETNRPMKKVTDYSSSSEESESSEEEEEDGESETHDGTVAVSDIPRLIPTGAPGSNEQYNVGMVGTHGLETSHADSFSGSISREGTLMIRETSGEKKRSGHSDSNGFAGHINLPDLVQQSHSPAGTPTEGLGRVSTHSQEMDSGTEYGMGSSTKASFTPFVDPRVYQTSPTDEDEEDEESSAAALFTSELLRQEQAKLNEARKISVVNVNPTNIRPHSDTPEIRKYKKRFNSEILCAALWGVNLLVGTENGLMLLDRSGQGKVYNLINRRRFQQMDVLEGLNVLVTISGKKNKLRVYYLSWLRNRILHNDPEVEKKQGWITVGDLEGCIHYKVVKYERIKFLVIALKNAVEIYAWAPKPYHKFMAFKSFADLQHKPLLVDLTVEEGQRLKVIFGSHTGFHVIDVDSGNSYDIYIPSHIQGNITPHAIVILPKTDGMEMLVCYEDEGVYVNTYGRITKDVVLQWGEMPTSVAYIHSNQIMGWGEKAIEIRSVETGHLDGVFMHKRAQRLKFLCERNDKVFFASVRSGGSSQVFFMTLNRNSMMNW,STE20,TRAF2 and NCK interacting kinase,TNIK,STE,2244,360,TNIK,ELVGNGTYGQVYKAAIKVMEIKQEINMLKKYSRNIATYYGAWLVMEFCGAGSVTDLIKNHLHQHKVIHRDIKGQNVLLLVDFGVS,Human,MSN,Protein kinase domain,26.0,289.0,1360.0,PF00069,True
+Q8N4C8,MINK1,MINK,ZC3/MINK,Misshapen-like kinase 1,STE,STE20,MSN,MINK1,MGDPAPARSLDDIDLSALRDPAGIFELVEVVGNGTYGQVYKGRHVKTGQLAAIKVMDVTEDEEEEIKQEINMLKKYSHHRNIATYYGAFIKKSPPGNDDQLWLVMEFCGAGSVTDLVKNTKGNALKEDCIAYICREILRGLAHLHAHKVIHRDIKGQNVLLTENAEVKLVDFGVSAQLDRTVGRRNTFIGTPYWMAPEVIACDENPDATYDYRSDIWSLGITAIEMAEGAPPLCDMHPMRALFLIPRNPPPRLKSKKWSKKFIDFIDTCLIKTYLSRPPTEQLLKFPFIRDQPTERQVRIQLKDHIDRSRKKRGEKEETEYEYSGSEEEDDSHGEEGEPSSIMNVPGESTLRREFLRLQQENKSNSEALKQQQQLQQQQQRDPEAHIKHLLHQRQRRIEEQKEERRRVEEQQRREREQRKLQEKEQQRRLEDMQALRREEERRQAEREQEYKRKQLEEQRQSERLQRQLQQEHAYLKSLQQQQQQQQLQKQQQQQLLPGDRKPLYHYGRGMNPADKPAWAREVEERTRMNKQQNSPLAKSKPGSTGPEPPIPQASPGPPGPLSQTPPMQRPVEPQEGPHKSLVAHRVPLKPYAAPVPRSQSLQDQPTRNLAAFPASHDPDPAIPAPTATPSARGAVIRQNSDPTSEGPGPSPNPPAWVRPDNEAPPKVPQRTSSIATALNTSGAGGSRPAQAVRARPRSNSAWQIYLQRRAERGTPKPPGPPAQPPGPPNASSNPDLRRSDPGWERSDSVLPASHGHLPQAGSLERNRVGVSSKPDSSPVLSPGNKAKPDDHRSRPGRPADFVLLKERTLDEAPRPPKKAMDYSSSSEEVESSEDDEEEGEGGPAEGSRDTPGGRSDGDTDSVSTMVVHDVEEITGTQPPYGGGTMVVQRTPEEERNLLHADSNGYTNLPDVVQPSHSPTENSKGQSPPSKDGSGDYQSRGLVKAPGKSSFTMFVDLGIYQPGGSGDSIPITALVGGEGTRLDQLQYDVRKGSVVNVNPTNTRAHSETPEIRKYKKRFNSEILCAALWGVNLLVGTENGLMLLDRSGQGKVYGLIGRRRFQQMDVLEGLNLLITISGKRNKLRVYYLSWLRNKILHNDPEVEKKQGWTTVGDMEGCGHYRVVKYERIKFLVIALKSSVEVYAWAPKPYHKFMAFKSFADLPHRPLLVDLTVEEGQRLKVIYGSSAGFHAVDVDSGNSYDIYIPVHIQSQITPHAIIFLPNTDGMEMLLCYEDEGVYVNTYGRIIKDVVLQWGEMPTSVAYICSNQIMGWGEKAIEIRSVETGHLDGVFMHKRAQRLKFLCERNDKVFFASVRSGGSSQVYFMTLNRNCIMNW,STE20,misshapen-like kinase 1,MINK1,STE,2103,362,MINK,EVVGNGTYGQVYKAAIKVMEIKQEINMLKKYSRNIATYYGAWLVMEFCGAGSVTDLVKNHLHAHKVIHRDIKGQNVLLLVDFGVS,Human,MSN,Protein kinase domain,25.0,289.0,1332.0,PF00069,True
+Q7Z2Y5,NRK,NRK,ZC4/NRK,Nik-related protein kinase,STE,STE20,MSN,NRK,MAGPGGWRDREVTDLGHLPDPTGIFSLDKTIGLGTYGRIYLGLHEKTGAFTAVKVMNARKTPLPEIGRRVRVNKYQKSVGWRYSDEEEDLRTELNLLRKYSFHKNIVSFYGAFFKLSPPGQRHQLWMVMELCAAGSVTDVVRMTSNQSLKEDWIAYICREILQGLAHLHAHRVIHRDIKGQNVLLTHNAEVKLVDFGVSAQVSRTNGRRNSFIGTPYWMAPEVIDCDEDPRRSYDYRSDVWSVGITAIEMAEGAPPLCNLQPLEALFVILRESAPTVKSSGWSRKFHNFMEKCTIKNFLFRPTSANMLQHPFVRDIKNERHVVESLTRHLTGIIKKRQKKGIPLIFEREEAIKEQYTVRRFRGPSCTHELLRLPTSSRCRPLRVLHGEPSQPRWLPDREEPQVQALQQLQGAARVFMPLQALDSAPKPLKGQAQAPQRLQGAARVFMPLQAQVKAKASKPLQMQIKAPPRLRRAARVLMPLQAQVRAPRLLQVQSQVSKKQQAQTQTSEPQDLDQVPEEFQGQDQVPEQQRQGQAPEQQQRHNQVPEQELEQNQAPEQPEVQEQAAEPAQAETEAEEPESLRVNAQVFLPLLSQDHHVLLPLHLDTQVLIPVEGQTEGSPQAQAWTLEPPQAIGSVQALIEGLSRDLLRAPNSNNSKPLGPLQTLMENLSSNRFYSQPEQAREKKSKVSTLRQALAKRLSPKRFRAKSSWRPEKLELSDLEARRQRRQRRWEDIFNQHEEELRQVDKDKEDESSDNDEVFHSIQAEVQIEPLKPYISNPKKIEVQERSPSVPNNQDHAHHVKFSSSVPQRSLLEQAQKPIDIRQRSSQNRQNWLAASESSSEEESPVTGRRSQSSPPYSTIDQKLLVDIHVPDGFKVGKISPPVYLTNEWVGYNALSEIFRNDWLTPAPVIQPPEEDGDYVELYDASADTDGDDDDESNDTFEDTYDHANGNDDLDNQVDQANDVCKDHDDDNNKFVDDVNNNYYEAPSCPRASYGRDGSCKQDGYDGSRGKEEAYRGYGSHTANRSHGGSAASEDNAAIGDQEEHAANIGSERRGSEGDGGKGVVRTSEESGALGLNGEENCSETDGPGLKRPASQDFEYLQEEPGGGNEASNAIDSGAAPSAPDHESDNKDISESSTQSDFSANHSSPSKGSGMSADANFASAILYAGFVEVPEESPKQPSEVNVNPLYVSPACKKPLIHMYEKEFTSEICCGSLWGVNLLLGTRSNLYLMDRSGKADITKLIRRRPFRQIQVLEPLNLLITISGHKNRLRVYHLTWLRNKILNNDPESKRRQEEMLKTEEACKAIDKLTGCEHFSVLQHEETTYIAIALKSSIHLYAWAPKSFDESTAIKVCIDQSADSEGDYMSYQAYIRILAKIQAADPVNRFKRPDELLHLLKLKVFPTLDHKPVTVDLAIGSEKRLKIFFSSADGYHLIDAESEVMSDVTLPKNPLEIIIPQNIIILPDCLGIGMMLTFNAEALSVEANEQLFKKILEMWKDIPSSIAFECTQRTTGWGQKAIEVRSLQSRVLESELKRRSIKKLRFLCTRGDKLFFTSTLRNHHSRVYFMTLGKLEELQSNYDV,STE20,Nik related kinase,NRK,STE,0,361,NRK,KTIGLGTYGRIYLTAVKVMDLRTELNLLRKYSKNIVSFYGAWMVMELCAAGSVTDVVRMHLHAHRVIHRDIKGQNVLLLVDFGVS,Human,MSN,Protein kinase domain,26.0,313.0,1582.0,PF00069,True
+O95835,LATS1,LATS1,LATS1,Serine/threonine-protein kinase LATS1,AGC,NDR,nan,LATS1,MKRSEKPEGYRQMRPKTFPASNYTVSSRQMLQEIRESLRNLSKPSDAAKAEHNMSKMSTEDPRQVRNPPKFGTHHKALQEIRNSLLPFANETNSSRSTSEVNPQMLQDLQAAGFDEDMVIQALQKTNNRSIEAAIEFISKMSYQDPRREQMAAAAARPINASMKPGNVQQSVNRKQSWKGSKESLVPQRHGPPLGESVAYHSESPNSQTDVGRPLSGSGISAFVQAHPSNGQRVNPPPPPQVRSVTPPPPPRGQTPPPRGTTPPPPSWEPNSQTKRYSGNMEYVISRISPVPPGAWQEGYPPPPLNTSPMNPPNQGQRGISSVPVGRQPIIMQSSSKFNFPSGRPGMQNGTGQTDFMIHQNVVPAGTVNRQPPPPYPLTAANGQSPSALQTGGSAAPSSYTNGSIPQSMMVPNRNSHNMELYNISVPGLQTNWPQSSSAPAQSSPSSGHEIPTWQPNIPVRSNSFNNPLGNRASHSANSQPSATTVTAITPAPIQQPVKSMRVLKPELQTALAPTHPSWIPQPIQTVQPSPFPEGTASNVTVMPPVAEAPNYQGPPPPYPKHLLHQNPSVPPYESISKPSKEDQPSLPKEDESEKSYENVDSGDKEKKQITTSPITVRKNKKDEERRESRIQSYSPQAFKFFMEQHVENVLKSHQQRLHRKKQLENEMMRVGLSQDAQDQMRKMLCQKESNYIRLKRAKMDKSMFVKIKTLGIGAFGEVCLARKVDTKALYATKTLRKKDVLLRNQVAHVKAERDILAEADNEWVVRLYYSFQDKDNLYFVMDYIPGGDMMSLLIRMGIFPESLARFYIAELTCAVESVHKMGFIHRDIKPDNILIDRDGHIKLTDFGLCTGFRWTHDSKYYQSGDHPRQDSMDFSNEWGDPSSCRCGDRLKPLERRAARQHQRCLAHSLVGTPNYIAPEVLLRTGYTQLCDWWSVGVILFEMLVGQPPFLAQTPLETQMKVINWQTSLHIPPQAKLSPEASDLIIKLCRGPEDRLGKNGADEIKAHPFFKTIDFSSDLRQQSASYIPKITHPTDTSNFDPVDPDKLWSDDNEEENVNDTLNGWYKNGKHPEHAFYEFTFRRFFDDNGYPYNYPKPIEYEYINSQGSEQQSDEDDQNTGSEIKNRDLVYV,NDR,large tumor suppressor kinase 1,LATS1,AGC,1515,23,LATS1,KTLGIGAFGEVCLYATKTLHVKAERDILAEADEWVVRLYYSYFVMDYIPGGDMMSLLIRSVHKMGFIHRDIKPDNILILTDFGLC,Human,,Protein kinase domain,706.0,854.0,1130.0,PF00069,True
+Q9NRM7,LATS2,LATS2,LATS2,Serine/threonine-protein kinase LATS2,AGC,NDR,nan,LATS2,MRPKTFPATTYSGNSRQRLQEIREGLKQPSKSSVQGLPAGPNSDTSLDAKVLGSKDATRQQQQMRATPKFGPYQKALREIRYSLLPFANESGTSAAAEVNRQMLQELVNAGCDQEMAGRALKQTGSRSIEAALEYISKMGYLDPRNEQIVRVIKQTSPGKGLMPTPVTRRPSFEGTGDSFASYHQLSGTPYEGPSFGADGPTALEEMPRPYVDYLFPGVGPHGPGHQHQHPPKGYGASVEAAGAHFPLQGAHYGRPHLLVPGEPLGYGVQRSPSFQSKTPPETGGYASLPTKGQGGPPGAGLAFPPPAAGLYVPHPHHKQAGPAAHQLHVLGSRSQVFASDSPPQSLLTPSRNSLNVDLYELGSTSVQQWPAATLARRDSLQKPGLEAPPRAHVAFRPDCPVPSRTNSFNSHQPRPGPPGKAEPSLPAPNTVTAVTAAHILHPVKSVRVLRPEPQTAVGPSHPAWVPAPAPAPAPAPAPAAEGLDAKEEHALALGGAGAFPLDVEYGGPDRRCPPPPYPKHLLLRSKSEQYDLDSLCAGMEQSLRAGPNEPEGGDKSRKSAKGDKGGKDKKQIQTSPVPVRKNSRDEEKRESRIKSYSPYAFKFFMEQHVENVIKTYQQKVNRRLQLEQEMAKAGLCEAEQEQMRKILYQKESNYNRLKRAKMDKSMFVKIKTLGIGAFGEVCLACKVDTHALYAMKTLRKKDVLNRNQVAHVKAERDILAEADNEWVVKLYYSFQDKDSLYFVMDYIPGGDMMSLLIRMEVFPEHLARFYIAELTLAIESVHKMGFIHRDIKPDNILIDLDGHIKLTDFGLCTGFRWTHNSKYYQKGSHVRQDSMEPSDLWDDVSNCRCGDRLKTLEQRARKQHQRCLAHSLVGTPNYIAPEVLLRKGYTQLCDWWSVGVILFEMLVGQPPFLAPTPTETQLKVINWENTLHIPAQVKLSPEARDLITKLCCSADHRLGRNGADDLKAHPFFSAIDFSSDIRKQPAPYVPTISHPMDTSNFDPVDEESPWNDASEGSTKAWDTLTSPNNKHPEHAFYEFTFRRFFDDNGYPFRCPKPSGAEASQAESSDLESSDLVDQTEGCQPVYV,NDR,large tumor suppressor kinase 2,LATS2,AGC,1516,26,LATS2,KTLGIGAFGEVCLYAMKTLHVKAERDILAEADEWVVKLYYSYFVMDYIPGGDMMSLLIRSVHKMGFIHRDIKPDNILILTDFGLC,Human,,Protein kinase domain,669.0,818.0,1088.0,PF00069,True
+Q9BWU1,CDK19,CDK11,CDK11,Cyclin-dependent kinase 19,CMGC,CDK,CDK8,CDK19,MDYDFKAKLAAERERVEDLFEYEGCKVGRGTYGHVYKARRKDGKDEKEYALKQIEGTGISMSACREIALLRELKHPNVIALQKVFLSHSDRKVWLLFDYAEHDLWHIIKFHRASKANKKPMQLPRSMVKSLLYQILDGIHYLHANWVLHRDLKPANILVMGEGPERGRVKIADMGFARLFNSPLKPLADLDPVVVTFWYRAPELLLGARHYTKAIDIWAIGCIFAELLTSEPIFHCRQEDIKTSNPFHHDQLDRIFSVMGFPADKDWEDIRKMPEYPTLQKDFRRTTYANSSLIKYMEKHKVKPDSKVFLLLQKLLTMDPTKRITSEQALQDPYFQEDPLPTLDVFAGCQIPYPKREFLNEDDPEEKGDKNQQQQQNQHQQPTAPPQQAAAPPQAPPPQQNSTQTNGTAGGAGAGVGGTGAGLQHSQDSSLNQVPPNKKPRLGPSGANSGGPVMPSDYQHSSSRLNYQSSVQGSSQSQSTLGYSSSSQQSSQYHPSHQAHRY,CDK,cyclin-dependent kinase 19,CDK19,CMGC,1972,206,CDK11,CKVGRGTYGHVYKYALKQISACREIALLRELKPNVIALQKVWLLFDYAE-HDLWHIIKFYLHANWVLHRDLKPANILVIADMGFA,Human,CDK8,Protein kinase domain,26.0,335.0,502.0,PF00069,True
+Q8IY84,NIM1K,NIM1,NIM1,Serine/threonine-protein kinase NIM1,CAMK,CAMKL,NIM1,NIM1K,MTAVYMNGGGLVNPHYARWDRRDSVESGCQTESSKEGEEGQPRQLTPFEKLTQDMSQDEKVVREITLGKRIGFYRIRGEIGSGNFSQVKLGIHSLTKEKVAIKILDKTKLDQKTQRLLSREISSMEKLHHPNIIRLYEVVETLSKLHLVMEYAGGGELFGKISTEGKLSEPESKLIFSQIVSAVKHMHENQIIHRDLKAENVFYTSNTCVKVGDFGFSTVSKKGEMLNTFCGSPPYAAPELFRDEHYIGIYVDIWALGVLLYFMVTGTMPFRAETVAKLKKSILEGTYSVPPHVSEPCHRLIRGVLQQIPTERYGIDCIMNDEWMQGVPYPTPLEPFQLDPKHLSETSTLKEEENEVKSTLEHLGITEEHIRNNQGRDARSSITGVYRIILHRVQRKKALESVPVMMLPDPKERDLKKGSRVYRGIRHTSKFCSIL,CAMKL,NIM1 serine/threonine protein kinase,NIM1K,CAMK,2291,129,NIM1,GEIGSGNFSQVKLVAIKILLLSREISSMEKLHPNIIRLYEVHLVMEYAGGGELFGKISTHMHENQIIHRDLKAENVFYVGDFGFS,Human,NIM1,Protein kinase domain,74.0,325.0,436.0,PF00069,True
+Q6PHR2,ULK3,ULK3,ULK3,Serine/threonine-protein kinase ULK3,Other,ULK,nan,ULK3,MAGPGWGPPRLDGFILTERLGSGTYATVYKAYAKKDTREVVAIKCVAKKSLNKASVENLLTEIEILKGIRHPHIVQLKDFQWDSDNIYLIMEFCAGGDLSRFIHTRRILPEKVARVFMQQLASALQFLHERNISHLDLKPQNILLSSLEKPHLKLADFGFAQHMSPWDEKHVLRGSPLYMAPEMVCQRQYDARVDLWSMGVILYEALFGQPPFASRSFSELEEKIRSNRVIELPLRPLLSRDCRDLLQRLLERDPSRRISFQDFFAHPWVDLEHMPSGESLGRATALVVQAVKKDQEGDSAAALSLYCKALDFFVPALHYEVDAQRKEAIKAKVGQYVSRAEELKAIVSSSNQALLRQGTSARDLLREMARDKPRLLAALEVASAAMAKEEAAGGEQDALDLYQHSLGELLLLLAAEPPGRRRELLHTEVQNLMARAEYLKEQVKMRESRWEADTLDKEGLSESVRSSCTLQ,ULK,unc-51 like kinase 3,ULK3,Other,2273,330,ULK3,ERLGSGTYATVYKVAIKCVNLLTEIEILKGIRPHIVQLKDFYLIMEFCAGGDLSRFIHTFLHERNISHLDLKPQNILLLADFGFA,Human,ULK,Protein kinase domain,17.0,270.0,472.0,PF00069,True
+Q8N165,PDIK1L,CLIK1L,CLIK1L,Serine/threonine-protein kinase PDIK1L,Other,NKF4,nan,PDIK1L,MVSSQPKYDLIREVGRGSYGVVYEAVIRKTSARVAVKKIRCHAPENVELALREFWALSSIKSQHPNVIHLEECILQKDGMVQKMSHGSNSSLYLQLVETSLKGEIAFDPRSAYYLWFVMDFCDGGDMNEYLLSRKPNRKTNTSFMLQLSSALAFLHKNQIIHRDLKPDNILISQTRLDTSDLEPTLKVADFGLSKVCSASGQNPEEPVSVNKCFLSTACGTDFYMAPEVWEGHYTAKADIFALGIIIWAMLERITFIDTETKKELLGSYVKQGTEIVPVGEALLENPKMELLIPVKKKSMNGRMKQLIKEMLAANPQDRPDAFELELRLVQIAFKDSSWET,NKF4,PDLIM1 interacting kinase 1 like,PDIK1L,Other,0,299,CLIK1L,REVGRGSYGVVYEVAVKKILALREFWALSSIKPNVIHLEECLQLVETSLKGEIAFDPRSFLHKNQIIHRDLKPDNILIVADFGLS,Human,,Protein kinase domain,8.0,324.0,341.0,PF00069,True
+Q6IQ55,TTBK2,TTBK2,TTBK2,Tau-tubulin kinase 2,CK1,TTBK,nan,TTBK2,MSGGGEQLDILSVGILVKERWKVLRKIGGGGFGEIYDALDMLTRENVALKVESAQQPKQVLKMEVAVLKKLQGKDHVCRFIGCGRNDRFNYVVMQLQGRNLADLRRSQSRGTFTISTTLRLGRQILESIESIHSVGFLHRDIKPSNFAMGRFPSTCRKCYMLDFGLARQFTNSCGDVRPPRAVAGFRGTVRYASINAHRNREMGRHDDLWSLFYMLVEFVVGQLPWRKIKDKEQVGSIKERYDHRLMLKHLPPEFSIFLDHISSLDYFTKPDYQLLTSVFDNSIKTFGVIESDPFDWEKTGNDGSLTTTTTSTTPQLHTRLTPAAIGIANATPIPGDLLRENTDEVFPDEQLSDGENGIPVGVSPDKLPGSLGHPRPQEKDVWEEMDANKNKIKLGICKAATEEENSHGQANGLLNAPSLGSPIRVRSEITQPDRDIPLVRKLRSIHSFELEKRLTLEPKPDTDKFLETCLEKMQKDTSAGKESILPALLHKPCVPAVSRTDHIWHYDEEYLPDASKPASANTPEQADGGGSNGFIAVNLSSCKQEIDSKEWVIVDKEQDLQDFRTNEAVGHKTTGSPSDEEPEVLQVLEASPQDEKLQLGPWAENDHLKKETSGVVLALSAEGPPTAASEQYTDRLELQPGAASQFIAATPTSLMEAQAEGPLTAITIPRPSVASTQSTSGSFHCGQQPEKKDLQPMEPTVELYSPRENFSGLVVTEGEPPSGGSRTDLGLQIDHIGHDMLPNIRESNKSQDLGPKELPDHNRLVVREFENLPGETEEKSILLESDNEDEKLSRGQHCIEISSLPGDLVIVEKDHSATTEPLDVTKTQTFSVVPNQDKNNEIMKLLTVGTSEISSRDIDPHVEGQIGQVAEMQKNKISKDDDIMSEDLPGHQGDLSTFLHQEGKREKITPRNGELFHCVSENEHGAPTRKDMVRSSFVTRHSRIPVLAQEIDSTLESSSPVSAKEKLLQKKAYQPDLVKLLVEKRQFKSFLGDLSSASDKLLEEKLATVPAPFCEEEVLTPFSRLTVDSHLSRSAEDSFLSPIISQSRKSKIPRPVSWVNTDQVNSSTSSQFFPRPPPGKPPTRPGVEARLRRYKVLGSSNSDSDLFSRLAQILQNGSQKPRSTTQCKSPGSPHNPKTPPKSPVVPRRSPSASPRSSSLPRTSSSSPSRAGRPHHDQRSSSPHLGRSKSPPSHSGSSSSRRSCQQEHCKPSKNGLKGSGSLHHHSASTKTPQGKSKPASKLSR,TTBK,tau tubulin kinase 2,TTBK2,CK1,0,192,TTBK2,RKIGGGGFGEIYDVALKVEVLKMEVAVLKKLQDHVCRFIGCYVVMQLQG-RNLADLRRSSIHSVGFLHRDIKPSNFAMMLDFGLA,Human,,Protein kinase domain,22.0,241.0,1244.0,PF00069,True
+Q96KG9,SCYL1,SCYL1,SCYL1,N-terminal kinase-like protein,Other,SCY1,nan,SCYL1,MWFFARDPVRDFPFELIPEPPEGGLPGPWALHRGRKKATGSPVSIFVYDVKPGAEEQTQVAKAAFKRFKTLRHPNILAYIDGLETEKCLHVVTEAVTPLGIYLKARVEAGGLKELEISWGLHQIVKALSFLVNDCSLIHNNVCMAAVFVDRAGEWKLGGLDYMYSAQGNGGGPPRKGIPELEQYDPPELADSSGRVVREKWSADMWRLGCLIWEVFNGPLPRAAALRNPGKIPKTLVPHYCELVGANPKVRPNPARFLQNCRAPGGFMSNRFVETNLFLEEIQIKEPAEKQKFFQELSKSLDAFPEDFCRHKVLPQLLTAFEFGNAGAVVLTPLFKVGKFLSAEEYQQKIIPVVVKMFSSTDRAMRIRLLQQMEQFIQYLDEPTVNTQIFPHVVHGFLDTNPAIREQTVKSMLLLAPKLNEANLNVELMKHFARLQAKDEQGPIRCNTTVCLGKIGSYLSASTRHRVLTSAFSRATRDPFAPSRVAGVLGFAATHNLYSMNDCAQKILPVLCGLTVDPEKSVRDQAFKAIRSFLSKLESVSEDPTQLEEVEKDVHAASSPGMGGAAASWAGWAVTGVSSLTSKLIRSHPTTAPTETNIPQRPTPEGVPAPAPTPVPATPTTSGHWETQEEDKDTAEDSSTADRWDDEDWGSLEQEAESVLAQQDDWSTGGQVSRASQVSNSDHKSSKSPESDWSSWEAEGSWEQGWQEPSSQEPPPDGTRLASEYNWGGPESSDKGDPFATLSARPSTQPRPDSWGEDNWEGLETDSRQVKAELARKKREERRREMEAKRAERKVAKGPMKLGARKLD,SCY1,SCY1 like pseudokinase 1,SCYL1,Other,0,317,SCYL1,--------WALHRVSIFVYVAKAAFKRFKTLRPNILAYIDGHVVTEAV--TPLGIYLKALVNDCSLIHNNVCMAAVFVLGGLDYM,Human,,Protein kinase domain,35.0,222.0,808.0,PF00069,True
+Q96GX5,MASTL,MASTL,MASTL,Serine/threonine-protein kinase greatwall,AGC,MAST,nan,MASTL,MDPTAGSKKEPGGGAATEEGVNRIAVPKPPSIEEFSIVKPISRGAFGKVYLGQKGGKLYAVKVVKKADMINKNMTHQVQAERDALALSKSPFIVHLYYSLQSANNVYLVMEYLIGGDVKSLLHIYGYFDEEMAVKYISEVALALDYLHRHGIIHRDLKPDNMLISNEGHIKLTDFGLSKVTLNRDINMMDILTTPSMAKPRQDYSRTPGQVLSLISSLGFNTPIAEKNQDPANILSACLSETSQLSQGLVCPMSVDQKDTTPYSSKLLKSCLETVASNPGMPVKCLTSNLLQSRKRLATSSASSQSHTFISSVESECHSSPKWEKDCQESDEALGPTMMSWNAVEKLCAKSANAIETKGFNKKDLELALSPIHNSSALPTTGRSCVNLAKKCFSGEVSWEAVELDVNNINMDTDTSQLGFHQSNQWAVDSGGISEEHLGKRSLKRNFELVDSSPCKKIIQNKKTCVEYKHNEMTNCYTNQNTGLTVEVQDLKLSVHKSQQNDCANKENIVNSFTDKQQTPEKLPIPMIAKNLMCELDEDCEKNSKRDYLSSSFLCSDDDRASKNISMNSDSSFPGISIMESPLESQPLDSDRSIKESSFEESNIEDPLIVTPDCQEKTSPKGVENPAVQESNQKMLGPPLEVLKTLASKRNAVAFRSFNSHINASNNSEPSRMNMTSLDAMDISCAYSGSYPMAITPTQKRRSCMPHQQTPNQIKSGTPYRTPKSVRRGVAPVDDGRILGTPDYLAPELLLGRAHGPAVDWWALGVCLFEFLTGIPPFNDETPQQVFQNILKRDIPWPEGEEKLSDNAQSAVEILLTIDDTKRAGMKELKRHPLFSDVDWENLQHQTMPFIPQPDDETDTSYFEARNTAQHLTVSGFSL,MAST,microtubule associated serine/threonine kinase like,MASTL,AGC,0,22,MASTL,KPISRGAFGKVYLYAVKVVQVQAERDALALSKPFIVHLYYSYLVMEYLIGGDVKSLLHIYLHRHGIIHRDLKPDNMLILTDFGLS,Human,MASTL,Protein kinase domain,37.0,195.0,879.0,PF00069,True
+Q9BXM7,PINK1,PINK1,PINK1,Serine/threonine-protein kinase PINK1,Other,NKF2,nan,PINK1,MAVRQALGRGLQLGRALLLRFTGKPGRAYGLGRPGPAAGCVRGERPGWAAGPGAEPRRVGLGLPNRLRFFRQSVAGLAARLQRQFVVRAWGCAGPCGRAVFLAFGLGLGLIEEKQAESRRAVSACQEIQAIFTQKSKPGPDPLDTRRLQGFRLEEYLIGQSIGKGCSAAVYEATMPTLPQNLEVTKSTGLLPGRGPGTSAPGEGQERAPGAPAFPLAIKMMWNISAGSSSEAILNTMSQELVPASRVALAGEYGAVTYRKSKRGPKQLAPHPNIIRVLRAFTSSVPLLPGALVDYPDVLPSRLHPEGLGHGRTLFLVMKNYPCTLRQYLCVNTPSPRLAAMMLLQLLEGVDHLVQQGIAHRDLKSDNILVELDPDGCPWLVIADFGCCLADESIGLQLPFSSWYVDRGGNGCLMAPEVSTARPGPRAVIDYSKADAWAVGAIAYEIFGLVNPFYGQGKAHLESRSYQEAQLPALPESVPPDVRQLVRALLQREASKRPSARVAANVLHLSLWGEHILALKNLKLDKMVGWLLQQSAATLLANRLTEKCCVETKMKMLFLANLECETLCQAALLLCSWRAAL,NKF2,PTEN induced putative kinase 1,PINK1,Other,0,295,PINK1,QSIGKGCSAAVYELAIKMMGSSSEAILNTMSQPNIIRVLRALPGALVDYPDVLPSRLHPHLVQQGIAHRDLKSDNILVIADFGCC,Human,,Protein kinase domain,268.0,503.0,581.0,PF00069,True
+Q96C45,ULK4,ULK4,ULK4,Serine/threonine-protein kinase ULK4,Other,ULK,nan,ULK4,MENFILYEEIGRGSKTVVYKGRRKGTINFVAILCTDKCKRPEITNWVRLTREIKHKNIVTFHEWYETSNHLWLVVELCTGGSLKTVIAQDENLPEDVVREFGIDLISGLHHLHKLGILFCDISPRKILLEGPGTLKFSNFCLAKVEGENLEEFFALVAAEEGGGDNGENVLKKSMKSRVKGSPVYTAPEVVRGADFSISSDLWSLGCLLYEMFSGKPPFFSESISELTEKILCEDPLPPIPKDSSRPKASSDFINLLDGLLQRDPQKRLTWTRLLQHSFWKKAFAGADQESSVEDLSLSRNTMECSGPQDSKELLQNSQSRQAKGHKSGQPLGHSFRLENPTEFRPKSTLEGQLNESMFLLSSRPTPRTSTAVEVSPGEDMTHCSPQKTSPLTKITSGHLSQQDLESQMRELIYTDSDLVVTPIIDNPKIMKQPPVKFDAKILHLPTYSVDKLLFLKDQDWNDFLQQVCSQIDSTEKSMGASRAKLNLLCYLCVVAGHQEVATRLLHSPLFQLLIQHLRIAPNWDIRAKVAHVIGLLASHTAELQENTPVVEAIVLLTELIRENFRNSKLKQCLLPTLGELIYLVATQEEKKKNPRECWAVPLAAYTVLMRCLREGEERVVNHMAAKIIENVCTTFSAQSQGFITGEIGPILWYLFRHSTADSLRITAVSALCRITRHSPTAFQNVIEKVGLNSVINSLASAICKVQQYMLTLFAAMLSCGIHLQRLIQEKGFVSTIIRLLDSPSTCIRAKAFLVLLYILIYNREMLLLSCQARLVMYIERDSRKTTPGKEQQSGNEYLSKCLDLLICHIVQELPRILGDILNSLANVSGRKHPSTVQVKQLKLCLPLMPVVLHLVTSQVFRPQVVTEEFLFSYGTILSHIKSVDSGETNIDGAIGLTASEEFIKITLSAFEAIIQYPILLKDYRSTVVDYILPPLVSLVQSQNVEWRLFSLRLLSETTSLLVNQEFGDGKEKASVDSDSNLLALIRDVLLPQYEHILLEPDPVPAYALKLLVAMTEHNPTFTRLVEESKLIPLIFEVTLEHQESILGNTMQSVIALLSNLVACKDSNMELLYEQGLVSHICNLLTETATLCLDVDNKNNNEMAAPLLFSLLDILHSMLTYTSGIVRLALQAQKSGSGEDPQAAEDLLLLNRPLTDLISLLIPLLPNEDPEIFDVSSKCLSILVQLYGGENPDSLSPENVEIFAHLLTSKEDPKEQKLLLRILRRMITSNEKHLESLKNAGSLLRALERLAPGSGSFADSAVAPLALEILQAVGH,ULK,unc-51 like kinase 4,ULK4,Other,0,331,ULK4,EEIGRGSKTVVYKVAILCTEITNWVRLTREIKKNIVTFHEWWLVVELCTGGSLKTVIAQHLHKLGILFCDISPRKILLFSNFCLA,Human,ULK,Protein kinase domain,7.0,279.0,1275.0,PF00069,True
+Q8NB16,MLKL,MLKL,MLKL,Mixed lineage kinase domain-like protein,TKL,TKL-Unique,nan,MLKL,MENLKHIITLGQVIHKRCEEMKYCKKQCRRLGHRVLGLIKPLEMLQDQGKRSVPSEKLTTAMNRFKAALEEANGEIEKFSNRSNICRFLTASQDKILFKDVNRKLSDVWKELSLLLQVEQRMPVSPISQGASWAQEDQQDADEDRRAFQMLRRDNEKIEASLRRLEINMKEIKETLRQYLPPKCMQEIPQEQIKEIKKEQLSGSPWILLRENEVSTLYKGEYHRAPVAIKVFKKLQAGSIAIVRQTFNKEIKTMKKFESPNILRIFGICIDETVTPPQFSIVMEYCELGTLRELLDREKDLTLGKRMVLVLGAARGLYRLHHSEAPELHGKIRSSNFLVTQGYQVKLAGFELRKTQTSMSLGTTREKTDRVKSTAYLSPQELEDVFYQYDVKSEIYSFGIVLWEIATGDIPFQGCNSEKIRKLVAVKRQQEPLGEDCPSELREIIDECRAHDPSVRPSVDEILKKLSTFSK,TKL-Unique,mixed lineage kinase domain-like,MLKL,TKL,0,528,MLKL,ILLRENEVSTLYKVAIKVFTFNKEIKTMKKFEPNILRIFGISIVMEYCELGTLRELLDRHHSEAPELHGKIRSSNFLVLAGFELR,Human,,Protein tyrosine and serine/threonine kinase,218.0,466.0,471.0,PF07714,True
+Q9C098,DCLK3,DCAMKL3,DCAMKL3,Serine/threonine-protein kinase DCLK3,CAMK,DCAMKL,nan,DCLK3,MGKEPLTLKSIQVAVEELYPNKARALTLAQHSRAPSPRLRSRLFSKALKGDHRCGETETPKSCSEVAGCKAAMRHQGKIPEELSLDDRARTQKKWGRGKWEPEPSSKPPREATLEERHARGEKHLGVEIEKTSGEIIRCEKCKRERELQQSLERERLSLGTSELDMGKGPMYDVEKLVRTRSCRRSPEANPASGEEGWKGDSHRSSPRNPTQELRRPSKSMDKKEDRGPEDQESHAQGAAKAKKDLVEVLPVTEEGLREVKKDTRPMSRSKHGGWLLREHQAGFEKLRRTRGEEKEAEKEKKPCMSGGRRMTLRDDQPAKLEKEPKTRPEENKPERPSGRKPRPMGIIAANVEKHYETGRVIGDGNFAVVKECRHRETRQAYAMKIIDKSRLKGKEDMVDSEILIIQSLSHPNIVKLHEVYETDMEIYLILEYVQGGDLFDAIIESVKFPEPDAALMIMDLCKALVHMHDKSIVHRDLKPENLLVQRNEDKSTTLKLADFGLAKHVVRPIFTVCGTPTYVAPEILSEKGYGLEVDMWAAGVILYILLCGFPPFRSPERDQDELFNIIQLGHFEFLPPYWDNISDAAKDLVSRLLVVDPKKRYTAHQVLQHPWIETAGKTNTVKRQKQVSPSSEGHFRSQHKRVVEQVS,DCAMKL,doublecortin like kinase 3,DCLK3,CAMK,2007,146,DCLK3,RVIGDGNFAVVKEYAMKIIMVDSEILIIQSLSPNIVKLHEVYLILEYVQGGDLFDAIIEHMHDKSIVHRDLKPENLLVLADFGLA,Human,,Protein kinase domain,356.0,613.0,648.0,PF00069,True
+Q504Y2,PKDCC,SgK493,SgK493,Protein kinase domain-containing protein,Other,SgK493,nan,PKDCC,MRRRRAAVAAGFCASFLLGSVLNVLFAPGSEPPRPGQSPEPSPAPGPGRRGGRGELARQIRARYEEVQRYSRGGPGPGAGRPERRRLMDLAPGGPGLPRPRPPWARPLSDGAPGWPPAPGPGSPGPGPRLGCAALRNVSGAQYMGSGYTKAVYRVRLPGGAAVALKAVDFSGHDLGSCVREFGVRRGCYRLAAHKLLKEMVLLERLRHPNVLQLYGYCYQDSEDIPDTLTTITELGAPVEMIQLLQTSWEDRFRICLSLGRLLHHLAHSPLGSVTLLDFRPRQFVLVDGELKVTDLDDARVEETPCAGSTDCILEFPARNFTLPCSAQGWCEGMNEKRNLYNAYRFFFTYLLPHSAPPSLRPLLDSIVNATGELAWGVDETLAQLEKVLHLYRSGQYLQNSTASSSTEYQCIPDSTIPQEDYRCWPSYHHGSCLLSVFNLAEAVDVCESHAQCRAFVVTNQTTWTGRQLVFFKTGWSQVVPDPNKTTYVKASG,SgK493,"protein kinase domain containing, cytoplasmic",PKDCC,Other,0,319,SgK493,QYMGSGYTKAVYRVALKAVKLLKEMVLLERLRPNVLQLYGYDTLTTITELGAPVEMIQLHSPLGSVTLLDFRPRQFVLVTDLDDA,Human,,,,,,,
+Q96Q40,CDK15,PFTAIRE2,PFTAIRE2,Cyclin-dependent kinase 15,CMGC,CDK,PFTAIRE,CDK15,MGQELCAKTVQPGCSCYHCSEGGEAHSCRRSQPETTEAAFKLTDLKEASCSMTSFHPRGLQAARAQKFKSKRPRSNSDCFQEEDLRQGFQWRKSLPFGAASSYLNLEKLGEGSYATVYKGISRINGQLVALKVISMNAEEGVPFTAIREASLLKGLKHANIVLLHDIIHTKETLTFVFEYMHTDLAQYMSQHPGGLHPHNVRLFMFQLLRGLAYIHHQHVLHRDLKPQNLLISHLGELKLADFGLARAKSIPSQTYSSEVVTLWYRPPDALLGATEYSSELDIWGAGCIFIEMFQGQPLFPGVSNILEQLEKIWEVLGVPTEDTWPGVSKLPNYNPEWFPLPTPRSLHVVWNRLGRVPEAEDLASQMLKGFPRDRVSAQEALVHDYFSALPSQLYQLPDEESLFTVSGVRLKPEMCDLLASYQKGHHPAQFSKCW,CDK,cyclin-dependent kinase 15,CDK15,CMGC,1968,214,PFTAIRE2,EKLGEGSYATVYKVALKVITAIREASLLKGLKANIVLLHDITFVFEYMH-TDLAQYMSQYIHHQHVLHRDLKPQNLLILADFGLA,Human,PFTAI,Protein kinase domain,105.0,387.0,435.0,PF00069,True
+Q9BYT3,STK33,STK33,STK33,Serine/threonine-protein kinase 33,CAMK,STK33,nan,STK33,MADSGLDKKSTKCPDCSSASQKDVLCVCSSKTRVPPVLVVEMSQTSSIGSAESLISLERKKEKNINRDITSRKDLPSRTSNVERKASQQQWGRGNFTEGKVPHIRIENGAAIEEIYTFGRILGKGSFGIVIEATDKETETKWAIKKVNKEKAGSSAVKLLEREVNILKSVKHEHIIHLEQVFETPKKMYLVMELCEDGELKEILDRKGHFSENETRWIIQSLASAIAYLHNNDIVHRDLKLENIMVKSSLIDDNNEINLNIKVTDFGLAVKKQSRSEAMLQATCGTPIYMAPEVISAHDYSQQCDIWSIGVVMYMLLRGEPPFLASSEEKLFELIRKGELHFENAVWNSISDCAKSVLKQLMKVDPAHRITAKELLDNQWLTGNKLSSVRPTNVLEMMKEWKNNPESVEENTTEEKNKPSTEEKLKSYQPWGNVPDANYTSDEEEEKQSTAYEKQFPATSKDNFDMCSSSFTSSKLLPAEIKGEMEKTPVTPSQGTATKYPAKSGALSRTKKKL,CAMK-Unique,serine/threonine kinase 33,STK33,CAMK,2221,137,STK33,RILGKGSFGIVIEWAIKKVLLEREVNILKSVKEHIIHLEQVYLVMELCEDGELKEILDRYLHNNDIVHRDLKLENIMVVTDFGLA,Human,,Protein kinase domain,116.0,381.0,514.0,PF00069,True
+Q96S44,TP53RK,PRPK,PRPK,TP53-regulating kinase,Other,Bud32,nan,TP53RK,MAAARATTPADGEEPAPEAEALAAARERSSRFLSGLELVKQGAEARVFRGRFQGRAAVIKHRFPKGYRHPALEARLGRRRTVQEARALLRCRRAGISAPVVFFVDYASNCLYMEEIEGSVTVRDYIQSTMETEKTPQGLSNLAKTIGQVLARMHDEDLIHGDLTTSNMLLKPPLEQLNIVLIDFGLSFISALPEDKGVDLYVLEKAFLSTHPNTETVFEAFLKSYSTSSKKARPVLKKLDEVRLRGRKRSMVG,Bud32,TP53 regulating kinase,TP53RK,Other,0,264,PRPK,ELVKQGAEARVFRAVIKHRRTVQEARALLRCRAGISAPVVFCLYMEEIE-GSVTVRDYIRMHDEDLIHGDLTTSNMLLLIDFGLS,Human,,,,,,,
+Q8TD08,MAPK15,Erk7,Erk7,Mitogen-activated protein kinase 15,CMGC,MAPK,ERK7,MAPK15,MCTVVDPRIVRRYLLRRQLGQGAYGIVWKAVDRRTGEVVAIKKIFDAFRDKTDAQRTFREITLLQEFGDHPNIISLLDVIRAENDRDIYLVFEFMDTDLNAVIRKGGLLQDVHVRSIFYQLLRATRFLHSGHVVHRDQKPSNVLLDANCTVKLCDFGLARSLGDLPEGPEDQAVTEYVATRWYRAPEVLLSSHRYTLGVDMWSLGCILGEMLRGRPLFPGTSTLHQLELILETIPPPSEEDLLALGSGCRASVLHQLGSRPRQTLDALLPPDTSPEALDLLRRLLVFAPDKRLSATQALQHPYVQRFHCPSDEWAREADVRPRAHEGVQLSVPEYRSRVYQMILECGGSSGTSREKGPEGVSPSQAHLHKPRADPQLPSRTPVQGPRPRPQSSPGHDPAEHESPRAAKNVPRQNSAPLLQTALLGNGERPPGAKEAPPLTLSLVKPSGRGAAPSLTSQAAAQVANQALIRGDWNRGGGVRVASVQQVPPRLPPEARPGRRMFSTSALQGAQGGARALLGGYSQAYGTVCHSALGHLPLLEGHHV,MAPK,mitogen-activated protein kinase 15,MAPK15,CMGC,2090,244,Erk7,RQLGQGAYGIVWKVAIKKIRTFREITLLQEFGPNIISLLDVYLVFEFMD-TDLNAVIRKFLHSGHVVHRDQKPSNVLLLCDFGLA,Human,ERK7,Protein kinase domain,15.0,304.0,544.0,PF00069,True
+Q5MAI5,CDKL4,CDKL4,CDKL4,Cyclin-dependent kinase-like 4,CMGC,CDKL,nan,CDKL4,MEKYEKLAKTGEGSYGVVFKCRNKTSGQVVAVKKFVESEDDPVVKKIALREIRMLKQLKHPNLVNLIEVFRRKRKMHLVFEYCDHTLLNELERNPNGVADGVIKSVLWQTLQALNFCHIHNCIHRDIKPENILITKQGIIKICDFGFAQILIPGDAYTDYVATRWYRAPELLVGDTQYGSSVDIWAIGCVFAELLTGQPLWPGKSDVDQLYLIIRTLGKLIPRHQSIFKSNGFFHGISIPEPEDMETLEEKFSDVHPVALNFMKGCLKMNPDDRLTCSQLLESSYFDSFQEAQIKRKARNEGRNRRRQQQAPKSAFPRLFLKTKICQVQRNETQTSGNQILPNGPILQNSMVTVMTNINSAVYQVTVLHLLSENFEVKS,CDKL,cyclin dependent kinase like 4,CDKL4,CMGC,1985,220,CDKL4,AKTGEGSYGVVFKVAVKKFIALREIRMLKQLKPNLVNLIEVHLVFEYCD-HTLLNELERFCHIHNCIHRDIKPENILIICDFGFA,Human,,Protein kinase domain,4.0,286.0,379.0,PF00069,True
+Q8IZE3,SCYL3,SCYL3,SCYL3,Protein-associating with the carboxyl-terminal domain of ezrin,Other,SCY1,nan,SCYL3,MGSENSALKSYTLREPPFTLPSGLAVYPAVLQDGKFASVFVYKRENEDKVNKAAKHLKTLRHPCLLRFLSCTVEADGIHLVTERVQPLEVALETLSSAEVCAGIYDILLALIFLHDRGHLTHNNVCLSSVFVSEDGHWKLGGMETVCKVSQATPEFLRSIQSIRDPASIPPEEMSPEFTTLPECHGHARDAFSFGTLVESLLTILNEQVSADVLSSFQQTLHSTLLNPIPKCRPALCTLLSHDFFRNDFLEVVNFLKSLTLKSEEEKTEFFKFLLDRVSCLSEELIASRLVPLLLNQLVFAEPVAVKSFLPYLLGPKKDHAQGETPCLLSPALFQSRVIPVLLQLFEVHEEHVRMVLLSHIEAYVEHFTQEQLKKVILPQVLLGLRDTSDSIVAITLHSLAVLVSLLGPEVVVGGERTKIFKRTAPSFTKNTDLSLEDSPMCVVCSHHSQISPILENPFSSIFPKCFFSGSTPINSKKHIQRDYYNTLLQTGDPFSQPIKFPINGLSDVKNTSEDSENFPSSSKKSEEWPDWSEPEEPENQTVNIQIWPREPCDDVKSQCTTLDVEESSWDDCEPSSLDTKVNPGGGITATKPVTSGEQKPIPALLSLTEESMPWKSSLPQKISLVQRGDDADQIEPPKVSSQERPLKVPSELGLGEEFTIQVKKKPVKDPEMDWFADMIPEIKPSAAFLILPELRTEMVPKKDDVSPVMQFSSKFAAAEITEGEAEGWEEEGELNWEDNNW,SCY1,SCY1 like pseudokinase 3,SCYL3,Other,0,316,SCYL3,---------AVYPASVFVYKVNKAAKHLKTLRPCLLRFLSCHLVTERV--QPLEVALETLHDRGHLTHNNVCLSSVFVLGGMETV,Human,,Protein tyrosine and serine/threonine kinase,44.0,239.0,742.0,PF07714,True
+Q86UX6,STK32C,YANK3,YANK3,Serine/threonine-protein kinase 32C,AGC,YANK,nan,STK32C,MRSGAERRGSSAAASPGSPPPGRARPAGSDAPSALPPPAAGQPRARDSGDVRSQPRPLFQWSKWKKRMGSSMSAATARRPVFDDKEDVNFDHFQILRAIGKGSFGKVCIVQKRDTEKMYAMKYMNKQQCIERDEVRNVFRELEILQEIEHVFLVNLWYSFQDEEDMFMVVDLLLGGDLRYHLQQNVQFSEDTVRLYICEMALALDYLRGQHIIHRDVKPDNILLDERGHAHLTDFNIATIIKDGERATALAGTKPYMAPEIFHSFVNGGTGYSFEVDWWSVGVMAYELLRGWRPYDIHSSNAVESLVQLFSTVSVQYVPTWSKEMVALLRKLLTVNPEHRLSSLQDVQAAPALAGVLWDHLSEKRVEPGFVPNKGRLHCDPTFELEEMILESRPLHKKKKRLAKNKSRDNSRDSSQSENDYLQDCLDAIQQDFVIFNREKLKRSQDLPREPLPAPESRDAAEPVEDEAERSALPMCGPICPSAGSG,YANK,serine/threonine kinase 32C,STK32C,AGC,1539,69,YANK3,RAIGKGSFGKVCIYAMKYMNVFRELEILQEIEVFLVNLWYSFMVVDLLLGGDLRYHLQQYLRGQHIIHRDVKPDNILLLTDFNIA,Human,,Protein kinase domain,94.0,345.0,486.0,PF00069,True
+Q8TD19,NEK9,NEK9,NEK9,Serine/threonine-protein kinase Nek9,Other,NEK,nan,NEK9,MSVLGEYERHCDSINSDFGSESGGCGDSSPGPSASQGPRAGGGAAEQEELHYIPIRVLGRGAFGEATLYRRTEDDSLVVWKEVDLTRLSEKERRDALNEIVILALLQHDNIIAYYNHFMDNTTLLIELEYCNGGNLYDKILRQKDKLFEEEMVVWYLFQIVSAVSCIHKAGILHRDIKTLNIFLTKANLIKLGDYGLAKKLNSEYSMAETLVGTPYYMSPELCQGVKYNFKSDIWAVGCVIFELLTLKRTFDATNPLNLCVKIVQGIRAMEVDSSQYSLELIQMVHSCLDQDPEQRPTADELLDRPLLRKRRREMEEKVTLLNAPTKRPRSSTVTEAPIAVVTSRTSEVYVWGGGKSTPQKLDVIKSGCSARQVCAGNTHFAVVTVEKELYTWVNMQGGTKLHGQLGHGDKASYRQPKHVEKLQGKAIRQVSCGDDFTVCVTDEGQLYAFGSDYYGCMGVDKVAGPEVLEPMQLNFFLSNPVEQVSCGDNHVVVLTRNKEVYSWGCGEYGRLGLDSEEDYYTPQKVDVPKALIIVAVQCGCDGTFLLTQSGKVLACGLNEFNKLGLNQCMSGIINHEAYHEVPYTTSFTLAKQLSFYKIRTIAPGKTHTAAIDERGRLLTFGCNKCGQLGVGNYKKRLGINLLGGPLGGKQVIRVSCGDEFTIAATDDNHIFAWGNGGNGRLAMTPTERPHGSDICTSWPRPIFGSLHHVPDLSCRGWHTILIVEKVLNSKTIRSNSSGLSIGTVFQSSSPGGGGGGGGGEEEDSQQESETPDPSGGFRGTMEADRGMEGLISPTEAMGNSNGASSSCPGWLRKELENAEFIPMPDSPSPLSAAFSESEKDTLPYEELQGLKVASEAPLEHKPQVEASSPRLNPAVTCAGKGTPLTPPACACSSLQVEVERLQGLVLKCLAEQQKLQQENLQIFTQLQKLNKKLEGGQQVGMHSKGTQTAKEEMEMDPKPDLDSDSWCLLGTDSCRPSL,NEK,NIMA related kinase 9,NEK9,Other,2124,290,NEK9,RVLGRGAFGEATLVVWKEVDALNEIVILALLQDNIIAYYNHLIELEYCNGGNLYDKILRCIHKAGILHRDIKTLNIFLLGDYGLA,Human,NEK8,Protein kinase domain,55.0,307.0,979.0,PF00069,True
+Q96PN8,TSSK3,TSSK3,TSSK3,Testis-specific serine/threonine-protein kinase 3,CAMK,TSSK,nan,TSSK3,MEDFLLSNGYQLGKTIGEGTYSKVKEAFSKKHQRKVAIKVIDKMGGPEEFIQRFLPRELQIVRTLDHKNIIQVYEMLESADGKICLVMELAEGGDVFDCVLNGGPLPESRAKALFRQMVEAIRYCHGCGVAHRDLKCENALLQGFNLKLTDFGFAKVLPKSHRELSQTFCGSTAYAAPEVLQGIPHDSKKGDVWSMGVVLYVMLCASLPFDDTDIPKMLWQQQKGVSFPTHLSISADCQDLLKRLLEPDMILRPSIEEVSWHPWLAST,TSSK,testis specific serine kinase 3,TSSK3,CAMK,0,180,TSSK3,KTIGEGTYSKVKEVAIKVIFLPRELQIVRTLDKNIIQVYEMCLVMELAEGGDVFDCVLNYCHGCGVAHRDLKCENALLLTDFGFA,Human,,Protein kinase domain,10.0,265.0,268.0,PF00069,True
+Q9H093,NUAK2,NuaK2,NuaK2,NUAK family SNF1-like kinase 2,CAMK,CAMKL,NuaK,NUAK2,MESLVFARRSGPTPSAAELARPLAEGLIKSPKPLMKKQAVKRHHHKHNLRHRYEFLETLGKGTYGKVKKARESSGRLVAIKSIRKDKIKDEQDLMHIRREIEIMSSLNHPHIIAIHEVFENSSKIVIVMEYASRGDLYDYISERQQLSEREARHFFRQIVSAVHYCHQNRVVHRDLKLENILLDANGNIKIADFGLSNLYHQGKFLQTFCGSPLYASPEIVNGKPYTGPEVDSWSLGVLLYILVHGTMPFDGHDHKILVKQISNGAYREPPKPSDACGLIRWLLMVNPTRRATLEDVASHWWVNWGYATRVGEQEAPHEGGHPGSDSARASMADWLRRSSRPLLENGAKVCSFFKQHAPGGGSTTPGLERQHSLKKSRKENDMAQSLHSDTADDTAHRPGKSNLKLPKGILKKKVSASAEGVQEDPPELSPIPASPGQAAPLLPKKGILKKPRQRESGYYSSPEPSESGELLDAGDVFVSGDPKEQKPPQASGLLLHRKGILKLNGKFSQTALELAAPTTFGSLDELAPPRPLARASRPSGAVSEDSILSSESFDQLDLPERLPEPPLRGCVSVDNLTGLEEPPSEGPGSCLRRWRQDPLGDSCFSLTDCQEVTATYRQALRVCSKLT,CAMKL,"NUAK family, SNF1-like kinase, 2",NUAK2,CAMK,2130,131,NuaK2,ETLGKGTYGKVKKVAIKSIHIRREIEIMSSLNPHIIAIHEVVIVMEYASRGDLYDYISEYCHQNRVVHRDLKLENILLIADFGLS,Human,NuaK,Protein kinase domain,53.0,303.0,628.0,PF00069,True
+Q9Y6S9,RPS6KL1,RSKL2,RSKL2,Ribosomal protein S6 kinase-like 1,AGC,RSKL,nan,RPS6KL1,MSLVACECLPSPGLEPEPCSRARSQAHVYLEQIRNRVALGVPDMTKRDYLVDAATQIRLALERDVSEDYEAAFNHYQNGVDVLLRGIHVDPNKERREAVKLKITKYLRRAEEIFNCHLQRPLSSGASPSAGFSSLRLRPIRTLSSAVEQLRGCRVVGVIEKVQLVQDPATGGTFVVKSLPRCHMVSRERLTIIPHGVPYMTKLLRYFVSEDSIFLHLEHVQGGTLWSHLLSQAHSRHSGLSSGSTQERMKAQLNPHLNLLTPARLPSGHAPGQDRIALEPPRTSPNLLLAGEAPSTRPQREAEGEPTARTSTSGSSDLPKAPGGHLHLQARRAGQNSDAGPPRGLTWVPEGAGPVLGGCGRGMDQSCLSADGAGRGCGRATWSVREEQVKQWAAEMLVALEALHEQGVLCRDLHPGNLLLDQAGHIRLTYFGQWSEVEPQCCGEAVDNLYSAPEVGGISELTEACDWWSFGSLLYELLTGMALSQSHPSGIQAHTQLQLPEWLSRPAASLLTELLQFEPTRRLGMGEGGVSKLKSHPFFSTIQWSKLVG,RSKL,ribosomal protein S6 kinase like 1,RPS6KL1,AGC,0,62,RSKL2,QLRGCRVVGVIEKFVVKSLMVSRERLTIIPHGPYMTKLLRYFLHLEHVQGGTLWSHLLSALHEQGVLCRDLHPGNLLLLTYFGQW,Human,,Protein kinase domain,383.0,539.0,549.0,PF00069,True
+Q96PF2,TSSK2,TSSK2,TSSK2,Testis-specific serine/threonine-protein kinase 2,CAMK,TSSK,nan,TSSK2,MDDATVLRKKGYIVGINLGKGSYAKVKSAYSERLKFNVAVKIIDRKKTPTDFVERFLPREMDILATVNHGSIIKTYEIFETSDGRIYIIMELGVQGDLLEFIKCQGALHEDVARKMFRQLSSAVKYCHDLDIVHRDLKCENLLLDKDFNIKLSDFGFSKRCLRDSNGRIILSKTFCGSAAYAAPEVLQSIPYQPKVYDIWSLGVILYIMVCGSMPYDDSDIRKMLRIQKEHRVDFPRSKNLTCECKDLIYRMLQPDVSQRLHIDEILSHSWLQPPKPKATSSASFKREGEGKYRAECKLDTKTGLRPDHRPDHKLGAKTQHRLLVVPENENRMEDRLAETSRAKDHHISGAEVGKAST,TSSK,testis specific serine kinase 2,TSSK2,CAMK,2258,179,TSSK2,INLGKGSYAKVKSVAVKIIFLPREMDILATVNGSIIKTYEIYIIMELGVQGDLLEFIKCYCHDLDIVHRDLKCENLLLLSDFGFS,Human,,Protein kinase domain,15.0,272.0,358.0,PF00069,True
+Q6P3W7,SCYL2,SCYL2,SCYL2,SCY1-like protein 2,Other,SCY1,nan,SCYL2,MESMLNKLKSTVTKVTADVTSAVMGNPVTREFDVGRHIASGGNGLAWKIFNGTKKSTKQEVAVFVFDKKLIDKYQKFEKDQIIDSLKRGVQQLTRLRHPRLLTVQHPLEESRDCLAFCTEPVFASLANVLGNWENLPSPISPDIKDYKLYDVETKYGLLQVSEGLSFLHSSVKMVHGNITPENIILNKSGAWKIMGFDFCVSSTNPSEQEPKFPCKEWDPNLPSLCLPNPEYLAPEYILSVSCETASDMYSLGTVMYAVFNKGKPIFEVNKQDIYKSFSRQLDQLSRLGSSSLTNIPEEVREHVKLLLNVTPTVRPDADQMTKIPFFDDVGAVTLQYFDTLFQRDNLQKSQFFKGLPKVLPKLPKRVIVQRILPCLTSEFVNPDMVPFVLPNVLLIAEECTKEEYVKLILPELGPVFKQQEPIQILLIFLQKMDLLLTKTPPDEIKNSVLPMVYRALEAPSIQIQELCLNIIPTFANLIDYPSMKNALIPRIKNACLQTSSLAVRVNSLVCLGKILEYLDKWFVLDDILPFLQQIPSKEPAVLMGILGIYKCTFTHKKLGITKEQLAGKVLPHLIPLSIENNLNLNQFNSFISVIKEMLNRLESEHKTKLEQLHIMQEQQKSLDIGNQMNVSEEMKVTNIGNQQIDKVFNNIGADLLTGSESENKEDGLQNKHKRASLTLEEKQKLAKEQEQAQKLKSQQPLKPQVHTPVATVKQTKDLTDTLMDNMSSLTSLSVSTPKSSASSTFTSVPSMGIGMMFSTPTDNTKRNLTNGLNANMGFQTSGFNMPVNTNQNFYSSPSTVGVTKMTLGTPPTLPNFNALSVPPAGAKQTQQRPTDMSALNNLFGPQKPKVSMNQLSQQKPNQWLNQFVPPQGSPTMGSSVMGTQMNVIGQSAFGMQGNPFFNPQNFAQPPTTMTNSSSASNDLKDLFG,SCY1,SCY1 like pseudokinase 2,SCYL2,Other,0,315,SCYL2,RHIASGGNGLAWKVAVFVFSLKRGVQQLTRLRPRLLTVQHPAFCTEPVF-ASLANVLGNLHSSVKMVHGNITPENIILIMGFDFC,Human,,Protein kinase domain,42.0,327.0,929.0,PF00069,True
+Q86SG6,NEK8,NEK8,NEK8,Serine/threonine-protein kinase Nek8,Other,NEK,nan,NEK8,MEKYERIRVVGRGAFGIVHLCLRKADQKLVIIKQIPVEQMTKEERQAAQNECQVLKLLNHPNVIEYYENFLEDKALMIAMEYAPGGTLAEFIQKRCNSLLEEETILHFFVQILLALHHVHTHLILHRDLKTQNILLDKHRMVVKIGDFGISKILSSKSKAYTVVGTPCYISPELCEGKPYNQKSDIWALGCVLYELASLKRAFEAANLPALVLKIMSGTFAPISDRYSPELRQLVLSLLSLEPAQRPPLSHIMAQPLCIRALLNLHTDVGSVRMRRAEKSVAPSNTGSRTTSVRCRGIPRGPVRPAIPPPLSSVYAWGGGLGTPLRLPMLNTEVVQVAAGRTQKAGVTRSGRLILWEAPPLGAGGGSLLPGAVEQPQPQFISRFLEGQSGVTIKHVACGDFFTACLTDRGIIMTFGSGSNGCLGHGSLTDISQPTIVEALLGYEMVQVACGASHVLALSTERELFAWGRGDSGRLGLGTRESHSCPQQVPMPPGQEAQRVVCGIDSSMILTVPGQALACGSNRFNKLGLDHLSLGEEPVPHQQVEEALSFTLLGSAPLDQEPLLSIDLGTAHSAAVTASGDCYTFGSNQHGQLGTNTRRGSRAPCKVQGLEGIKMAMVACGDAFTVAIGAESEVYSWGKGARGRLGRRDEDAGLPRPVQLDETHPYTVTSVSCCHGNTLLAVRSVTDEPVPP,NEK,NIMA related kinase 8,NEK8,Other,2123,291,NEK8,RVVGRGAFGIVHLVIIKQIAAQNECQVLKLLNPNVIEYYENMIAMEYAPGGTLAEFIQKHVHTHLILHRDLKTQNILLIGDFGIS,Human,NEK8,Protein kinase domain,4.0,256.0,692.0,PF00069,True
+P35626,ADRBK2,BARK2,BARK2,Beta-adrenergic receptor kinase 2,AGC,GRK,BARK,ADRBK2,MADLEAVLADVSYLMAMEKSKATPAARASKRIVLPEPSIRSVMQKYLAERNEITFDKIFNQKIGFLLFKDFCLNEINEAVPQVKFYEEIKEYEKLDNEEDRLCRSRQIYDAYIMKELLSCSHPFSKQAVEHVQSHLSKKQVTSTLFQPYIEEICESLRGDIFQKFMESDKFTRFCQWKNVELNIHLTMNEFSVHRIIGRGGFGEVYGCRKADTGKMYAMKCLDKKRIKMKQGETLALNERIMLSLVSTGDCPFIVCMTYAFHTPDKLCFILDLMNGGDLHYHLSQHGVFSEKEMRFYATEIILGLEHMHNRFVVYRDLKPANILLDEHGHARISDLGLACDFSKKKPHASVGTHGYMAPEVLQKGTAYDSSADWFSLGCMLFKLLRGHSPFRQHKTKDKHEIDRMTLTVNVELPDTFSPELKSLLEGLLQRDVSKRLGCHGGGSQEVKEHSFFKGVDWQHVYLQKYPPPLIPPRGEVNAADAFDIGSFDEEDTKGIKLLDCDQELYKNFPLVISERWQQEVTETVYEAVNADTDKIEARKRAKNKQLGHEEDYALGKDCIMHGYMLKLGNPFLTQWQRRYFYLFPNRLEWRGEGESRQNLLTMEQILSVEETQIKDKKCILFRIKGGKQFVLQCESDPEFVQWKKELNETFKEAQRLLRRAPKFLNKPRSGTVELPKPSLCHRNSNGL,GRK,"adrenergic, beta, receptor kinase 2",GRK3,AGC,1467,12,BARK2,RIIGRGGFGEVYGYAMKCLLALNERIMLSLVSPFIVCMTYACFILDLMNGGDLHYHLSQHMHNRFVVYRDLKPANILLISDLGLA,Human,BARK,Protein kinase domain,192.0,453.0,688.0,PF00069,True
+Q9UHY1,NRBP1,NRBP1,NRBP1,Nuclear receptor-binding protein,Other,NRBP,nan,NRBP1,MSEGESQTVLSSGSDPKVESSSSAPGLTSVSPPVTSTTSAASPEEEEESEDESEILEESPCGRWQKRREEVNQRNVPGIDSAYLAMDTEEGVEVVWNEVQFSERKNYKLQEEKVRAVFDNLIQLEHLNIVKFHKYWADIKENKARVIFITEYMSSGSLKQFLKKTKKNHKTMNEKAWKRWCTQILSALSYLHSCDPPIIHGNLTCDTIFIQHNGLIKIGSVAPDTINNHVKTCREEQKNLHFFAPEYGEVTNVTTAVDIYSFGMCALEMAVLEIQGNGESSYVPQEAISSAIQLLEDPLQREFIQKCLQSEPARRPTARELLFHPALFEVPSLKLLAAHCIVGHQHMIPENALEEITKNMDTSAVLAEIPAGPGREPVQTLYSQSPALELDKFLEDVRNGIYPLTAFGLPRPQQPQQEEVTSPVVPPSVKTPTPEPAEVETRKVVLMQCNIESVEEGVKHHLTLLLKLEDKLNRHLSCDLMPNENIPELAAELVQLGFISEADQSRLTSLLEETLNKFNFARNSTLNSAAVTVSS,NRBP,nuclear receptor binding protein 1,NRBP1,Other,0,301,NRBP1,EEVNQRNVPGIDSVVWNEVKVRAVFDNLIQLELNIVKFHKYIFITEYMSSGSLKQFLKKHSCDPPIIHGNLTCDTIFIIGSVAPD,Human,,Protein kinase domain,83.0,325.0,535.0,PF00069,True
+Q9BZL6,PRKD2,PKD2,PKD2,Serine/threonine-protein kinase D2,CAMK,PKD,nan,PRKD2,MATAPSYPAGLPGSPGPGSPPPPGGLELQSPPPLLPQIPAPGSGVSFHIQIGLTREFVLLPAASELAHVKQLACSIVDQKFPECGFYGLYDKILLFKHDPTSANLLQLVRSSGDIQEGDLVEVVLSASATFEDFQIRPHALTVHSYRAPAFCDHCGEMLFGLVRQGLKCDGCGLNYHKRCAFSIPNNCSGARKRRLSSTSLASGHSVRLGTSESLPCTAEELSRSTTELLPRRPPSSSSSSSASSYTGRPIELDKMLLSKVKVPHTFLIHSYTRPTVCQACKKLLKGLFRQGLQCKDCKFNCHKRCATRVPNDCLGEALINGDVPMEEATDFSEADKSALMDESEDSGVIPGSHSENALHASEEEEGEGGKAQSSLGYIPLMRVVQSVRHTTRKSSTTLREGWVVHYSNKDTLRKRHYWRLDCKCITLFQNNTTNRYYKEIPLSEILTVESAQNFSLVPPGTNPHCFEIVTANATYFVGEMPGGTPGGPSGQGAEAARGWETAIRQALMPVILQDAPSAPGHAPHRQASLSISVSNSQIQENVDIATVYQIFPDEVLGSGQFGVVYGGKHRKTGRDVAVKVIDKLRFPTKQESQLRNEVAILQSLRHPGIVNLECMFETPEKVFVVMEKLHGDMLEMILSSEKGRLPERLTKFLITQILVALRHLHFKNIVHCDLKPENVLLASADPFPQVKLCDFGFARIIGEKSFRRSVVGTPAYLAPEVLLNQGYNRSLDMWSVGVIMYVSLSGTFPFNEDEDINDQIQNAAFMYPASPWSHISAGAIDLINNLLQVKMRKRYSVDKSLSHPWLQEYQTWLDLRELEGKMGERYITHESDDARWEQFAAEHPLPGSGLPTDRDLGGACPPQDHDMQGLAERISVL,PKD,protein kinase D2,PRKD2,CAMK,2173,165,PKD2,EVLGSGQFGVVYGVAVKVIQLRNEVAILQSLRPGIVNLECMFVVMEKLHGDMLEMILSSHLHFKNIVHCDLKPENVLLLCDFGFA,Human,,Protein kinase domain,555.0,807.0,878.0,PF00069,True
+Q9NY57,STK32B,YANK2,YANK2,Serine/threonine-protein kinase 32B,AGC,YANK,nan,STK32B,MGGNHSHKPPVFDENEEVNFDHFQILRAIGKGSFGKVCIVQKRDTKKMYAMKYMNKQKCIERDEVRNVFRELQIMQGLEHPFLVNLWYSFQDEEDMFMVVDLLLGGDLRYHLQQNVHFTEGTVKLYICELALALEYLQRYHIIHRDIKPDNILLDEHGHVHITDFNIATVVKGAERASSMAGTKPYMAPEVFQVYMDRGPGYSYPVDWWSLGITAYELLRGWRPYEIHSVTPIDEILNMFKVERVHYSSTWCKGMVALLRKLLTKDPESRVSSLHDIQSVPYLADMNWDAVFKKALMPGFVPNKGRLNCDPTFELEEMILESKPLHKKKKRLAKNRSRDGTKDSCPLNGHLQHCLETVREEFIIFNREKLRRQQGQGSQLLDTDSRGGGQAQSKLQDGCNNNLLTHTCTRGCSS,YANK,serine/threonine kinase 32B,STK32B,AGC,1538,67,YANK2,RAIGKGSFGKVCIYAMKYMNVFRELQIMQGLEPFLVNLWYSFMVVDLLLGGDLRYHLQQYLQRYHIIHRDIKPDNILLITDFNIA,Human,,Protein kinase domain,24.0,282.0,414.0,PF00069,True
+Q96RR4,CAMKK2,CaMKK2,CaMKK2,Calcium/calmodulin-dependent protein kinase kinase 2,Other,CAMKK,CAMKK-Meta,CAMKK2,MSSCVSSQPSSNRAAPQDELGGRGSSSSESQKPCEALRGLSSLSIHLGMESFIVVTECEPGCAVDLGLARDRPLEADGQEVPLDTSGSQARPHLSGRKLSLQERSQGGLAAGGSLDMNGRCICPSLPYSPVSSPQSSPRLPRRPTVESHHVSITGMQDCVQLNQYTLKDEIGKGSYGVVKLAYNENDNTYYAMKVLSKKKLIRQAGFPRRPPPRGTRPAPGGCIQPRGPIEQVYQEIAILKKLDHPNVVKLVEVLDDPNEDHLYMVFELVNQGPVMEVPTLKPLSEDQARFYFQDLIKGIEYLHYQKIIHRDIKPSNLLVGEDGHIKIADFGVSNEFKGSDALLSNTVGTPAFMAPESLSETRKIFSGKALDVWAMGVTLYCFVFGQCPFMDERIMCLHSKIKSQALEFPDQPDIAEDLKDLITRMLDKNPESRIVVPEIKLHPWVTRHGAEPLPSEDENCTLVEVTEEEVENSVKHIPSLATVILVKTMIRKRSFGNPFEGSRREERSLSAPGNLLTKKPTRECESLSELKEARQRRQPPGHRPAPRGGGGSALVRGSPCVESCWAPAPGSPARMHPLRPEEAMEPE,CAMKK,"calcium/calmodulin-dependent protein kinase kinase 2, beta",CAMKK2,Other,1957,265,CaMKK2,DEIGKGSYGVVKLYAMKVLQVYQEIAILKKLDPNVVKLVEVYMVFELVNQGPVMEVPTLYLHYQKIIHRDIKPSNLLVIADFGVS,Human,Meta,Protein kinase domain,165.0,446.0,588.0,PF00069,True
+Q8IZL9,CDK20,CCRK,CCRK,Cyclin-dependent kinase 20,CMGC,CDK,nan,CDK20,MDQYCILGRIGEGAHGIVFKAKHVETGEIVALKKVALRRLEDGFPNQALREIKALQEMEDNQYVVQLKAVFPHGGGFVLAFEFMLSDLAEVVRHAQRPLAQAQVKSYLQMLLKGVAFCHANNIVHRDLKPANLLISASGQLKIADFGLARVFSPDGSRLYTHQVATRWYRAPELLYGARQYDQGVDLWSVGCIMGELLNGSPLFPGKNDIEQLCYVLRILGTPNPQVWPELTELPDYNKISFKEQVPMPLEEVLPDVSPQALDLLGQFLLYPPHQRIAASKALLHQYFFTAPLPAHPSELPIPQRLGGPAPKAHPGPPHIHDFHVDRPLEESLLNPELIRPFILEG,CDK,cyclin-dependent kinase 20,CDK20,CMGC,0,196,CCRK,GRIGEGAHGIVFKVALKKVQALREIKALQEMEQYVVQLKAVVLAFEFML-SDLAEVVRHFCHANNIVHRDLKPANLLIIADFGLA,Human,CCRK,Protein kinase domain,6.0,288.0,346.0,PF00069,True
+Q9HAZ1,CLK4,CLK4,CLK4,Dual specificity protein kinase CLK4,CMGC,CLK,nan,CLK4,MRHSKRTHCPDWDSRESWGHESYRGSHKRKRRSHSSTQENRHCKPHHQFKESDCHYLEARSLNERDYRDRRYVDEYRNDYCEGYVPRHYHRDIESGYRIHCSKSSVRSRRSSPKRKRNRHCSSHQSRSKSHRRKRSRSIEDDEEGHLICQSGDVLRARYEIVDTLGEGAFGKVVECIDHGMDGMHVAVKIVKNVGRYREAARSEIQVLEHLNSTDPNSVFRCVQMLEWFDHHGHVCIVFELLGLSTYDFIKENSFLPFQIDHIRQMAYQICQSINFLHHNKLTHTDLKPENILFVKSDYVVKYNSKMKRDERTLKNTDIKVVDFGSATYDDEHHSTLVSTRHYRAPEVILALGWSQPCDVWSIGCILIEYYLGFTVFQTHDSKEHLAMMERILGPIPQHMIQKTRKRKYFHHNQLDWDEHSSAGRYVRRRCKPLKEFMLCHDEEHEKLFDLVRRMLEYDPTQRITLDEALQHPFFDLLKKK,CLK,CDC like kinase 4,CLK4,CMGC,1993,226,CLK4,DTLGEGAFGKVVEVAVKIVAARSEIQVLEHLNFRCVQMLEWCIVFELLG-LSTYDFIKEFLHHNKLTHTDLKPENILFVVDFGSA,Human,,Protein kinase domain,159.0,475.0,481.0,PF00069,True
+Q9NYV4,CDK12,CRK7,CRK7,Cyclin-dependent kinase 12,CMGC,CDK,CRK7,CDK12,MPNSERHGGKKDGSGGASGTLQPSSGGGSSNSRERHRLVSKHKRHKSKHSKDMGLVTPEAASLGTVIKPLVEYDDISSDSDTFSDDMAFKLDRRENDERRGSDRSDRLHKHRHHQHRRSRDLLKAKQTEKEKSQEVSSKSGSMKDRISGSSKRSNEETDDYGKAQVAKSSSKESRSSKLHKEKTRKERELKSGHKDRSKSHRKRETPKSYKTVDSPKRRSRSPHRKWSDSSKQDDSPSGASYGQDYDLSPSRSHTSSNYDSYKKSPGSTSRRQSVSPPYKEPSAYQSSTRSPSPYSRRQRSVSPYSRRRSSSYERSGSYSGRSPSPYGRRRSSSPFLSKRSLSRSPLPSRKSMKSRSRSPAYSRHSSSHSKKKRSSSRSRHSSISPVRLPLNSSLGAELSRKKKERAAAAAAAKMDGKESKGSPVFLPRKENSSVEAKDSGLESKKLPRSVKLEKSAPDTELVNVTHLNTEVKNSSDTGKVKLDENSEKHLVKDLKAQGTRDSKPIALKEEIVTPKETETSEKETPPPLPTIASPPPPLPTTTPPPQTPPLPPLPPIPALPQQPPLPPSQPAFSQVPASSTSTLPPSTHSKTSAVSSQANSQPPVQVSVKTQVSVTAAIPHLKTSTLPPLPLPPLLPGDDDMDSPKETLPSKPVKKEKEQRTRHLLTDLPLPPELPGGDLSPPDSPEPKAITPPQQPYKKRPKICCPRYGERRQTESDWGKRCVDKFDIIGIIGEGTYGQVYKAKDKDTGELVALKKVRLDNEKEGFPITAIREIKILRQLIHRSVVNMKEIVTDKQDALDFKKDKGAFYLVFEYMDHDLMGLLESGLVHFSEDHIKSFMKQLMEGLEYCHKKNFLHRDIKCSNILLNNSGQIKLADFGLARLYNSEESRPYTNKVITLWYRPPELLLGEERYTPAIDVWSCGCILGELFTKKPIFQANLELAQLELISRLCGSPCPAVWPDVIKLPYFNTMKPKKQYRRRLREEFSFIPSAALDLLDHMLTLDPSKRCTAEQTLQSDFLKDVELSKMAPPDLPHWQDCHELWSKKRRRQRQSGVVVEEPPPSKTSRKETTSGTSTEPVKNSSPAPPQPAPGKVESGAGDAIGLADITQQLNQSELAVLLNLLQSQTDLSIPQMAQLLNIHSNPEMQQQLEALNQSISALTEATSQQQDSETMAPEESLKEAPSAPVILPSAEQTTLEASSTPADMQNILAVLLSQLMKTQEPAGSLEENNSDKNSGPQGPRRTPTMPQEEAAACPPHILPPEKRPPEPPGPPPPPPPPPLVEGDLSSAPQELNPAVTAALLQLLSQPEAEPPGHLPHEHQALRPMEYSTRPRPNRTYGNTDGPETGFSAIDTDERNSGPALTESLVQTLVKNRTFSGSLSHLGESSSYQGTGSVQFPGDQDLRFARVPLALHPVVGQPFLKAEGSSNSVVHAETKLQNYGELGPGTTGASSSGAGLHWGGPTQSSAYGKLYRGPTRVPPRGGRGRGVPY,CDK,cyclin-dependent kinase 12,CDK12,CMGC,0,209,CRK7,GIIGEGTYGQVYKVALKKVTAIREIKILRQLIRSVVNMKEIYLVFEYMD-HDLMGLLESYCHKKNFLHRDIKCSNILLLADFGLA,Human,CRK7,Protein kinase domain,729.0,1020.0,1490.0,PF00069,True
+Q9UEE5,STK17A,DRAK1,DRAK1,Serine/threonine-protein kinase 17A,CAMK,DAPK,nan,STK17A,MIPLEKPGSGGSSPGATSGSGRAGRGLSGPCRPPPPPQARGLLTEIRAVVRTEPFQDGYSLCPGRELGRGKFAVVRKCIKKDSGKEFAAKFMRKRRKGQDCRMEIIHEIAVLELAQDNPWVINLHEVYETASEMILVLEYAAGGEIFDQCVADREEAFKEKDVQRLMRQILEGVHFLHTRDVVHLDLKPQNILLTSESPLGDIKIVDFGLSRILKNSEELREIMGTPEYVAPEILSYDPISMATDMWSIGVLTYVMLTGISPFLGNDKQETFLNISQMNLSYSEEEFDVLSESAVDFIRTLLVKKPEDRATAEECLKHPWLTQSSIQEPSFRMEKALEEANALQEGHSVPEINSDTDKSETKESIVTEELIVVTSYTLGQCRQSEKEKMEQKAISKRFKFEEPLLQEIPGEFIY,DAPK,serine/threonine kinase 17a,STK17A,CAMK,2214,144,DRAK1,RELGRGKFAVVRKFAAKFMEIIHEIAVLELAQPWVINLHEVILVLEYAAGGEIFDQCVAFLHTRDVVHLDLKPQNILLIVDFGLS,Human,DRAK,Protein kinase domain,65.0,321.0,414.0,PF00069,True
+O94768,STK17B,DRAK2,DRAK2,Serine/threonine-protein kinase 17B,CAMK,DAPK,nan,STK17B,MSRRRFDCRSISGLLTTTPQIPIKMENFNNFYILTSKELGRGKFAVVRQCISKSTGQEYAAKFLKKRRRGQDCRAEILHEIAVLELAKSCPRVINLHEVYENTSEIILILEYAAGGEIFSLCLPELAEMVSENDVIRLIKQILEGVYYLHQNNIVHLDLKPQNILLSSIYPLGDIKIVDFGMSRKIGHACELREIMGTPEYLAPEILNYDPITTATDMWNIGIIAYMLLTHTSPFVGEDNQETYLNISQVNVDYSEETFSSVSQLATDFIQSLLVKNPEKRPTAEICLSHSWLQQWDFENLFHPEETSSSSQTQDHSVRSSEDKTSKSSCNGTCGDREDKENIPEDSSMVSKRFRFDDSLPNPHELVSDLLC,DAPK,serine/threonine kinase 17b,STK17B,CAMK,2215,143,DRAK2,KELGRGKFAVVRQYAAKFLEILHEIAVLELAKPRVINLHEVILILEYAAGGEIFSLCLPYLHQNNIVHLDLKPQNILLIVDFGMS,Human,DRAK,Protein kinase domain,36.0,293.0,372.0,PF00069,True
+O43781,DYRK3,DYRK3,DYRK3,Dual specificity tyrosine-phosphorylation-regulated kinase 3,CMGC,DYRK,DYRK2,DYRK3,MGGTARGPGRKDAGPPGAGLPPQQRRLGDGVYDTFMMIDETKCPPCSNVLCNPSEPPPPRRLNMTTEQFTGDHTQHFLDGGEMKVEQLFQEFGNRKSNTIQSDGISDSEKCSPTVSQGKSSDCLNTVKSNSSSKAPKVVPLTPEQALKQYKHHLTAYEKLEIINYPEIYFVGPNAKKRHGVIGGPNNGGYDDADGAYIHVPRDHLAYRYEVLKIIGKGSFGQVARVYDHKLRQYVALKMVRNEKRFHRQAAEEIRILEHLKKQDKTGSMNVIHMLESFTFRNHVCMAFELLSIDLYELIKKNKFQGFSVQLVRKFAQSILQSLDALHKNKIIHCDLKPENILLKHHGRSSTKVIDFGSSCFEYQKLYTYIQSRFYRAPEIILGSRYSTPIDIWSFGCILAELLTGQPLFPGEDEGDQLACMMELLGMPPPKLLEQSKRAKYFINSKGIPRYCSVTTQADGRVVLVGGRSRRGKKRGPPGSKDWGTALKGCDDYLFIEFLKRCLHWDPSARLTPAQALRHPWISKSVPRPLTTIDKVSGKRVVNPASAFQGLGSKLPPVVGIANKLKANLMSETNGSIPLCSVLPKLIS,DYRK,dual specificity tyrosine phosphorylation regulated kinase 3,DYRK3,CMGC,2012,229,DYRK3,KIIGKGSFGQVARVALKMVQAAEEIRILEHLKMNVIHMLESCMAFELLS-IDLYELIKKALHKNKIIHCDLKPENILLVIDFGSS,Human,DYRK2,Protein kinase domain,209.0,522.0,588.0,PF00069,True
+O94806,PRKD3,PKD3,PKD3,Serine/threonine-protein kinase D3,CAMK,PKD,nan,PRKD3,MSANNSPPSAQKSVLPTAIPAVLPAASPCSSPKTGLSARLSNGSFSAPSLTNSRGSVHTVSFLLQIGLTRESVTIEAQELSLSAVKDLVCSIVYQKFPECGFFGMYDKILLFRHDMNSENILQLITSADEIHEGDLVEVVLSALATVEDFQIRPHTLYVHSYKAPTFCDYCGEMLWGLVRQGLKCEGCGLNYHKRCAFKIPNNCSGVRKRRLSNVSLPGPGLSVPRPLQPEYVALPSEESHVHQEPSKRIPSWSGRPIWMEKMVMCRVKVPHTFAVHSYTRPTICQYCKRLLKGLFRQGMQCKDCKFNCHKRCASKVPRDCLGEVTFNGEPSSLGTDTDIPMDIDNNDINSDSSRGLDDTEEPSPPEDKMFFLDPSDLDVERDEEAVKTISPSTSNNIPLMRVVQSIKHTKRKSSTMVKEGWMVHYTSRDNLRKRHYWRLDSKCLTLFQNESGSKYYKEIPLSEILRISSPRDFTNISQGSNPHCFEIITDTMVYFVGENNGDSSHNPVLAATGVGLDVAQSWEKAIRQALMPVTPQASVCTSPGQGKDHKDLSTSISVSNCQIQENVDISTVYQIFADEVLGSGQFGIVYGGKHRKTGRDVAIKVIDKMRFPTKQESQLRNEVAILQNLHHPGIVNLECMFETPERVFVVMEKLHGDMLEMILSSEKSRLPERITKFMVTQILVALRNLHFKNIVHCDLKPENVLLASAEPFPQVKLCDFGFARIIGEKSFRRSVVGTPAYLAPEVLRSKGYNRSLDMWSVGVIIYVSLSGTFPFNEDEDINDQIQNAAFMYPPNPWREISGEAIDLINNLLQVKMRKRYSVDKSLSHPWLQDYQTWLDLREFETRIGERYITHESDDARWEIHAYTHNLVYPKHFIMAPNPDDMEEDP,PKD,protein kinase D3,PRKD3,CAMK,2174,164,PKD3,EVLGSGQFGIVYGVAIKVIQLRNEVAILQNLHPGIVNLECMFVVMEKLHGDMLEMILSSNLHFKNIVHCDLKPENVLLLCDFGFA,Human,,Protein kinase domain,580.0,832.0,890.0,PF00069,True
+Q9P2K8,EIF2AK4,"GCN2_b, GCN2","Domain2_GCN2, GCN2",Eukaryotic translation initiation factor 2-alpha kinase 4,"STE, Other","PEK, STE-Unique","nan, GCN2",EIF2AK4,MAGGRGAPGRGRDEPPESYPQRQDHELQALEAIYGADFQDLRPDACGPVKEPPEINLVLYPQGLTGEEVYVKVDLRVKCPPTYPDVVPEIELKNAKGLSNESVNLLKSRLEELAKKHCGEVMIFELAYHVQSFLSEHNKPPPKSFHEEMLERRAQEEQQRLLEAKRKEEQEQREILHEIQRRKEEIKEEKKRKEMAKQERLEIASLSNQDHTSKKDPGGHRTAAILHGGSPDFVGNGKHRANSSGRSRRERQYSVCNSEDSPGSCEILYFNMGSPDQLMVHKGKCIGSDEQLGKLVYNALETATGGFVLLYEWVLQWQKKMGPFLTSQEKEKIDKCKKQIQGTETEFNSLVKLSHPNVVRYLAMNLKEQDDSIVVDILVEHISGVSLAAHLSHSGPIPVHQLRRYTAQLLSGLDYLHSNSVVHKVLSASNVLVDAEGTVKITDYSISKRLADICKEDVFEQTRVRFSDNALPYKTGKKGDVWRLGLLLLSLSQGQECGEYPVTIPSDLPADFQDFLKKCVCLDDKERWSPQQLLKHSFINPQPKMPLVEQSPEDSEGQDYVETVIPSNRLPSAAFFSETQRQFSRYFIEFEELQLLGKGAFGAVIKVQNKLDGCCYAVKRIPINPASRQFRRIKGEVTLLSRLHHENIVRYYNAWIERHERPAGPGTPPPDSGPLAKDDRAARGQPASDTDGLDSVEAAAPPPILSSSVEWSTSGERSASARFPATGPGSSDDEDDDEDEHGGVFSQSFLPASDSESDIIFDNEDENSKSQNQDEDCNEKNGCHESEPSVTTEAVHYLYIQMEYCEKSTLRDTIDQGLYRDTVRLWRLFREILDGLAYIHEKGMIHRDLKPVNIFLDSDDHVKIGDFGLATDHLAFSADSKQDDQTGDLIKSDPSGHLTGMVGTALYVSPEVQGSTKSAYNQKVDLFSLGIIFFEMSYHPMVTASERIFVLNQLRDPTSPKFPEDFDDGEHAKQKSVISWLLNHDPAKRPTATELLKSELLPPPQMEESELHEVLHHTLTNVDGKAYRTMMAQIFSQRISPAIDYTYDSDILKGNFSIRTAKMQQHVCETIIRIFKRHGAVQLCTPLLLPRNRQIYEHNEAALFMDHSGMLVMLPFDLRIPFARYVARNNILNLKRYCIERVFRPRKLDRFHPKELLECAFDIVTSTTNSFLPTAEIIYTIYEIIQEFPALQERNYSIYLNHTMLLKAILLHCGIPEDKLSQVYIILYDAVTEKLTRREVEAKFCNLSLSSNSLCRLYKFIEQKGDLQDLMPTINSLIKQKTGIAQLVKYGLKDLEEVVGLLKKLGIKLQVLINLGLVYKVQQHNGIIFQFVAFIKRRQRAVPEILAAGGRYDLLIPQFRGPQALGPVPTAIGVSIAIDKISAAVLNMEESVTISSCDLLVVSVGQMSMSRAINLTQKLWTAGITAEIMYDWSQSQEELQEYCRHHEITYVALVSDKEGSHVKVKSFEKERQTEKRVLETELVDHVLQKLRTKVTDERNGREASDNLAVQNLKGSFSNASGLFEIHGATVVPIVSVLAPEKLSASTRRRYETQVQTRLQTSLANLHQKSSEIEILAVDLPKETILQFLSLEWDADEQAFNTTVKQLLSRLPKQRYLKLVCDEIYNIKVEKKVSVLFLYSYRDDYYRILF,PEK,eukaryotic translation initiation factor 2 alpha kinase 4,EIF2AK4,Other,2018,306,GCN2,QLLGKGAFGAVIKYAVKRIRIKGEVTLLSRLHENIVRYYNALDSVEAAAPPPILSSSVEYIHEKGMIHRDLKPVNIFLIGDFGLA,Human,GCN2,Protein kinase domain,330.0,539.0,1649.0,PF00069,True
+Q8N2I9,STK40,SgK495,SgK495,Serine/threonine-protein kinase 40,CAMK,SgK495,nan,STK40,MKRRASDRGAGETSARAKALGSGISGNNAKRAGPFILGPRLGNSPVPSIVQCLARKDGTDDFYQLKILTLEERGDQGIESQEERQGKMLLHTEYSLLSLLHTQDGVVHHHGLFQDRTCEIVEDTESSRMVKKMKKRICLVLDCLCAHDFSDKTADLINLQHYVIKEKRLSERETVVIFYDVVRVVEALHQKNIVHRDLKLGNMVLNKRTHRITITNFCLGKHLVSEGDLLKDQRGSPAYISPDVLSGRPYRGKPSDMWALGVVLFTMLYGQFPFYDSIPQELFRKIKAAEYTIPEDGRVSENTVCLIRKLLVLDPQQRLAAADVLEALSAIIASWQSLSSLSGPLQVVPDIDDQMSNADSSQEAKVTEECSQYEFENYMRQQLLLAEEKSSIHDARSWVPKRQFGSAPPVRRLGHDAQPMTSLDTAILAQRYLRK,SgK495,serine/threonine kinase 40,STK40,CAMK,0,169,SgK495,-------------------------------------------------NLQHYVIKEKALHQKNIVHRDLKLGNMVLITNFCLG,Human,,Protein kinase domain,81.0,326.0,435.0,PF00069,True
+Q8TDR2,STK35,CLIK1,CLIK1,Serine/threonine-protein kinase 35,Other,NKF4,nan,STK35,MGHQESPLARAPAGGAAYVKRLCKGLSWREHVESHGSLGAQASPASAAAAEGSATRRARAATSRAARSRRQPGPGADHPQAGAPGGKRAARKWRCAGQVTIQGPAPPRPRAGRRDEAGGARAAPLLLPPPPAAMETGKDGARRGTQSPERKRRSPVPRAPSTKLRPAAAARAMDPVAAEAPGEAFLARRRPEGGGGSARPRYSLLAEIGRGSYGVVYEAVAGRSGARVAVKKIRCDAPENVELALAEFWALTSLKRRHQNVVQFEECVLQRNGLAQRMSHGNKSSQLYLRLVETSLKGERILGYAEEPCYLWFVMEFCEGGDLNQYVLSRRPDPATNKSFMLQLTSAIAFLHKNHIVHRDLKPDNILITERSGTPILKVADFGLSKVCAGLAPRGKEGNQDNKNVNVNKYWLSSACGSDFYMAPEVWEGHYTAKADIFALGIIIWAMIERITFIDSETKKELLGTYIKQGTEIVPVGEALLENPKMELHIPQKRRTSMSEGIKQLLKDMLAANPQDRPDAFELETRMDQVTCAA,NKF4,serine/threonine kinase 35,STK35,Other,2222,298,CLIK1,AEIGRGSYGVVYEVAVKKILALAEFWALTSLKGNKSSQLYLGYAEEPCYLWFVMEFCEGFLHKNHIVHRDLKPDNILIVADFGLS,Human,,Protein kinase domain,202.0,522.0,534.0,PF00069,True
+Q59H18,TNNI3K,HH498,HH498,Serine/threonine-protein kinase TNNI3K,TKL,MLK,HH498,TNNI3K,MGNYKSRPTQTCTDEWKKKVSESYVITIERLEDDLQIKEKELTELRNIFGSDEAFSKVNLNYRTENGLSLLHLCCICGGKKSHIRTLMLKGLRPSRLTRNGFTALHLAVYKDNAELITSLLHSGADIQQVGYGGLTALHIATIAGHLEAADVLLQHGANVNIQDAVFFTPLHIAAYYGHEQVTRLLLKFGADVNVSGEVGDRPLHLASAKGFLNIAKLLMEEGSKADVNAQDNEDHVPLHFCSRFGHHDIVKYLLQSDLEVQPHVVNIYGDTPLHLACYNGKFEVAKEIIQISGTESLTKENIFSETAFHSACTYGKSIDLVKFLLDQNVININHQGRDGHTGLHSACYHGHIRLVQFLLDNGADMNLVACDPSRSSGEKDEQTCLMWAYEKGHDAIVTLLKHYKRPQDELPCNEYSQPGGDGSYVSVPSPLGKIKSMTKEKADILLLRAGLPSHFHLQLSEIEFHEIIGSGSFGKVYKGRCRNKIVAIKRYRANTYCSKSDVDMFCREVSILCQLNHPCVIQFVGACLNDPSQFAIVTQYISGGSLFSLLHEQKRILDLQSKLIIAVDVAKGMEYLHNLTQPIIHRDLNSHNILLYEDGHAVVADFGESRFLQSLDEDNMTKQPGNLRWMAPEVFTQCTRYTIKADVFSYALCLWEILTGEIPFAHLKPAAAAADMAYHHIRPPIGYSIPKPISSLLIRGWNACPEGRPEFSEVVMKLEECLCNIELMSPASSNSSGSLSPSSSSDCLVNRGGPGRSHVAALRSRFELEYALNARSYAALSQSAGQYSSQGLSLEEMKRSLQYTPIDKYGYVSDPMSSMHFHSCRNSSSFEDSS,MLK,TNNI3 interacting kinase,TNNI3K,TKL,2247,496,HH498,EIIGSGSFGKVYKVAIKRYMFCREVSILCQLNPCVIQFVGAAIVTQYISGGSLFSLLHEHNLTQPIIHRDLNSHNILLVADFGES,Human,HH498,Protein tyrosine and serine/threonine kinase,463.0,719.0,835.0,PF07714,True
+Q9H2X6,HIPK2,HIPK2,HIPK2,Homeodomain-interacting protein kinase 2,CMGC,DYRK,HIPK,HIPK2,MAPVYEGMASHVQVFSPHTLQSSAFCSVKKLKIEPSSNWDMTGYGSHSKVYSQSKNIPLSQPATTTVSTSLPVPNPSLPYEQTIVFPGSTGHIVVTSASSTSVTGQVLGGPHNLMRRSTVSLLDTYQKCGLKRKSEEIENTSSVQIIEEHPPMIQNNASGATVATATTSTATSKNSGSNSEGDYQLVQHEVLCSMTNTYEVLEFLGRGTFGQVVKCWKRGTNEIVAIKILKNHPSYARQGQIEVSILARLSTESADDYNFVRAYECFQHKNHTCLVFEMLEQNLYDFLKQNKFSPLPLKYIRPVLQQVATALMKLKSLGLIHADLKPENIMLVDPSRQPYRVKVIDFGSASHVSKAVCSTYLQSRYYRAPEIILGLPFCEAIDMWSLGCVIAELFLGWPLYPGASEYDQIRYISQTQGLPAEYLLSAGTKTTRFFNRDTDSPYPLWRLKTPDDHEAETGIKSKEARKYIFNCLDDMAQVNMTTDLEGSDMLVEKADRREFIDLLKKMLTIDADKRITPIETLNHPFVTMTHLLDFPHSTHVKSCFQNMEICKRRVNMYDTVNQSKTPFITHVAPSTSTNLTMTFNNQLTTVHNQAPSSTSATISLANPEVSILNYPSTLYQPSAASMAAVAQRSMPLQTGTAQICARPDPFQQALIVCPPGFQGLQASPSKHAGYSVRMENAVPIVTQAPGAQPLQIQPGLLAQQAWPSGTQQILLPPAWQQLTGVATHTSVQHATVIPETMAGTQQLADWRNTHAHGSHYNPIMQQPALLTGHVTLPAAQPLNVGVAHVMRQQPTSTTSSRKSKQHQSSVRNVSTCEVSSSQAISSPQRSKRVKENTPPRCAMVHSSPACSTSVTCGWGDVASSTTRERQRQTIVIPDTPSPTVSVITISSDTDEEEEQKHAPTSTVSKQRKNVISCVTVHDSPYSDSSSNTSPYSVQQRAGHNNANAFDTKGSLENHCTGNPRTIIVPPLKTQASEVLVECDSLVPVNTSHHSSSYKSKSSSNVTSTSGHSSGSSSGAITYRQQRPGPHFQQQQPLNLSQAQQHITTDRTGSHRRQQAYITPTMAQAPYSFPHNSPSHGTVHPHLAAAAAAAHLPTQPHLYTYTAPAALGSTGTVAHLVASQGSARHTVQHTAYPASIVHQVPVSMGPRVLPSPTIHPSQYPAQFAHQTYISASPASTVYTGYPLSPAKVNQYPYI,DYRK,homeodomain interacting protein kinase 2,HIPK2,CMGC,2034,233,HIPK2,EFLGRGTFGQVVKVAIKILQGQIEVSILARLSYNFVRAYECCLVFEMLE-QNLYDFLKQKLKSLGLIHADLKPENIMLVIDFGSA,Human,HIPK,Protein kinase domain,199.0,527.0,1198.0,PF00069,True
+Q9BQI3,EIF2AK1,HRI,HRI,Eukaryotic translation initiation factor 2-alpha kinase 1,Other,PEK,nan,EIF2AK1,MQGGNSGVRKREEEGDGAGAVAAPPAIDFPAEGPDPEYDESDVPAEIQVLKEPLQQPTFPFAVANQLLLVSLLEHLSHVHEPNPLRSRQVFKLLCQTFIKMGLLSSFTCSDEFSSLRLHHNRAITHLMRSAKERVRQDPCEDISRIQKIRSREVALEAQTSRYLNEFEELAILGKGGYGRVYKVRNKLDGQYYAIKKILIKGATKTVCMKVLREVKVLAGLQHPNIVGYHTAWIEHVHVIQPRADRAAIELPSLEVLSDQEEDREQCGVKNDESSSSSIIFAEPTPEKEKRFGESDTENQNNKSVKYTTNLVIRESGELESTLELQENGLAGLSASSIVEQQLPLRRNSHLEESFTSTEESSEENVNFLGQTEAQYHLMLHIQMQLCELSLWDWIVERNKRGREYVDESACPYVMANVATKIFQELVEGVFYIHNMGIVHRDLKPRNIFLHGPDQQVKIGDFGLACTDILQKNTDWTNRNGKRTPTHTSRVGTCLYASPEQLEGSEYDAKSDMYSLGVVLLELFQPFGTEMERAEVLTGLRTGQLPESLRKRCPVQAKYIQHLTRRNSSQRPSAIQLLQSELFQNSGNVNLTLQMKIIEQEKEIAELKKQLNLLSQDKGVRDDGKDGGVG,PEK,eukaryotic translation initiation factor 2 alpha kinase 1,EIF2AK1,Other,2015,308,HRI,AILGKGGYGRVYKYAIKKIKVLREVKVLAGLQPNIVGYHTALSDQEEDREQCGVKNDESYIHNMGIVHRDLKPRNIFLIGDFGLA,Human,HRI,Protein kinase domain,168.0,239.0,630.0,PF00069,True
+Q9UPZ9,ICK,ICK,ICK,Serine/threonine-protein kinase ICK,CMGC,RCK,nan,ICK,MNRYTTIRQLGDGTYGSVLLGRSIESGELIAIKKMKRKFYSWEECMNLREVKSLKKLNHANVVKLKEVIRENDHLYFIFEYMKENLYQLIKERNKLFPESAIRNIMYQILQGLAFIHKHGFFHRDLKPENLLCMGPELVKIADFGLAREIRSKPPYTDYVSTRWYRAPEVLLRSTNYSSPIDVWAVGCIMAEVYTLRPLFPGASEIDTIFKICQVLGTPKKTDWPEGYQLSSAMNFRWPQCVPNNLKTLIPNASSEAVQLLRDMLQWDPKKRPTASQALRYPYFQVGHPLGSTTQNLQDSEKPQKGILEKAGPPPYIKPVPPAQPPAKPHTRISSRQHQASQPPLHLTYPYKAEVSRTDHPSHLQEDKPSPLLFPSLHNKHPQSKITAGLEHKNGEIKPKSRRRWGLISRSTKDSDDWADLDDLDFSPSLSRIDLKNKKRQSDDTLCRFESVLDLKPSEPVGTGNSAPTQTSYQRRDTPTLRSAAKQHYLKHSRYLPGISIRNGILSNPGKEFIPPNPWSSSGLSGKSSGTMSVISKVNSVGSSSTSSSGLTGNYVPSFLKKEIGSAMQRVHLAPIPDPSPGYSSLKAMRPHPGRPFFHTQPRSTPGLIPRPPAAQPVHGRTDWASKYASRR,RCK,intestinal cell (MAK-like) kinase,ICK,CMGC,2038,255,ICK,RQLGDGTYGSVLLIAIKKMMNLREVKSLKKLNANVVKLKEVYFIFEYMK-ENLYQLIKEFIHKHGFFHRDLKPENLLCIADFGLA,Human,,Protein kinase domain,4.0,284.0,632.0,PF00069,True
+Q76MJ5,ERN2,IRE2,IRE2,Serine/threonine-protein kinase/endoribonuclease IRE2,Other,IRE,nan,ERN2,MASAVRGSRPWPRLGLQLQFAALLLGTLSPQVHTLRPENLLLVSTLDGSLHALSKQTGDLKWTLRDDPVIEGPMYVTEMAFLSDPADGSLYILGTQKQQGLMKLPFTIPELVHASPCRSSDGVFYTGRKQDAWFVVDPESGETQMTLTTEGPSTPRLYIGRTQYTVTMHDPRAPALRWNTTYRRYSAPPMDGSPGKYMSHLASCGMGLLLTVDPGSGTVLWTQDLGVPVMGVYTWHQDGLRQLPHLTLARDTLHFLALRWGHIRLPASGPRDTATLFSTLDTQLLMTLYVGKDETGFYVSKALVHTGVALVPRGLTLAPADGPTTDEVTLQVSGEREGSPSTAVRYPSGSVALPSQWLLIGHHELPPVLHTTMLRVHPTLGSGTAETRPPENTQAPAFFLELLSLSREKLWDSELHPEEKTPDSYLGLGPQDLLAASLTAVLLGGWILFVMRQQQPQVVEKQQETPLAPADFAHISQDAQSLHSGASRRSQKRLQSPSKQAQPLDDPEAEQLTVVGKISFNPKDVLGRGAGGTFVFRGQFEGRAVAVKRLLRECFGLVRREVQLLQESDRHPNVLRYFCTERGPQFHYIALELCRASLQEYVENPDLDRGGLEPEVVLQQLMSGLAHLHSLHIVHRDLKPGNILITGPDSQGLGRVVLSDFGLCKKLPAGRCSFSLHSGIPGTEGWMAPELLQLLPPDSPTSAVDIFSAGCVFYYVLSGGSHPFGDSLYRQANILTGAPCLAHLEEEVHDKVVARDLVGAMLSPLPQPRPSAPQVLAHPFFWSRAKQLQFFQDVSDWLEKESEQEPLVRALEAGGCAVVRDNWHEHISMPLQTDLRKFRSYKGTSVRDLLRAVRNKKHHYRELPVEVRQALGQVPDGFVQYFTNRFPRLLLHTHRAMRSCASESLFLPYYPPDSEARRPCPGATGR,IRE,endoplasmic reticulum to nucleus signaling 2,ERN2,Other,0,274,IRE2,DVLGRGAGGTFVFVAVKRLLVRREVQLLQESDPNVLRYFCTYIALELCRA-SLQEYVENHLHSLHIVHRDLKPGNILILSDFGLC,Human,,Protein kinase domain,523.0,781.0,926.0,PF00069,True
+Q96RG2,PASK,PASK,PASK,PAS domain-containing serine/threonine-protein kinase,CAMK,CAMKL,PASK,PASK,MEDGGLTAFEEDQRCLSQSLPLPVSAEGPAAQTTAEPSRSFSSAHRHLSRRNGLSRLCQSRTALSEDRWSSYCLSSLAAQNICTSKLHCPAAPEHTDPSEPRGSVSCCSLLRGLSSGWSSPLLPAPVCNPNKAIFTVDAKTTEILVANDKACGLLGYSSQDLIGQKLTQFFLRSDSDVVEALSEEHMEADGHAAVVFGTVVDIISRSGEKIPVSVWMKRMRQERRLCCVVVLEPVERVSTWVAFQSDGTVTSCDSLFAHLHGYVSGEDVAGQHITDLIPSVQLPPSGQHIPKNLKIQRSVGRARDGTTFPLSLKLKSQPSSEEATTGEAAPVSGYRASVWVFCTISGLITLLPDGTIHGINHSFALTLFGYGKTELLGKNITFLIPGFYSYMDLAYNSSLQLPDLASCLDVGNESGCGERTLDPWQGQDPAEGGQDPRINVVLAGGHVVPRDEIRKLMESQDIFTGTQTELIAGGQLLSCLSPQPAPGVDNVPEGSLPVHGEQALPKDQQITALGREEPVAIESPGQDLLGESRSEPVDVKPFASCEDSEAPVPAEDGGSDAGMCGLCQKAQLERMGVSGPSGSDLWAGAAVAKPQAKGQLAGGSLLMHCPCYGSEWGLWWRSQDLAPSPSGMAGLSFGTPTLDEPWLGVENDREELQTCLIKEQLSQLSLAGALDVPHAELVPTECQAVTAPVSSCDLGGRDLCGGCTGSSSACYALATDLPGGLEAVEAQEVDVNSFSWNLKELFFSDQTDQTSSNCSCATSELRETPSSLAVGSDPDVGSLQEQGSCVLDDRELLLLTGTCVDLGQGRRFRESCVGHDPTEPLEVCLVSSEHYAASDRESPGHVPSTLDAGPEDTCPSAEEPRLNVQVTSTPVIVMRGAAGLQREIQEGAYSGSCYHRDGLRLSIQFEVRRVELQGPTPLFCCWLVKDLLHSQRDSAARTRLFLASLPGSTHSTAAELTGPSLVEVLRARPWFEEPPKAVELEGLAACEGEYSQKYSTMSPLGSGAFGFVWTAVDKEKNKEVVVKFIKKEKVLEDCWIEDPKLGKVTLEIAILSRVEHANIIKVLDIFENQGFFQLVMEKHGSGLDLFAFIDRHPRLDEPLASYIFRQLVSAVGYLRLKDIIHRDIKDENIVIAEDFTIKLIDFGSAAYLERGKLFYTFCGTIEYCAPEVLMGNPYRGPELEMWSLGVTLYTLVFEENPFCELEETVEAAIHPPYLVSKELMSLVSGLLQPVPERRTTLEKLVTDPWVTQPVNLADYTWEEVFRVNKPESGVLSAASLEMGNRSLSDVAQAQELCGGPVPGEAPNGQGCLHPGDPRLLTS,CAMKL,PAS domain containing serine/threonine kinase,PASK,CAMK,2139,132,PASK,SPLGSGAFGFVWTVVVKFIKVTLEIAILSRVEANIIKVLDIQLVMEKHGSGLDLFAFIDYLRLKDIIHRDIKDENIVILIDFGSA,Human,PASK,Protein kinase domain,999.0,1251.0,1323.0,PF00069,True
+Q9Y2H1,STK38L,NDR2,NDR2,Serine/threonine-protein kinase 38-like,AGC,NDR,nan,STK38L,MAMTAGTTTTFPMSNHTRERVTVAKLTLENFYSNLILQHEERETRQKKLEVAMEEEGLADEEKKLRRSQHARKETEFLRLKRTRLGLDDFESLKVIGRGAFGEVRLVQKKDTGHIYAMKILRKSDMLEKEQVAHIRAERDILVEADGAWVVKMFYSFQDKRNLYLIMEFLPGGDMMTLLMKKDTLTEEETQFYISETVLAIDAIHQLGFIHRDIKPDNLLLDAKGHVKLSDFGLCTGLKKAHRTEFYRNLTHNPPSDFSFQNMNSKRKAETWKKNRRQLAYSTVGTPDYIAPEVFMQTGYNKLCDWWSLGVIMYEMLIGYPPFCSETPQETYRKVMNWKETLVFPPEVPISEKAKDLILRFCIDSENRIGNSGVEEIKGHPFFEGVDWEHIRERPAAIPIEIKSIDDTSNFDDFPESDILQPVPNTTEPDYKSKDWVFLNYTYKRFEGLTQRGSIPTYMKAGKL,NDR,serine/threonine kinase 38 like,STK38L,AGC,1518,25,NDR2,KVIGRGAFGEVRLYAMKILHIRAERDILVEADAWVVKMFYSYLIMEFLPGGDMMTLLMKAIHQLGFIHRDIKPDNLLLLSDFGLC,Human,,Protein kinase domain,90.0,383.0,464.0,PF00069,True
+Q9Y2K2,SIK3,QSK,QSK,Serine/threonine-protein kinase SIK3,CAMK,CAMKL,QIK,SIK3,MAAAAASGAGGAAGAGTGGAGPAGRLLPPPAPGSPAAPAAVSPAAGQPRPPAPASRGPMPARIGYYEIDRTIGKGNFAVVKRATHLVTKAKVAIKIIDKTQLDEENLKKIFREVQIMKMLCHPHIIRLYQVMETERMIYLVTEYASGGEIFDHLVAHGRMAEKEARRKFKQIVTAVYFCHCRNIVHRDLKAENLLLDANLNIKIADFGFSNLFTPGQLLKTWCGSPPYAAPELFEGKEYDGPKVDIWSLGVVLYVLVCGALPFDGSTLQNLRARVLSGKFRIPFFMSTECEHLIRHMLVLDPNKRLSMEQICKHKWMKLGDADPNFDRLIAECQQLKEERQVDPLNEDVLLAMEDMGLDKEQTLQSLRSDAYDHYSAIYSLLCDRHKRHKTLRLGALPSMPRALAFQAPVNIQAEQAGTAMNISVPQVQLINPENQIVEPDGTLNLDSDEGEEPSPEALVRYLSMRRHTVGVADPRTEVMEDLQKLLPGFPGVNPQAPFLQVAPNVNFMHNLLPMQNLQPTGQLEYKEQSLLQPPTLQLLNGMGPLGRRASDGGANIQLHAQQLLKRPRGPSPLVTMTPAVPAVTPVDEESSDGEPDQEAVQSSTYKDSNTLHLPTERFSPVRRFSDGAASIQAFKAHLEKMGNNSSIKQLQQECEQLQKMYGGQIDERTLEKTQQQHMLYQQEQHHQILQQQIQDSICPPQPSPPLQAACENQPALLTHQLQRLRIQPSSPPPNHPNNHLFRQPSNSPPPMSSAMIQPHGAASSSQFQGLPSRSAIFQQQPENCSSPPNVALTCLGMQQPAQSQQVTIQVQEPVDMLSNMPGTAAGSSGRGISISPSAGQMQMQHRTNLMATLSYGHRPLSKQLSADSAEAHSLNVNRFSPANYDQAHLHPHLFSDQSRGSPSSYSPSTGVGFSPTQALKVPPLDQFPTFPPSAHQQPPHYTTSALQQALLSPTPPDYTRHQQVPHILQGLLSPRHSLTGHSDIRLPPTEFAQLIKRQQQQRQQQQQQQQQQEYQELFRHMNQGDAGSLAPSLGGQSMTERQALSYQNADSYHHHTSPQHLLQIRAQECVSQASSPTPPHGYAHQPALMHSESMEEDCSCEGAKDGFQDSKSSSTLTKGCHDSPLLLSTGGPGDPESLLGTVSHAQELGIHPYGHQPTAAFSKNKVPSREPVIGNCMDRSSPGQAVELPDHNGLGYPARPSVHEHHRPRALQRHHTIQNSDDAYVQLDNLPGMSLVAGKALSSARMSDAVLSQSSLMGSQQFQDGENEECGASLGGHEHPDLSDGSQHLNSSCYPSTCITDILLSYKHPEVSFSMEQAGV,CAMKL,SIK family kinase 3,SIK3,CAMK,2199,134,QSK,RTIGKGNFAVVKRVAIKIIKIFREVQIMKMLCPHIIRLYQVYLVTEYASGGEIFDHLVAFCHCRNIVHRDLKAENLLLIADFGFS,Human,QIK,Protein kinase domain,66.0,317.0,1321.0,PF00069,True
+P57058,HUNK,HUNK,HUNK,Hormonally up-regulated neu tumor-associated kinase,CAMK,CAMKL,HUNK,HUNK,MPAAAGDGLLGEPAAPGGGGGAEDAARPAAACEGSFLPAWVSGVPRERLRDFQHHKRVGNYLIGSRKLGEGSFAKVREGLHVLTGEKVAIKVIDKKRAKKDTYVTKNLRREGQIQQMIRHPNITQLLDILETENSYYLVMELCPGGNLMHKIYEKKRLEESEARRYIRQLISAVEHLHRAGVVHRDLKIENLLLDEDNNIKLIDFGLSNCAGILGYSDPFSTQCGSPAYAAPELLARKKYGPKIDVWSIGVNMYAMLTGTLPFTVEPFSLRALYQKMVDKEMNPLPTQLSTGAISFLRSLLEPDPVKRPNIQQALANRWLNENYTGKVPCNVTYPNRISLEDLSPSVVLHMTEKLGYKNSDVINTVLSNRACHILAIYFLLNKKLERYLSGKSDIQDSLCYKTRLYQIEKYRAPKESYEASLDTWTRDLEFHAVQDKKPKEQEKRGDFLHRPFSKKLDKNLPSHKQPSGSLMTQIQNTKALLKDRKASKSSFPDKDSFGCRNIFRKTSDSNCVASSSMEFIPVPPPRTPRIVKKPEPHQPGPGSTGIPHKEDPLMLDMVRSFESVDRDDHVEVLSPSHHYRILNSPVSLARRNSSERTLSPGLPSGSMSPLHTPLHPTLVSFAHEDKNSPPKEEGLCCPPPVPSNGPMQPLGSPNCVKSRGRFPMMGIGQMLRKRHQSLQPSADRPLEASLPPLQPLAPVNLAFDMADGVKTQC,CAMKL,hormonally up-regulated Neu-associated kinase,HUNK,CAMK,2037,122,HUNK,RKLGEGSFAKVREVAIKVINLRREGQIQQMIRPNITQLLDIYLVMELCPGGNLMHKIYEHLHRAGVVHRDLKIENLLLLIDFGLS,Human,HUNK,Protein kinase domain,66.0,320.0,714.0,PF00069,True
+O95382,MAP3K6,MAP3K6,MAP3K6,Mitogen-activated protein kinase kinase kinase 6,STE,STE11,nan,MAP3K6,MAGPCPRSGAERAGSCWQDPLAVALSRGRQLAAPPGRGCARSRPLSVVYVLTREPQPGLEPREGTEAEPLPLRCLREACAQVPRPRPPPQLRSLPFGTLELGDTAALDAFYNADVVVLEVSSSLVQPSLFYHLGVRESFSMTNNVLLCSQADLPDLQALREDVFQKNSDCVGSYTLIPYVVTATGRVLCGDAGLLRGLADGLVQAGVGTEALLTPLVGRLARLLEATPTDSCGYFRETIRRDIRQARERFSGPQLRQELARLQRRLDSVELLSPDIIMNLLLSYRDVQDYSAIIELVETLQALPTCDVAEQHNVCFHYTFALNRRNRPGDRAKALSVLLPLVQLEGSVAPDLYCMCGRIYKDMFFSSGFQDAGHREQAYHWYRKAFDVEPSLHSGINAAVLLIAAGQHFEDSKELRLIGMKLGCLLARKGCVEKMQYYWDVGFYLGAQILANDPTQVVLAAEQLYKLNAPIWYLVSVMETFLLYQHFRPTPEPPGGPPRRAHFWLHFLLQSCQPFKTACAQGDQCLVLVLEMNKVLLPAKLEVRGTDPVSTVTLSLLEPETQDIPSSWTFPVASICGVSASKRDERCCFLYALPPAQDVQLCFPSVGHCQWFCGLIQAWVTNPDSTAPAEEAEGAGEMLEFDYEYTETGERLVLGKGTYGVVYAGRDRHTRVRIAIKEIPERDSRFSQPLHEEIALHRRLRHKNIVRYLGSASQGGYLKIFMEEVPGGSLSSLLRSVWGPLKDNESTISFYTRQILQGLGYLHDNHIVHRDIKGDNVLINTFSGLLKISDFGTSKRLAGITPCTETFTGTLQYMAPEIIDQGPRGYGKAADIWSLGCTVIEMATGRPPFHELGSPQAAMFQVGMYKVHPPMPSSLSAEAQAFLLRTFEPDPRLRASAQTLLGDPFLQPGKRSRSPSSPRHAPRPSDAPSASPTPSANSTTQSQTFPCPQAPSQHPPSPPKRCLSYGGTSQLRVPEEPAAEEPASPEESSGLSLLHQESKRRAMLAAVLEQELPALAENLHQEQKQEQGARLGRNHVEELLRCLGAHIHTPNRRQLAQELRALQGRLRAQGLGPALLHRPLFAFPDAVKQILRKRQIRPHWMFVLDSLLSRAVRAALGVLGPEVEKEAVSPRSEELSNEGDSQQSPGQQSPLPVEPEQGPAPLMVQLSLLRAETDRLREILAGKEREYQALVQRALQRLNEEARTYVLAPEPPTALSTDQGLVQWLQELNVDSGTIQMLLNHSFTLHTLLTYATRDDLIYTRIRGGMVCRIWRAILAQRAGSTPVTSGP,STE11,mitogen-activated protein kinase kinase kinase 6,MAP3K6,STE,2081,346,MAP3K6,LVLGKGTYGVVYAIAIKEIPLHEEIALHRRLRKNIVRYLGSKIFMEEVPGGSLSSLLRSYLHDNHIVHRDIKGDNVLIISDFGTS,Human,ASK,Protein kinase domain,653.0,906.0,1288.0,PF00069,True
+Q9UQ07,MOK,MOK,MOK,MAPK/MAK/MRK overlapping kinase,CMGC,RCK,nan,MOK,MKNYKAIGKIGEGTFSEVMKMQSLRDGNYYACKQMKQRFESIEQVNNLREIQALRRLNPHPNILMLHEVVFDRKSGSLALICELMDMNIYELIRGRRYPLSEKKIMHYMYQLCKSLDHIHRNGIFHRDVKPENILIKQDVLKLGDFGSCRSVYSKQPYTEYISTRWYRAPECLLTDGFYTYKMDLWSAGCVFYEIASLQPLFPGVNELDQISKIHDVIGTPAQKILTKFKQSRAMNFDFPFKKGSGIPLLTTNLSPQCLSLLHAMVAYDPDERIAAHQALQHPYFQEQRKTEKRALGSHRKAGFPEHPVAPEPLSNSCQISKEGRKQKQSLKQEEDRPKRRGPAYVMELPKLKLSGVVRLSSYSSPTLQSVLGSGTNGRVPVLRPLKCIPASKKTDPQKDLKPAPQQCRLPTIVRKGGR,RCK,MOK protein kinase,MOK,CMGC,0,254,MOK,GKIGEGTFSEVMKYACKQMNNLREIQALRRLNPNILMLHEVALICELMD-MNIYELIRGHIHRNGIFHRDVKPENILILGDFGSC,Human,,Protein kinase domain,4.0,285.0,419.0,PF00069,True
+O75716,STK16,MPSK1,MPSK1,Serine/threonine-protein kinase 16,Other,NAK,nan,STK16,MGHALCVCSRGTVIIDNKRYLFIQKLGEGGFSYVDLVEGLHDGHFYALKRILCHEQQDREEAQREADMHRLFNHPNILRLVAYCLRERGAKHEAWLLLPFFKRGTLWNEIERLKDKGNFLTEDQILWLLLGICRGLEAIHAKGYAHRDLKPTNILLGDEGQPVLMDLGSMNQACIHVEGSRQALTLQDWAAQRCTISYRAPELFSVQSHCVIDERTDVWSLGCVLYAMMFGEGPYDMVFQKGDSVALAVQNQLSIPQSPRHSSALRQLLNSMMTVDPHQRPHIPLLLSQLEALQPPAPGQHTTQI,NAK,serine/threonine kinase 16,STK16,Other,2213,280,MPSK1,QKLGEGGFSYVDLYALKRIEAQREADMHRLFNPNILRLVAYWLLLPFFKRGTLWNEIERAIHAKGYAHRDLKPTNILLLMDLGSM,Human,MPSK,Protein kinase domain,22.0,287.0,305.0,PF00069,True
+Q9UPE1,SRPK3,MSSK1,MSSK1,SRSF protein kinase 3,CMGC,SRPK,nan,SRPK3,MSASTGGGGDSGGSGGSSSSSQASCGPESSGSELALATPVPQMLQGLLGSDDEEQEDPKDYCKGGYHPVKIGDVFNGRYHVVRKLGWGHFSTVWLCWDIQRKRFVALKVVKSAGHYTETAVDEIKLLKCVRDSDPSDPKRETIVQLIDDFRISGVNGVHVCMVLEVLGHQLLKWIIKSNYQGLPVPCVKSIVRQVLHGLDYLHTKCKIIHTDIKPENILLCVGDAYIRRLAAEATEWQQAGAPPPSRSIVSTAPQEVLQTGKLSKNKRKKMRRKRKQQKRLLEERLRDLQRLEAMEAATQAEDSGLRLDGGSGSTSSSGCHPGGARAGPSPASSSPAPGGGRSLSAGSQTSGFSGSLFSPASCSILSGSSNQRETGGLLSPSTPFGASNLLVNPLEPQNADKIKIKIADLGNACWVHKHFTEDIQTRQYRAVEVLIGAEYGPPADIWSTACMAFELATGDYLFEPHSGEDYSRDEDHIAHIVELLGDIPPAFALSGRYSREFFNRRGELRHIHNLKHWGLYEVLMEKYEWPLEQATQFSAFLLPMMEYIPEKRASAADCLQHPWLNP,SRPK,SRSF protein kinase 3,SRPK3,CMGC,2210,258,MSSK1,RKLGWGHFSTVWLVALKVVTAVDEIKLLKCVRETIVQLIDDCMVLEVLG-HQLLKWIIKLHTKCKIIHTDIKPENILLIADLGNA,Human,,Protein kinase domain,79.0,221.0,567.0,PF00069,True
+Q9H4A3,WNK1,Wnk1,Wnk1,Serine/threonine-protein kinase WNK1,Other,WNK,nan,WNK1,MSGGAAEKQSSTPGSLFLSPPAPAPKNGSSSDSSVGEKLGAAAADAVTGRTEEYRRRRHTMDKDSRGAAATTTTTEHRFFRRSVICDSNATALELPGLPLSLPQPSIPAAVPQSAPPEPHREETVTATATSQVAQQPPAAAAPGEQAVAGPAPSTVPSSTSKDRPVSQPSLVGSKEEPPPARSGSGGGSAKEPQEERSQQQDDIEELETKAVGMSNDGRFLKFDIEIGRGSFKTVYKGLDTETTVEVAWCELQDRKLTKSERQRFKEEAEMLKGLQHPNIVRFYDSWESTVKGKKCIVLVTELMTSGTLKTYLKRFKVMKIKVLRSWCRQILKGLQFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLKRASFAKSVIGTPEFMAPEMYEEKYDESVDVYAFGMCMLEMATSEYPYSECQNAAQIYRRVTSGVKPASFDKVAIPEVKEIIEGCIRQNKDERYSIKDLLNHAFFQEETGVRVELAEEDDGEKIAIKLWLRIEDIKKLKGKYKDNEAIEFSFDLERDVPEDVAQEMVESGYVCEGDHKTMAKAIKDRVSLIKRKREQRQLVREEQEKKKQEESSLKQQVEQSSASQTGIKQLPSASTGIPTASTTSASVSTQVEPEEPEADQHQQLQYQQPSISVLSDGTVDSGQGSSVFTESRVSSQQTVSYGSQHEQAHSTGTVPGHIPSTVQAQSQPHGVYPPSSVAQGQSQGQPSSSSLTGVSSSQPIQHPQQQQGIQQTAPPQQTVQYSLSQTSTSSEATTAQPVSQPQAPQVLPQVSAGKQLPVSQPVPTIQGEPQIPVATQPSVVPVHSGAHFLPVGQPLPTPLLPQYPVSQIPISTPHVSTAQTGFSSLPITMAAGITQPLLTLASSATTAAIPGVSTVVPSQLPTLLQPVTQLPSQVHPQLLQPAVQSMGIPANLGQAAEVPLSSGDVLYQGFPPRLPPQYPGDSNIAPSSNVASVCIHSTVLSPPMPTEVLATPGYFPTVVQPYVESNLLVPMGGVGGQVQVSQPGGSLAQAPTTSSQQAVLESTQGVSQVAPAEPVAVAQTQATQPTTLASSVDSAHSDVASGMSDGNENVPSSSGRHEGRTTKRHYRKSVRSRSRHEKTSRPKLRILNVSNKGDRVVECQLETHNRKMVTFKFDLDGDNPEEIATIMVNNDFILAIERESFVDQVREIIEKADEMLSEDVSVEPEGDQGLESLQGKDDYGFSGSQKLEGEFKQPIPASSMPQQIGIPTSSLTQVVHSAGRRFIVSPVPESRLRESKVFPSEITDTVAASTAQSPGMNLSHSASSLSLQQAFSELRRAQMTEGPNTAPPNFSHTGPTFPVVPPFLSSIAGVPTTAAATAPVPATSSPPNDISTSVIQSEVTVPTEEGIAGVATSTGVVTSGGLPIPPVSESPVLSSVVSSITIPAVVSISTTSPSLQVPTSTSEIVVSSTALYPSVTVSATSASAGGSTATPGPKPPAVVSQQAAGSTTVGATLTSVSTTTSFPSTASQLCIQLSSSTSTPTLAETVVVSAHSLDKTSHSSTTGLAFSLSAPSSSSSPGAGVSSYISQPGGLHPLVIPSVIASTPILPQAAGPTSTPLLPQVPSIPPLVQPVANVPAVQQTLIHSQPQPALLPNQPHTHCPEVDSDTQPKAPGIDDIKTLEEKLRSLFSEHSSSGAQHASVSLETSLVIESTVTPGIPTTAVAPSKLLTSTTSTCLPPTNLPLGTVALPVTPVVTPGQVSTPVSTTTSGVKPGTAPSKPPLTKAPVLPVGTELPAGTLPSEQLPPFPGPSLTQSQQPLEDLDAQLRRTLSPEMITVTSAVGPVSMAAPTAITEAGTQPQKGVSQVKEGPVLATSSGAGVFKMGRFQVSVAADGAQKEGKNKSEDAKSVHFESSTSESSVLSSSSPESTLVKPEPNGITIPGISSDVPESAHKTTASEAKSDTGQPTKVGRFQVTTTANKVGRFSVSKTEDKITDTKKEGPVASPPFMDLEQAVLPAVIPKKEKPELSEPSHLNGPSSDPEAAFLSRDVDDGSGSPHSPHQLSSKSLPSQNLSQSLSNSFNSSYMSSDNESDIEDEDLKLELRRLRDKHLKEIQDLQSRQKHEIESLYTKLGKVPPAVIIPPAAPLSGRRRRPTKSKGSKSSRSSSLGNKSPQLSGNLSGQSAASVLHPQQTLHPPGNIPESGQNQLLQPLKPSPSSDNLYSAFTSDGAISVPSLSAPGQGTSSTNTVGATVNSQAAQAQPPAMTSSRKGTFTDDLHKLVDNWARDAMNLSGRRGSKGHMNYEGPGMARKFSAPGQLCISMTSNLGGSAPISAASATSLGHFTKSMCPPQQYGFPATPFGAQWSGTGGPAPQPLGQFQPVGTASLQNFNISNLQKSISNPPGSNLRTT,WNK,WNK lysine deficient protein kinase 1,WNK1,Other,2280,336,Wnk1,IEIGRGSFKTVYKVAWCELRFKEEAEMLKGLQPNIVRFYDSVLVTELMTSGTLKTYLKRHTRTPPIIHRDLKCDNIFIIGDLGLA,Human,,Protein kinase domain,226.0,479.0,2382.0,PF00069,True
+Q8IVW4,CDKL3,CDKL3,CDKL3,Cyclin-dependent kinase-like 3,CMGC,CDKL,nan,CDKL3,MEMYETLGKVGEGSYGTVMKCKHKNTGQIVAIKIFYERPEQSVNKIAMREIKFLKQFHHENLVNLIEVFRQKKKIHLVFEFIDHTVLDELQHYCHGLESKRLRKYLFQILRAIDYLHSNNIIHRDIKPENILVSQSGITKLCDFGFARTLAAPGDIYTDYVATRWYRAPELVLKDTSYGKPVDIWALGCMIIEMATGNPYLPSSSDLDLLHKIVLKVGNLSPHLQNIFSKSPIFAGVVLPQVQHPKNARKKYPKLNGLLADIVHACLQIDPADRISSSDLLHHEYFTRDGFIEKFMPELKAKLLQEAKVNSLIKPKESSKENELRKDERKTVYTNTLLSSSVLGKEIEKEKKPKEIKVRVIKVKGGRGDISEPKKKEYEGGLGQQDANENVHPMSPDTKLVTIEPPNPINPSTNCNGLKENPHCGGSVTMPPINLTNSNLMAANLSSNLFHPSVRLTERAKKRRTSSQSIGQVMPNSRQEDPGPIQSQMEKGIFNERTGHSDQMANENKRKLNFSRSDRKEFHFPELPVTIQSKDTKGMEVKQIKMLKRESKKTESSKIPTLLNVDQNQEKQEGGDGHCEGKNLKRNRFFFW,CDKL,cyclin dependent kinase like 3,CDKL3,CMGC,1984,219,CDKL3,GKVGEGSYGTVMKVAIKIFIAMREIKFLKQFHENLVNLIEVHLVFEFID-HTVLDELQHYLHSNNIIHRDIKPENILVLCDFGFA,Human,,Protein kinase domain,4.0,286.0,592.0,PF00069,True
+Q9P286,PAK7,PAK5,PAK5,Serine/threonine-protein kinase PAK 7,STE,STE20,PAKB,PAK7,MFGKKKKKIEISGPSNFEHRVHTGFDPQEQKFTGLPQQWHSLLADTANRPKPMVDPSCITPIQLAPMKTIVRGNKPCKETSINGLLEDFDNISVTRSNSLRKESPPTPDQGASSHGPGHAEENGFITFSQYSSESDTTADYTTEKYREKSLYGDDLDPYYRGSHAAKQNGHVMKMKHGEAYYSEVKPLKSDFARFSADYHSHLDSLSKPSEYSDLKWEYQRASSSSPLDYSFQFTPSRTAGTSGCSKESLAYSESEWGPSLDDYDRRPKSSYLNQTSPQPTMRQRSRSGSGLQEPMMPFGASAFKTHPQGHSYNSYTYPRLSEPTMCIPKVDYDRAQMVLSPPLSGSDTYPRGPAKLPQSQSKSGYSSSSHQYPSGYHKATLYHHPSLQSSSQYISTASYLSSLSLSSSTYPPPSWGSSSDQQPSRVSHEQFRAALQLVVSPGDPREYLANFIKIGEGSTGIVCIATEKHTGKQVAVKKMDLRKQQRRELLFNEVVIMRDYHHDNVVDMYSSYLVGDELWVVMEFLEGGALTDIVTHTRMNEEQIATVCLSVLRALSYLHNQGVIHRDIKSDSILLTSDGRIKLSDFGFCAQVSKEVPKRKSLVGTPYWMAPEVISRLPYGTEVDIWSLGIMVIEMIDGEPPYFNEPPLQAMRRIRDSLPPRVKDLHKVSSVLRGFLDLMLVREPSQRATAQELLGHPFLKLAGPPSCIVPLMRQYRHH,STE20,p21 protein (Cdc42/Rac)-activated kinase 7,PAK5,STE,2138,372,PAK5,IKIGEGSTGIVCIVAVKKMLLFNEVVIMRDYHDNVVDMYSSWVVMEFLEGGALTDIVTHYLHNQGVIHRDIKSDSILLLSDFGFC,Human,PAKB,Protein kinase domain,454.0,700.0,719.0,PF00069,True
+Q6P5Z2,PKN3,PKN3,PKN3,Serine/threonine-protein kinase N3,AGC,PKN,nan,PKN3,MEEGAPRQPGPSQWPPEDEKEVIRRAIQKELKIKEGVENLRRVATDRRHLGHVQQLLRSSNRRLEQLHGELRELHARILLPGPGPGPAEPVASGPRPWAEQLRARHLEALRRQLHVELKVKQGAENMTHTCASGTPKERKLLAAAQQMLRDSQLKVALLRMKISSLEASGSPEPGPELLAEELQHRLHVEAAVAEGAKNVVKLLSSRRTQDRKALAEAQAQLQESSQKLDLLRLALEQLLEQLPPAHPLRSRVTRELRAAVPGYPQPSGTPVKPTALTGTLQVRLLGCEQLLTAVPGRSPAAALASSPSEGWLRTKAKHQRGRGELASEVLAVLKVDNRVVGQTGWGQVAEQSWDQTFVIPLERARELEIGVHWRDWRQLCGVAFLRLEDFLDNACHQLSLSLVPQGLLFAQVTFCDPVIERRPRLQRQERIFSKRRGQDFLRASQMNLGMAAWGRLVMNLLPPCSSPSTISPPKGCPRTPTTLREASDPATPSNFLPKKTPLGEEMTPPPKPPRLYLPQEPTSEETPRTKRPHMEPRTRRGPSPPASPTRKPPRLQDFRCLAVLGRGHFGKVLLVQFKGTGKYYAIKALKKQEVLSRDEIESLYCEKRILEAVGCTGHPFLLSLLACFQTSSHACFVTEFVPGGDLMMQIHEDVFPEPQARFYVACVVLGLQFLHEKKIIYRDLKLDNLLLDAQGFLKIADFGLCKEGIGFGDRTSTFCGTPEFLAPEVLTQEAYTRAVDWWGLGVLLYEMLVGECPFPGDTEEEVFDCIVNMDAPYPGFLSVQGLEFIQKLLQKCPEKRLGAGEQDAEEIKVQPFFRTTNWQALLARTIQPPFVPTLCGPADLRYFEGEFTGLPPALTPPAPHSLLTARQQAAFRDFDFVSERFLEP,PKN,protein kinase N3,PKN3,AGC,0,46,PKN3,AVLGRGHFGKVLLYAIKALSLYCEKRILEAVGPFLLSLLACCFVTEFVPGGDLMMQIHEFLHEKKIIYRDLKLDNLLLIADFGLC,Human,,Protein kinase domain,562.0,817.0,889.0,PF00069,True
+Q9H0K1,SIK2,QIK,QIK,Serine/threonine-protein kinase SIK2,CAMK,CAMKL,QIK,SIK2,MVMADGPRHLQRGPVRVGFYDIEGTLGKGNFAVVKLGRHRITKTEVAIKIIDKSQLDAVNLEKIYREVQIMKMLDHPHIIKLYQVMETKSMLYLVTEYAKNGEIFDYLANHGRLNESEARRKFWQILSAVDYCHGRKIVHRDLKAENLLLDNNMNIKIADFGFGNFFKSGELLATWCGSPPYAAPEVFEGQQYEGPQLDIWSMGVVLYVLVCGALPFDGPTLPILRQRVLEGRFRIPYFMSEDCEHLIRRMLVLDPSKRLTIAQIKEHKWMLIEVPVQRPVLYPQEQENEPSIGEFNEQVLRLMHSLGIDQQKTIESLQNKSYNHFAAIYFLLVERLKSHRSSFPVEQRLDGRQRRPSTIAEQTVAKAQTVGLPVTMHSPNMRLLRSALLPQASNVEAFSFPASGCQAEAAFMEEECVDTPKVNGCLLDPVPPVLVRKGCQSLPSNMMETSIDEGLETEGEAEEDPAHAFEAFQSTRSGQRRHTLSEVTNQLVVMPGAGKIFSMNDSPSLDSVDSEYDMGSVQRDLNFLEDNPSLKDIMLANQPSPRMTSPFISLRPTNPAMQALSSQKREVHNRSPVSFREGRRASDTSLTQGIVAFRQHLQNLARTKGILELNKVQLLYEQIGPEADPNLAPAAPQLQDLASSCPQEEVSQQQESVSTLPASVHPQLSPRQSLETQYLQHRLQKPSLLSKAQNTCQLYCKEPPRSLEQQLQEHRLQQKRLFLQKQSQLQAYFNQMQIAESSYPQPSQQLPLPRQETPPPSQQAPPFSLTQPLSPVLEPSSEQMQYSPFLSQYQEMQLQPLPSTSGPRAAPPLPTQLQQQQPPPPPPPPPPRQPGAAPAPLQFSYQTCELPSAASPAPDYPTPCQYPVDGAQQSDLTGPDCPRSPGLQEAPSSYDPLALSELPGLFDCEMLDAVDPQHNGYVLVN,CAMKL,salt inducible kinase 2,SIK2,CAMK,2198,133,QIK,GTLGKGNFAVVKLVAIKIIKIYREVQIMKMLDPHIIKLYQVYLVTEYAKNGEIFDYLANYCHGRKIVHRDLKAENLLLIADFGFG,Human,QIK,Protein kinase domain,20.0,271.0,926.0,PF00069,True
+Q96L34,MARK4,MARK4,MARK4,MAP/microtubule affinity-regulating kinase 4,CAMK,CAMKL,MARK,MARK4,MSSRTVLAPGNDRNSDTHGTLGSGRSSDKGPSWSSRSLGARCRNSIASCPEEQPHVGNYRLLRTIGKGNFAKVKLARHILTGREVAIKIIDKTQLNPSSLQKLFREVRIMKGLNHPNIVKLFEVIETEKTLYLVMEYASAGEVFDYLVSHGRMKEKEARAKFRQIVSAVHYCHQKNIVHRDLKAENLLLDAEANIKIADFGFSNEFTLGSKLDTFCGSPPYAAPELFQGKKYDGPEVDIWSLGVILYTLVSGSLPFDGHNLKELRERVLRGKYRVPFYMSTDCESILRRFLVLNPAKRCTLEQIMKDKWINIGYEGEELKPYTEPEEDFGDTKRIEVMVGMGYTREEIKESLTSQKYNEVTATYLLLGRKTEEGGDRGAPGLALARVRAPSDTTNGTSSSKGTSHSKGQRSSSSTYHRQRRHSDFCGPSPAPLHPKRSPTSTGEAELKEERLPGRKASCSTAGSGSRGLPPSSPMVSSAHNPNKAEIPERRKDSTSTPNNLPPSMMTRRNTYVCTERPGAERPSLLPNGKENSSGTPRVPPASPSSHSLAPPSGERSRLARGSTIRSTFHGGQVRDRRAGGGGGGGVQNGPPASPTLAHEAAPLPAGRPRPTTNLFTKLTSKLTRRVADEPERIGGPEVTSCHLPWDQTETAPRLLRFPWSVKLTSSRPPEALMAALRQATAAARCRCRQPQPFLLACLHGGAGGPEPLSHFEVEVCQLPRPGLRGVLFRRVAGTALAFRTLVTRISNDLEL,CAMKL,microtubule affinity regulating kinase 4,MARK4,CAMK,2100,127,MARK4,RTIGKGNFAKVKLVAIKIIKLFREVRIMKGLNPNIVKLFEVYLVMEYASAGEVFDYLVSYCHQKNIVHRDLKAENLLLIADFGFS,Human,MARK,Protein kinase domain,59.0,310.0,752.0,PF00069,True
+Q6XUX3,DSTYK,SgK496,SgK496,Dual serine/threonine and tyrosine protein kinase,Other,Dusty,nan,DSTYK,MEGDGVPWGSEPVSGPGPGGGGMIRELCRGFGRYRRYLGRLRQNLRETQKFFRDIKCSHNHTCLSSLTGGGGAERGPAGDVAETGLQAGQLSCISFPPKEEKYLQQIVDCLPCILILGQDCNVKCQLLNLLLGVQVLPTTKLGSEESCKLRRLRFTYGTQTRVSLALPGQYELVHTLVAHQGNWETIPEEDLEVQENNEDAAHVLAELEVTMHHALLQEVDVVVAPCQGLRPTVDVLGDLVNDFLPVITYALHKDELSERDEQELQEIRKYFSFPVFFFKVPKLGSEIIDSSTRRMESERSPLYRQLIDLGYLSSSHWNCGAPGQDTKAQSMLVEQSEKLRHLSTFSHQVLQTRLVDAAKALNLVHCHCLDIFINQAFDMQRDLQITPKRLEYTRKKENELYESLMNIANRKQEEMKDMIVETLNTMKEELLDDATNMEFKDVIVPENGEPVGTREIKCCIRQIQELIISRLNQAVANKLISSVDYLRESFVGTLERCLQSLEKSQDVSVHITSNYLKQILNAAYHVEVTFHSGSSVTRMLWEQIKQIIQRITWVSPPAITLEWKRKVAQEAIESLSASKLAKSICSQFRTRLNSSHEAFAASLRQLEAGHSGRLEKTEDLWLRVRKDHAPRLARLSLESCSLQDVLLHRKPKLGQELGRGQYGVVYLCDNWGGHFPCALKSVVPPDEKHWNDLALEFHYMRSLPKHERLVDLHGSVIDYNYGGGSSIAVLLIMERLHRDLYTGLKAGLTLETRLQIALDVVEGIRFLHSQGLVHRDIKLKNVLLDKQNRAKITDLGFCKPEAMMSGSIVGTPIHMAPELFTGKYDNSVDVYAFGILFWYICSGSVKLPEAFERCASKDHLWNNVRRGARPERLPVFDEECWQLMEACWDGDPLKRPLLGIVQPMLQGIMNRLCKSNSEQPNRGLDDST,SgK496,dual serine/threonine and tyrosine protein kinase,DSTYK,Other,2008,320,SgK496,QELGRGQYGVVYLCALKSVDLALEFHYMRSLPERLVDLHGSLLIMERLH-RDLYTGLKAFLHSQGLVHRDIKLKNVLLITDLGFC,Human,,Protein kinase domain,655.0,898.0,929.0,PF00069,True
+Q96S38,RPS6KC1,RSKL1,RSKL1,Ribosomal protein S6 kinase delta-1,AGC,RSKL,nan,RPS6KC1,MTSYRERSADLARFYTVTEPQRHPRGYTVYKVTARVVSRRNPEDVQEIIVWKRYSDFKKLHKELWQIHKNLFRHSELFPPFAKGIVFGRFDETVIEERRQCAEDLLQFSANIPALYNSKQLEDFFKGGIINDSSELIGPAEAHSDSLIDTFPECSTEGFSSDSDLVSLTVDVDSLAELDDGMASNQNSPIRTFGLNLSSDSSALGAVASDSEQSKTEEERESRSLFPGSLKPKLGKRDYLEKAGELIKLALKKEEEDDYEAASDFYRKGVDLLLEGVQGESSPTRREAVKRRTAEYLMRAESISSLYGKPQLDDVSQPPGSLSSRPLWNLRSPAEELKAFRVLGVIDKVLLVMDTRTEQTFILKGLRKSSEYSRNRKTIIPRCVPNMVCLHKYIISEESVFLVLQHAEGGKLWSYISKFLNRSPEESFDIKEVKKPTLAKVHLQQPTSSPQDSSSFESRGSDGGSMLKALPLKSSLTPSSQDDSNQEDDGQDSSPKWPDSGSSSEEECTTSYLTLCNEYGQEKIEPGSLNEEPFMKTEGNGVDTKAIKSFPAHLAADSDSPSTQLRAHELKFFPNDDPEAVSSPRTSDSLSRSKNSPMEFFRIDSKDSASELLGLDFGEKLYSLKSEPLKPFFTLPDGDSASRSFNTSESKVEFKAQDTISRGSDDSVPVISFKDAAFDDVSGTDEGRPDLLVNLPGELESTREAAAMGPTKFTQTNIGIIENKLLEAPDVLCLRLSTEQCQAHEEKGIEELSDPSGPKSYSITEKHYAQEDPRMLFVAAVDHSSSGDMSLLPSSDPKFQGLGVVESAVTANNTEESLFRICSPLSGANEYIASTDTLKTEEVLLFTDQTDDLAKEEPTSLFQRDSETKGESGLVLEGDKEIHQIFEDLDKKLALASRFYIPEGCIQRWAAEMVVALDALHREGIVCRDLNPNNILLNDRGHIQLTYFSRWSEVEDSCDSDAIERMYCAPEVGAITEETEACDWWSLGAVLFELLTGKTLVECHPAGINTHTTLNMPECVSEEARSLIQQLLQFNPLERLGAGVAGVEDIKSHPFFTPVDWAELMR,RSKL,ribosomal protein S6 kinase C1,RPS6KC1,AGC,0,61,RSKL1,-------------GANEYILLFTDQTDDLAKETSLFQRDSEHQIFEDLD-KKLALASRFALHREGIVCRDLNPNNILLLTYFSRW,Human,,Protein kinase domain,895.0,1056.0,1066.0,PF00069,True
+Q9UK32,RPS6KA6,"RSK4_b, RSK4","RSK4, Domain2_RSK4",Ribosomal protein S6 kinase alpha-6,"CAMK, AGC","RSKb, RSK","RSKp90, RSKb",RPS6KA6,MLPFAPQDEPWDREMEVFSGGGASSGEVNGLKMVDEPMEEGEADSCHDEGVVKEIPITHHVKEGYEKADPAQFELLKVLGQGSFGKVFLVRKKTGPDAGQLYAMKVLKKASLKVRDRVRTKMERDILVEVNHPFIVKLHYAFQTEGKLYLILDFLRGGDVFTRLSKEVLFTEEDVKFYLAELALALDHLHQLGIVYRDLKPENILLDEIGHIKLTDFGLSKESVDQEKKAYSFCGTVEYMAPEVVNRRGHSQSADWWSYGVLMFEMLTGTLPFQGKDRNETMNMILKAKLGMPQFLSAEAQSLLRMLFKRNPANRLGSEGVEEIKRHLFFANIDWDKLYKREVQPPFKPASGKPDDTFCFDPEFTAKTPKDSPGLPASANAHQLFKGFSFVATSIAEEYKITPITSANVLPIVQINGNAAQFGEVYELKEDIGVGSYSVCKRCIHATTNMEFAVKIIDKSKRDPSEEIEILMRYGQHPNIITLKDVFDDGRYVYLVTDLMKGGELLDRILKQKCFSEREASDILYVISKTVDYLHCQGVVHRDLKPSNILYMDESASADSIRICDFGFAKQLRGENGLLLTPCYTANFVAPEVLMQQGYDAACDIWSLGVLFYTMLAGYTPFANGPNDTPEEILLRIGNGKFSLSGGNWDNISDGAKDLLSHMLHMDPHQRYTAEQILKHSWITHRDQLPNDQPKRNDVSHVVKGAMVATYSALTHKTFQPVLEPVAASSLAQRRSMKKRTSTGL,RSK,ribosomal protein S6 kinase A6,RPS6KA6,AGC,1530,56,RSK4,KVLGQGSFGKVFLYAMKVLRTKMERDILVEVNPFIVKLHYAYLILDFLRGGDVFTRLSKHLHQLGIVYRDLKPENILLLTDFGLS,Human,RSK,Protein kinase domain,73.0,330.0,745.0,PF00069,True
+Q9NSY0,NRBP2,NRBP2,NRBP2,Nuclear receptor-binding protein 2,Other,NRBP,nan,NRBP2,MAAPEPAPRRAREREREREDESEDESDILEESPCGRWQKRREQVNQGNMPGLQSTFLAMDTEEGVEVVWNELHFGDRKAFAAHEEKIQTVFEQLVLVDHPNIVKLHKYWLDTSEACARVIFITEYVSSGSLKQFLKKTKKNHKAMNARAWKRWCTQILSALSFLHACSPPIIHGNLTSDTIFIQHNGLIKIGSVWHRIFSNALPDDLRSPIRAEREELRNLHFFPPEYGEVADGTAVDIFSFGMCALEMAVLEIQTNGDTRVTEEAIARARHSLSDPNMREFILCCLARDPARRPSAHSLLFHRVLFEVHSLKLLAAHCFIQHQYLMPENVVEEKTKAMDLHAVLAELPRPRRPPLQWRYSEVSFMELDKFLEDVRNGIYPLMNFAATRPLGLPRVLAPPPEEVQKAKTPTPEPFDSETRKVIQMQCNLERSEDKARWHLTLLLVLEDRLHRQLTYDLLPTDSAQDLASELVHYGFLHEDDRMKLAAFLESTFLKYRGTQA,NRBP,nuclear receptor binding protein 2,NRBP2,Other,0,302,NRBP2,EQVNQGNMPGLQSVWNELHKIQTVFEQLVLVDPNIVKLHKYIFITEYVSSGSLKQFLKKHACSPPIIHGNLTSDTIFIIGSVWHR,Human,,Protein kinase domain,86.0,305.0,501.0,PF00069,True
+Q8NE28,STKLD1,SgK071,SgK071,Protein kinase-like protein SgK071,Other,SgK071,nan,STKLD1,MLGPGSNRRRPTQGERGPGSPGEPMEKYQVLYQLNPGALGVNLVVEEMETKVKHVIKQVECMDDHYASQALEELMPLLKLRHAHISVYQELFITWNGEISSLYLCLVMEFNELSFQEVIEDKRKAKKIIDSEWMQNVLGQVLDALEYLHHLDIIHRNLKPSNIILISSDHCKLQDLSSNVLMTDKAKWNIRAEEDPFRKSWMAPEALNFSFSQKSDIWSLGCIILDMTSCSFMDGTEAMHLRKSLRQSPGSLKAVLKTMEEKQIPDVETFRNLLPLMLQIDPSDRITIKDVVHITFLRGSFKSSCVSLTLHRQMVPASITDMLLEGNVASILEVMQKFSGWPEVQLRAMKRLLKMPADQLGLPWPPELVEVVVTTMELHDRVLDVQLCACSLLLHLLGQALVHHPEAKAPCNQAITSTLLSALQSHPEEEPLLVMVYSLLAITTTQESESLSEELQNAGLLEHILEHLNSSLESRDVCASGLGLLWALLLDGIIVNKAPLEKVPDLISQVLATYPADGEMAEASCGVFWLLSLLGCIKEQQFEQVVALLLQSIRLCQDRALLVNNAYRGLASLVKVSELAAFKVVVQEEGGSGLSLIKETYQLHRDDPEVVENVGMLLVHLASYEEILPELVSSSMKALLQEIKERFTSSLVSDSSAFSKPGLPPGGSPQLGCTTSGGLE,SgK071,serine/threonine kinase-like domain containing 1,STKLD1,Other,0,318,SgK071,YQLNPGALGVNLVHVIKQVQALEELMPLLKLRAHISVYQELCLVMEFNE-LSFQEVIEDYLHHLDIIHRNLKPSNIILLQDLSSN,Human,,Protein kinase domain,33.0,296.0,680.0,PF00069,True
+Q9HBY8,SGK2,SGK2,SGK2,Serine/threonine-protein kinase Sgk2,AGC,SGK,nan,SGK2,MNSSPAGTPSPQPSRANGNINLGPSANPNAQPTDFDFLKVIGKGNYGKVLLAKRKSDGAFYAVKVLQKKSILKKKEQSHIMAERSVLLKNVRHPFLVGLRYSFQTPEKLYFVLDYVNGGELFFHLQRERRFLEPRARFYAAEVASAIGYLHSLNIIYRDLKPENILLDCQGHVVLTDFGLCKEGVEPEDTTSTFCGTPEYLAPEVLRKEPYDRAVDWWCLGAVLYEMLHGLPPFYSQDVSQMYENILHQPLQIPGGRTVAACDLLQSLLHKDQRQRLGSKADFLEIKNHVFFSPINWDDLYHKRLTPPFNPNVTGPADLKHFDPEFTQEAVSKSIGCTPDTVASSSGASSAFLGFSYAPEDDDILDC,SGK,serum/glucocorticoid regulated kinase 2,SGK2,AGC,1535,65,SGK2,KVIGKGNYGKVLLYAVKVLHIMAERSVLLKNVPFLVGLRYSYFVLDYVNGGELFFHLQRYLHSLNIIYRDLKPENILLLTDFGLC,Human,,Protein kinase domain,37.0,292.0,367.0,PF00069,True
+Q9BXA6,TSSK6,SSTK,SSTK,Testis-specific serine/threonine-protein kinase 6,CAMK,TSSK,nan,TSSK6,MSGDKLLSELGYKLGRTIGEGSYSKVKVATSKKYKGTVAIKVVDRRRAPPDFVNKFLPRELSILRGVRHPHIVHVFEFIEVCNGKLYIVMEAAATDLLQAVQRNGRIPGVQARDLFAQIAGAVRYLHDHHLVHRDLKCENVLLSPDERRVKLTDFGFGRQAHGYPDLSTTYCGSAAYASPEVLLGIPYDPKKYDVWSMGVVLYVMVTGCMPFDDSDIAGLPRRQKRGVLYPEGLELSERCKALIAELLQFSPSARPSAGQVARNCWLRAGDSG,TSSK,testis specific serine kinase 6,TSSK6,CAMK,0,182,SSTK,RTIGEGSYSKVKVVAIKVVFLPRELSILRGVRPHIVHVFEFYIVMEAAA-TDLLQAVQRYLHDHHLVHRDLKCENVLLLTDFGFG,Human,,Protein kinase domain,12.0,267.0,273.0,PF00069,True
+Q96BR1,SGK3,SGK3,SGK3,Serine/threonine-protein kinase Sgk3,AGC,SGK,nan,SGK3,MQRDHTMDYKESCPSVSIPSSDEHREKKKRFTVYKVLVSVGRSEWFVFRRYAEFDKLYNTLKKQFPAMALKIPAKRIFGDNFDPDFIKQRRAGLNEFIQNLVRYPELYNHPDVRAFLQMDSPKHQSDPSEDEDERSSQKLHSTSQNINLGPSGNPHAKPTDFDFLKVIGKGSFGKVLLAKRKLDGKFYAVKVLQKKIVLNRKEQKHIMAERNVLLKNVKHPFLVGLHYSFQTTEKLYFVLDFVNGGELFFHLQRERSFPEHRARFYAAEIASALGYLHSIKIVYRDLKPENILLDSVGHVVLTDFGLCKEGIAISDTTTTFCGTPEYLAPEVIRKQPYDNTVDWWCLGAVLYEMLYGLPPFYCRDVAEMYDNILHKPLSLRPGVSLTAWSILEELLEKDRQNRLGAKEDFLEIQNHPFFESLSWADLVQKKIPPPFNPNVAGPDDIRNFDTAFTEETVPYSVCVSSDYSIVNASVLEADDAFVGFSYAPPSEDLFL,SGK,serum/glucocorticoid regulated kinase family member 3,SGK3,AGC,1536,66,SGK3,KVIGKGSFGKVLLYAVKVLHIMAERNVLLKNVPFLVGLHYSYFVLDFVNGGELFFHLQRYLHSIKIVYRDLKPENILLLTDFGLC,Human,,Protein kinase domain,164.0,419.0,496.0,PF00069,True
+Q5TCY1,TTBK1,TTBK1,TTBK1,Tau-tubulin kinase 1,CK1,TTBK,nan,TTBK1,MQCLAAALKDETNMSGGGEQADILPANYVVKDRWKVLKKIGGGGFGEIYEAMDLLTRENVALKVESAQQPKQVLKMEVAVLKKLQGKDHVCRFIGCGRNEKFNYVVMQLQGRNLADLRRSQPRGTFTLSTTLRLGKQILESIEAIHSVGFLHRDIKPSNFAMGRLPSTYRKCYMLDFGLARQYTNTTGDVRPPRNVAGFRGTVRYASVNAHKNREMGRHDDLWSLFYMLVEFAVGQLPWRKIKDKEQVGMIKEKYEHRMLLKHMPSEFHLFLDHIASLDYFTKPDYQLIMSVFENSMKERGIAENEAFDWEKAGTDALLSTSTSTPPQQNTRQTAAMFGVVNVTPVPGDLLRENTEDVLQGEHLSDQENAPPILPGRPSEGLGPSPHLVPHPGGPEAEVWEETDVNRNKLRINIGKSPCVEEEQSRGMGVPSSPVRAPPDSPTTPVRSLRYRRVNSPESERLSTADGRVELPERRSRMDLPGSPSRQACSSQPAQMLSVDTGHADRQASGRMDVSASVEQEALSNAFRSVPLAEEEDFDSKEWVIIDKETELKDFPPGAEPSTSGTTDEEPEELRPLPEEGEERRRLGAEPTVRPRGRSMQALAEEDLQHLPPQPLPPQLSQGDGRSETSQPPTPGSPSHSPLHSGPRPRRRESDPTGPQRQVFSVAPPFEVNGLPRAVPLSLPYQDFKRDLSDYRERARLLNRVRRVGFSHMLLTTPQVPLAPVQPQANGKEEEEEEEEDEEEEEEDEEEEEEEEEEEEEEEEEEEEEEEAAAAVALGEVLGPRSGSSSEGSERSTDRSQEGAPSTLLADDQKESRGRASMADGDLEPEEGSKTLVLVSPGDMKKSPVTAELAPDPDLGTLAALTPQHERPQPTGSQLDVSEPGTLSSVLKSEPKPPGPGAGLGAGTVTTGVGGVAVTSSPFTKVERTFVHIAEKTHLNVMSSGGQALRSEEFSAGGELGLELASDGGAVEEGARAPLENGLALSGLNGAEIEGSALSGAPRETPSEMATNSLPNGPALADGPAPVSPLEPSPEKVATISPRRHAMPGSRPRSRIPVLLSEEDTGSEPSGSLSAKERWSKRARPQQDLARLVMEKRQGRLLLRLASGASSSSSEEQRRASETLSGTGSEEDTPASEPAAALPRKSGRAAATRSRIPRPIGLRMPMPVAAQQPASRSHGAAPALDTAITSRLQLQTPPGSATAADLRPKQPPGRGLGPGRAQAGARPPAPRSPRLPASTSAARNASASPRSQSLSRRESPSPSHQARPGVPPPRGVPPARAQPDGTPSPGGSKKGPRGKLQAQRATTKGRAGGAEGRAGAR,TTBK,tau tubulin kinase 1,TTBK1,CK1,0,191,TTBK1,KKIGGGGFGEIYEVALKVEVLKMEVAVLKKLQDHVCRFIGCYVVMQLQG-RNLADLRRSAIHSVGFLHRDIKPSNFAMMLDFGLA,Human,,Protein kinase domain,35.0,272.0,1321.0,PF00069,True
+Q8N568,DCLK2,DCAMKL2,DCAMKL2,Serine/threonine-protein kinase DCLK2,CAMK,DCAMKL,nan,DCLK2,MASTRSIELEHFEERDKRPRPGSRRGAPSSSGGSSSSGPKGNGLIPSPAHSAHCSFYRTRTLQALSSEKKAKKARFYRNGDRYFKGLVFAISSDRFRSFDALLIELTRSLSDNVNLPQGVRTIYTIDGSRKVTSLDELLEGESYVCASNEPFRKVDYTKNINPNWSVNIKGGTSRALAAASSVKSEVKESKDFIKPKLVTVIRSGVKPRKAVRILLNKKTAHSFEQVLTDITEAIKLDSGVVKRLCTLDGKQVTCLQDFFGDDDVFIACGPEKFRYAQDDFVLDHSECRVLKSSYSRSSAVKYSGSKSPGPSRRSKSPASVNGTPSSQLSTPKSTKSSSSSPTSPGSFRGLKQISAHGRSSSNVNGGPELDRCISPEGVNGNRCSESSTLLEKYKIGKVIGDGNFAVVKECIDRSTGKEFALKIIDKAKCCGKEHLIENEVSILRRVKHPNIIMLVEEMETATELFLVMELVKGGDLFDAITSSTKYTERDGSAMVYNLANALRYLHGLSIVHRDIKPENLLVCEYPDGTKSLKLGDFGLATVVEGPLYTVCGTPTYVAPEIIAETGYGLKVDIWAAGVITYILLCGFPPFRSENNLQEDLFDQILAGKLEFPAPYWDNITDSAKELISQMLQVNVEARCTAGQILSHPWVSDDASQENNMQAEVTGKLKQHFNNALPKQNSTTTGVSVIMNTALDKEGQIFCSKHCQDSGRPGMEPISPVPPSVEEIPVPGEAVPAPTPPESPTPHPPPAAPGGERAGTWRRHRD,DCAMKL,doublecortin like kinase 2,DCLK2,CAMK,2006,147,DCLK2,KVIGDGNFAVVKEFALKIILIENEVSILRRVKPNIIMLVEEFLVMELVKGGDLFDAITSYLHGLSIVHRDIKPENLLVLGDFGLA,Human,,Protein kinase domain,394.0,651.0,766.0,PF00069,True
+Q7Z7A4,PXK,Slob,Slob,PX domain-containing protein kinase-like protein,Other,Slob,nan,PXK,MAFMEKPPAGKVLLDDTVPLTAAIEASQSLQSHTEYIIRVQRGISVENSWQIVRRYSDFDLLNNSLQIAGLSLPLPPKKLIGNMDREFIAERQKGLQNYLNVITTNHILSNCELVKKFLDPNNYSANYTEIALQQVSMFFRSEPKWEVVEPLKDIGWRIRKKYFLMKIKNQPKERLVLSWADLGPDKYLSDKDFQCLIKLLPSCLHPYIYRVTFATANESSALLIRMFNEKGTLKDLIYKAKPKDPFLKKYCNPKKIQGLELQQIKTYGRQILEVLKFLHDKGFPYGHLHASNVMLDGDTCRLLDLENSLLGLPSFYRSYFSQFRKINTLESVDVHCFGHLLYEMTYGRPPDSVPVDSFPPAPSMAVVAVLESTLSCEACKNGMPTISRLLQMPLFSDVLLTTSEKPQFKIPTKLKEALRIAKECIEKRLIEEQKQIHQHRRLTRAQSHHGSEEERKKRKILARKKSKRSALENSEEHSAKYSNSNNSAGSGASSPLTSPSSPTPPSTSGISALPPPPPPPPPPAAPLPPASTEAPAQLSSQAVNGMSRGALLSSIQNFQKGTLRKAKTCDHSAPKIG,Slob,PX domain containing serine/threonine kinase like,PXK,Other,0,321,Slob,KDIGWRIRKKYFLLVLSWADFQCLIKLLPSCLPYIYRVTFALLIRMFNEKGTLKDLIYKFLHDKGFPYGHLHASNVMLLLDLE--,Human,,,,,,,
+Q96KB5,PBK,PBK,PBK,Lymphokine-activated killer T-cell-originated protein kinase,Other,TOPK,nan,PBK,MEGISNFKTPSKLSEKKKSVLCSTPTINIPASPFMQKLGFGTGVNVYLMKRSPRGLSHSPWAVKKINPICNDHYRSVYQKRLMDEAKILKSLHHPNIVGYRAFTEANDGSLCLAMEYGGEKSLNDLIEERYKASQDPFPAAIILKVALNMARGLKYLHQEKKLLHGDIKSSNVVIKGDFETIKICDVGVSLPLDENMTVTDPEACYIGTEPWKPKEAVEENGVITDKADIFAFGLTLWEMMTLSIPHINLSNDDDDEDKTFDESDFDDEAYYAALGTRPPINMEELDESYQKVIELFSVCTNEDPKDRPSAAHIVEALETDV,TOPK,PDZ binding kinase,PBK,Other,2140,325,PBK,QKLGFGTGVNVYLWAVKKIRLMDEAKILKSLHPNIVGYRAFCLAMEYGGEKSLNDLIEELHQEKKLLHGDIKSSNVVIICDVGVS,Human,,Protein kinase domain,35.0,316.0,322.0,PF00069,True
+Q6J9G0,STYK1,SuRTK106,SuRTK106,Tyrosine-protein kinase STYK1,TK,TK-Unique,nan,STYK1,MGMTRMLLECSLSDKLCVIQEKQYEVIIVPTLLVTIFLILLGVILWLFIREQRTQQQRSGPQGIAPVPPPRDLSWEAGHGGNVALPLKETSVENFLGATTPALAKLQVPREQLSEVLEQICSGSCGPIFRANMNTGDPSKPKSVILKALKEPAGLHEVQDFLGRIQFHQYLGKHKNLVQLEGCCTEKLPLYMVLEDVAQGDLLSFLWTCRRDVMTMDGLLYDLTEKQVYHIGKQVLLALEFLQEKHLFHGDVAARNILMQSDLTAKLCGLGLAYEVYTRGAISSTQTIPLKWLAPERLLLRPASIRADVWSFGILLYEMVTLGAPPYPEVPPTSILEHLQRRKIMKRPSSCTHTMYSIMKSCWRWREADRPSPRELRLRLEAAIKTADDEAVLQVPELVVPELYAAVAGIRVESLFYNYSML,TK-Unique,serine/threonine/tyrosine kinase 1,STYK1,TK,0,479,SuRTK106,EQICSGSCGPIFRVILKALDFLGRIQFHQYLGKNLVQLEGCYMVLEDVAQGDLLSFLWTFLQEKHLFHGDVAARNILMLCGLGLA,Human,,Protein tyrosine and serine/threonine kinase,116.0,378.0,422.0,PF07714,True
+Q9UHD2,TBK1,TBK1,TBK1,Serine/threonine-protein kinase TBK1,Other,IKK,nan,TBK1,MQSTSNHLWLLSDILGQGATANVFRGRHKKTGDLFAIKVFNNISFLRPVDVQMREFEVLKKLNHKNIVKLFAIEEETTTRHKVLIMEFCPCGSLYTVLEEPSNAYGLPESEFLIVLRDVVGGMNHLRENGIVHRDIKPGNIMRVIGEDGQSVYKLTDFGAARELEDDEQFVSLYGTEEYLHPDMYERAVLRKDHQKKYGATVDLWSIGVTFYHAATGSLPFRPFEGPRRNKEVMYKIITGKPSGAISGVQKAENGPIDWSGDMPVSCSLSRGLQVLLTPVLANILEADQEKCWGFDQFFAETSDILHRMVIHVFSLQQMTAHKIYIHSYNTATIFHELVYKQTKIISSNQELIYEGRRLVLEPGRLAQHFPKTTEENPIFVVSREPLNTIGLIYEKISLPKVHPRYDLDGDASMAKAITGVVCYACRIASTLLLYQELMRKGIRWLIELIKDDYNETVHKKTEVVITLDFCIRNIEKTVKVYEKLMKINLEAAELGEISDIHTKLLRLSSSQGTIETSLQDIDSRLSPGGSLADAWAHQEGTHPKDRNVEKLQVLLNCMTEIYYQFKKDKAERRLAYNEEQIHKFDKQKLYYHATKAMTHFTDECVKKYEAFLNKSEEWIRKMLHLRKQLLSLTNQCFDIEEEVSKYQEYTNELQETLPQKMFTASSGIKHTMTPIYPSSNTLVEMTLGMKKLKEEMEGVVKELAENNHILERFGSLTMDGGLRNVDCL,IKK,TANK-binding kinase 1,TBK1,Other,2237,272,TBK1,DILGQGATANVFRFAIKVFVQMREFEVLKKLNKNIVKLFAIVLIMEFCPCGSLYTVLEEHLRENGIVHRDIKPGNIMRLTDFGAA,Human,,Protein kinase domain,13.0,229.0,729.0,PF00069,True
+Q96S53,TESK2,TESK2,TESK2,Dual-specificity testis-specific protein kinase 2,TKL,LISK,TESK,TESK2,MDRSKRNSIAGFPPRVERLEEFEGGGGGEGNVSQVGRVWPSSYRALISAFSRLTRLDDFTCEKIGSGFFSEVFKVRHRASGQVMALKMNTLSSNRANMLKEVQLMNRLSHPNILRFMGVCVHQGQLHALTEYINSGNLEQLLDSNLHLPWTVRVKLAYDIAVGLSYLHFKGIFHRDLTSKNCLIKRDENGYSAVVADFGLAEKIPDVSMGSEKLAVVGSPFWMAPEVLRDEPYNEKADVFSYGIILCEIIARIQADPDYLPRTENFGLDYDAFQHMVGDCPPDFLQLTFNCCNMDPKLRPSFVEIGKTLEEILSRLQEEEQERDRKLQPTARGLLEKAPGVKRLSSLDDKIPHKSPCPRRTIWLSRSQSDIFSRKPPRTVSVLDPYYRPRDGAARTPKVNPFSARQDLMGGKIKFFDLPSKSVISLVFDLDAPGPGTMPLADWQEPLAPPIRRWRSLPGSPEFLHQEACPFVGREESLSDGPPPRLSSLKYRVKEIPPFRASALPAAQAHEAMDCSILQEENGFGSRPQGTSPCPAGASEEMEVEERPAGSTPATFSTSGIGLQTQGKQDG,LISK,testis-specific kinase 2,TESK2,TKL,0,493,TESK2,EKIGSGFFSEVFKMALKMNNMLKEVQLMNRLSPNILRFMGVHALTEYINSGNLEQLLDSYLHFKGIFHRDLTSKNCLIVADFGLA,Human,TESK,Protein tyrosine and serine/threonine kinase,62.0,308.0,571.0,PF07714,True
+O60229,KALRN,Trad,Trad,HCG2039851,CAMK,Trio,nan,KALRN,MTDRFWDQWYLWYLRLLRLLDRGSFRNDGLKASDVLPILKEKVAFVSGGRDKRGGPILTFPARSNHDRIRQEDLRKLVTYLASVPSEDVCKRGFTVIIDMRGSKWDLIKPLLKTLQEAFPAEIHVALIIKPDNFWQKQKTNFGSSKFIFETSMVSVEGLTKLVDPSQLTEEFDGSLDYNHEEWIELRLSLEEFFNSAVHLLSRLEDLQEMLARKEFPVDVEGSRRLIDEHTQLKKKVLKAPVEELDREGQRLLQCIRCSDGFSGRNCIPGSADFQSLVPKITSLLDKLHSTRQHLHQMWHVRKLKLDQCFQLRLFEQDAEKMFDWISHNKELFLQSHTEIGVSYQYALDLQTQHNHFAMNSMNAYVNINRIMSVASRLSEAGHYASQQIKQISTQLDQEWKSFAAALDERSTILAMSAVFHQKAEQFLSGVDAWCKMCSEGGLPSEMQDLELAIHHHQTLYEQVTQAYTEVSQDGKALLDVLQRPLSPGNSESLTATANYSKAVHQVLDVVHEVLHHQRRLESIWQHRKVRLHQRLQLCVFQQDVQQVLDWIENHGEAFLSKHTGVGKSLHRARALQKRHDDFEEVAQNTYTNADKLLEAAEQLAQTGECDPEEIYKAARHLEVRIQDFVRRVEQRKLLLDMSVSFHTHTKELWTWMEDLQKEMLEDVCADSVDAVQELIKQFQQQQTATLDATLNVIKEGEDLIQQLRSAPPSLGEPSEARDSAVSNNKTPHSSSISHIESVLQQLDDAQVQMEELFHERKIKLDIFLQLRIFEQYTIEVTAELDAWNEDLLRQMNDFNTEDLTLAEQRLQRHTERKLAMNNMTFEVIQQGQDLHQYITEVQASGIELICEKDIDLAAQVQELLEFLHEKQHELELNAEQTHKRLEQCLQLRHLQAEVKQVLGWIRNGESMLNASLVNASSLSEAEQLQREHEQFQLAIESLFHATSLQKTHQSALQVQQKAEVLLQAGHYDADAIRECAEKVALHWQQLMLKMEDRLKLVNASVAFYKTSEQVCSVLESLEQEYRRDEDWCGGRDKLGPAAEIDHVIPLISKHLEQKEAFLKACTLARRNAEVFLKYIHRNNVSMPSVASHTRGPEQQVKAILSELLQRENRVLHFWTLKKRRLDQCQQYVVFERSAKQALDWIQETGEFYLSTHTSTGETTEETQELLKEYGEFRVPAKQTKEKVKLLIQLADSFVEKGHIHATEIRKWVTTVDKHYRDFSLRMGKYRYSLEKALGVNTEDNKDLELDIIPASLSDREVKLRDANHEVNEEKRKSARKKEFIMAELLQTEKAYVRDLHECLETYLWEMTSGVEEIPPGILNKEHIIFGNIQEIYDFHNNIFLKELEKYEQLPEDVGHCFVTWADKFQMYVTYCKNKPDSNQLILEHAGTFFDEIQQRHGLANSISSYLIKPVQRITKYQLLLKELLTCCEEGKGELKDGLEVMLSVPKKANDAMHVSMLEGFDENLDVQGELILQDAFQVWDPKSLIRKGRERHLFLFEISLVFSKEIKDSSGHTKYVYKNKLLTSELGVTEHVEGDPCKFALWSGRTPSSDNKTVLKASNIETKQEWIKNIREVIQERIIHLKGALKEPLQLPKTPAKQRNNSKRDGVEDIDSQGDGSSQPDTISIASRTSQNTVDSDKLSGGCELTVVLQDFSAGHSSELTIQVGQTVELLERPSERPGWCLVRTTERSPPLEGLVPSSALCISHSRSSVEMDCFFPLVKDAYSHSSSENGGKSESVANLQAQPSLNSIHSSPGPKRSTNTLKKWLTSPVRRLNSGKADGNIKKQKKVRDGRKSFDLGSPKPGDETTPQGDSADEKSKKGWGEDEPDEESHTPLPPPMKIFDNDPTQDEMSSSLLAARQASTEVPTAADLVNAIEKLVKNKLSLEGSSYRGSLKDPAGCLNEGMAPPTPPKNPEEEQKAKALRGRMFVLNELVQTEKDYVKDLGIVVEGFMKRIEEKGVPEDMRGKDKIVFGNIHQIYDWHKDFFLAELEKCIQEQDRLAQLFIKHERKLHIYVWYCQNKPRSEYIVAEYDAYFEEVKQEINQRLTLSDFLIKPIQRITKYQLLLKDFLRYSEKAGLECSDIEKAVELMCLVPKRCNDMMNLGRLQGFEGTLTAQGKLLQQDTFYVIELDAGMQSRTKERRVFLFEQIVIFSELLRKGSLTPGYMFKRSIKMNYLVLEENVDNDPCKFALMNRETSERVVLQAANADIQQAWVQDINQVLETQRDFLNALQSPIEYQRKERSTAVMRSQPARLPQASPRPYSSVPAGSEKPPKGSSYNPPLPPLKISTSNGSPGFEYHQPGDKFEASKQNDLGGCNGTSSMAVIKDYYALKENEICVSQGEVVQVLAVNQQNMCLVYQPASDHSPAAEGWVPGSILAPLTKATAAESSDGSIKKSCSWHTLRMRKRAEVENTGKNEATGPRKPKDILGNKVSVKETNSSEESECDDLDPNTSMEILNPNFIQEVAPEFLVPLVDVTCLLGDTVILQCKVCGRPKPTITWKGPDQNILDTDNSSATYTVSSCDSGEITLKICNLMPQDSGIYTCIATNDHGTTSTSATVKVQGVPAAPNRPIAQERSCTSVILRWLPPSSTGNCTISGYTVEYREEGSQIWQQSVASTLDTYLVIEDLSPGCPYQFRVSASNPWGISLPSEPSEFVRLPEYDAAADGATISWKENFDSAYTELNEIGRGRFSIVKKCIHKATRKDVAVKFVSKKMKKKEQAAHEAALLQHLQHPQYITLHDTYESPTSYILILELMDDGRLLDYLMNHDELMEEKVAFYIRDIMEALQYLHNCRVAHLDIKPENLLIDLRIPVPRVKLIDLEDAVQISGHFHIHHLLGNPEFAAPEVIQGIPVSLGTDIWSIGVLTYVMLSGVSPFLDESKEETCINVCRVDFSFPHEYFCGVSNAARDFINVILQEDFRRRPTAATCLQHPWLQPHNGSYSKIPLDTSRLACFIERRKHQNDVRPIPNVKSYIVNRVNQGT,Trio,"kalirin, RhoGEF kinase",KALRN,CAMK,0,178,Trad,NEIGRGRFSIVKKVAVKFVQAAHEAALLQHLQPQYITLHDTILILELMDDGRLLDYLMNYLHNCRVAHLDIKPENLLILIDLEDA,Human,,Protein kinase domain,2684.0,2938.0,2986.0,PF00069,False
+Q6SA08,TSSK4,TSSK4,TSSK4,Testis-specific serine/threonine-protein kinase 4,CAMK,TSSK,nan,TSSK4,MGKGDVLEAAPTTTAYHSLMDEYGYEVGKAIGHGSYGSVYEAFYTKQKVMVAVKIISKKKASDDYLNKFLPREIQVMKVLRHKYLINFYRAIESTSRVYIILELAQGGDVLEWIQRYGACSEPLAGKWFSQLTLGIAYLHSKSIVHRDLKLENLLLDKWENVKISDFGFAKMVPSNQPVGCSPSYRQVNCFSHLSQTYCGSFAYACPEILRGLPYNPFLSDTWSMGVILYTLVVAHLPFDDTNLKKLLRETQKEVTFPANHTISQECKNLILQMLRQATKRATILDIIKDSWVLKFQPEQPTHEIRLLEAMCQLHNTTKQHQSLQITT,TSSK,testis specific serine kinase 4,TSSK4,CAMK,0,183,TSSK4,KAIGHGSYGSVYEVAVKIIFLPREIQVMKVLRKYLINFYRAYIILELAQGGDVLEWIQRYLHSKSIVHRDLKLENLLLISDFGFA,Human,,Protein kinase domain,25.0,293.0,328.0,PF00069,True
+Q8IV63,VRK3,VRK3,VRK3,Inactive serine/threonine-protein kinase VRK3,CK1,VRK,nan,VRK3,MISFCPDCGKSIQAAFKFCPYCGNSLPVEEHVGSQTFVNPHVSSFQGSKRGLNSSFETSPKKVKWSSTVTSPRLSLFSDGDSSESEDTLSSSERSKGSGSRPPTPKSSPQKTRKSPQVTRGSPQKTSCSPQKTRQSPQTLKRSRVTTSLEALPTGTVLTDKSGRQWKLKSFQTRDNQGILYEAAPTSTLTCDSGPQKQKFSLKLDAKDGRLFNEQNFFQRAAKPLQVNKWKKLYSTPLLAIPTCMGFGVHQDKYRFLVLPSLGRSLQSALDVSPKHVLSERSVLQVACRLLDALEFLHENEYVHGNVTAENIFVDPEDQSQVTLAGYGFAFRYCPSGKHVAYVEGSRSPHEGDLEFISMDLHKGCGPSRRSDLQSLGYCMLKWLYGFLPWTNCLPNTEDIMKQKQKFVDKPGPFVGPCGHWIRPSETLQKYLKVVMALTYEEKPPYAMLRNNLEALLQDLRVSPYDPIGLPMVP,VRK,vaccinia related kinase 3,VRK3,CK1,0,195,VRK3,SFQTRDNQGILYEFSLKLDLQVNKWKKLYSTPLAIPTCMGFFLVLPSLG-RSLQSALDVFLHENEYVHGNVTAENIFVLAGYGFA,Human,,Protein kinase domain,251.0,403.0,474.0,PF00069,True
+Q32MK0,MYLK3,caMLCK,caMLCK,Myosin light chain kinase 3,CAMK,MLCK,nan,MYLK3,MSGTSKESLGHGGLPGLGKTCLTTMDTKLNMLNEKVDQLLHFQEDVTEKLQSMCRDMGHLERGLHRLEASRAPGPGGADGVPHIDTQAGWPEVLELVRAMQQDAAQHGARLEALFRMVAAVDRAIALVGATFQKSKVADFLMQGRVPWRRGSPGDSPEENKERVEEEGGKPKHVLSTSGVQSDAREPGEESQKADVLEGTAERLPPIRASGLGADPAQAVVSPGQGDGVPGPAQAFPGHLPLPTKVEAKAPETPSENLRTGLELAPAPGRVNVVSPSLEVAPGAGQGASSSRPDPEPLEEGTRLTPGPGPQCPGPPGLPAQARATHSGGETPPRISIHIQEMDTPGEMLMTGRGSLGPTLTTEAPAAAQPGKQGPPGTGRCLQAPGTEPGEQTPEGARELSPLQESSSPGGVKAEEEQRAGAEPGTRPSLARSDDNDHEVGALGLQQGKSPGAGNPEPEQDCAARAPVRAEAVRRMPPGAEAGSVVLDDSPAPPAPFEHRVVSVKETSISAGYEVCQHEVLGGGRFGQVHRCTEKSTGLPLAAKIIKVKSAKDREDVKNEINIMNQLSHVNLIQLYDAFESKHSCTLVMEYVDGGELFDRITDEKYHLTELDVVLFTRQICEGVHYLHQHYILHLDLKPENILCVNQTGHQIKIIDFGLARRYKPREKLKVNFGTPEFLAPEVVNYEFVSFPTDMWSVGVITYMLLSGLSPFLGETDAETMNFIVNCSWDFDADTFEGLSEEAKDFVSRLLVKEKSCRMSATQCLKHEWLNNLPAKASRSKTRLKSQLLLQKYIAQRKWKKHFYVVTAANRLRKFPTSP,MLCK,myosin light chain kinase 3,MYLK3,CAMK,2110,156,caMLCK,EVLGGGRFGQVHRLAAKIIDVKNEINIMNQLSVNLIQLYDATLVMEYVDGGELFDRITDYLHQHYILHLDLKPENILCIIDFGLA,Human,,Protein kinase domain,518.0,770.0,819.0,PF00069,True
+Q15772,SPEG,"SPEG_b, SPEG","Domain2_SPEG, SPEG",Striated muscle preferentially expressed protein kinase,CAMK,Trio,nan,SPEG,MQKARGTRGEDAGTRAPPSPGVPPKRAKVGAGGGAPVAVAGAPVFLRPLKNAAVCAGSDVRLRVVVSGTPQPSLRWFRDGQLLPAPAPEPSCLWLRRCGAQDAGVYSCMAQNERGRASCEAVLTVLEVGDSETAEDDISDVQGTQRLELRDDGAFSTPTGGSDTLVGTSLDTPPTSVTGTSEEQVSWWGSGQTVLEQEAGSGGGTRRLPGSPRQAQATGAGPRHLGVEPLVRASRANLVGASWGSEDSLSVASDLYGSAFSLYRGRALSIHVSVPQSGLRREEPDLQPQLASEAPRRPAQPPPSKSALLPPPSPRVGKRSPPGPPAQPAATPTSPHRRTQEPVLPEDTTTEEKRGKKSKSSGPSLAGTAESRPQTPLSEASGRLSALGRSPRLVRAGSRILDKLQFFEERRRSLERSDSPPAPLRPWVPLRKARSLEQPKSERGAPWGTPGASQEELRAPGSVAERRRLFQQKAASLDERTRQRSPASDLELRFAQELGRIRRSTSREELVRSHESLRATLQRAPSPREPGEPPLFSRPSTPKTSRAVSPAAAQPPSPSSAEKPGDEPGRPRSRGPAGRTEPGEGPQQEVRRRDQFPLTRSRAIQECRSPVPPPAADPPEARTKAPPGRKREPPAQAVRFLPWATPGLEGAAVPQTLEKNRAGPEAEKRLRRGPEEDGPWGPWDRRGARSQGKGRRARPTSPELESSDDSYVSAGEEPLEAPVFEIPLQNVVVAPGADVLLKCIITANPPPQVSWHKDGSALRSEGRLLLRAEGERHTLLLREARAADAGSYMATATNELGQATCAASLTVRPGGSTSPFSSPITSDEEYLSPPEEFPEPGETWPRTPTMKPSPSQNRRSSDTGSKAPPTFKVSLMDQSVREGQDVIMSIRVQGEPKPVVSWLRNRQPVRPDQRRFAEEAEGGLCRLRILAAERGDAGFYTCKAVNEYGARQCEARLEVRAHPESRSLAVLAPLQDVDVGAGEMALFECLVAGPTDVEVDWLCRGRLLQPALLKCKMHFDGRKCKLLLTSVHEDDSGVYTCKLSTAKDELTCSARLTVRPSLAPLFTRLLEDVEVLEGRAARFDCKISGTPPPVVTWTHFGCPMEESENLRLRQDGGLHSLHIAHVGSEDEGLYAVSAVNTHGQAHCSAQLYVEEPRTAASGPSSKLEKMPSIPEEPEQGELERLSIPDFLRPLQDLEVGLAKEAMLECQVTGLPYPTISWFHNGHRIQSSDDRRMTQYRDVHRLVFPAVGPQHAGVYKSVIANKLGKAACYAHLYVTDVVPGPPDGAPQVVAVTGRMVTLTWNPPRSLDMAIDPDSLTYTVQHQVLGSDQWTALVTGLREPGWAATGLRKGVQHIFRVLSTTVKSSSKPSPPSEPVQLLEHGPTLEEAPAMLDKPDIVYVVEGQPASVTVTFNHVEAQVVWRSCRGALLEARAGVYELSQPDDDQYCLRICRVSRRDMGALTCTARNRHGTQTCSVTLELAEAPRFESIMEDVEVGAGETARFAVVVEGKPLPDIMWYKDEVLLTESSHVSFVYEENECSLVVLSTGAQDGGVYTCTAQNLAGEVSCKAELAVHSAQTAMEVEGVGEDEDHRGRRLSDFYDIHQEIGRGAFSYLRRIVERSSGLEFAAKFIPSQAKPKASARREARLLARLQHDCVLYFHEAFERRRGLVIVTELCTEELLERIARKPTVCESEIRAYMRQVLEGIHYLHQSHVLHLDVKPENLLVWDGAAGEQQVRICDFGNAQELTPGEPQYCQYGTPEFVAPEIVNQSPVSGVTDIWPVGVVAFLCLTGISPFVGENDRTTLMNIRNYNVAFEETTFLSLSREARGFLIKVLVQDRLRPTAEETLEHPWFKTQAKGAEVSTDHLKLFLSRRRWQRSQISYKCHLVLRPIPELLRAPPERVWVTMPRRPPPSGGLSSSSDSEEEELEELPSVPRPLQPEFSGSRVSLTDIPTEDEALGTPETGAATPMDWQEQGRAPSQDQEAPSPEALPSPGQEPAAGASPRRGELRRGSSAESALPRAGPRELGRGLHKAASVELPQRRSPSPGATRLARGGLGEGEYAQRLQALRQRLLRGGPEDGKVSGLRGPLLESLGGRARDPRMARAASSEAAPHHQPPLENRGLQKSSSFSQGEAEPRGRHRRAGAPLEIPVARLGARRLQESPSLSALSEAQPSSPARPSAPKPSTPKSAEPSATTPSDAPQPPAPQPAQDKAPEPRPEPVRASKPAPPPQALQTLALPLTPYAQIIQSLQLSGHAQGPSQGPAAPPSEPKPHAAVFARVASPPPGAPEKRVPSAGGPPVLAEKARVPTVPPRPGSSLSSSIENLESEAVFEAKFKRSRESPLSLGLRLLSRSRSEERGPFRGAEEEDGIYRPSPAGTPLELVRRPERSRSVQDLRAVGEPGLVRRLSLSLSQRLRRTPPAQRHPAWEARGGDGESSEGGSSARGSPVLAMRRRLSFTLERLSSRLQRSGSSEDSGGASGRSTPLFGRLRRATSEGESLRRLGLPHNQLAAQAGATTPSAESLGSEASATSGSSAPGESRSRLRWGFSRPRKDKGLSPPNLSASVQEELGHQYVRSESDFPPVFHIKLKDQVLLEGEAATLLCLPAACPAPHISWMKDKKSLRSEPSVIIVSCKDGRQLLSIPRAGKRHAGLYECSATNVLGSITSSCTVAVARVPGKLAPPEVPQTYQDTALVLWKPGDSRAPCTYTLERRVDGESVWHPVSSGIPDCYYNVTHLPVGVTVRFRVACANRAGQGPFSNSSEKVFVRGTQDSSAVPSAAHQEAPVTSRPARARPPDSPTSLAPPLAPAAPTPPSVTVSPSSPPTPPSQALSSLKAVGPPPQTPPRRHRGLQAARPAEPTLPSTHVTPSEPKPFVLDTGTPIPASTPQGVKPVSSSTPVYVVTSFVSAPPAPEPPAPEPPPEPTKVTVQSLSPAKEVVSSPGSSPRSSPRPEGTTLRQGPPQKPYTFLEEKARGRFGVVRACRENATGRTFVAKIVPYAAEGKRRVLQEYEVLRTLHHERIMSLHEAYITPRYLVLIAESCGNRELLCGLSDRFRYSEDDVATYMVQLLQGLDYLHGHHVLHLDIKPDNLLLAPDNALKIVDFGSAQPYNPQALRPLGHRTGTLEFMAPEMVKGEPIGSATDIWGAGVLTYIMLSGRSPFYEPDPQETEARIVGGRFDAFQLYPNTSQSATLFLRKVLSVHPWSRPSLQDCLAHPWLQDAYLMKLRRQTLTFTTNRLKEFLGEQRRRRAEAATRHKVLLRSYPGGP,Trio,SPEG complex locus,SPEG,CAMK,0,175,SPEG,QEIGRGAFSYLRRFAAKFISARREARLLARLQDCVLYFHEAVIVTELCT-EELLERIARYLHQSHVLHLDVKPENLLVICDFGNA,Human,,Protein kinase domain,1601.0,1854.0,3267.0,PF00069,False
+Q8N752,CSNK1A1L,CK1a2,CK1a2,Casein kinase I isoform alpha-like,CK1,CK1,nan,CSNK1A1L,MTNNSGSKAELVVGGKYKLVRKIGSGSFGDVYLGITTTNGEDVAVKLESQKVKHPQLLYESKLYTILQGGVGIPHMHWYGQEKDNNVLVMDLLGPSLEDLFNFCSRRFTMKTVLMLADQMISRIEYVHTKNFLHRDIKPDNFLMGTGRHCNKLFLIDFGLAKKYRDNRTRQHIPYREDKHLIGTVRYASINAHLGIEQSRRDDMESLGYVFMYFNRTSLPWQGLRAMTKKQKYEKISEKKMSTPVEVLCKGFPAEFAMYLNYCRGLRFEEVPDYMYLRQLFRILFRTLNHQYDYTFDWTMLKQKAAQQAASSSGQGQQAQTQTGKQTEKNKNNVKDN,CK1,casein kinase 1 alpha 1 like,CSNK1A1L,CK1,1996,185,CK1a2,RKIGSGSFGDVYLVAVKLEQLLYESKLYTILQVGIPHMHWYVLVMDLLG-PSLEDLFNFYVHTKNFLHRDIKPDNFLMLIDFGLA,Human,CK1-A,Protein kinase domain,17.0,236.0,337.0,PF00069,True
+P57078,RIPK4,ANKRD3,ANKRD3,Receptor-interacting serine/threonine-protein kinase 4,TKL,RIPK,nan,RIPK4,MEGDGGTPWALALLRTFDAGEFTGWEKVGSGGFGQVYKVRHVHWKTWLAIKCSPSLHVDDRERMELLEEAKKMEMAKFRYILPVYGICREPVGLVMEYMETGSLEKLLASEPLPWDLRFRIIHETAVGMNFLHCMAPPLLHLDLKPANILLDAHYHVKISDFGLAKCNGLSHSHDLSMDGLFGTIAYLPPERIREKSRLFDTKHDVYSFAIVIWGVLTQKKPFADEKNILHIMVKVVKGHRPELPPVCRARPRACSHLIRLMQRCWQGDPRVRPTFQGNGLNGELIRQVLAALLPVTGRWRSPGEGFRLESEVIIRVTCPLSSPQEITSETEDLCEKPDDEVKETAHDLDVKSPPEPRSEVVPARLKRASAPTFDNDYSLSELLSQLDSGVSQAVEGPEELSRSSSESKLPSSGSGKRLSGVSSVDSAFSSRGSLSLSFEREPSTSDLGTTDVQKKKLVDAIVSGDTSKLMKILQPQDVDLALDSGASLLHLAVEAGQEECAKWLLLNNANPNLSNRRGSTPLHMAVERRVRGVVELLLARKISVNAKDEDQWTALHFAAQNGDESSTRLLLEKNASVNEVDFEGRTPMHVACQHGQENIVRILLRRGVDVSLQGKDAWLPLHYAAWQGHLPIVKLLAKQPGVSVNAQTLDGRTPLHLAAQRGHYRVARILIDLCSDVNVCSLLAQTPLHVAAETGHTSTARLLLHRGAGKEAMTSDGYTALHLAARNGHLATVKLLVEEKADVLARGPLNQTALHLAAAHGHSEVVEELVSADVIDLFDEQGLSALHLAAQGRHAQTVETLLRHGAHINLQSLKFQGGHGPAATLLRRSKT,RIPK,receptor interacting serine/threonine kinase 4,RIPK4,TKL,2192,514,ANKRD3,EKVGSGGFGQVYKLAIKCSELLEEAKKMEMAKRYILPVYGIGLVMEYMETGSLEKLLASHCMAPPLLHLDLKPANILLISDFGLA,Human,,Protein kinase domain,26.0,277.0,832.0,PF00069,True
+Q6P3R8,NEK5,NEK5,NEK5,Serine/threonine-protein kinase Nek5,Other,NEK,nan,NEK5,MDKYDVIKAIGQGAFGKAYLAKGKSDSKHCVIKEINFEKMPIQEKEASKKEVILLEKMKHPNIVAFFNSFQENGRLFIVMEYCDGGDLMKRINRQRGVLFSEDQILGWFVQISLGLKHIHDRKILHRDIKAQNIFLSKNGMVAKLGDFGIARVLNNSMELARTCIGTPYYLSPEICQNKPYNNKTDIWSLGCVLYELCTLKHPFEGNNLQQLVLKICQAHFAPISPGFSRELHSLISQLFQVSPRDRPSINSILKRPFLENLIPKYLTPEVIQEEFSHMLICRAGAPASRHAGKVVQKCKIQKVRFQGKCPPRSRISVPIKRNAILHRNEWRPPAGAQKARSIKMIERPKIAAVCGHYDYYYAQLDMLRRRAHKPSYHPIPQENTGVEDYGQETRHGPSPSQWPAEYLQRKFEAQQYKLKVEKQLGLRPSSAEPNYNQRQELRSNGEEPRFQELPFRKNEMKEQEYWKQLEEIRQQYHNDMKEIRKKMGREPEENSKISHKTYLVKKSNLPVHQDASEGEAPVQMEFRSCCPGWSAMARSWLTATSASQDIEKDLKQMRLQNTKESKNPEQKYKAKKGVKFEINLDKCISDENILQEEEAMDIPNETLTFEDGMKFKEYECVKEHGDYTDKAFEKLHCPEAGFSTQTVAAVGNRRQWDGGAPQTLLQMMAVADITSTCPTGPDSESVLSVSRQEGKTKDPYSPVLILM,NEK,NIMA related kinase 5,NEK5,Other,2120,283,NEK5,KAIGQGAFGKAYLCVIKEIASKKEVILLEKMKPNIVAFFNSFIVMEYCDGGDLMKRINRHIHDRKILHRDIKAQNIFLLGDFGIA,Human,NEK1,Protein kinase domain,4.0,259.0,708.0,PF00069,True
+Q8IU85,CAMK1D,CaMK1d,CaMK1d,Calcium/calmodulin-dependent protein kinase type 1D,CAMK,CAMK1,nan,CAMK1D,MARENGESSSSWKKQAEDIKKIFEFKETLGTGAFSEVVLAEEKATGKLFAVKCIPKKALKGKESSIENEIAVLRKIKHENIVALEDIYESPNHLYLVMQLVSGGELFDRIVEKGFYTEKDASTLIRQVLDAVYYLHRMGIVHRDLKPENLLYYSQDEESKIMISDFGLSKMEGKGDVMSTACGTPGYVAPEVLAQKPYSKAVDCWSIGVIAYILLCGYPPFYDENDSKLFEQILKAEYEFDSPYWDDISDSAKDFIRNLMEKDPNKRYTCEQAARHPWIAGDTALNKNIHESVSAQIRKNFAKSKWRQAFNATAVVRHMRKLHLGSSLDSSNASVSSSLSLASQKDCLAPSTLCSFISSSSGVSGVGAERRPRPTTVTAVHSGSK,CAMK1,calcium/calmodulin dependent protein kinase ID,CAMK1D,CAMK,1953,110,CaMK1d,ETLGTGAFSEVVLFAVKCISIENEIAVLRKIKENIVALEDIYLVMQLVSGGELFDRIVEYLHRMGIVHRDLKPENLLYISDFGLS,Human,,Protein kinase domain,23.0,279.0,385.0,PF00069,True
+Q56UN5,MAP3K19,MAP3K19,MAP3K8,Mitogen-activated protein kinase kinase kinase 19,STE,STE11,nan,MAP3K19,MSSMPKPERHAESLLDICHDTNSSPTDLMTVTKNQNIILQSISRSEEFDQDGDCSHSTLVNEEEDPSGGRQDWQPRTEGVEITVTFPRDVSPPQEMSQEDLKEKNLINSSLQEWAQAHAVSHPNEIETVELRKKKLTMRPLVLQKEESSRELCNVNLGFLLPRSCLELNISKSVTREDAPHFLKEQQRKSEEFSTSHMKYSGRSIKFLLPPLSLLPTRSGVLTIPQNHKFPKEKERNIPSLTSFVPKLSVSVRQSDELSPSNEPPGALVKSLMDPTLRSSDGFIWSRNMCSFPKTNHHRQCLEKEENWKSKEIEECNKIEITHFEKGQSLVSFENLKEGNIPAVREEDIDCHGSKTRKPEEENSQYLSSRKNESSVAKNYEQDPEIVCTIPSKFQETQHSEITPSQDEEMRNNKAASKRVSLHKNEAMEPNNILEECTVLKSLSSVVFDDPIDKLPEGCSSMETNIKISIAERAKPEMSRMVPLIHITFPVDGSPKEPVIAKPSLQTRKGTIHNNHSVNIPVHQENDKHKMNSHRSKLDSKTKTSKKTPQNFVISTEGPIKPTMHKTSIKTQIFPALGLVDPRPWQLPRFQKKMPQIAKKQSTHRTQKPKKQSFPCICKNPGTQKSCVPLSVQPTEPRLNYLDLKYSDMFKEINSTANGPGIYEMFGTPVYCHVRETERDENTYYREICSAPSGRRITNKCRSSHSERKSNIRTRLSQKKTHMKCPKTSFGIKQEHKVLISKEKSSKAVHSNLHDIENGDGISEPDWQIKSSGNEFLSSKDEIHPMNLAQTPEQSMKQNEFPPVSDLSIVEEVSMEESTGDRDISNNQILTTSLRDLQELEELHHQIPFIPSEDSWAVPSEKNSNKYVQQEKQNTASLSKVNASRILTNDLEFDSVSDHSKTLTNFSFQAKQESASSQTYQYWVHYLDHDSLANKSITYQMFGKTLSGTNSISQEIMDSVNNEELTDELLGCLAAELLALDEKDNNSCQKMANETDPENLNLVLRWRGSTPKEMGRETTKVKIQRHSSGLRIYDREEKFLISNEKKIFSENSLKSEEPILWTKGEILGKGAYGTVYCGLTSQGQLIAVKQVALDTSNKLAAEKEYRKLQEEVDLLKALKHVNIVAYLGTCLQENTVSIFMEFVPGGSISSIINRFGPLPEMVFCKYTKQILQGVAYLHENCVVHRDIKGNNVMLMPTGIIKLIDFGCARRLAWAGLNGTHSDMLKSMHGTPYWMAPEVINESGYGRKSDIWSIGCTVFEMATGKPPLASMDRMAAMFYIGAHRGLMPPLPDHFSENAADFVRMCLTRDQHERPSALQLLKHSFLERSH,STE11,mitogen-activated protein kinase kinase kinase 19,MAP3K19,STE,2076,349,MAP3K8,EILGKGAYGTVYCIAVKQVKLQEEVDLLKALKVNIVAYLGTSIFMEFVPGGSISSIINRYLHENCVVHRDIKGNNVMLLIDFGCA,Human,MEKK1,Protein kinase domain,1062.0,1324.0,1328.0,PF00069,True
+Q8NG66,NEK11,NEK11,NEK11,Serine/threonine-protein kinase Nek11,Other,NEK,nan,NEK11,MLKFQEAAKCVSGSTAISTYPKTLIARRYVLQQKLGSGSFGTVYLVSDKKAKRGEELKVLKEISVGELNPNETVQANLEAQLLSKLDHPAIVKFHASFVEQDNFCIITEYCEGRDLDDKIQEYKQAGKIFPENQIIEWFIQLLLGVDYMHERRILHRDLKSKNVFLKNNLLKIGDFGVSRLLMGSCDLATTLTGTPHYMSPEALKHQGYDTKSDIWSLACILYEMCCMNHAFAGSNFLSIVLKIVEGDTPSLPERYPKELNAIMESMLNKNPSLRPSAIEILKIPYLDEQLQNLMCRYSEMTLEDKNLDCQKEAAHIINAMQKRIHLQTLRALSEVQKMTPRERMRLRKLQAADEKARKLKKIVEEKYEENSKRMQELRSRNFQQLSVDVLHEKTHLKGMEEKEEQPEGRLSCSPQDEDEERWQGREEESDEPTLENLPESQPIPSMDLHELESIVEDATSDLGYHEIPEDPLVAEEYYADAFDSYCEESDEEEEEIALERPEKEIRNEGSQPAYRTNQQDSDIEALARCLENVLGCTSLDTKTITTMAEDMSPGPPIFNSVMARTKMKRMRESAMQKLGTEVFEEVYNYLKRARHQNASEAEIRECLEKVVPQASDCFEVDQLLYFEEQLLITMGKEPTLQNHL,NEK,NIMA related kinase 11,NEK11,Other,2116,285,NEK11,QKLGSGSFGTVYLKVLKEIQANLEAQLLSKLDPAIVKFHASCIITEYCEGRDLDDKIQEYMHERRILHRDLKSKNVFLIGDFGVS,Human,NEK11,Protein kinase domain,29.0,287.0,645.0,PF00069,True
+Q8WTQ7,GRK7,GPRK7,GPRK7,G protein-coupled receptor kinase 7,AGC,GRK,GRK,GRK7,MVDMGALDNLIANTAYLQARKPSDCDSKELQRRRRSLALPGLQGCAELRQKLSLNFHSLCEQQPIGRRLFRDFLATVPTFRKAATFLEDVQNWELAEEGPTKDSALQGLVATCASAPAPGNPQPFLSQAVATKCQAATTEEERVAAVTLAKAEAMAFLQEQPFKDFVTSAFYDKFLQWKLFEMQPVSDKYFTEFRVLGKGGFGEVCAVQVKNTGKMYACKKLDKKRLKKKGGEKMALLEKEILEKVSSPFIVSLAYAFESKTHLCLVMSLMNGGDLKFHIYNVGTRGLDMSRVIFYSAQIACGMLHLHELGIVYRDMKPENVLLDDLGNCRLSDLGLAVEMKGGKPITQRAGTNGYMAPEILMEKVSYSYPVDWFAMGCSIYEMVAGRTPFKDYKEKVSKEDLKQRTLQDEVKFQHDNFTEEAKDICRLFLAKKPEQRLGSREKSDDPRKHHFFKTINFPRLEAGLIEPPFVPDPSVVYAKDIAEIDDFSEVRGVEFDDKDKQFFKNFATGAVPIAWQEEIIETGLFEELNDPNRPTGCEEGNSSKSGVCLLL,GRK,G protein-coupled receptor kinase 7,GRK7,AGC,1471,17,GPRK7,RVLGKGGFGEVCAYACKKLMALLEKEILEKVSPFIVSLAYACLVMSLMNGGDLKFHIYNHLHELGIVYRDMKPENVLLLSDLGLA,Human,GRK,Protein kinase domain,192.0,443.0,553.0,PF00069,True
+P0C263,SBK2,SgK069,SgK069,Serine/threonine-protein kinase SBK2,Other,NKF1,nan,SBK2,MPGKQSEEGPAEAGASEDSEEEGLGGLTLEELQQGQEAARALEDMMTLSAQTLVRAEVDELYEEVRPLGQGCYGRVLLVTHRQKGTPLALKQLPKPRTSLRGFLYEFCVGLSLGAHSAIVTAYGIGIESAHSYSFLTEPVLHGDLMAFIQPKVGLPQPAVHRCAAQLASALEYIHARGLVYRDLKPENVLVCDPACRRFKLTDFGHTRPRGTLLRLAGPPIPYTAPELCAPPPLPEGLPIQPALDAWALGVLLFCLLTGYFPWDRPLAEADPFYEDFLIWQASGQPRDRPQPWFGLAAAADALLRGLLDPHPRRRSAVIAIREHLGRPWRQREGEAEAVGAVEEEAGQ,NKF1,SH3 domain binding kinase family member 2,SBK2,Other,0,293,SgK069,RPLGQGCYGRVLLLALKQLGFLYEFCVGLSLGSAIVTAYGISFLTEPVLHGDLMAFIQPYIHARGLVYRDLKPENVLVLTDFGHT,Human,,Protein kinase domain,62.0,324.0,348.0,PF00069,True
+Q8NE63,HIPK4,HIPK4,HIPK4,Homeodomain-interacting protein kinase 4,CMGC,DYRK,HIPK,HIPK4,MSTIQSETDCYDIIEVLGKGTFGEVAKGWRRSTGEMVAIKILKNDAYRNRIIKNELKLLHCMRGLDPEEAHVIRFLEFFHDALKFYLVFELLEQNLFEFQKENNFAPLPARHIRTVTLQVLTALARLKELAIIHADLKPENIMLVDQTRCPFRVKVIDFGSASIFSEVRYVKEPYIQSRFYRAPEILLGLPFCEKVDVWSLGCVMAELHLGWPLYPGNNEYDQVRYICETQGLPKPHLLHAACKAHHFFKRNPHPDAANPWQLKSSADYLAETKVRPLERRKYMLKSLDQIETVNGGSVASRLTFPDREALAEHADLKSMVELIKRMLTWESHERISPSAALRHPFVSMQQLRSAHETTHYYQLSLRSYRLSLQVEGKPPTPVVAAEDGTPYYCLAEEKEAAGMGSVAGSSPFFREEKAPGMQRAIDQLDDLSLQEAGHGLWGETCTNAVSDMMVPLKAAITGHHVPDSGPEPILAFYSSRLAGRHKARKPPAGSKSDSNFSNLIRLSQVSPEDDRPCRGSSWEEGEHLGASAEPLAILQRDEDGPNIDNMTMEAERPDPELFDPSSCPGEWLSEPDCTLESVRGPRAQGLPPRRSHQHGPPRGATSFLQHVTGHH,DYRK,homeodomain interacting protein kinase 4,HIPK4,CMGC,2036,234,HIPK4,EVLGKGTFGEVAKVAIKILIIKNELKLLHCMRPEEAHVIRFYLVFELLE-QNLFEFQKERLKELAIIHADLKPENIMLVIDFGSA,Human,HIPK,Protein kinase domain,11.0,347.0,616.0,PF00069,True
+Q8WXR4,MYO3B,MYO3B,MYO3B,Myosin-IIIb,STE,STE20,NinaC,MYO3B,MKHLYGLFHYNPMMLGLESLPDPTDTWEIIETIGKGTYGKVYKVTNKRDGSLAAVKILDPVSDMDEEIEAEYNILQFLPNHPNVVKFYGMFYKADHCVGGQLWLVLELCNGGSVTELVKGLLRCGQRLDEAMISYILYGALLGLQHLHNNRIIHRDVKGNNILLTTEGGVKLVDFGVSAQLTSTRLRRNTSVGTPFWMAPEVIACEQQYDSSYDARCDVWSLGITAIELGDGDPPLFDMHPVKTLFKIPRNPPPTLLHPEKWCEEFNHFISQCLIKDFERRPSVTHLLDHPFIKGVHGKVLFLQKQLAKVLQDQKHQNPVAKTRHERMHTRRPYHVEDAEKYCLEDDLVNLEVLDEDTIIHQLQKRYADLLIYTYVGDILIALNPFQNLSIYSPQFSRLYHGVKRASNPPHIFASADAAYQCMVTLSKDQCIVISGESGSGKTESAHLIVQHLTFLGKANNQTLREKILQVNSLVEAFGNSCTAINDNSSRFGKYLEMMFTPTGVVMGARISEYLLEKSRVIKQAAREKNFHIFYYIYAGLHHQKKLSDFRLPEEKPPRYIADETGRVMHDITSKESYRRQFEAIQHCFRIIGFTDKEVHSVYRILAGILNIGNIEFAAISSQHQTDKSEVPNAEALQNAASVLCISPEELQEALTSHCVVTRGETIIRANTVDRAADVRDAMSKALYGRLFSWIVNRINTLLQPDENICSAGGGMNVGILDIFGFENFQRNSFEQLCINIANEQIQYYFNQHVFALEQMEYQNEGIDAVPVEYEDNRPLLDMFLQKPLGLLALLDEESRFPQATDQTLVDKFEDNLRCKYFWRPKGVELCFGIQHYAGKVLYDASGVLEKNRDTLPADVVVVLRTSENKLLQQLFSIPLTKTGNLAQTRARITVASSSLPPHFSAGKAKVDTLEVIRHPEETTNMKRQTVASYFRYSLMDLLSKMVVGQPHFVRCIKPNDDREALQFSRERVLAQLRSTGILETVSIRRQGYSHRILFEEFVKRYYYLAFTAHQTPLASKESCVAILEKSRLDHWVLGKTKVFLKYYHVEQLNLLLREVIGRVVVLQAYTKGWLGARRYKRVREKREKGAIAIQSAWRGYDARRKFKKISNRRNESAAHNQAGDTSNQSSGPHSPVAAGTRGSAEVQDCSEPGDHKVLRGSVHRRSHSQAESNNGRTQTSSNSPAVTEKNGHSQAQSSPKGCDIFAGHANKHSVSGTDLLSSRICHPAPDQQGLSLWGAPQKPGSENGLAQKHRTPRRRCQQPKMLSSPEDTMYYNQLNGTLEYQGSKRKPRKLGQIKVLDGEDEYYKSLSPVDCIPEENNSAHPSFFSSSSKGDSFAQH,STE20,myosin IIIB,MYO3B,STE,2113,366,MYO3B,ETIGKGTYGKVYKAAVKILEIEAEYNILQFLPPNVVKFYGMWLVLELCNGGSVTELVKGHLHNNRIIHRDVKGNNILLLVDFGVS,Human,NinaC,Protein kinase domain,28.0,293.0,1341.0,PF00069,True
+Q96J92,WNK4,Wnk4,Wnk4,Serine/threonine-protein kinase WNK4,Other,WNK,nan,WNK4,MLASPATETTVLMSQTEADLALRPPPPLGTAGQPRLGPPPRRARRFSGKAEPRPRSSRLSRRSSVDLGLLSSWSLPASPAPDPPDPPDSAGPGPARSPPPSSKEPPEGTWTEGAPVKAAEDSARPELPDSAVGPGSREPLRVPEAVALERRREQEEKEDMETQAVATSPDGRYLKFDIEIGRGSFKTVYRGLDTDTTVEVAWCELQTRKLSRAERQRFSEEVEMLKGLQHPNIVRFYDSWKSVLRGQVCIVLVTELMTSGTLKTYLRRFREMKPRVLQRWSRQILRGLHFLHSRVPPILHRDLKCDNVFITGPTGSVKIGDLGLATLKRASFAKSVIGTPEFMAPEMYEEKYDEAVDVYAFGMCMLEMATSEYPYSECQNAAQIYRKVTSGRKPNSFHKVKIPEVKEIIEGCIRTDKNERFTIQDLLAHAFFREERGVHVELAEEDDGEKPGLKLWLRMEDARRGGRPRDNQAIEFLFQLGRDAAEEVAQEMVALGLVCEADYQPVARAVRERVAAIQRKREKLRKARELEALPPEPGPPPATVPMAPGPPSVFPPEPEEPEADQHQPFLFRHASYSSTTSDCETDGYLSSSGFLDASDPALQPPGGVPSSLAESHLCLPSAFALSIPRSGPGSDFSPGDSYASDAASGLSDVGEGMGQMRRPPGRNLRRRPRSRLRVTSVSDQNDRVVECQLQTHNSKMVTFRFDLDGDSPEEIAAAMVYNEFILPSERDGFLRRIREIIQRVETLLKRDTGPMEAAEDTLSPQEEPAPLPALPVPLPDPSNEELQSSTSLEHRSWTAFSTSSSSPGTPLSPGNPFSPGTPISPGPIFPITSPPCHPSPSPFSPISSQVSSNPSPHPTSSPLPFSSSTPEFPVPLSQCPWSSLPTTSPPTFSPTCSQVTLSSPFFPPCPSTSSFPSTTAAPLLSLASAFSLAVMTVAQSLLSPSPGLLSQSPPAPPSPLPSLPLPPPVAPGGQESPSPHTAEVESEASPPPARPLPGEARLAPISEEGKPQLVGRFQVTSSKEPAEPLPLQPTSPTLSGSPKPSTPQLTSESSDTEDSAGGGPETREALAESDRAAEGLGAGVEEEGDDGKEPQVGGSPQPLSHPSPVWMNYSYSSLCLSSEESESSGEDEEFWAELQSLRQKHLSEVETLQTLQKKEIEDLYSRLGKQPPPGIVAPAAMLSSRQRRLSKGSFPTSRRNSLQRSEPPGPGIMRRNSLSGSSTGSQEQRASKGVTFAGDVGRM,WNK,WNK lysine deficient protein kinase 4,WNK4,Other,0,337,Wnk4,IEIGRGSFKTVYRVAWCELRFSEEVEMLKGLQPNIVRFYDSVLVTELMTSGTLKTYLRRHSRVPPILHRDLKCDNVFIIGDLGLA,Human,,Protein kinase domain,179.0,432.0,1243.0,PF00069,True
+P0C264,SBK3,SgK110,SgK110,Putative uncharacterized serine/threonine-protein kinase SgK110,Other,NKF1,nan,SBK3,MERRASETPEDGDPEEDTATALQRLVELTTSRVTPVRSLRDQYHLIRKLGSGSYGRVLLAQPHQGGPAVALKLLRRDLVLRSTFLREFCVGRCVSAHPGLLQTLAGPLQTPRYFAFAQEYAPCGDLSGMLQERGLPELLVKRVVAQLAGALDFLHSRGLVHADVKPDNVLVFDPVCSRVALGDLGLTRPEGSPTPAPPVPLPTAPPELCLLLPPDTLPLRPAVDSWGLGVLLFCAATACFPWDVALAPNPEFEAFAGWVTTKPQPPQPPPPWDQFAPPALALLQGLLDLDPETRSPPLAVLDFLGDDWGLQGNREGPGVLGSAVSYEDREEGGSSLEEWTDEGDDSKSGGRTGTDGGAP,NKF1,SH3 domain binding kinase family member 3,SBK3,Other,2290,294,SgK110,RKLGSGSYGRVLLVALKLLTFLREFCVGRCVSPGLLQTLAGAFAQEYAPCGDLSGMLQEFLHSRGLVHADVKPDNVLVLGDLGLT,Human,,Protein kinase domain,43.0,295.0,359.0,PF00069,True
+Q8TDC3,BRSK1,BRSK1,BRSK1,Serine/threonine-protein kinase BRSK1,CAMK,CAMKL,BRSK,BRSK1,MSSGAKEGGGGSPAYHLPHPHPHPPQHAQYVGPYRLEKTLGKGQTGLVKLGVHCITGQKVAIKIVNREKLSESVLMKVEREIAILKLIEHPHVLKLHDVYENKKYLYLVLEHVSGGELFDYLVKKGRLTPKEARKFFRQIVSALDFCHSYSICHRDLKPENLLLDEKNNIRIADFGMASLQVGDSLLETSCGSPHYACPEVIKGEKYDGRRADMWSCGVILFALLVGALPFDDDNLRQLLEKVKRGVFHMPHFIPPDCQSLLRGMIEVEPEKRLSLEQIQKHPWYLGGKHEPDPCLEPAPGRRVAMRSLPSNGELDPDVLESMASLGCFRDRERLHRELRSEEENQEKMIYYLLLDRKERYPSCEDQDLPPRNDVDPPRKRVDSPMLSRHGKRRPERKSMEVLSITDAGGGGSPVPTRRALEMAQHSQRSRSVSGASTGLSSSPLSSPRSPVFSFSPEPGAGDEARGGGSPTSKTQTLPSRGPRGGGAGEQPPPPSARSTPLPGPPGSPRSSGGTPLHSPLHTPRASPTGTPGTTPPPSPGGGVGGAAWRSRLNSIRNSFLGSPRFHRRKMQVPTAEEMSSLTPESSPELAKRSWFGNFISLDKEEQIFLVLKDKPLSSIKADIVHAFLSIPSLSHSVLSQTSFRAEYKASGGPSVFQKPVRFQVDISSSEGPEPSPRRDGSGGGGIYSVTFTLISGPSRRFKRVVETIQAQLLSTHDQPSVQALADEKNGAQTRPAGAPPRSLQPPPGRPDPELSSSPRRGPPKDKKLLATNGTPLP,CAMKL,BR serine/threonine kinase 1,BRSK1,CAMK,1946,120,BRSK1,KTLGKGQTGLVKLVAIKIVKVEREIAILKLIEPHVLKLHDVYLVLEHVSGGELFDYLVKFCHSYSICHRDLKPENLLLIADFGMA,Human,BRSK,Protein kinase domain,34.0,284.0,778.0,PF00069,True
+Q5VST9,OBSCN,"Obscn_b, Obscn","Obscn, Domain2_Obscn",Obscurin,CAMK,Trio,nan,OBSCN,MDQPQFSGAPRFLTRPKAFVVSVGKDATLSCQIVGNPTPQVSWEKDQQPVAAGARFRLAQDGDLYRLTILDLALGDSGQYVCRARNAIGEAFAAVGLQVDAEAACAEQAPHFLLRPTSIRVREGSEATFRCRVGGSPRPAVSWSKDGRRLGEPDGPRVRVEELGEASALRIRAARPRDGGTYEVRAENPLGAASAAAALVVDSDAADTASRPGTSTAALLAHLQRRREAMRAEGAPASPPSTGTRTCTVTEGKHARLSCYVTGEPKPETVWKKDGQLVTEGRRHVVYEDAQENFVLKILFCKQSDRGLYTCTASNLVGQTYSSVLVVVREPAVPFKKRLQDLEVREKESATFLCEVPQPSTEAAWFKEETRLWASAKYGIEEEGTERRLTVRNVSADDDAVYICETPEGSRTVAELAVQGNLLRKLPRKTAVRVGDTAMFCVELAVPVGPVHWLRNQEEVVAGGRVAISAEGTRHTLTISQCCLEDVGQVAFMAGDCQTSTQFCVSAPRKPPLQPPVDPVVKARMESSVILSWSPPPHGERPVTIDGYLVEKKKLGTYTWIRCHEAEWVATPELTVADVAEEGNFQFRVSALNSFGQSPYLEFPGTVHLAPKLAVRTPLKAVQAVEGGEVTFSVDLTVASAGEWFLDGQALKASSVYEIHCDRTRHTLTIREVPASLHGAQLKFVANGIESSIRMEVRAAPGLTANKPPAAAAREVLARLHEEAQLLAELSDQAAAVTWLKDGRTLSPGPKYEVQASAGRRVLLVRDVARDDAGLYECVSRGGRIAYQLSVQGLARFLHKDMAGSCVDAVAGGPAQFECETSEAHVHVHWYKDGMELGHSGERFLQEDVGTRHRLVAATVTRQDEGTYSCRVGEDSVDFRLRVSEPKVVFAKEQLARRKLQAEAGASATLSCEVAQAQTEVTWYKDGKKLSSSSKVCMEATGCTRRLVVQQAGQADAGEYSCEAGGQRLSFHLDVKEPKVVFAKDQVAHSEVQAEAGASATLSCEVAQAQTEVMWYKDGKKLSSSLKVHVEAKGCRRRLVVQQAGKTDAGDYSCEARGQRVSFRLHITEPKMMFAKEQSVHNEVQAEAGASAMLSCEVAQAQTEVTWYKDGKKLSSSSKVGMEVKGCTRRLVLPQAGKADAGEYSCEAGGQRVSFHLHITEPKGVFAKEQSVHNEVQAEAGTTAMLSCEVAQPQTEVTWYKDGKKLSSSSKVRMEVKGCTRRLVVQQVGKADAGEYSCEAGGQRVSFQLHITEPKAVFAKEQLVHNEVRTEAGASATLSCEVAQAQTEVTWYKDGKKLSSSSKVRIEAAGCMRQLVVQQAGQADAGEYTCEAGGQRLSFHLDVSEPKAVFAKEQLAHRKVQAEAGAIATLSCEVAQAQTEVTWYKDGKKLSSSSKVRMEAVGCTRRLVVQQACQADTGEYSCEAGGQRLSFSLDVAEPKVVFAKEQPVHREVQAQAGASTTLSCEVAQAQTEVMWYKDGKKLSFSSKVRMEAVGCTRRLVVQQAGQAVAGEYSCEAGSQRLSFHLHVAEPKAVFAKEQPASREVQAEAGTSATLSCEVAQAQTEVTWYKDGKKLSSSSKVRMEAVGCTRRLVVQEAGQADAGEYSCKAGDQRLSFHLHVAEPKVVFAKEQPAHREVQAEAGASATLSCEVAQAQTEVTWYKDGKKLSSSSKVRVEAVGCTRRLVVQQAGQAEAGEYSCEAGGQQLSFRLQVAELEPQISERPCRREPLVVKEHEDIILTATLATPSAATVTWLKDGVEIRRSKRHETASQGDTHTLTVHGAQVLDSAIYSCRVGAEGQDFPVQVEEVAAKFCRLLEPVCGELGGTVTLACELSPACAEVVWRCGNTQLRVGKRFQMVAEGPVRSLTVLGLRAEDAGEYVCESRDDHTSAQLTVSVPRVVKFMSGLSTVVAEEGGEATFQCVVSPSDVAVVWFRDGALLQPSEKFAISQSGASHSLTISDLVLEDAGQITVEAEGASSSAALRVREAPVLFKKKLEPQTVEERSSVTLEVELTRPWPELRWTRNATALAPGKNVEIHAEGARHRLVLHNVGFADRGFFGCETPDDKTQAKLTVEMRQVRLVRGLQAVEAREQGTATMEVQLSHADVDGSWTRDGLRFQQGPTCHLAVRGPMHTLTLSGLRPEDSGLMVFKAEGVHTSARLVVTELPVSFSRPLQDVVTTEKEKVTLECELSRPNVDVRWLKDGVELRAGKTMAIAAQGACRSLTIYRCEFADQGVYVCDAHDAQSSASVKVQGRTYTLIYRRVLAEDAGEIQFVAENAESRAQLRVKELPVTLVRPLRDKIAMEKHRGVLECQVSRASAQVRWFKGSQELQPGPKYELVSDGLYRKLIISDVHAEDEDTYTCDAGDVKTSAQFFVEEQSITIVRGLQDVTVMEPAPAWFECETSIPSVRPPKWLLGKTVLQAGGNVGLEQEGTVHRLMLRRTCSTMTGPVHFTVGKSRSSARLVVSDIPVVLTRPLEPKTGRELQSVVLSCDFRPAPKAVQWYKDDTPLSPSEKFKMSLEGQMAELRILRLMPADAGVYRCQAGSAHSSTEVTVEAREVTVTGPLQDAEATEEGWASFSCELSHEDEEVEWSLNGMPLYNDSFHEISHKGRRHTLVLKSIQRADAGIVRASSLKVSTSARLEVRVKPVVFLKALDDLSAEERGTLALQCEVSDPEAHVVWRKDGVQLGPSDKYDFLHTAGTRGLVVHDVSPEDAGLYTCHVGSEETRARVRVHDLHVGITKRLKTMEVLEGESCSFECVLSHESASDPAMWTVGGKTVGSSSRFQATRQGRKYILVVREAAPSDAGEVVFSVRGLTSKASLIVRERPAAIIKPLEDQWVAPGEDVELRCELSRAGTPVHWLKDRKAIRKSQKYDVVCEGTMAMLVIRGASLKDAGEYTCEVEASKSTASLHVEEKANCFTEELTNLQVEEKGTAVFTCKTEHPAATVTWRKGLLELRASGKHQPSQEGLTLRLTISALEKADSDTYTCDIGQAQSRAQLLVQGRRVHIIEDLEDVDVQEGSSATFRCRISPANYEPVHWFLDKTPLHANELNEIDAQPGGYHVLTLRQLALKDSGTIYFEAGDQRASAALRVTEKPSVFSRELTDATITEGEDLTLVCETSTCDIPVCWTKDGKTLRGSARCQLSHEGHRAQLLITGATLQDSGRYKCEAGGACSSSIVRVHARPVRFQEALKDLEVLEGGAATLRCVLSSVAAPVKWCYGNNVLRPGDKYSLRQEGAMLELVVRNLRPQDSGRYSCSFGDQTTSATLTVTALPAQFIGKLRNKEATEGATATLRCELSKAAPVEWRKGSETLRDGDRYCLRQDGAMCELQIRGLAMVDAAEYSCVCGEERTSASLTIRPMPAHFIGRLRHQESIEGATATLRCELSKAAPVEWRKGRESLRDGDRHSLRQDGAVCELQICGLAVADAGEYSCVCGEERTSATLTVKALPAKFTEGLRNEEAVEGATAMLWCELSKVAPVEWRKGPENLRDGDRYILRQEGTRCELQICGLAMADAGEYLCVCGQERTSATLTIRALPARFIEDVKNQEAREGATAVLQCELNSAAPVEWRKGSETLRDGDRYSLRQDGTKCELQIRGLAMADTGEYSCVCGQERTSAMLTVRALPIKFTEGLRNEEATEGATAVLRCELSKMAPVEWWKGHETLRDGDRHSLRQDGARCELQIRGLVAEDAGEYLCMCGKERTSAMLTVRAMPSKFIEGLRNEEATEGDTATLWCELSKAAPVEWRKGHETLRDGDRHSLRQDGSRCELQIRGLAVVDAGEYSCVCGQERTSATLTVRALPARFIEDVKNQEAREGATAVLQCELSKAAPVEWRKGSETLRGGDRYSLRQDGTRCELQIHGLSVADTGEYSCVCGQERTSATLTVRAPQPVFREPLQSLQAEEGSTATLQCELSEPTATVVWSKGGLQLQANGRREPRLQGCTAELVLQDLQREDTGEYTCTCGSQATSATLTVTAAPVRFLRELQHQEVDEGGTAHLCCELSRAGASVEWRKGSLQLFPCAKYQMVQDGAAAELLVRGVEQEDAGDYTCDTGHTQSMASLSVRVPRPKFKTRLQSLEQETGDIARLCCQLSDAESGAVVQWLKEGVELHAGPKYEMRSQGATRELLIHQLEAKDTGEYACVTGGQKTAASLRVTEPEVTIVRGLVDAEVTADEDVEFSCEVSRAGATGVQWCLQGLPLQSNEVTEVAVRDGRIHTLRLKGVTPEDAGTVSFHLGNHASSAQLTVRAPEVTILEPLQDVQLSEGQDASFQCRLSRASGQEARWALGGVPLQANEMNDITVEQGTLHLLTLHKVTLEDAGTVSFHVGTCSSEAQLKVTAKNTVVRGLENVEALEGGEALFECQLSQPEVAAHTWLLDDEPVHTSENAEVVFFENGLRHLLLLKNLRPQDSCRVTFLAGDMVTSAFLTVRGWRLEILEPLKNAAVRAGAQACFTCTLSEAVPVGEASWYINGAAVQPDDSDWTVTADGSHHALLLRSAQPHHAGEVTFACRDAVASARLTVLGLPDPPEDAEVVARSSHTVTLSWAAPMSDGGGGLCGYRVEVKEGATGQWRLCHELVPGPECVVDGLAPGETYRFRVAAVGPVGAGEPVHLPQTVRLAEPPKPVPPQPSAPESRQVAAGEDVSLELEVVAEAGEVIWHKGMERIQPGGRFEVVSQGRQQMLVIKGFTAEDQGEYHCGLAQGSICPAAATFQVALSPASVDEAPQPSLPPEAAQEGDLHLLWEALARKRRMSREPTLDSISELPEEDGRSQRLPQEAEEVAPDLSEGYSTADELARTGDADLSHTSSDDESRAGTPSLVTYLKKAGRPGTSPLASKVGAPAAPSVKPQQQQEPLAAVRPPLGDLSTKDLGDPSMDKAAVKIQAAFKGYKVRKEMKQQEGPMFSHTFGDTEAQVGDALRLECVVASKADVRARWLKDGVELTDGRHHHIDQLGDGTCSLLITGLDRADAGCYTCQVSNKFGQVTHSACVVVSGSESEAESSSGGELDDAFRRAARRLHRLFRTKSPAEVSDEELFLSADEGPAEPEEPADWQTYREDEHFICIRFEALTEARQAVTRFQEMFATLGIGVEIKLVEQGPRRVEMCISKETPAPVVPPEPLPSLLTSDAAPVFLTELQNQEVQDGYPVSFDCVVTGQPMPSVRWFKDGKLLEEDDHYMINEDQQGGHQLIITAVVPADMGVYRCLAENSMGVSSTKAELRVDLTSTDYDTAADATESSSYFSAQGYLSSREQEGTESTTDEGQLPQVVEELRDLQVAPGTRLAKFQLKVKGYPAPRLYWFKDGQPLTASAHIRMTDKKILHTLEIISVTREDSGQYAAYISNAMGAAYSSARLLVRGPDEPEEKPASDVHEQLVPPRMLERFTPKKVKKGSSITFSVKVEGRPVPTVHWLREEAERGVLWIGPDTPGYTVASSAQQHSLVLLDVGRQHQGTYTCIASNAAGQALCSASLHVSGLPKVEEQEKVKEALISTFLQGTTQAISAQGLETASFADLGGQRKEEPLAAKEALGHLSLAEVGTEEFLQKLTSQITEMVSAKITQAKLQVPGGDSDEDSKTPSASPRHGRSRPSSSIQESSSESEDGDARGEIFDIYVVTADYLPLGAEQDAITLREGQYVEVLDAAHPLRWLVRTKPTKSSPSRQGWVSPAYLDRRLKLSPEWGAAEAPEFPGEAVSEDEYKARLSSVIQELLSSEQAFVEELQFLQSHHLQHLERCPHVPIAVAGQKAVIFRNVRDIGRFHSSFLQELQQCDTDDDVAMCFIKNQAAFEQYLEFLVGRVQAESVVVSTAIQEFYKKYAEEALLAGDPSQPPPPPLQHYLEQPVERVQRYQALLKELIRNKARNRQNCALLEQAYAVVSALPQRAENKLHVSLMENYPGTLQALGEPIRQGHFIVWEGAPGARMPWKGHNRHVFLFRNHLVICKPRRDSRTDTVSYVFRNMMKLSSIDLNDQVEGDDRAFEVWQEREDSVRKYLLQARTAIIKSSWVKEICGIQQRLALPVWRPPDFEEELADCTAELGETVKLACRVTGTPKPVISWYKDGKAVQVDPHHILIEDPDGSCALILDSLTGVDSGQYMCFAASAAGNCSTLGKILVQVPPRFVNKVRASPFVEGEDAQFTCTIEGAPYPQIRWYKDGALLTTGNKFQTLSEPRSGLLVLVIRAASKEDLGLYECELVNRLGSARASAELRIQSPMLQAQEQCHREQLVAAVEDTTLERADQEVTSVLKRLLGPKAPGPSTGDLTGPGPCPRGAPALQETGSQPPVTGTSEAPAVPPRVPQPLLHEGPEQEPEAIARAQEWTVPIRMEGAAWPGAGTGELLWDVHSHVVRETTQRTYTYQAIDTHTARPPSMQVTIEDVQAQTGGTAQFEAIIEGDPQPSVTWYKDSVQLVDSTRLSQQQEGTTYSLVLRHVASKDAGVYTCLAQNTGGQVLCKAELLVLGGDNEPDSEKQSHRRKLHSFYEVKEEIGRGVFGFVKRVQHKGNKILCAAKFIPLRSRTRAQAYRERDILAALSHPLVTGLLDQFETRKTLILILELCSSEELLDRLYRKGVVTEAEVKVYIQQLVEGLHYLHSHGVLHLDIKPSNILMVHPAREDIKICDFGFAQNITPAELQFSQYGSPEFVSPEIIQQNPVSEASDIWAMGVISYLSLTCSSPFAGESDRATLLNVLEGRVSWSSPMAAHLSEDAKDFIKATLQRAPQARPSAAQCLSHPWFLKSMPAEEAHFINTKQLKFLLARSRWQRSLMSYKSILVMRSIPELLRGPPDSPSLGVARHLCRDTGGSSSSSSSSDNELAPFARAKSLPPSPVTHSPLLHPRGFLRPSASLPEEAEASERSTEAPAPPASPEGAGPPAAQGCVPRHSVIRSLFYHQAGESPEHGALAPGSRRHPARRRHLLKGGYIAGALPGLREPLMEHRVLEEEAAREEQATLLAKAPSFETALRLPASGTHLAPGHSHSLEHDSPSTPRPSSEACGEAQRLPSAPSGGAPIRDMGHPQGSKQLPSTGGHPGTAQPERPSPDSPWGQPAPFCHPKQGSAPQEGCSPHPAVAPCPPGSFPPGSCKEAPLVPSSPFLGQPQAPPAPAKASPPLDSKMGPGDISLPGRPKPGPCSSPGSASQASSSQVSSLRVGSSQVGTEPGPSLDAEGWTQEAEDLSDSTPTLQRPQEQATMRKFSLGGRGGYAGVAGYGTFAFGGDAGGMLGQGPMWARIAWAVSQSEEEEQEEARAESQSEEQQEARAESPLPQVSARPVPEVGRAPTRSSPEPTPWEDIGQVSLVQIRDLSGDAEAADTISLDISEVDPAYLNLSDLYDIKYLPFEFMIFRKVPKSAQPEPPSPMAEEELAEFPEPTWPWPGELGPHAGLEITEESEDVDALLAEAAVGRKRKWSSPSRSLFHFPGRHLPLDEPAELGLRERVKASVEHISRILKGRPEGLEKEGPPRKKPGLASFRLSGLKSWDRAPTFLRELSDETVVLGQSVTLACQVSAQPAAQATWSKDGAPLESSSRVLISATLKNFQLLTILVVVAEDLGVYTCSVSNALGTVTTTGVLRKAERPSSSPCPDIGEVYADGVLLVWKPVESYGPVTYIVQCSLEGGSWTTLASDIFDCCYLTSKLSRGGTYTFRTACVSKAGMGPYSSPSEQVLLGGPSHLASEEESQGRSAQPLPSTKTFAFQTQIQRGRFSVVRQCWEKASGRALAAKIIPYHPKDKTAVLREYEALKGLRHPHLAQLHAAYLSPRHLVLILELCSGPELLPCLAERASYSESEVKDYLWQMLSATQYLHNQHILHLDLRSENMIITEYNLLKVVDLGNAQSLSQEKVLPSDKFKDYLETMAPELLEGQGAVPQTDIWAIGVTAFIMLSAEYPVSSEGARDLQRGLRKGLVRLSRCYAGLSGGAVAFLRSTLCAQPWGRPCASSCLQCPWLTEEGPACSRPAPVTFPTARLRVFVRNREKRRALLYKRHNLAQVR,Trio,"obscurin, cytoskeletal calmodulin and titin-interacting RhoGEF",OBSCN,CAMK,0,173,Obscn,EEIGRGVFGFVKRCAAKFIQAYRERDILAALSPLVTGLLDQILILELCSSEELLDRLYRYLHSHGVLHLDIKPSNILMICDFGFA,Human,,Protein kinase domain,6468.0,6721.0,7968.0,PF00069,False
+Q96QS6,PSKH2,PSKH2,PSKH2,Serine/threonine-protein kinase H2,CAMK,PSK,nan,PSKH2,MGCGASRKVVPGPPALAWAKHEGQNQAGVGGAGPGPEAAAQAAQRIQVARFRAKFDPRVLARYDIKALIGTGSFSRVVRVEQKTTKKPFAIKVMETREREGREACVSELSVLRRVSHRYIVQLMEIFETEDQVYMVMELATGGELFDRLIAQGSFTERDAVRILQMVADGIRYLHALQITHRNLKPENLLYYHPGEESKILITDFGLAYSGKKSGDWTMKTLCGTPEYIAPEVLLRKPYTSAVDMWALGVITYALLSGFLPFDDESQTRLYRKILKGKYNYTGEPWPSISHLAKDFIDKLLILEAGHRMSAGQALDHPWVITMAAGSSMKNLQRAISRNLMQRASPHSQSPGSAQSSKSHYSHKSRHMWSKRNLRIVESPLSALL,PSK,protein serine kinase H2,PSKH2,CAMK,0,167,PSKH2,ALIGTGSFSRVVRFAIKVMACVSELSVLRRVSRYIVQLMEIYMVMELATGGELFDRLIAYLHALQITHRNLKPENLLYITDFGLA,Human,,Protein kinase domain,63.0,320.0,385.0,PF00069,True
+P57059,SIK1,SIK,SIK,Serine/threonine-protein kinase SIK1,CAMK,CAMKL,QIK,SIK1,MVIMSEFSADPAGQGQGQQKPLRVGFYDIERTLGKGNFAVVKLARHRVTKTQVAIKIIDKTRLDSSNLEKIYREVQLMKLLNHPHIIKLYQVMETKDMLYIVTEFAKNGEMFDYLTSNGHLSENEARKKFWQILSAVEYCHDHHIVHRDLKTENLLLDGNMDIKLADFGFGNFYKSGEPLSTWCGSPPYAAPEVFEGKEYEGPQLDIWSLGVVLYVLVCGSLPFDGPNLPTLRQRVLEGRFRIPFFMSQDCESLIRRMLVVDPARRITIAQIRQHRWMRAEPCLPGPACPAFSAHSYTSNLGDYDEQALGIMQTLGVDRQRTVESLQNSSYNHFAAIYYLLLERLKEYRNAQCARPGPARQPRPRSSDLSGLEVPQEGLSTDPFRPALLCPQPQTLVQSVLQAEMDCELQSSLQWPLFFPVDASCSGVFRPRPVSPSSLLDTAISEEARQGPGLEEEQDTQESLPSSTGRRHTLAEVSTRLSPLTAPCIVVSPSTTASPAEGTSSDSCLTFSASKSPAGLSGTPATQGLLGACSPVRLASPFLGSQSATPVLQAQGGLGGAVLLPVSFQEGRRASDTSLTQGLKAFRQQLRKTTRTKGFLGLNKIKGLARQVCQAPASRASRGGLSPFHAPAQSPGLHGGAAGSREGWSLLEEVLEQQRLLQLQHHPAAAPGCSQAPQPAPAPFVIAPCDGPGAAPLPSTLLTSGLPLLPPPLLQTGASPVASAAQLLDTHLHIGTGPTALPAVPPPRLARLAPGCEPLGLLQGDCEMEDLMPCSLGTFVLVQ,CAMKL,salt inducible kinase 1,SIK1,CAMK,2197,135,SIK,RTLGKGNFAVVKLVAIKIIKIYREVQLMKLLNPHIIKLYQVYIVTEFAKNGEMFDYLTSYCHDHHIVHRDLKTENLLLLADFGFG,Human,QIK,Protein kinase domain,27.0,278.0,783.0,PF00069,True
+Q6VAB6,KSR2,KSR2,KSR2,Kinase suppressor of Ras 2,TKL,RAF,nan,KSR2,MDEENMTKSEEQQPLSLQKALQQCELVQNMIDLSISNLEGLRTKCATSNDLTQKEIRTLESKLVKYFSRQLSCKKKVALQERNAELDGFPQLRHWFRIVDVRKEVLEEISPGQLSLEDLLEMTDEQVCETVEKYGANREECARLNASLSCLRNVHMSGGNLSKQDWTIQWPTTETGKENNPVCPPEPTPWIRTHLSQSPRVPSKCVQHYCHTSPTPGAPVYTHVDRLTVDAYPGLCPPPPLESGHRSLPPSPRQRHAVRTPPRTPNIVTTVTPPGTPPMRKKNKLKPPGTPPPSSRKLIHLIPGFTALHRSKSHEFQLGHRVDEAHTPKAKKKSKPLNLKIHSSVGSCENIPSQQRSPLLSERSLRSFFVGHAPFLPSTPPVHTEANFSANTLSVPRWSPQIPRRDLGNSIKHRFSTKYWMSQTCTVCGKGMLFGLKCKNCKLKCHNKCTKEAPPCHLLIIHRGDPARLVRTESVPCDINNPLRKPPRYSDLHISQTLPKTNKINKDHIPVPYQPDSSSNPSSTTSSTPSSPAPPLPPSATPPSPLHPSPQCTRQQKNFNLPASHYYKYKQQFIFPDVVPVPETPTRAPQVILHPVTSNPILEGNPLLQIEVEPTSENEEVHDEAEESEDDFEEMNLSLLSARSFPRKASQTSIFLQEWDIPFEQLEIGELIGKGRFGQVYHGRWHGEVAIRLIDIERDNEDQLKAFKREVMAYRQTRHENVVLFMGACMSPPHLAIITSLCKGRTLYSVVRDAKIVLDVNKTRQIAQEIVKGMGYLHAKGILHKDLKSKNVFYDNGKVVITDFGLFSISGVLQAGRREDKLRIQNGWLCHLAPEIIRQLSPDTEEDKLPFSKHSDVFALGTIWYELHAREWPFKTQPAEAIIWQMGTGMKPNLSQIGMGKEISDILLFCWAFEQEERPTFTKLMDMLEKLPKRNRRLSHPGHFWKSAEL,RAF,kinase suppressor of ras 2,KSR2,TKL,0,507,KSR2,ELIGKGRFGQVYHVAIRLIAFKREVMAYRQTRENVVLFMGAAIITSLCKGRTLYSVVRDYLHAKGILHKDLKSKNVFYITDFGLF,Human,KSR,Protein tyrosine and serine/threonine kinase,666.0,928.0,950.0,PF07714,True
+O14730,RIOK3,RIOK3,RIOK3,Serine/threonine-protein kinase RIO3,Atypical,RIO,RIO3,RIOK3,MDLVGVASPEPGTAAAWGPSKCPWAIPQNTISCSLADVMSEQLAKELQLEEEAAVFPEVAVAEGPFITGENIDTSSDLMLAQMLQMEYDREYDAQLRREEKKFNGDSKVSISFENYRKVHPYEDSDSSEDEVDWQDTRDDPYRPAKPVPTPKKGFIGKGKDITTKHDEVVCGRKNTARMENFAPEFQVGDGIGMDLKLSNHVFNALKQHAYSEERRSARLHEKKEHSTAEKAVDPKTRLLMYKMVNSGMLETITGCISTGKESVVFHAYGGSMEDEKEDSKVIPTECAIKVFKTTLNEFKNRDKYIKDDFRFKDRFSKLNPRKIIRMWAEKEMHNLARMQRAGIPCPTVVLLKKHILVMSFIGHDQVPAPKLKEVKLNSEEMKEAYYQTLHLMRQLYHECTLVHADLSEYNMLWHAGKVWLIDVSQSVEPTHPHGLEFLFRDCRNVSQFFQKGGVKEALSERELFNAVSGLNITADNEADFLAEIEALEKMNEDHVQKNGRKAASFLKDDGDPPLLYDE,RIO,Serine/threonine-protein kinase RIO3,RIOK3,Atypical,2188,102,RIOK3,GCISTGKESVVFHCAIKVFWAEKEMHNLARMQIPCPTVVLLILVMSFIGAPKLKEVKLNLYHECTLVHADLSEYNMLWLIDVSQS,Human,RIO3,,,,,,
+Q8NI60,ADCK3,ADCK3,ADCK3,Chaperone activity of bc1 complex-like,Atypical,ABC1,ABC1-A,ADCK3,MAAILGDTIMVAKGLVKLTQAAVETHLQHLGIGGELIMAARALQSTAVEQIGMFLGKVQGQDKHEEYFAENFGGPEGEFHFSVPHAAGASTDFSSASAPDQSAPPSLGHAHSEGPAPAYVASGPFREAGFPGQASSPLGRANGRLFANPRDSFSAMGFQRRFFHQDQSPVGGLTAEDIEKARQAKARPENKQHKQTLSEHARERKVPVTRIGRLANFGGLAVGLGFGALAEVAKKSLRSEDPSGKKAVLGSSPFLSEANAERIVRTLCKVRGAALKLGQMLSIQDDAFINPHLAKIFERVRQSADFMPLKQMMKTLNNDLGPNWRDKLEYFEERPFAAASIGQVHLARMKGGREVAMKIQYPGVAQSINSDVNNLMAVLNMSNMLPEGLFPEHLIDVLRRELALECDYQREAACARKFRDLLKGHPFFYVPEIVDELCSPHVLTTELVSGFPLDQAEGLSQEIRNEICYNILVLCLRELFEFHFMQTDPNWSNFFYDPQQHKVALLDFGATREYDRSFTDLYIQIIRAAADRDRETVRAKSIEMKFLTGYEVKVMEDAHLDAILILGEAFASDEPFDFGTQSTTEKIHNLIPVMLRHRLVPPPEETYSLHRKMGGSFLICSKLKARFPCKAMFEEAYSNYCKRQAQQ,ABC1,"Atypical kinase COQ8A, mitochondrial",COQ8A,Atypical,1927,70,ADCK3,RPFAAASIGQVHLVAMKIQDYQREAACARKFRFYVPEIVDEVLTTELVSGFPLDQAEGLELFEFNFMQTDPNWSNFFYLLDFGAT,Human,ABC1-,,,,,,
+Q9BRS2,RIOK1,RIOK1,RIOK1,Serine/threonine-protein kinase RIO1,Atypical,RIO,RIO1,RIOK1,MDYRRLLMSRVVPGQFDDADSSDSENRDLKTVKEKDDILFEDLQDNVNENGEGEIEDEEEEGYDDDDDDWDWDEGVGKLAKGYVWNGGSNPQANRQTSDSSSAKMSTPADKVLRKFENKINLDKLNVTDSVINKVTEKSRQKEADMYRIKDKADRATVEQVLDPRTRMILFKMLTRGIITEINGCISTGKEANVYHASTANGESRAIKIYKTSILVFKDRDKYVSGEFRFRHGYCKGNPRKMVKTWAEKEMRNLIRLNTAEIPCPEPIMLRSHVLVMSFIGKDDMPAPLLKNVQLSESKARELYLQVIQYMRRMYQDARLVHADLSEFNMLYHGGGVYIIDVSQSVEHDHPHALEFLRKDCANVNDFFMRHSVAVMTVRELFEFVTDPSITHENMDAYLSKAMEIASQRTKEERSSQDHVDEEVFKRAYIPRTLNEVKNYERDMDIIMKLKEEDMAMNAQQDNILYQTVTGLKKDLSGVQKVPALLENQVEERTCSDSEDIGSSECSDTDSEEQGDHARPKKHTTDPDIDKKERKKMVKEAQREKRKNKIPKHVKKRKEKTAKTKKGK,RIO,Serine/threonine-protein kinase RIO1,RIOK1,Atypical,2186,100,RIOK1,GCISTGKEANVYHRAIKIYWAEKEMRNLIRLNIPCPEPIMLVLVMSFIGAPLLKNVQLSMYQDARLVHADLSEFNMLYIIDVSQS,Human,RIO1,,,,,,
+Q8WU08,STK32A,YANK1,YANK1,Serine/threonine-protein kinase 32A,AGC,YANK,nan,STK32A,MGANTSRKPPVFDENEDVNFDHFEILRAIGKGSFGKVCIVQKNDTKKMYAMKYMNKQKCVERNEVRNVFKELQIMQGLEHPFLVNLWYSFQDEEDMFMVVDLLLGGDLRYHLQQNVHFKEETVKLFICELVMALDYLQNQRIIHRDMKPDNILLDEHGHVHITDFNIAAMLPRETQITTMAGTKPYMAPEMFSSRKGAGYSFAVDWWSLGVTAYELLRGRRPYHIRSSTSSKEIVHTFETTVVTYPSAWSQEMVSLLKKLLEPNPDQRFSQLSDVQNFPYMNDINWDAVFQKRLIPGFIPNKGRLNCDPTFELEEMILESKPLHKKKKRLAKKEKDMRKCDSSQTCLLQEHLDSVQKEFIIFNREKVNRDFNKRQPNLALEQTKDPQGEDGQNNNL,YANK,serine/threonine kinase 32A,STK32A,AGC,1537,68,YANK1,RAIGKGSFGKVCIYAMKYMNVFKELQIMQGLEPFLVNLWYSFMVVDLLLGGDLRYHLQQYLQNQRIIHRDMKPDNILLITDFNIA,Human,,Protein kinase domain,23.0,279.0,396.0,PF00069,True
+Q9NRH2,SNRK,SNRK,SNRK,SNF-related serine/threonine-protein kinase,CAMK,CAMKL,SNRK,SNRK,MAGFKRGYDGKIAGLYDLDKTLGRGHFAVVKLARHVFTGEKVAVKVIDKTKLDTLATGHLFQEVRCMKLVQHPNIVRLYEVIDTQTKLYLILELGDGGDMFDYIMKHEEGLNEDLAKKYFAQIVHAISYCHKLHVVHRDLKPENVVFFEKQGLVKLTDFGFSNKFQPGKKLTTSCGSLAYSAPEILLGDEYDAPAVDIWSLGVILFMLVCGQPPFQEANDSETLTMIMDCKYTVPSHVSKECKDLITRMLQRDPKRRASLEEIENHPWLQGVDPSPATKYNIPLVSYKNLSEEEHNSIIQRMVLGDIADRDAIVEALETNRYNHITATYFLLAERILREKQEKEIQTRSASPSNIKAQFRQSWPTKIDVPQDLEDDLTATPLSHATVPQSPARAADSVLNGHRSKGLCDSAKKDDLPELAGPALSTVPPASLKPTASGRKCLFRVEEDEEEDEEDKKPMSLSTQVVLRRKPSVTNRLTSRKSAPVLNQIFEEGESDDEFDMDENLPPKLSRLKMNIASPGTVHKRYHRRKSQGRGSSCSSSETSDDDSESRRRLDKDSGFTYSWHRRDSSEGPPGSEGDGGGQSKPSNASGGVDKASPSENNAGGGSPSSGSGGNPTNTSGTTRRCAGPSNSMQLASRSAGELVESLKLMSLCLGSQLHGSTKYIIDPQNGLSFSSVKVQEKSTWKMCISSTGNAGQVPAVGGIKFFSDHMADTTTELERIKSKNLKNNVLQLPLCEKTISVNIQRNPKEGLLCASSPASCCHVI,CAMKL,SNF related kinase,SNRK,CAMK,2202,136,SNRK,KTLGRGHFAVVKLVAVKVIHLFQEVRCMKLVQPNIVRLYEVYLILELGDGGDMFDYIMKYCHKLHVVHRDLKPENVVFLTDFGFS,Human,SNRK,Protein kinase domain,16.0,269.0,765.0,PF00069,True
+Q5JZY3,EPHA10,EphA10,EphA10,Ephrin type-A receptor 10,TK,Eph,nan,EPHA10,METCAGPHPLRLFLCRMQLCLALLLGPWRPGTAEEVILLDSKASQAELGWTALPSNGWEEISGVDEHDRPIRTYQVCNVLEPNQDNWLQTGWISRGRGQRIFVELQFTLRDCSSIPGAAGTCKETFNVYYLETEADLGRGRPRLGGSRPRKIDTIAADESFTQGDLGERKMKLNTEVREIGPLSRRGFHLAFQDVGACVALVSVRVYYKQCRATVRGLATFPATAAESAFSTLVEVAGTCVAHSEGEPGSPPRMHCGADGEWLVPVGRCSCSAGFQERGDFCEACPPGFYKVSPRRPLCSPCPEHSRALENASTFCVCQDSYARSPTDPPSASCTRPPSAPRDLQYSLSRSPLVLRLRWLPPADSGGRSDVTYSLLCLRCGREGPAGACEPCGPRVAFLPRQAGLRERAATLLHLRPGARYTVRVAALNGVSGPAAAAGTTYAQVTVSTGPGAPWEEDEIRRDRVEPQSVSLSWREPIPAGAPGANDTEYEIRYYEKGQSEQTYSMVKTGAPTVTVTNLKPATRYVFQIRAASPGPSWEAQSFNPSIEVQTLGEAASGSRDQSPAIVVTVVTISALLVLGSVMSVLAIWRRPCSYGKGGGDAHDEEELYFHFKVPTRRTFLDPQSCGDLLQAVHLFAKELDAKSVTLERSLGGGRFGELCCGCLQLPGRQELLVAVHMLRDSASDSQRLGFLAEALTLGQFDHSHIVRLEGVVTRGSTLMIVTEYMSHGALDGFLRRHEGQLVAGQLMGLLPGLASAMKYLSEMGYVHRGLAARHVLVSSDLVCKISGFGRGPRDRSEAVYTTMSGRSPALWAAPETLQFGHFSSASDVWSFGIIMWEVMAFGERPYWDMSGQDVIKAVEDGFRLPPPRNCPNLLHRLMLDCWQKDPGERPRFSQIHSILSKMVQDPEPPKCALTTCPRPPTPLADRAFSTFPSFGSVGAWLEALDLCRYKDSFAAAGYGSLEAVAEMTAQDLVSLGISLAEHREALLSGISALQARVLQLQGQGVQV,Eph,EPH receptor A10,EPHA10,TK,0,422,EphA10,RSLGGGRFGELCCVAVHMLGFLAEALTLGQFDSHIVRLEGVMIVTEYMSHGALDGFLRRYLSEMGYVHRGLAARHVLVISGFGRG,Human,,Protein tyrosine and serine/threonine kinase,646.0,900.0,1008.0,PF07714,True
+Q9H5K3,POMK,SgK196,SgK196,Protein kinase-like protein SgK196,Other,Other-Unique,nan,POMK,MEKQPQNSRRGLAPREVPPAVGLLLIMALMNTLLYLCLDHFFIAPRQSTVDPTHCPYGHFRIGQMKNCSPWLSCEELRTEVRQLKRVGEGAVKRVFLSEWKEHKVALSQLTSLEMKDDFLHGLQMLKSLQGTHVVTLLGYCEDDNTMLTEYHPLGSLSNLEETLNLSKYQNVNTWQHRLELAMDYVSIINYLHHSPVGTRVMCDSNDLPKTLSQYLLTSNFSILANDLDALPLVNHSSGMLVKCGHRELHGDFVAPEQLWPYGEDVPFHDDLMPSYDEKIDIWKIPDISSFLLGHIEGSDMVRFHLFDIHKACKSQTPSERPTAQDVLETYQKVLDTLRDAMMSQAREML,Other-Unique,protein-O-mannose kinase,POMK,Other,0,305,SgK196,KRVGEGAVKRVFLVALSQLDFLHGLQMLKSLQTHVVTLLGYTMLTEYHPLGSLSNLEETYLHHSPVGTRVMCDSNDLPANDLDAL,Human,,Protein tyrosine and serine/threonine kinase,83.0,195.0,350.0,PF07714,True
+Q8NEV4,MYO3A,MYO3A,MYO3A,Myosin-IIIa,STE,STE20,NinaC,MYO3A,MFPLIGKTIIFDNFPDPSDTWEITETIGKGTYGKVFKVLNKKNGQKAAVKILDPIHDIDEEIEAEYNILKALSDHPNVVRFYGIYFKKDKVNGDKLWLVLELCSGGSVTDLVKGFLKRGERMSEPLIAYILHEALMGLQHLHNNKTIHRDVKGNNILLTTEGGVKLVDFGVSAQLTSTRHRRNTSVGTPFWMAPEVIACEQQLDTTYDARCDTWSLGITAIELGDGDPPLADLHPMRALFKIPRNPPPKLRQPELWSAEFNDFISKCLTKDYEKRPTVSELLQHKFITQIEGKDVMLQKQLTEFIGIHQCMGGTEKARRERIHTKKGNFNRPLISNLKDVDDLATLEILDENTVSEQLEKCYSRDQIYVYVGDILIALNPFQSLGLYSTKHSKLYIGSKRTASPPHIFAMADLGYQSMITYNSDQCIVISGESGAGKTENAHLLVQQLTVLGKANNRTLQEKILQVNNLVEAFGNACTIINDNSSRFGKYLEMKFTSSGAVVGAQISEYLLEKSRVIHQAIGEKNFHIFYYIYAGLAEKKKLAHYKLPENKPPRYLQNDHLRTVQDIMNNSFYKSQYELIEQCFKVIGFTMEQLGSIYSILAAILNVGNIEFSSVATEHQIDKSHISNHTALENCASLLCIRADELQEALTSHCVVTRGETIIRPNTVEKATDVRDAMAKTLYGRLFSWIVNCINSLLKHDSSPSGNGDELSIGILDIFGFENFKKNSFEQLCINIANEQIQYYYNQHVFAWEQNEYLNEDVDARVIEYEDNWPLLDMFLQKPMGLLSLLDEESRFPKATDQTLVEKFEGNLKSQYFWRPKRMELSFGIHHYAGKVLYNASGFLAKNRDTLPTDIVLLLRSSDNSVIRQLVNHPLTKTGNLPHSKTKNVINYQMRTSEKLINLAKGDTGEATRHARETTNMKTQTVASYFRYSLMDLLSKMVVGQPHFVRCIKPNSERQARKYDKEKVLLQLRYTGILETARIRRLGFSHRILFANFIKRYYLLCYKSSEEPRMSPDTCATILEKAGLDNWALGKTKVFLKYYHVEQLNLMRKEAIDKLILIQACVRAFLCSRRYQKIQEKRKESAIIIQSAARGHLVRKQRKEIVDMKNTAVTTIQTSDQEFDYKKNFENTRESFVKKQAENAISANERFISAPNNKGSVSVVKTSTFKPEEETTNAVESNNRVYQTPKKMNNVYEEEVKQEFYLVGPEVSPKQKSVKDLEENSNLRKVEKEEAMIQSYYQRYTEERNCEESKAAYLERKAISERPSYPVPWLAENETSFKKTLEPTLSQRSIYQNANSMEKEKKTSVVTQRAPICSQEEGRGRLRHETVKERQVEPVTQAQEEEDKAAVFIQSKYRGYKRRQQLRKDKMSSFKHQRIVTTPTEVARNTHNLYSYPTKHEEINNIKKKDNKDSKATSEREACGLAIFSKQISKLSEEYFILQKKLNEMILSQQLKSLYLGVSHHKPINRRVSSQQCLSGVCKGEEPKILRPPRRPRKPKTLNNPEDSTYYYLLHKSIQEEKRRPRKDSQGKLLDLEDFYYKEFLPSRSGPKEHSPSLRERRPQQELQNQCIKANERCWAAESPEKEEEREPAANPYDFRRLLRKTSQRRRLVQQS,STE20,myosin IIIA,MYO3A,STE,2112,365,MYO3A,ETIGKGTYGKVFKAAVKILEIEAEYNILKALSPNVVRFYGIWLVLELCSGGSVTDLVKGHLHNNKTIHRDVKGNNILLLVDFGVS,Human,NinaC,Protein kinase domain,22.0,287.0,1616.0,PF00069,True
+Q9BYP7,WNK3,Wnk3,Wnk3,Serine/threonine-protein kinase WNK3,Other,WNK,nan,WNK3,MATDSGDPASTEDSEKPDGISFENRVPQVAATLTVEARLKEKNSTFSASGETVERKRFFRKSVEMTEDDKVAESSPKDERIKAAMNIPRVDKLPSNVLRGGQEVKYEQCSKSTSEISKDCFKEKNEKEMEEEAEMKAVATSPSGRFLKFDIELGRGAFKTVYKGLDTETWVEVAWCELQDRKLTKAEQQRFKEEAEMLKGLQHPNIVRFYDSWESILKGKKCIVLVTELMTSGTLKTYLKRFKVMKPKVLRSWCRQILKGLQFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLMRTSFAKSVIGTPEFMAPEMYEEHYDESVDVYAFGMCMLEMATSEYPYSECQNAAQIYRKVTSGIKPASFNKVTDPEVKEIIEGCIRQNKSERLSIRDLLNHAFFAEDTGLRVELAEEDDCSNSSLALRLWVEDPKKLKGKHKDNEAIEFSFNLETDTPEEVAYEMVKSGFFHESDSKAVAKSIRDRVTPIKKTREKKPAGCLEERRDSQCKSMGNVFPQPQNTTLPLAPAQQTGAECEETEVDQHVRQQLLQRKPQQHCSSVTGDNLSEAGAASVIHSDTSSQPSVAYSSNQTMGSQMVSNIPQAEVNVPGQIYSSQQLVGHYQQVSGLQKHSKLTQPQILPLVQGQSTVLPVHVLGPTVVSQPQVSPLTVQKVPQIKPVSQPVGAEQQAALLKPDLVRSLNQDVATTKENVSSPDNPSGNGKQDRIKQRRASCPRPEKGTKFQLTVLQVSTSGDNMVECQLETHNNKMVTFKFDVDGDAPEDIADYMVEDNFVLESEKEKFVEELRAIVGQAQEILHVHFATERATGVDSITVDSNSSQTGSSEQVQINSTSTQTSNESAPQSSPVGRWRFCINQTIRNRETQSPPSLQHSMSAVPGRHPLPSPKNTSNKEISRDTLLTIENNPCHRALFTSKSEHKDVVDGKISECASVETKQPAILYQVEDNRQIMAPVTNSSSYSTTSVRAVPAECEGLTKQASIFIPVYPCHQTASQADALMSHPGESTQTSGNSLTTLAFDQKPQTLSVQQPAMDAEFISQEGETTVNTEASSPKTVIPTQTPGLEPTTLQPTTVLESDGERPPKLEFADNRIKTLDEKLRNLLYQEHSISSIYPESQKDTQSIDSPFSSSAEDTLSCPVTEVIAISHCGIKDSPVQSPNFQQTGSKLLSNVAASQPANISVFKRDLNVITSVPSELCLHEMSSDASLPGDPEAYPAAVSSGGAIHLQTGGGYFGLSFTCPSLKNPISKKSWTRKLKSWAYRLRQSTSFFKRSKVRQVETEEMRSAIAPDPIPLTRESTADTRALNRCKAMSGSFQRGRFQVITIPQQQSAKMTSFGIEHISVFSETNHSSEEAFIKTAKSQLVEIEPATQNPKTSFSYEKLQALQETCKENKGVPKQGDNFLSFSAACETDVSSVTPEKEFEETSATGSSMQSGSELLLKEREILTAGKQPSSDSEFSASLAGSGKSVAKTGPESNQCLPHHEEQAYAQTQSSLFYSPSSPMSSDDESEIEDEDLKVELQRLREKHIQEVVNLQTQQNKELQELYERLRSIKDSKTQSTEIPLPPASPRRPRSFKSKLRSRPQSLTHVDNGIVATGKSCLINELENPLCVESNAASCQQSPASKKGMFTDDLHKLVDDWTKEAVGNSLIKPSLNQLKQSQHKLETENWNKVSENTPSTMGYTSTWISSLSQIRGAVPTSLPQGLSLPSFPGPLSSYGMPHVCQYNAVAGAGYPVQWVGISGTTQQSVVIPAQSGGPFQPGMNMQAFPTSSVQNPATIPPGPK,WNK,WNK lysine deficient protein kinase 3,WNK3,Other,2282,338,Wnk3,IELGRGAFKTVYKVAWCELRFKEEAEMLKGLQPNIVRFYDSVLVTELMTSGTLKTYLKRHTRTPPIIHRDLKCDNIFIIGDLGLA,Human,,Protein kinase domain,152.0,405.0,1800.0,PF00069,True
+Q6ZWH5,NEK10,NEK10,NEK10,Serine/threonine-protein kinase Nek10,Other,NEK,nan,NEK10,MPDQDKKVKTTEKSTDKQQEITIRDYSDLKRLRCLLNVQSSKQQLPAINFDSAQNSMTKSEPAIRAGGHRARGQWHESTEAVELENFSINYKNERNFSKHPQRKLFQEIFTALVKNRLISREWVNRAPSIHFLRVLICLRLLMRDPCYQEILHSLGGIENLAQYMEIVANEYLGYGEEQHTVDKLVNMTYIFQKLAAVKDQREWVTTSGAHKTLVNLLGARDTNVLLGSLLALASLAESQECREKISELNIVENLLMILHEYDLLSKRLTAELLRLLCAEPQVKEQVKLYEGIPVLLSLLHSDHLKLLWSIVWILVQVCEDPETSVEIRIWGGIKQLLHILQGDRNFVSDHSSIGSLSSANAAGRIQQLHLSEDLSPREIQENTFSLQAACCAALTELVLNDTNAHQVVQENGVYTIAKLILPNKQKNAAKSNLLQCYAFRALRFLFSMERNRPLFKRLFPTDLFEIFIDIGHYVRDISAYEELVSKLNLLVEDELKQIAENIESINQNKAPLKYIGNYAILDHLGSGAFGCVYKVRKHSGQNLLAMKEVNLHNPAFGKDKKDRDSSVRNIVSELTIIKEQLYHPNIVRYYKTFLENDRLYIVMELIEGAPLGEHFSSLKEKHHHFTEERLWKIFIQLCLALRYLHKEKRIVHRDLTPNNIMLGDKDKVTVTDFGLAKQKQENSKLTSVVGTILYSCPEVLKSEPYGEKADVWAVGCILYQMATLSPPFYSTNMLSLATKIVEAVYEPVPEGIYSEKVTDTISRCLTPDAEARPDIVEVSSMISDVMMKYLDNLSTSQLSLEKKLERERRRTQRYFMEANRNTVTCHHELAVLSHETFEKASLSSSSSGAASLKSELSESADLPPEGFQASYGKDEDRACDEILSDDNFNLENAEKDTYSEVDDELDISDNSSSSSSSPLKESTFNILKRSFSASGGERQSQTRDFTGGTGSRPRPALLPLDLLLKVPPHMLRAHIKEIEAELVTGWQSHSLPAVILRNLKDHGPQMGTFLWQASAGIAVSQRKVRQISDPIQQILIQLHKIIYITQLPPALHHNLKRRVIERFKKSLFSQQSNPCNLKSEIKKLSQGSPEPIEPNFFTADYHLLHRSSGGNSLSPNDPTGLPTSIELEEGITYEQMQTVIEEVLEESGYYNFTSNRYHSYPWGTKNHPTKR,NEK,NIMA related kinase 10,NEK10,Other,0,284,NEK10,DHLGSGAFGCVYKLAMKEVNIVSELTIIKEQLPNIVRYYKTYIVMELIEGAPLGEHFSSLHKEKRIVHRDLTPNNIMLVTDFGLA,Human,NEK10,Protein kinase domain,519.0,779.0,1172.0,PF00069,True
+Q9UF33,EPHA6,EphA6,EphA6,Ephrin type-A receptor 6,TK,Eph,nan,EPHA6,MGGCEVREFLLQFGFFLPLLTAWPGDCSHVSNNQVVLLDTTTVLGELGWKTYPLNGWDAITEMDEHNRPIHTYQVCNVMEPNQNNWLRTNWISRDAAQKIYVEMKFTLRDCNSIPWVLGTCKETFNLFYMESDESHGIKFKPNQYTKIDTIAADESFTQMDLGDRILKLNTEIREVGPIERKGFYLAFQDIGACIALVSVRVFYKKCPFTVRNLAMFPDTIPRVDSSSLVEVRGSCVKSAEERDTPKLYCGADGDWLVPLGRCICSTGYEEIEGSCHACRPGFYKAFAGNTKCSKCPPHSLTYMEATSVCQCEKGYFRAEKDPPSMACTRPPSAPRNVVFNINETALILEWSPPSDTGGRKDLTYSVICKKCGLDTSQCEDCGGGLRFIPRHTGLINNSVIVLDFVSHVNYTFEIEAMNGVSELSFSPKPFTAITVTTDQDAPSLIGVVRKDWASQNSIALSWQAPAFSNGAILDYEIKYYEKEHEQLTYSSTRSKAPSVIITGLKPATKYVFHIRVRTATGYSGYSQKFEFETGDETSDMAAEQGQILVIATAAVGGFTLLVILTLFFLITGRCQWYIKAKMKSEEKRRNHLQNGHLRFPGIKTYIDPDTYEDPSLAVHEFAKEIDPSRIRIERVIGAGEFGEVCSGRLKTPGKREIPVAIKTLKGGHMDRQRRDFLREASIMGQFDHPNIIRLEGVVTKRSFPAIGVEAFCPSFLRAGFLNSIQAPHPVPGGGSLPPRIPAGRPVMIVVEYMENGSLDSFLRKHDGHFTVIQLVGMLRGIASGMKYLSDMGYVHRDLAARNILVNSNLVCKVSDFGLSRVLEDDPEAAYTTTGGKIPIRWTAPEAIAYRKFSSASDAWSYGIVMWEVMSYGERPYWEMSNQDVILSIEEGYRLPAPMGCPASLHQLMLHCWQKERNHRPKFTDIVSFLDKLIRNPSALHTLVEDILVMPESPGEVPEYPLFVTVGDWLDSIKMGQYKNNFVAAGFTTFDLISRMSIDDIRRIGVILIGHQRRIVSSIQTLRLHMMHIQEKGFHV,Eph,EPH receptor A6,EPHA6,TK,1826,423,EphA6,RVIGAGEFGEVCSVAIKTLDFLREASIMGQFDPNIIRLEGVAIGVEAFCPSFLRAGFLNYLSDMGYVHRDLAARNILVVSDFGLS,Human,,Protein tyrosine and serine/threonine kinase,631.0,712.0,1036.0,PF07714,True
+Q9HCP0,CSNK1G1,CK1g1,CK1g1,Casein kinase I isoform gamma-1,CK1,CK1,nan,CSNK1G1,MDHPSREKDERQRTTKPMAQRSAHCSRPSGSSSSSGVLMVGPNFRVGKKIGCGNFGELRLGKNLYTNEYVAIKLEPIKSRAPQLHLEYRFYKQLGSAGEGLPQVYYFGPCGKYNAMVLELLGPSLEDLFDLCDRTFTLKTVLMIAIQLLSRMEYVHSKNLIYRDVKPENFLIGRQGNKKEHVIHIIDFGLAKEYIDPETKKHIPYREHKSLTGTARYMSINTHLGKEQSRRDDLEALGHMFMYFLRGSLPWQGLKADTLKERYQKIGDTKRNTPIEALCENFPEEMATYLRYVRRLDFFEKPDYEYLRTLFTDLFEKKGYTFDYAYDWVGRPIPTPVGSVHVDSGASAITRESHTHRDRPSQQQPLRNQVVSSTNGELNVDDPTGAHSNAPITAHAEVEVVEEAKCCCFFKRKRKKTAQRHK,CK1,casein kinase 1 gamma 1,CSNK1G1,CK1,1999,190,CK1g1,KKIGCGNFGELRLVAIKLEQLHLEYRFYKQLGEGLPQVYYFAMVLELLG-PSLEDLFDLYVHSKNLIYRDVKPENFLIIIDFGLA,Human,CK1-G,Protein kinase domain,45.0,262.0,422.0,PF00069,True
+Q9H792,PEAK1,SgK269,SgK269,Pseudopodium-enriched atypical kinase 1,Other,NKF3,nan,PEAK1,MSACNTFTEHVWKPGECKNCFKPKSLHQLPPDPEKAPITHGNVKTNANHSNNHRIRNTGNFRPPVAKKPTIAVKPTMIVADGQSICGELSIQEHCENKPVIIGWNRNRAALSQKPLNNNNEDDEGISHVPKPYGNNDSAKKMSDNNNGLTEVLKEIAGLDTAPQIRGNETNSRETFLGRINDCYKRSLERKLPPSCMIGGIKETQGKHVILSGSTEVISNEGGRFCYPEFSSGEESEEDVLFSNMEEEHESWDESDEELLAMEIRMRGQPRFANFRANTLSPVRFFVDKKWNTIPLRNKSLQRICAVDYDDSYDEILNGYEENSVVSYGQGSIQSMVSSDSTSPDSSLTEESRSETASSLSQKICNGGLSPGNPGDSKDMKEIEPNYESPSSNNQDKDSSQASKSSIKVPETHKAVLALRLEEKDGKIAVQTEKEESKASTDVAGQAVTINLVPTEEQAKPYRVVNLEQPLCKPYTVVDVSAAMASEHLEGPVNSPKTKSSSSTPNSPVTSSSLTPGQISAHFQKSSAIRYQEVWTSSTSPRQKIPKVELITSGTGPNVPPRKNCHKSAPTSPTATNISSKTIPVKSPNLSEIKFNSYNNAGMPPFPIIIHDEPTYARSSKNAIKVPIVINPNAYDNLAIYKSFLGTSGELSVKEKTTSVISHTYEEIETESKVPDNTTSKTTDCLQTKGFSNSTEHKRGSVAQKVQEFNNCLNRGQSSPQRSYSSSHSSPAKIQRATQEPVAKIEGTQESQMVGSSSTREKASTVLSQIVASIQPPQSPPETPQSGPKACSVEELYAIPPDADVAKSTPKSTPVRPKSLFTSQPSGEAEAPQTTDSPTTKVQKDPSIKPVTPSPSKLVTSPQSEPPAPFPPPRSTSSPYHAGNLLQRHFTNWTKPTSPTRSTEAESVLHSEGSRRAADAKPKRWISFKSFFRRRKTDEEDDKEKEREKGKLVGLDGTVIHMLPPPPVQRHHWFTEAKGESSEKPAIVFMYRCDPAQGQLSVDQSKARTDQAAVMEKGRAENALLQDSEKKRSHSSPSQIPKKILSHMTHEVTEDFSPRDPRTVVGKQDGRGCTSVTTALSLPELEREDGKEDISDPMDPNPCSATYSNLGQSRAAMIPPKQPRQPKGAVDDAIAFGGKTDQEAPNASQPTPPPLPKKMIIRANTEPISKDLQKSMESSLCVMANPTYDIDPNWDASSAGSSISYELKGLDIESYDSLERPLRKERPVPSAANSISSLTTLSIKDRFSNSMESLSSRRGPSCRQGRGIQKPQRQALYRGLENREEVVGKIRSLHTDALKKLAVKCEDLFMAGQKDQLRFGVDSWSDFRLTSDKPCCEAGDAVYYTASYAKDPLNNYAVKICKSKAKESQQYYHSLAVRQSLAVHFNIQQDCGHFLAEVPNRLLPWEDPDDPEKDEDDMEETEEDAKGETDGKNPKPCSEAASSQKENQGVMSKKQRSHVVVITREVPCLTVADFVRDSLAQHGKSPDLYERQVCLLLLQLCSGLEHLKPYHVTHCDLRLENLLLVHYQPGGTAQGFGPAEPSPTSSYPTRLIVSNFSQAKQKSHLVDPEILRDQSRLAPEIITATQYKKCDEFQTGILIYEMLHLPNPFDENPELKEREYTRADLPRIPFRSPYSRGLQQLASCLLNPNPSERILISDAKGILQCLLWGPREDLFQTFTACPSLVQRNTLLQNWLDIKRTLLMIKFAEKSLDREGGISLEDWLCAQYLAFATTDSLSCIVKILQHR,NKF3,pseudopodium enriched atypical kinase 1,PEAK1,Other,0,296,SgK269,KPCCEAGDAVYYTYAVKICSKAKESQQYYHSLFNIQQDCGHPDDPEKDEDDMEETEEDAHLKPYHVTHCDLRLENLLLVSNFSQA,Human,,Protein kinase domain,1477.0,1659.0,1746.0,PF00069,True
+Q52WX2,SBK1,SBK,SBK,Serine/threonine-protein kinase SBK1,Other,NKF1,nan,SBK1,MSVGCPEPEPPRSLTCCGPGTAPGPGAGVPLLTEDMQALTLRTLAASDVTKHYELVRELGKGTYGKVDLVVYKGTGTKMALKFVNKSKTKLKNFLREVSITNSLSSSPFIIKVFDVVFETEDCYVFAQEYAPAGDLFDIIPPQVGLPEDTVKRCVQQLGLALDFMHGRQLVHRDIKPENVLLFDRECRRVKLADFGMTRRVGCRVKRVSGTIPYTAPEVCQAGRADGLAVDTGVDVWAFGVLIFCVLTGNFPWEAASGADAFFEEFVRWQRGRLPGLPSQWRRFTEPALRMFQRLLALEPERRGPAKEVFRFLKHELTSELRRRPSHRARKPPGDRPPAAGPLRLEAPGPLKRTVLTESGSGSRPAPPAVGSVPLPVPVPVPVPVPVPVPEPGLAPQGPPGRTDGRADKSKGQVVLATAIEICV,NKF1,SH3 domain binding kinase 1,SBK1,Other,2193,292,SBK,RELGKGTYGKVDLMALKFVNFLREVSITNSLSPFIIKVFDVVFAQEYAPAGDLFDIIPPFMHGRQLVHRDIKPENVLLLADFGMT,Human,,Protein kinase domain,53.0,310.0,424.0,PF00069,True
+Q9BXU1,STK31,SgK396,SgK396,Serine/threonine-protein kinase 31,Other,Other-Unique,nan,STK31,MWVQGHSSRASATESVSFSGIVQMDEDTHYDKVEDVVGSHIEDAVTFWAQSINRNKDIMKIGCSLSEVCPQASSVLGNLDPNKIYGGLFSEDQCWYRCKVLKIISVEKCLVRYIDYGNTEILNRSDIVEIPLELQFSSVAKKYKLWGLHIPSDQEVTQFDQGTTFLGSLIFEKEIKMRIKATSEDGTVIAQAEYGSVDIGEEVLKKGFAEKCRLASRTDICEEKKLDPGQLVLRNLKSPIPLWGHRSNQSTFSRPKGHLSEKMTLDLKDENDAGNLITFPKESLAVGDFNLGSNVSLEKIKQDQKLIEENEKLKTEKDALLESYKALELKVEQIAQELQQEKAAAVDLTNHLEYTLKTYIDTRMKNLAAKMEILKEMRHVDISVRFGKDLSDAIQVLDEGCFTTPASLNGLEIIWAEYSLAQENIKTCEYVSEGNILIAQRNEMQQKLYMSVEDFILEVDESSLNKRLKTLQDLSVSLEAVYGQAKEGANSDEILKKFYDWKCDKREEFTSVRSETDASLHRLVAWFQRTLKVFDLSVEGSLISEDAMDNIDEILEKTESSVCKELEIALVDQGDADKEIISNTYSQVLQKIHSEERLIATVQAKYKDSIEFKKQLIEYLNKSPSVDHLLSIKKTLKSLKALLRWKLVEKSNLEESDDPDGSQIEKIKEEITQLRNNVFQEIYHEREEYEMLTSLAQKWFPELPLLHPEIGLLKYMNSGGLLTMSLERDLLDAEPMKELSSKRPLVRSEVNGQIILLKGYSVDVDTEAKVIERAATYHRAWREAEGDSGLLPLIFLFLCKSDPMAYLMVPYYPRANLNAVQANMPLNSEETLKVMKGVAQGLHTLHKADIIHGSLHQNNVFALNREQGIVGDFDFTKSVSQRASVNMMVGDLSLMSPELKMGKPASPGSDLYAYGCLLLWLSVQNQEFEINKDGIPKVDQFHLDDKVKSLLCSLICYRSSMTAEQVLNAECFLMPKEQSVPNPEKDTEYTLYKKEEEIKTENLDKCMEKTRNGEANFDC,Other-Unique,serine/threonine kinase 31,STK31,Other,2220,304,SgK396,EPMKELSSKRPLVILLKGYAKVIERAATYHRAEAEGDSGLLYLMVPYYPRANLNAVQANTLHKADIIHGSLHQNNVFAVGDFDFT,Human,,Protein kinase domain,800.0,940.0,1019.0,PF00069,True
+Q8NFD2,ANKK1,SgK288,SgK288,Ankyrin repeat and protein kinase domain-containing protein 1,TKL,RIPK,nan,ANKK1,MAADPTELRLGSLPVFTRDDFEGDWRLVASGGFSQVFQARHRRWRTEYAIKCAPCLPPDAASSDVNYLIEEAAKMKKIKFQHIVSIYGVCKQPLGIVMEFMANGSLEKVLSTHSLCWKLRFRIIHETSLAMNFLHSIKPPLLHLDLKPGNILLDSNMHVKISDFGLSKWMEQSTRMQYIERSALRGMLSYIPPEMFLESNKAPGPKYDVYSFAIVIWELLTQKKPYSGFNMMMIIIRVAAGMRPSLQPVSDQWPSEAQQMVDLMKRCWDQDPKKRPCFLDITIETDILLSLLQSRVAVPESKALARKVSCKLSLRQPGEVNEDISQELMDSDSGNYLKRALQLSDRKNLVPRDEELCIYENKVTPLHFLVAQGSVEQVRLLLAHEVDVDCQTASGYTPLLIAAQDQQPDLCALLLAHGADANRVDEDGWAPLHFAAQNGDDGTARLLLDHGACVDAQEREGWTPLHLAAQNNFENVARLLVSRQADPNLHEAEGKTPLHVAAYFGHVSLVKLLTSQGAELDAQQRNLRTPLHLAVERGKVRAIQHLLKSGAVPDALDQSGYGPLHTAAARGKYLICKMLLRYGASLELPTHQGWTPLHLAAYKGHLEIIHLLAESHANMGALGAVNWTPLHLAARHGEEAVVSALLQCGADPNAAEQSGWTPLHLAVQRSTFLSVINLLEHHANVHARNKVGWTPAHLAALKGNTAILKVLVEAGAQLDVQDGVSCTPLQLALRSRKQGIMSFLEGKEPSVATLGGSKPGAEMEI,RIPK,ankyrin repeat and kinase domain containing 1,ANKK1,TKL,1932,515,SgK288,RLVASGGFSQVFQYAIKCAYLIEEAAKMKKIKQHIVSIYGVGIVMEFMANGSLEKVLSTHSIKPPLLHLDLKPGNILLISDFGLS,Human,,Protein tyrosine and serine/threonine kinase,28.0,281.0,765.0,PF07714,True
+Q8TAS1,UHMK1,KIS,KIS,Serine/threonine-protein kinase Kist,Other,KIS,nan,UHMK1,MAGSGCAWGAEPPRFLEAFGRLWQVQSRLGSGSSASVYRVRCCGNPGSPPGALKQFLPPGTTGAAASAAEYGFRKERAALEQLQGHRNIVTLYGVFTIHFSPNVPSRCLLLELLDVSVSELLLYSSHQGCSMWMIQHCARDVLEALAFLHHEGYVHADLKPRNILWSAENECFKLIDFGLSFKEGNQDVKYIQTDGYRAPEAELQNCLAQAGLQSDTECTSAVDLWSLGIILLEMFSGMKLKHTVRSQEWKANSSAIIDHIFASKAVVNAAIPAYHLRDLIKSMLHDDPSRRIPAEMALCSPFFSIPFAPHIEDLVMLPTPVLRLLNVLDDDYLENEEEYEDVVEDVKEECQKYGPVVSLLVPKENPGRGQVFVEYANAGDSKAAQKLLTGRMFDGKFVVATFYPLSAYKRGYLYQTLL,KIS,U2AF homology motif (UHM) kinase 1,UHMK1,Other,0,275,KIS,SRLGSGSSASVYRGALKQFGFRKERAALEQLQRNIVTLYGVCLLLELLD-VSVSELLLYFLHHEGYVHADLKPRNILWLIDFGLS,Human,,Protein kinase domain,24.0,304.0,419.0,PF00069,True
+Q6P2M8,PNCK,CaMK1b,CaMK1b,Calcium/calmodulin-dependent protein kinase type 1B,CAMK,CAMK1,nan,PNCK,MLLLKKHTEDISSVYEIRERLGSGAFSEVVLAQERGSAHLVALKCIPKKALRGKEALVENEIAVLRRISHPNIVALEDVHESPSHLYLAMELVTGGELFDRIMERGSYTEKDASHLVGQVLGAVSYLHSLGIVHRDLKPENLLYATPFEDSKIMVSDFGLSKIQAGNMLGTACGTPGYVAPELLEQKPYGKAVDVWALGVISYILLCGYPPFYDESDPELFSQILRASYEFDSPFWDDISESAKDFIRHLLERDPQKRFTCQQALRHLWISGDTAFDRDILGSVSEQIRKNFARTHWKRAFNATSFLRHIRKLGQIPEGEGASEQGMARHSHSGLRAGQPPKW,CAMK1,pregnancy up-regulated nonubiquitous CaM kinase,PNCK,CAMK,2172,112,CaMK1b,ERLGSGAFSEVVLVALKCILVENEIAVLRRISPNIVALEDVYLAMELVTGGELFDRIMEYLHSLGIVHRDLKPENLLYVSDFGLS,Human,,Protein kinase domain,15.0,270.0,343.0,PF00069,True
+Q8TEA7,TBCK,TBCK,TBCK,TBC domain-containing protein kinase-like protein,Other,TBCK,nan,TBCK,MFPLKDAEMGAFTFFASALPHDVCGSNGLPLTPNSIKILGRFQILKTITHPRLCQYVDISRGKHERLVVVAEHCERSLEDLLRERKPVSCSTVLCIAFEVLQGLQYMNKHGIVHRALSPHNILLDRKGHIKLAKFGLYHMTAHGDDVDFPIGYPSYLAPEVIAQGIFKTTDHMPSKKPLPSGPKSDVWSLGIILFELCVGRKLFQSLDISERLKFLLTLDCVDDTLIVLAEEHGCLDIIKELPETVIDLLNKCLTFHPSKRPTPDQLMKDKVFSEVSPLYTPFTKPASLFSSSLRCADLTLPEDISQLCKDINNDYLAERSIEEVYYLWCLAGGDLEKELVNKEIIRSKPPICTLPNFLFEDGESFGQGRDRSSLLDDTTVTLSLCQLRNRLKDVGGEAFYPLLEDDQSNLPHSNSNNELSAAATLPLIIREKDTEYQLNRIILFDRLLKAYPYKKNQIWKEARVDIPPLMRGLTWAALLGVEGAIHAKYDAIDKDTPIPTDRQIEVDIPRCHQYDELLSSPEGHAKFRRVLKAWVVSHPDLVYWQGLDSLCAPFLYLNFNNEALAYACMSAFIPKYLYNFFLKDNSHVIQEYLTVFSQMIAFHDPELSNHLNEIGFIPDLYAIPWFLTMFTHVFPLHKIFHLWDTLLLGNSSFPFCIGVAILQQLRDRLLANGFNECILLFSDLPEIDIERCVRESINLFCWTPKSATYRQHAQPPKPSSDSSGGRSSAPYFSAECPDPPKTDLSRESIPLNDLKSEVSPRISAEDLIDLCELTVTGHFKTPSKKTKSSKPKLLVVDIRNSEDFIRGHISGSINIPFSAAFTAEGELTQGPYTAMLQNFKGKVIVIVGHVAKHTAEFAAHLVKMKYPRICILDGGINKIKPTGLLTIPSPQI,TBCK,TBC1 domain containing kinase,TBCK,Other,0,322,TBCK,-------------LPHDVCKILGRFQILKTITPRLCQYVDIVVVAEHCE-RSLEDLLREYMNKHGIVHRALSPHNILLLAKFGLY,Human,,Protein kinase domain,42.0,273.0,893.0,PF00069,True
+Q96Q15,SMG1,SMG1,SMG1,Serine/threonine-protein kinase SMG1,Atypical,PIKK,SMG1,SMG1,MSRRAPGSRLSSGGGGGGTKYPRSWNDWQPRTDSASADPDNLKYSSSRDRGGSSSYGLQPSNSAVVSRQRHDDTRVHADIQNDEKGGYSVNGGSGENTYGRKSLGQELRVNNVTSPEFTSVQHGSRALATKDMRKSQERSMSYSDESRLSNLLRRITREDDRDRRLATVKQLKEFIQQPENKLVLVKQLDNILAAVHDVLNESSKLLQELRQEGACCLGLLCASLSYEAEKIFKWIFSKFSSSAKDEVKLLYLCATYKALETVGEKKAFSSVMQLVMTSLQSILENVDTPELLCKCVKCILLVARCYPHIFSTNFRDTVDILVGWHIDHTQKPSLTQQVSGWLQSLEPFWVADLAFSTTLLGQFLEDMEAYAEDLSHVASGESVDEDVPPPSVSLPKLAALLRVFSTVVRSIGERFSPIRGPPITEAYVTDVLYRVMRCVTAANQVFFSEAVLTAANECVGVLLGSLDPSMTIHCDMVITYGLDQLENCQTCGTDYIISVLNLLTLIVEQINTKLPSSFVEKLFIPSSKLLFLRYHKEKEVVAVAHAVYQAVLSLKNIPVLETAYKLILGEMTCALNNLLHSLQLPEACSEIKHEAFKNHVFNVDNAKFVVIFDLSALTTIGNAKNSLIGMWALSPTVFALLSKNLMIVHSDLAVHFPAIQYAVLYTLYSHCTRHDHFISSSLSSSSPSLFDGAVISTVTTATKKHFSIILNLLGILLKKDNLNQDTRKLLMTWALEAAVLMKKSETYAPLFSLPSFHKFCKGLLANTLVEDVNICLQACSSLHALSSSLPDDLLQRCVDVCRVQLVHSGTRIRQAFGKLLKSIPLDVVLSNNNHTEIQEISLALRSHMSKAPSNTFHPQDFSDVISFILYGNSHRTGKDNWLERLFYSCQRLDKRDQSTIPRNLLKTDAVLWQWAIWEAAQFTVLSKLRTPLGRAQDTFQTIEGIIRSLAAHTLNPDQDVSQWTTADNDEGHGNNQLRLVLLLQYLENLEKLMYNAYEGCANALTSPPKVIRTFFYTNRQTCQDWLTRIRLSIMRVGLLAGQPAVTVRHGFDLLTEMKTTSLSQGNELEVTIMMVVEALCELHCPEAIQGIAVWSSSIVGKNLLWINSVAQQAEGRFEKASVEYQEHLCAMTGVDCCISSFDKSVLTLANAGRNSASPKHSLNGESRKTVLSKPTDSSPEVINYLGNKACECYISIADWAAVQEWQNAIHDLKKSTSSTSLNLKADFNYIKSLSSFESGKFVECTEQLELLPGENINLLAGGSKEKIDMKKLLPNMLSPDPRELQKSIEVQLLRSSVCLATALNPIEQDQKWQSITENVVKYLKQTSRIAIGPLRLSTLTVSQSLPVLSTLQLYCSSALENTVSNRLSTEDCLIPLFSEALRSCKQHDVRPWMQALRYTMYQNQLLEKIKEQTVPIRSHLMELGLTAAKFARKRGNVSLATRLLAQCSEVQLGKTTTAQDLVQHFKKLSTQGQVDEKWGPELDIEKTKLLYTAGQSTHAMEMLSSCAISFCKSVKAEYAVAKSILTLAKWIQAEWKEISGQLKQVYRAQHQQNFTGLSTLSKNILTLIELPSVNTMEEEYPRIESESTVHIGVGEPDFILGQLYHLSSVQAPEVAKSWAALASWAYRWGRKVVDNASQGEGVRLLPREKSEVQNLLPDTITEEEKERIYGILGQAVCRPAGIQDEDITLQITESEDNEEDDMVDVIWRQLISSCPWLSELDESATEGVIKVWRKVVDRIFSLYKLSCSAYFTFLKLNAGQIPLDEDDPRLHLSHRVEQSTDDMIVMATLRLLRLLVKHAGELRQYLEHGLETTPTAPWRGIIPQLFSRLNHPEVYVRQSICNLLCRVAQDSPHLILYPAIVGTISLSSESQASGNKFSTAIPTLLGNIQGEELLVSECEGGSPPASQDSNKDEPKSGLNEDQAMMQDCYSKIVDKLSSANPTMVLQVQMLVAELRRVTVLWDELWLGVLLQQHMYVLRRIQQLEDEVKRVQNNNTLRKEEKIAIMREKHTALMKPIVFALEHVRSITAAPAETPHEKWFQDNYGDAIENALEKLKTPLNPAKPGSSWIPFKEIMLSLQQRAQKRASYILRLEEISPWLAAMTNTEIALPGEVSARDTVTIHSVGGTITILPTKTKPKKLLFLGSDGKSYPYLFKGLEDLHLDERIMQFLSIVNTMFATINRQETPRFHARHYSVTPLGTRSGLIQWVDGATPLFGLYKRWQQREAALQAQKAQDSYQTPQNPGIVPRPSELYYSKIGPALKTVGLSLDVSRRDWPLHVMKAVLEELMEATPPNLLAKELWSSCTTPDEWWRVTQSYARSTAVMSMVGYIIGLGDRHLDNVLIDMTTGEVVHIDYNVCFEKGKSLRVPEKVPFRMTQNIETALGVTGVEGVFRLSCEQVLHIMRRGRETLLTLLEAFVYDPLVDWTAGGEAGFAGAVYGGGGQQAESKQSKREMEREITRSLFSSRVAEIKVNWFKNRDEMLVVLPKLDGSLDEYLSLQEQLTDVEKLQGKLLEEIEFLEGAEGVDHPSHTLQHRYSEHTQLQTQQRAVQEAIQVKLNEFEQWITHYQAAFNNLEATQLASLLQEISTQMDLGPPSYVPATAFLQNAGQAHLISQCEQLEGEVGALLQQRRSVLRGCLEQLHHYATVALQYPKAIFQKHRIEQWKTWMEELICNTTVERCQELYRKYEMQYAPQPPPTVCQFITATEMTLQRYAADINSRLIRQVERLKQEAVTVPVCEDQLKEIERCIKVFLHENGEEGSLSLASVIISALCTLTRRNLMMEGAASSAGEQLVDLTSRDGAWFLEELCSMSGNVTCLVQLLKQCHLVPQDLDIPNPMEASETVHLANGVYTSLQELNSNFRQIIFPEALRCLMKGEYTLESMLHELDGLIEQTTDGVPLQTLVESLQAYLRNAAMGLEEETHAHYIDVARLLHAQYGELIQPRNGSVDETPKMSAGQMLLVAFDGMFAQVETAFSLLVEKLNKMEIPIAWRKIDIIREARSTQVNFFDDDNHRQVLEEIFFLKRLQTIKEFFRLCGTFSKTLSGSSSLEDQNTVNGPVQIVNVKTLFRNSCFSEDQMAKPIKAFTADFVRQLLIGLPNQALGLTLCSFISALGVDIIAQVEAKDFGAESKVSVDDLCKKAVEHNIQIGKFSQLVMNRATVLASSYDTAWKKHDLVRRLETSISSCKTSLQRVQLHIAMFQWQHEDLLINRPQAMSVTPPPRSAILTSMKKKLHTLSQIETSIATVQEKLAALESSIEQRLKWAGGANPALAPVLQDFEATIAERRNLVLKESQRASQVTFLCSNIIHFESLRTRTAEALNLDAALFELIKRCQQMCSFASQFNSSVSELELRLLQRVDTGLEHPIGSSEWLLSAHKQLTQDMSTQRAIQTEKEQQIETVCETIQNLVDNIKTVLTGHNRQLGDVKHLLKAMAKDEEAALADGEDVPYENSVRQFLGEYKSWQDNIQTVLFTLVQAMGQVRSQEHVEMLQEITPTLKELKTQSQSIYNNLVSFASPLVTDATNECSSPTSSATYQPSFAAAVRSNTGQKTQPDVMSQNARKLIQKNLATSADTPPSTVPGTGKSVACSPKKAVRDPKTGKAVQERNSYAVSVWKRVKAKLEGRDVDPNRRMSVAEQVDYVIKEATNLDNLAQLYEGWTAWV,PIKK,Serine/threonine-protein kinase SMG1,SMG1,Atypical,2201,98,SMG1,LPTKTKPKKLLFLYLFKGLDLHLDERIMQFLSFHARHYSVTSGLIQWVDATPLFGLYKRVGYI--IGLGDRHLDNVLIHIDYNVC,Human,SMG1,,,,,,
+Q9H1R3,MYLK2,skMLCK,skMLCK,Myosin light chain kinase 2,CAMK,MLCK,nan,MYLK2,MATENGAVELGIQNPSTDKAPKGPTGERPLAAGKDPGPPDPKKAPDPPTLKKDAKAPASEKGDGTLAQPSTSSQGPKGEGDRGGGPAEGSAGPPAALPQQTATPETSVKKPKAEQGASGSQDPGKPRVGKKAAEGQAAARRGSPAFLHSPSCPAIISSSEKLLAKKPPSEASELTFEGVPMTHSPTDPRPAKAEEGKNILAESQKEVGEKTPGQAGQAKMQGDTSRGIEFQAVPSEKSEVGQALCLTAREEDCFQILDDCPPPPAPFPHRMVELRTGNVSSEFSMNSKEALGGGKFGAVCTCMEKATGLKLAAKVIKKQTPKDKEMVLLEIEVMNQLNHRNLIQLYAAIETPHEIVLFMEYIEGGELFERIVDEDYHLTEVDTMVFVRQICDGILFMHKMRVLHLDLKPENILCVNTTGHLVKIIDFGLARRYNPNEKLKVNFGTPEFLSPEVVNYDQISDKTDMWSMGVITYMLLSGLSPFLGDDDTETLNNVLSGNWYFDEETFEAVSDEAKDFVSNLIVKDQRARMNAAQCLAHPWLNNLAEKAKRCNRRLKSQILLKKYLMKRRWKKNFIAVSAANRFKKISSSGALMALGV,MLCK,myosin light chain kinase 2,MYLK2,CAMK,1553,155,skMLCK,EALGGGKFGAVCTLAAKVIMVLLEIEVMNQLNRNLIQLYAAVLFMEYIEGGELFERIVDFMHKMRVLHLDLKPENILCIIDFGLA,Human,,Protein kinase domain,287.0,540.0,596.0,PF00069,True
+Q6ZN16,MAP3K15,MAP3K7,MAP3K7,Mitogen-activated protein kinase kinase kinase 15,STE,STE11,nan,MAP3K15,MESGGGNAPAGALGAASESPQCPPPPGVEGAAGPAEPDGAAEGAAGGSGEGESGGGPRRALRAVYVRSESSQGGAAGGPEAGARQCLLRACEAEGAHLTSVPFGELDFGETAVLDAFYDADVAVVDMSDVSRQPSLFYHLGVRESFDMANNVILYHDTDADTALSLKDMVTQKNTASSGNYYFIPYIVTPCADYFCCESDAQRRASEYMQPNWDNILGPLCMPLVDRFISLLKDIHVTSCVYYKETLLNDIRKAREKYQGEELAKELARIKLRMDNTEVLTSDIIINLLLSYRDIQDYDAMVKLVETLEMLPTCDLADQHNIKFHYAFALNRRNSTGDREKALQIMLQVLQSCDHPGPDMFCLCGRIYKDIFLDSDCKDDTSRDSAIEWYRKGFELQSSLYSGINLAVLLIVAGQQFETSLELRKIGVRLNSLLGRKGSLEKMNNYWDVGQFFSVSMLAHDVGKAVQAAERLFKLKPPVWYLRSLVQNLLLIRRFKKTIIEHSPRQERLNFWLDIIFEATNEVTNGLRFPVLVIEPTKVYQPSYVSINNEAEERTVSLWHVSPTEMKQMHEWNFTASSIKGISLSKFDERCCFLYVHDNSDDFQIYFSTEEQCSRFFSLVKEMITNTAGSTVELEGETDGDTLEYEYDHDANGERVVLGKGTYGIVYAGRDLSNQVRIAIKEIPERDSRYSQPLHEEIALHKYLKHRNIVQYLGSVSENGYIKIFMEQVPGGSLSALLRSKWGPMKEPTIKFYTKQILEGLKYLHENQIVHRDIKGDNVLVNTYSGVVKISDFGTSKRLAGVNPCTETFTGTLQYMAPEIIDQGPRGYGAPADIWSLGCTIIEMATSKPPFHELGEPQAAMFKVGMFKIHPEIPEALSAEARAFILSCFEPDPHKRATTAELLREGFLRQVNKGKKNRIAFKPSEGPRGVVLALPTQGEPMATSSSEHGSVSPDSDAQPDALFERTRAPRHHLGHLLSVPDESSALEDRGLASSPEDRDQGLFLLRKDSERRAILYKILWEEQNQVASNLQECVAQSSEELHLSVGHIKQIIGILRDFIRSPEHRVMATTISKLKVDLDFDSSSISQIHLVLFGFQDAVNKILRNHLIRPHWMFAMDNIIRRAVQAAVTILIPELRAHFEPTCETEGVDKDMDEAEEGYPPATGPGQEAQPHQQHLSLQLGELRQETNRLLEHLVEKEREYQNLLRQTLEQKTQELYHLQLKLKSNCITENPAGPYGQRTDKELIDWLRLQGADAKTIEKIVEEGYTLSDILNEITKEDLRYLRLRGGLLCRLWSAVSQYRRAQEASETKDKA,STE11,Mitogen-activated protein kinase kinase kinase 15,MAP3K15,STE,2075,347,MAP3K7,VVLGKGTYGIVYAIAIKEIPLHEEIALHKYLKRNIVQYLGSKIFMEQVPGGSLSALLRSYLHENQIVHRDIKGDNVLVISDFGTS,Human,ASK,Protein kinase domain,657.0,907.0,1313.0,PF00069,True
+Q5S007,LRRK2,LRRK2,LRRK2,Leucine-rich repeat serine/threonine-protein kinase 2,TKL,LRRK,nan,LRRK2,MASGSCQGCEEDEETLKKLIVRLNNVQEGKQIETLVQILEDLLVFTYSERASKLFQGKNIHVPLLIVLDSYMRVASVQQVGWSLLCKLIEVCPGTMQSLMGPQDVGNDWEVLGVHQLILKMLTVHNASVNLSVIGLKTLDLLLTSGKITLLILDEESDIFMLIFDAMHSFPANDEVQKLGCKALHVLFERVSEEQLTEFVENKDYMILLSALTNFKDEEEIVLHVLHCLHSLAIPCNNVEVLMSGNVRCYNIVVEAMKAFPMSERIQEVSCCLLHRLTLGNFFNILVLNEVHEFVVKAVQQYPENAALQISALSCLALLTETIFLNQDLEEKNENQENDDEGEEDKLFWLEACYKALTWHRKNKHVQEAACWALNNLLMYQNSLHEKIGDEDGHFPAHREVMLSMLMHSSSKEVFQASANALSTLLEQNVNFRKILLSKGIHLNVLELMQKHIHSPEVAESGCKMLNHLFEGSNTSLDIMAAVVPKILTVMKRHETSLPVQLEALRAILHFIVPGMPEESREDTEFHHKLNMVKKQCFKNDIHKLVLAALNRFIGNPGIQKCGLKVISSIVHFPDALEMLSLEGAMDSVLHTLQMYPDDQEIQCLGLSLIGYLITKKNVFIGTGHLLAKILVSSLYRFKDVAEIQTKGFQTILAILKLSASFSKLLVHHSFDLVIFHQMSSNIMEQKDQQFLNLCCKCFAKVAMDDYLKNVMLERACDQNNSIMVECLLLLGADANQAKEGSSLICQVCEKESSPKLVELLLNSGSREQDVRKALTISIGKGDSQIISLLLRRLALDVANNSICLGGFCIGKVEPSWLGPLFPDKTSNLRKQTNIASTLARMVIRYQMKSAVEEGTASGSDGNFSEDVLSKFDEWTFIPDSSMDSVFAQSDDLDSEGSEGSFLVKKKSNSISVGEFYRDAVLQRCSPNLQRHSNSLGPIFDHEDLLKRKRKILSSDDSLRSSKLQSHMRHSDSISSLASEREYITSLDLSANELRDIDALSQKCCISVHLEHLEKLELHQNALTSFPQQLCETLKSLTHLDLHSNKFTSFPSYLLKMSCIANLDVSRNDIGPSVVLDPTVKCPTLKQFNLSYNQLSFVPENLTDVVEKLEQLILEGNKISGICSPLRLKELKILNLSKNHISSLSENFLEACPKVESFSARMNFLAAMPFLPPSMTILKLSQNKFSCIPEAILNLPHLRSLDMSSNDIQYLPGPAHWKSLNLRELLFSHNQISILDLSEKAYLWSRVEKLHLSHNKLKEIPPEIGCLENLTSLDVSYNLELRSFPNEMGKLSKIWDLPLDELHLNFDFKHIGCKAKDIIRFLQQRLKKAVPYNRMKLMIVGNTGSGKTTLLQQLMKTKKSDLGMQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGREEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSDEKQRKACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRDQLVVGQLIPDCYVELEKIILSERKNVPIEFPVIDRKRLLQLVRENQLQLDENELPHAVHFLNESGVLLHFQDPALQLSDLYFVEPKWLCKIMAQILTVKVEGCPKHPKGIISRRDVEKFLSKKRKFPKNYMSQYFKLLEKFQIALPIGEEYLLVPSSLSDHRPVIELPHCENSEIIIRLYEMPYFPMGFWSRLINRLLEISPYMLSGRERALRPNRMYWRQGIYLNWSPEAYCLVGSEVLDNHPESFLKITVPSCRKGCILLGQVVDHIDSLMEEWFPGLLEIDICGEGETLLKKWALYSFNDGEEHQKILLDDLMKKAEEGDLLVNPDQPRLTIPISQIAPDLILADLPRNIMLNNDELEFEQAPEFLLGDGSFGSVYRAAYEGEEVAVKIFNKHTSLRLLRQELVVLCHLHHPSLISLLAAGIRPRMLVMELASKGSLDRLLQQDKASLTRTLQHRIALHVADGLRYLHSAMIIYRDLKPHNVLLFTLYPNAAIIAKIADYGIAQYCCRMGIKTSEGTPGFRAPEVARGNVIYNQQADVYSFGLLLYDILTTGGRIVEGLKFPNEFDELEIQGKLPDPVKEYGCAPWPMVEKLIKQCLKENPQERPTSAQVFDILNSAELVCLTRRILLPKNVIVECMVATHHNSRNASIWLGCGHTDRGQLSFLDLNTEGYTSEEVADSRILCLALVHLPVEKESWIVSGTQSGTLLVINTEDGKKRHTLEKMTDSVTCLYCNSFSKQSKQKNFLLVGTADGKLAIFEDKTVKLKGAAPLKILNIGNVSTPLMCLSESTNSTERNVMWGGCGTKIFSFSNDFTIQKLIETRTSQLFSYAAFSDSNIITVVVDTALYIAKQNSPVVEVWDKKTEKLCGLIDCVHFLREVMVKENKESKHKMSYSGRVKTLCLQKNTALWIGTGGGHILLLDLSTRRLIRVIYNFCNSVRVMMTAQLGSLKNVMLVLGYNRKNTEGTQKQKEIQSCLTVWDINLPHEVQNLEKHIEVRKELAEKMRRTSVE,LRRK,leucine-rich repeat kinase 2,LRRK2,TKL,2059,495,LRRK2,ADHGDGSFGSVYRVAVKIFLLRQELVVLCHLHPSLISLLAAMLVMELASKGSLDRLLQQYLHSAMIIYRDLKPHNVLLIADYGIA,Human,,Protein kinase domain,1885.0,2129.0,2527.0,PF00069,True
+Q8TF76,GSG2,Haspin,Haspin,Serine/threonine-protein kinase haspin,Other,Haspin,nan,GSG2,MAASLPGPGSRLFRTYGAADGRRQRRPGREAAQWFPPQDRRRFFNSSGSSDASIGDPSQSDDPDDPDDPDFPGSPVRRRRRRPGGRVPKDRPSLTVTPKRWKLRARPSLTVTPRRLGLRARPPQKCSTPCGPLRLPPFPSRDSGRLSPDLSVCGQPRDGDELGISASLFSSLASPCPGSPTPRDSVISIGTSACLVAASAVPSGLHLPEVSLDRASLPCSQEEATGGAKDTRMVHQTRASLRSVLFGLMNSGTPEDSEFRADGKNMRESCCKRKLVVGNGPEGPGLSSTGKRRATGQDSCQERGLQEAVRREHQEASVPKGRIVPRGIDRLERTRSSRKSKHQEATETSLLHSHRFKKGQKLGKDSFPTQDLTPLQNVCFWTKTRASFSFHKKKIVTDVSEVCSIYTTATSLSGSLLSECSNRPVMNRTSGAPSSWHSSSMYLLSPLNTLSISNKKASDAEKVYGECSQKGPVPFSHCLPTEKLQRCEKIGEGVFGEVFQTIADHTPVAIKIIAIEGPDLVNGSHQKTFEEILPEIIISKELSLLSGEVCNRTEGFIGLNSVHCVQGSYPPLLLKAWDHYNSTKGSANDRPDFFKDDQLFIVLEFEFGGIDLEQMRTKLSSLATAKSILHQLTASLAVAEASLRFEHRDLHWGNVLLKKTSLKKLHYTLNGKSSTIPSCGLQVSIIDYTLSRLERDGIVVFCDVSMDEDLFTGDGDYQFDIYRLMKKENNNRWGEYHPYSNVLWLHYLTDKMLKQMTFKTKCNTPAMKQIKRKIQEFHRTMLNFSSATDLLCQHSLFK,Haspin,germ cell associated 2 (haspin),HASPIN,Other,2028,268,Haspin,EKIGEGVFGEVFQVAIKIIEILPEIIISKELSEGFIGLNSVVLEFEFGG-IDLEQMRTKAEASLRFEHRDLHWGNVLLIIDYTLS,Human,,,,,,,
+Q96RU7,TRIB3,Trb3,Trb3,Tribbles homolog 3,CAMK,Trbl,nan,TRIB3,MRATPLAAPAGSLSRKKRLELDDNLDTERPVQKRARSGPQPRLPPCLLPLSPPTAPDRATAVATASRLGPYVLLEPEEGGRAYQALHCPTGTEYTCKVYPVQEALAVLEPYARLPPHKHVARPTEVLAGTQLLYAFFTRTHGDMHSLVRSRHRIPEPEAAVLFRQMATALAHCHQHGLVLRDLKLCRFVFADRERKKLVLENLEDSCVLTGPDDSLWDKHACPAYVGPEILSSRASYSGKAADVWSLGVALFTMLAGHYPFQDSEPVLLFGKIRRGAYALPAGLSAPARCLVRCLLRREPAERLTATGILLHPWLRQDPMPLAPTRSHLWEAAQVVPDGLGLDEAREEEGDREVVLYG,Trbl,tribbles pseudokinase 3,TRIB3,CAMK,0,172,Trb3,VLLEPEEGGRAYQYTCKVYALAVLEPYARLPPKHVARPTEVYAFFTRTH-GDMHSLVRSHCHQHGLVLRDLKLCRFVFLVLENLE,Human,,Protein kinase domain,82.0,315.0,358.0,PF00069,True
+O14578,CIT,CRIK,CRIK,Citron Rho-interacting kinase,AGC,DMPK,nan,CIT,MLKFKYGARNPLDAGAAEPIASRASRLNLFFQGKPPFMTQQQMSPLSREGILDALFVLFEECSQPALMKIKHVSNFVRKYSDTIAELQELQPSAKDFEVRSLVGCGHFAEVQVVREKATGDIYAMKVMKKKALLAQEQVSFFEEERNILSRSTSPWIPQLQYAFQDKNHLYLVMEYQPGGDLLSLLNRYEDQLDENLIQFYLAELILAVHSVHLMGYVHRDIKPENILVDRTGHIKLVDFGSAAKMNSNKMVNAKLPIGTPDYMAPEVLTVMNGDGKGTYGLDCDWWSVGVIAYEMIYGRSPFAEGTSARTFNNIMNFQRFLKFPDDPKVSSDFLDLIQSLLCGQKERLKFEGLCCHPFFSKIDWNNIRNSPPPFVPTLKSDDDTSNFDEPEKNSWVSSSPCQLSPSGFSGEELPFVGFSYSKALGILGRSESVVSGLDSPAKTSSMEKKLLIKSKELQDSQDKCHKMEQEMTRLHRRVSEVEAVLSQKEVELKASETQRSLLEQDLATYITECSSLKRSLEQARMEVSQEDDKALQLLHDIREQSRKLQEIKEQEYQAQVEEMRLMMNQLEEDLVSARRRSDLYESELRESRLAAEEFKRKATECQHKLLKAKDQGKPEVGEYAKLEKINAEQQLKIQELQEKLEKAVKASTEATELLQNIRQAKERAERELEKLQNREDSSEGIRKKLVEAEELEEKHREAQVSAQHLEVHLKQKEQHYEEKIKVLDNQIKKDLADKETLENMMQRHEEEAHEKGKILSEQKAMINAMDSKIRSLEQRIVELSEANKLAANSSLFTQRNMKAQEEMISELRQQKFYLETQAGKLEAQNRKLEEQLEKISHQDHSDKNRLLELETRLREVSLEHEEQKLELKRQLTELQLSLQERESQLTALQAARAALESQLRQAKTELEETTAEAEEEIQALTAHRDEIQRKFDALRNSCTVITDLEEQLNQLTEDNAELNNQNFYLSKQLDEASGANDEIVQLRSEVDHLRREITEREMQLTSQKQTMEALKTTCTMLEEQVMDLEALNDELLEKERQWEAWRSVLGDEKSQFECRVRELQRMLDTEKQSRARADQRITESRQVVELAVKEHKAEILALQQALKEQKLKAESLSDKLNDLEKKHAMLEMNARSLQQKLETERELKQRLLEEQAKLQQQMDLQKNHIFRLTQGLQEALDRADLLKTERSDLEYQLENIQVLYSHEKVKMEGTISQQTKLIDFLQAKMDQPAKKKKGLFSRRKEDPALPTQVPLQYNELKLALEKEKARCAELEEALQKTRIELRSAREEAAHRKATDHPHPSTPATARQQIAMSAIVRSPEHQPSAMSLLAPPSSRRKESSTPEEFSRRLKERMHHNIPHRFNVGLNMRATKCAVCLDTVHFGRQASKCLECQVMCHPKCSTCLPATCGLPAEYATHFTEAFCRDKMNSPGLQTKEPSSSLHLEGWMKVPRNNKRGQQGWDRKYIVLEGSKVLIYDNEAREAGQRPVEEFELCLPDGDVSIHGAVGASELANTAKADVPYILKMESHPHTTCWPGRTLYLLAPSFPDKQRWVTALESVVAGGRVSREKAEADAKLLGNSLLKLEGDDRLDMNCTLPFSDQVVLVGTEEGLYALNVLKNSLTHVPGIGAVFQIYIIKDLEKLLMIAGEERALCLVDVKKVKQSLAQSHLPAQPDISPNIFEAVKGCHLFGAGKIENGLCICAAMPSKVVILRYNENLSKYCIRKEIETSEPCSCIHFTNYSILIGTNKFYEIDMKQYTLEEFLDKNDHSLAPAVFAASSNSFPVSIVQVNSAGQREEYLLCFHEFGVFVDSYGRRSRTDDLKWSRLPLAFAYREPYLFVTHFNSLEVIEIQARSSAGTPARAYLDIPNPRYLGPAISSGAIYLASSYQDKLRVICCKGNLVKESGTEHHRGPSTSRSSPNKRGPPTYNEHITKRVASSPAPPEGPSHPREPSTPHRYREGRTELRRDKSPGRPLEREKSPGRMLSTRRERSPGRLFEDSSRGRLPAGAVRTPLSQVNKVWDQSSV,DMPK,citron rho-interacting serine/threonine kinase,CIT,AGC,1509,4,CRIK,SLVGCGHFAEVQVYAMKVMFFEEERNILSRSTPWIPQLQYAYLVMEYQPGGDLLSLLNRSVHLMGYVHRDIKPENILVLVDFGSA,Human,CRIK,Protein kinase domain,98.0,360.0,2027.0,PF00069,True
+Q8N5S9,CAMKK1,CaMKK1,CaMKK1,Calcium/calmodulin-dependent protein kinase kinase 1,Other,CAMKK,CAMKK-Meta,CAMKK1,MEGGPAVCCQDPRAELVERVAAIDVTHLEEADGGPEPTRNGVDPPPRARAASVIPGSTSRLLPARPSLSARKLSLQERPAGSYLEAQAGPYATGPASHISPRAWRRPTIESHHVAISDAEDCVQLNQYKLQSEIGKGAYGVVRLAYNESEDRHYAMKVLSKKKLLKQYGFPRRPPPRGSQAAQGGPAKQLLPLERVYQEIAILKKLDHVNVVKLIEVLDDPAEDNLYLVFDLLRKGPVMEVPCDKPFSEEQARLYLRDVILGLEYLHCQKIVHRDIKPSNLLLGDDGHVKIADFGVSNQFEGNDAQLSSTAGTPAFMAPEAISDSGQSFSGKALDVWATGVTLYCFVYGKCPFIDDFILALHRKIKNEPVVFPEEPEISEELKDLILKMLDKNPETRIGVPDIKLHPWVTKNGEEPLPSEEEHCSVVEVTEEEVKNSVRLIPSWTTVILVKSMLRKRSFGNPFEPQARREERSMSAPGNLLVKEGFGEGGKSPELPGVQEDEAAS,CAMKK,"calcium/calmodulin-dependent protein kinase kinase 1, alpha",CAMKK1,Other,1956,266,CaMKK1,DAYLQGAYGVVRLYAMKVLRVYQEIAILKKLDVNVVKLIEVLYLFDLLRKGPVMEVPCDYLHCQKIVHRDIKPSNLLLIADFGVS,Human,Meta,Protein kinase domain,128.0,409.0,505.0,PF00069,True
+Q38SD2,LRRK1,LRRK1,LRRK1,Leucine-rich repeat serine/threonine-protein kinase 1,TKL,LRRK,nan,LRRK1,MAGMSQRPPSMYWCVGPEESAVCPERAMETLNGAGDTGGKPSTRGGDPAARSRRTEGIRAAYRRGDRGGARDLLEEACDQCASQLEKGQLLSIPAAYGDLEMVRYLLSKRLVELPTEPTDDNPAVVAAYFGHTAVVQELLESLPGPCSPQRLLNWMLALACQRGHLGVVKLLVLTHGADPESYAVRKNEFPVIVRLPLYAAIKSGNEDIAIFLLRHGAYFCSYILLDSPDPSKHLLRKYFIEASPLPSSYPGKTALRVKWSHLRLPWVDLDWLIDISCQITELDLSANCLATLPSVIPWGLINLRKLNLSDNHLGELPGVQSSDEIICSRLLEIDISSNKLSHLPPGFLHLSKLQKLTASKNCLEKLFEEENATNWIGLRKLQELDISDNKLTELPALFLHSFKSLNSLNVSRNNLKVFPDPWACPLKCCKASRNALECLPDKMAVFWKNHLKDVDFSENALKEVPLGLFQLDALMFLRLQGNQLAALPPQEKWTCRQLKTLDLSRNQLGKNEDGLKTKRIAFFTTRGRQRSGTEAASVLEFPAFLSESLEVLCLNDNHLDTVPPSVCLLKSLSELYLGNNPGLRELPPELGQLGNLWQLDTEDLTISNVPAEIQKEGPKAMLSYLRAQLRKAEKCKLMKMIIVGPPRQGKSTLLEILQTGRAPQVVHGEATIRTTKWELQRPAGSRAKVESVEFNVWDIGGPASMATVNQCFFTDKALYVVVWNLALGEEAVANLQFWLLNIEAKAPNAVVLVVGTHLDLIEAKFRVERIATLRAYVLALCRSPSGSRATGFPDITFKHLHEISCKSLEGQEGLRQLIFHVTCSMKDVGSTIGCQRLAGRLIPRSYLSLQEAVLAEQQRRSRDDDVQYLTDRQLEQLVEQTPDNDIKDYEDLQSAISFLIETGTLLHFPDTSHGLRNLYFLDPIWLSECLQRIFNIKGSRSVAKNGVIRAEDLRMLLVGTGFTQQTEEQYFQFLAKFEIALPVANDSYLLPHLLPSKPGLDTHGMRHPTANTIQRVFKMSFVPVGFWQRFIARMLISLAEMDLQLFENKKNTKSRNRKVTIYSFTGNQRNRCSTFRVKRNQTIYWQEGLLVTFDGGYLSVESSDVNWKKKKSGGMKIVCQSEVRDFSAMAFITDHVNSLIDQWFPALTATESDGTPLMEQYVPCPVCETAWAQHTDPSEKSEDVQYFDMEDCVLTAIERDFISCPRHPDLPVPLQELVPELFMTDFPARLFLENSKLEHSEDEGSVLGQGGSGTVIYRARYQGQPVAVKRFHIKKFKNFANVPADTMLRHLRATDAMKNFSEFRQEASMLHALQHPCIVALIGISIHPLCFALELAPLSSLNTVLSENARDSSFIPLGHMLTQKIAYQIASGLAYLHKKNIIFCDLKSDNILVWSLDVKEHINIKLSDYGISRQSFHEGALGVEGTPGYQAPEIRPRIVYDEKVDMFSYGMVLYELLSGQRPALGHHQLQIAKKLSKGIRPVLGQPEEVQFRRLQALMMECWDTKPEKRPLALSVVSQMKDPTFATFMYELCCGKQTAFFSSQGQEYTVVFWDGKEESRNYTVVNTEKGLMEVQRMCCPGMKVSCQLQVQRSLWTATEDQKIYIYTLKGMCPLNTPQQALDTPAVVTCFLAVPVIKKNSYLVLAGLADGLVAVFPVVRGTPKDSCSYLCSHTANRSKFSIADEDARQNPYPVKAMEVVNSGSEVWYSNGPGLLVIDCASLEICRRLEPYMAPSMVTSVVCSSEGRGEEVVWCLDDKANSLVMYHSTTYQLCARYFCGVPSPLRDMFPVRPLDTEPPAASHTANPKVPEGDSIADVSIMYSEELGTQILIHQESLTDYCSMSSYSSSPPRQAARSPSSLPSSPASSSSVPFSTDCEDSDMLHTPGAASDRSEHDLTPMDGETFSQHLQAVKILAVRDLIWVPRRGGDVIVIGLEKDSGAQRGRVIAVLKARELTPHGVLVDAAVVAKDTVVCTFENENTEWCLAVWRGWGAREFDIFYQSYEELGRLEACTRKRR,LRRK,leucine-rich repeat kinase 1,LRRK1,TKL,0,494,LRRK1,SVLGQGGSGTVIYVAVKRFEFRQEASMLHALQPCIVALIGICFALELAPLSSLNTVLSEYLHKKNIIFCDLKSDNILVLSDYGIS,Human,,Protein kinase domain,1245.0,1518.0,2015.0,PF00069,True
+Q8IWB6,TEX14,"SgK307, SgK424","SgK307, SgK424",Inactive serine/threonine-protein kinase TEX14,Other,NKF5,nan,TEX14,MSRAVRLPVPCPVQLGTLRNDSLEAQLHEYVKQGNYVKVKKILKKGIYVDAVNSLGQTALFVAALLGLRKFVDVLVDYGSDPNHRCFDGSTPVHAAAFSGNQWILSKLLDAGGDLRLHDERGQNPKTWALTAGKERSTQIVEFMQRCASHMQAIIQGFSYDLLKKIDSPQRLVYSPSWCGGLVQGNPNGSPNRLLKAGVISAQNIYSFGFGKAMPWFQFYLTGATQMAYLGSLPVIGEKEVIQADDEPTFSFFSGPYMVMTNLVWNGSRVTVKELNLPTHPHCSRLRLADLLIAEQEHSSKLRHPYLLQLMAVCLSQDLEKTRLVYERITIGTLFSVLHERRSQFPVLHMEVIVHLLLQISDALRYLHFQGFIHRSLSSYAVHIISPGEARLTNLEYMLESEDRGVQRDLTRVPLPTQLYNWAAPEVILQKAATVKSDIYSFSMIMQEILTDDIPWKGLDGSVVKKAVVSGNYLEADVRLPKPYYDIVKSGIHVKQKDRTMNLQDIRYILKNDLKDFTGAQRTQPTESPRVQRYGLHPDVNVYLGLTSEHPRETPDMEIIELKEMGSQPHSPRVHSLFTEGTLDPQAPDPCLMARETQNQDAPCPAPFMAEEASSPSTGQPSLCSFEINEIYSGCLILEDDIEEPPGAASSLEADGPNQVDELKSMEEELDKMEREACCFGSEDESSSKAETEYSFDDWDWQNGSLSSLSLPESTREAKSNLNNMSTTEEYLISKCVLDLKIMQTIMHENDDRLRNIEQILDEVEMKQKEQEERMSLWATSREFTNAYKLPLAVGPPSLNYIPPVLQLSGGQKPDTSGNYPTLPRFPRMLPTLCDPGKQNTDEQFQCTQGAKDSLETSRIQNTSSQGRPRESTAQAKATQFNSALFTLSSHRQGPSASPSCHWDSTRMSVEPVSSEIYNAESRNKDDGKVHLKWKMEVKEMAKKAATGQLTVPPWHPQSSLTLESEAENEPDALLQPPIRSPENTDWQRVIEYHRENDEPRGNGKFDKTGNNDCDSDQHGRQPRLGSFTSIRHPSPRQKEQPEHSEAFQASSDTLVAVEKSYSHQSMQSTCSPESSEDITDEFLTPDGEYFYSSTAQENLALETSSPIEEDFEGIQGAFAQPQVSGEEKFQMRKILGKNAEILPRSQFQPVRSTEDEQEETSKESPKELKEKDISLTDIQDLSSISYEPDSSFKEASCKTPKINHAPTSVSTPLSPGSVSSAASQYKDCLESITFQVKTEFASCWNSQEFIQTLSDDFISVRERAKKLDSLLTSSETPPSRLTGLKRLSSFIGAGSPSLVKACDSSPPHATQRRSLPKVEAFSQHHIDELPPPSQELLDDIELLKQQQGSSTVLHENTASDGGGTANDQRHLEEQETDSKKEDSSMLLSKETEDLGEDTERAHSTLDEDLERWLQPPEESVELQDLPKGSERETNIKDQKVGEEKRKREDSITPERRKSEGVLGTSEEDELKSCFWKRLGWSESSRIIVLDQSDLSD,NKF5,testis expressed 14,TEX14,Other,0,300,SgK307,-------------VTVKELLLIAEQEHSSKLRPYLLQLMAVRLVYERITIGTLFSVLHEYLHFQGFIHRSLSSYAVHILTNLEYM,Human,,Protein tyrosine and serine/threonine kinase,289.0,500.0,1497.0,PF07714,True
+O15021,MAST4,MAST4,MAST4,Microtubule-associated serine/threonine-protein kinase 4,AGC,MAST,nan,MAST4,MGEKVSEAPEPVPRGCSGHGSRTPASALVAASSPGASSAESSSGSETLSEEGEPGGFSREHQPPPPPPLGGTLGARAPAAWAPASVLLERGVLALPPPLPGGAVPPAPRGSSASQEEQDEELDHILSPPPMPFRKCSNPDVASGPGKSLKYKRQLSEDGRQLRRGSLGGALTGRYLLPNPVAGQAWPASAETSNLVRMRSQALGQSAPSLTASLKELSLPRRGSFCRTSNRKSLIGNGQSPALPRPHSPLSAHAGNSPQDSPRNFSPSASAHFSFARRTDGRRWSLASLPSSGYGTNTPSSTVSSSCSSQEKLHQLPYQPTPDELHFLSKHFCTTESIATENRCRNTPMRPRSRSLSPGRSPACCDHEIIMMNHVYKERFPKATAQMEERLKEIITSYSPDNVLPLADGVLSFTHHQIIELARDCLDKSHQGLITSRYFLELQHKLDKLLQEAHDRSESGELAFIKQLVRKILIVIARPARLLECLEFDPEEFYYLLEAAEGHAKEGQGIKTDIPRYIISQLGLNKDPLEEMAHLGNYDSGTAETPETDESVSSSNASLKLRRKPRESDFETIKLISNGAYGAVYFVRHKESRQRFAMKKINKQNLILRNQIQQAFVERDILTFAENPFVVSMYCSFETRRHLCMVMEYVEGGDCATLMKNMGPLPVDMARMYFAETVLALEYLHNYGIVHRDLKPDNLLVTSMGHIKLTDFGLSKVGLMSMTTNLYEGHIEKDAREFLDKQVCGTPEYIAPEVILRQGYGKPVDWWAMGIILYEFLVGCVPFFGDTPEELFGQVISDEINWPEKDEAPPPDAQDLITLLLRQNPLERLGTGGAYEVKQHRFFRSLDWNSLLRQKAEFIPQLESEDDTSYFDTRSEKYHHMETEEEDDTNDEDFNVEIRQFSSCSHRFSKVFSSIDRITQNSAEEKEDSVDKTKSTTLPSTETLSWSSEYSEMQQLSTSNSSDTESNRHKLSSGLLPKLAISTEGEQDEAASCPGDPHEEPGKPALPPEECAQEEPEVTTPASTISSSTLSVGSFSEHLDQINGRSECVDSTDNSSKPSSEPASHMARQRLESTEKKKISGKVTKSLSASALSLMIPGDMFAVSPLGSPMSPHSLSSDPSSSRDSSPSRDSSAASASPHQPIVIHSSGKNYGFTIRAIRVYVGDSDIYTVHHIVWNVEEGSPACQAGLKAGDLITHINGEPVHGLVHTEVIELLLKSGNKVSITTTPFENTSIKTGPARRNSYKSRMVRRSKKSKKKESLERRRSLFKKLAKQPSPLLHTSRSFSCLNRSLSSGESLPGSPTHSLSPRSPTPSYRSTPDFPSGTNSSQSSSPSSSAPNSPAGSGHIRPSTLHGLAPKLGGQRYRSGRRKSAGNIPLSPLARTPSPTPQPTSPQRSPSPLLGHSLGNSKIAQAFPSKMHSPPTIVRHIVRPKSAEPPRSPLLKRVQSEEKLSPSYGSDKKHLCSRKHSLEVTQEEVQREQSQREAPLQSLDENVCDVPPLSRARPVEQGCLKRPVSRKVGRQESVDDLDRDKLKAKVVVKKADGFPEKQESHQKSHGPGSDLENFALFKLEEREKKVYPKAVERSSTFENKASMQEAPPLGSLLKDALHKQASVRASEGAMSDGRVPAEHRQGGGDFRRAPAPGTLQDGLCHSLDRGISGKGEGTEKSSQAKELLRCEKLDSKLANIDYLRKKMSLEDKEDNLCPVLKPKMTAGSHECLPGNPVRPTGGQQEPPPASESRAFVSSTHAAQMSAVSFVPLKALTGRVDSGTEKPGLVAPESPVRKSPSEYKLEGRSVSCLKPIEGTLDIALLSGPQASKTELPSPESAQSPSPSGDVRASVPPVLPSSSGKKNDTTSARELSPSSLKMNKSYLLEPWFLPPSRGLQNSPAVSLPDPEFKRDRKGPHPTARSPGTVMESNPQQREGSSPKHQDHTTDPKLLTCLGQNLHSPDLARPRCPLPPEASPSREKPGLRESSERGPPTARSERSAARADTCREPSMELCFPETAKTSDNSKNLLSVGRTHPDFYTQTQAMEKAWAPGGKTNHKDGPGEARPPPRDNSSLHSAGIPCEKELGKVRRGVEPKPEALLARRSLQPPGIESEKSEKLSSFPSLQKDGAKEPERKEQPLQRHPSSIPPPPLTAKDLSSPAARQHCSSPSHASGREPGAKPSTAEPSSSPQDPPKPVAAHSESSSHKPRPGPDPGPPKTKHPDRSLSSQKPSVGATKGKEPATQSLGGSSREGKGHSKSGPDVFPATPGSQNKASDGIGQGEGGPSVPLHTDRAPLDAKPQPTSGGRPLEVLEKPVHLPRPGHPGPSEPADQKLSAVGEKQTLSPKHPKPSTVKDCPTLCKQTDNRQTDKSPSQPAANTDRRAEGKKCTEALYAPAEGDKLEAGLSFVHSENRLKGAERPAAGVGKGFPEARGKGPGPQKPPTEADKPNGMKRSPSATGQSSFRSTALPEKSLSCSSSFPETRAGVREASAASSDTSSAKAAGGMLELPAPSNRDHRKAQPAGEGRTHMTKSDSLPSFRVSTLPLESHHPDPNTMGGASHRDRALSVTATVGETKGKDPAPAQPPPARKQNVGRDVTKPSPAPNTDRPISLSNEKDFVVRQRRGKESLRSSPHKKAL,MAST,microtubule associated serine/threonine kinase family member 4,MAST4,AGC,0,21,MAST4,KLISNGAYGAVYFFAMKKIQAFVERDILTFAEPFVVSMYCSCMVMEYVEGGDCATLMKNYLHNYGIVHRDLKPDNLLVLTDFGLS,Human,MAST,Protein kinase domain,571.0,843.0,2623.0,PF00069,True
+Q13557,CAMK2D,CaMK2d,CaMK2d,Calcium/calmodulin-dependent protein kinase type II subunit delta,CAMK,CAMK2,nan,CAMK2D,MASTTTCTRFTDEYQLFEELGKGAFSVVRRCMKIPTGQEYAAKIINTKKLSARDHQKLEREARICRLLKHPNIVRLHDSISEEGFHYLVFDLVTGGELFEDIVAREYYSEADASHCIQQILESVNHCHLNGIVHRDLKPENLLLASKSKGAAVKLADFGLAIEVQGDQQAWFGFAGTPGYLSPEVLRKDPYGKPVDMWACGVILYILLVGYPPFWDEDQHRLYQQIKAGAYDFPSPEWDTVTPEAKDLINKMLTINPAKRITASEALKHPWICQRSTVASMMHRQETVDCLKKFNARRKLKGAILTTMLATRNFSAAKSLLKKPDGVKESTESSNTTIEDEDVKARKQEIIKVTEQLIEAINNGDFEAYTKICDPGLTAFEPEALGNLVEGMDFHRFYFENALSKSNKPIHTIILNPHVHLVGDDAACIAYIRLTQYMDGSGMPKTMQSEETRVWHRRDGKWQNVHFHRSGSPTVPIKPPCIPNGKENFSGGTSLWQNI,CAMK2,calcium/calmodulin-dependent protein kinase II delta,CAMK2D,CAMK,1558,115,CaMK2d,EELGKGAFSVVRRYAAKIIKLEREARICRLLKPNIVRLHDSYLVFDLVTGGELFEDIVAHCHLNGIVHRDLKPENLLLLADFGLA,Human,,Protein kinase domain,14.0,272.0,499.0,PF00069,True
+Q9NSY1,BMP2K,BIKE,BIKE,BMP-2-inducible protein kinase,Other,NAK,nan,BMP2K,MKKFSRMPKSEGGSGGGAAGGGAGGAGAGAGCGSGGSSVGVRVFAVGRHQVTLEESLAEGGFSTVFLVRTHGGIRCALKRMYVNNMPDLNVCKREITIMKELSGHKNIVGYLDCAVNSISDNVWEVLILMEYCRAGQVVNQMNKKLQTGFTEPEVLQIFCDTCEAVARLHQCKTPIIHRDLKVENILLNDGGNYVLCDFGSATNKFLNPQKDGVNVVEEEIKKYTTLSYRAPEMINLYGGKPITTKADIWALGCLLYKLCFFTLPFGESQVAICDGNFTIPDNSRYSRNIHCLIRFMLEPDPEHRPDIFQVSYFAFKFAKKDCPVSNINNSSIPSALPEPMTASEAAARKSQIKARITDTIGPTETSIAPRQRPKANSATTATPSVLTIQSSATPVKVLAPGEFGNHRPKGALRPGNGPEILLGQGPPQQPPQQHRVLQQLQQGDWRLQQLHLQHRHPHQQQQQQQQQQQQQQQQQQQQQQQQQQQHHHHHHHHLLQDAYMQQYQHATQQQQMLQQQFLMHSVYQPQPSASQYPTMMPQYQQAFFQQQMLAQHQPSQQQASPEYLTSPQEFSPALVSYTSSLPAQVGTIMDSSYSANRSVADKEAIANFTNQKNISNPPDMSGWNPFGEDNFSKLTEEELLDREFDLLRSNRLEERASSDKNVDSLSAPHNHPPEDPFGSVPFISHSGSPEKKAEHSSINQENGTANPIKNGKTSPASKDQRTGKKTSVQGQVQKGNDESESDFESDPPSPKSSEEEEQDDEEVLQGEQGDFNDDDTEPENLGHRPLLMDSEDEEEEEKHSSDSDYEQAKAKYSDMSSVYRDRSGSGPTQDLNTILLTSAQLSSDVAVETPKQEFDVFGAVPFFAVRAQQPQQEKNEKNLPQHRFPAAGLEQEEFDVFTKAPFSKKVNVQECHAVGPEAHTIPGYPKSVDVFGSTPFQPFLTSTSKSESNEDLFGLVPFDEITGSQQQKVKQRSLQKLSSRQRRTKQDMSKSNGKRHHGTPTSTKKTLKPTYRTPERARRHKKVGRRDSQSSNEFLTISDSKENISVALTDGKDRGNVLQPEESLLDPFGAKPFHSPDLSWHPPHQGLSDIRADHNTVLPGRPRQNSLHGSFHSADVLKMDDFGAVPFTELVVQSITPHQSQQSQPVELDPFGAAPFPSKQ,NAK,BMP2 inducible kinase,BMP2K,Other,1941,278,BIKE,ESLAEGGFSTVFLCALKRMVCKREITIMKELSKNIVGYLDCLILMEYCRAGQVVNQMNKHQCKTPIIHRDLKVENILLLCDFGSA,Human,BIKE,Protein kinase domain,53.0,311.0,1161.0,PF00069,True
+Q9BXA7,TSSK1B,TSSK1,TSSK1,Testis-specific serine/threonine-protein kinase 1,CAMK,TSSK,nan,TSSK1B,MDDAAVLKRRGYLLGINLGEGSYAKVKSAYSERLKFNVAIKIIDRKKAPADFLEKFLPREIEILAMLNHCSIIKTYEIFETSHGKVYIVMELAVQGDLLELIKTRGALHEDEARKKFHQLSLAIKYCHDLDVVHRDLKCDNLLLDKDFNIKLSDFSFSKRCLRDDSGRMALSKTFCGSPAYAAPEVLQGIPYQPKVYDIWSLGVILYIMVCGSMPYDDSNIKKMLRIQKEHRVNFPRSKHLTGECKDLIYHMLQPDVNRRLHIDEILSHCWMQPKARGSPSVAINKEGESSRGTEPLWTPEPGSDKKSATKLEPEGEAQPQAQPETKPEGTAMQMSRQSEILGFPSKPSTMETEEGPPQQPPETRAQ,TSSK,testis specific serine kinase 1B,TSSK1B,CAMK,2257,181,TSSK1,INLGEGSYAKVKSVAIKIIFLPREIEILAMLNCSIIKTYEIYIVMELAVQGDLLELIKTYCHDLDVVHRDLKCDNLLLLSDFSFS,Human,,Protein kinase domain,17.0,272.0,367.0,PF00069,True
+Q86YV6,MYLK4,SgK085,SgK085,Myosin light chain kinase family member 4,CAMK,MLCK,nan,MYLK4,MLKVKRLEEFNTCYNSNQLEKMAFFQCREEVEKVKCFLEKNSGDQDSRSGHNEAKEVWSNADLTERMPVKSKRTSALAVDIPAPPAPFDHRIVTAKQGAVNSFYTVSKTEILGGGRFGQVHKCEETATGLKLAAKIIKTRGMKDKEEVKNEISVMNQLDHANLIQLYDAFESKNDIVLVMEYVDGGELFDRIIDESYNLTELDTILFMKQICEGIRHMHQMYILHLDLKPENILCVNRDAKQIKIIDFGLARRYKPREKLKVNFGTPEFLAPEVVNYDFVSFPTDMWSVGVIAYMLLSGLSPFLGDNDAETLNNILACRWDLEDEEFQDISEEAKEFISKLLIKEKSWRISASEALKHPWLSDHKLHSRLNAQKKKNRGSDAQDFVTK,MLCK,myosin light chain kinase family member 4,MYLK4,CAMK,2111,157,SgK085,EILGGGRFGQVHKLAAKIIEVKNEISVMNQLDANLIQLYDAVLVMEYVDGGELFDRIIDHMHQMYILHLDLKPENILCIIDFGLA,Human,,Protein kinase domain,108.0,361.0,388.0,PF00069,True
+Q7Z695,ADCK2,ADCK2,ADCK2,Uncharacterized aarF domain-containing protein kinase 2,Atypical,ABC1,ABC1-C,ADCK2,MVAPWRVSVRVCLSHLRCFELRQGLSLLRPSECPRDARLCWLLLGTLPKVVSLCGDVGEGAPDVLSRRRVRCSGAAGAGPAESLPRAGPLGGVFLHLRLWLRAGALLVKFFPLLLLYPLTYLAPSVSTLWLHLLLKATETSGPTYIKLGQWASTRRDLFSEAFCAQFSKLHVRVTPHPWTHTERFLRQAFGDDWGSILSFENREPVGSGCVAQVYKAYANTAFLETDSVQRLGRASCLPPFSHTGAVGGLRELFGYLGNGRKPPENLADQSFLERLLLPKADLVGSNAGVSRAQVPGHQPEATNLISVAVKVLHPGLLAQVHMDLLLMKIGSRVLGVLPGIKWLSLPEIVEEFEKLMVQQIDLRYEAQNLEHFQVNFRNVKAVKFPTPLRPFVTREVLVETYEESVPVSSYQQAGIPVDLKRKIARLGINMLLKMIFVDNFVHADLHPGNILVQGANGLSSSQEAQLQQADICDTLVVAVPSSLCPLRLVLLDAGIVAELQAPDLRNFRAVFMAVVMGQGQRVAELILHHARASECRDVEGFKTEMAMLVTQARKNTITLEKLHVSSLLSSVFKLLMTHKVKLESNFASIVFAIMVLEGLGRSLDPKLDILEAARPFLLTGPVCPP,ABC1,Uncharacterized aarF domain-containing protein kinase 2,ADCK2,Atypical,1926,74,ADCK2,GSNAGVSRAQVPGVAVKVLDLRYEAQNLEHFQVKFPTPLRPREVLVETYVSSYQQAGIPMIFVDNFVHADLHPGNILVLLDAGIV,Human,ABC1-,,,,,,
+O43293,DAPK3,DAPK3,DAPK3,Death-associated protein kinase 3,CAMK,DAPK,nan,DAPK3,MSTFRQEDVEDHYEMGEELGSGQFAIVRKCRQKGTGKEYAAKFIKKRRLSSSRRGVSREEIEREVNILREIRHPNIITLHDIFENKTDVVLILELVSGGELFDFLAEKESLTEDEATQFLKQILDGVHYLHSKRIAHFDLKPENIMLLDKNVPNPRIKLIDFGIAHKIEAGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLTNISAVNYDFDEEYFSNTSELAKDFIRRLLVKDPKRRMTIAQSLEHSWIKAIRRRNVRGEDSGRKPERRRLKTTRLKEYTIKSHSSLPPNNSYADFERFSKVLEEAAAAEEGLRELQRSRRLCHEDVEALAAIYEEKEAWYREESDSLGQDLRRLRQELLKTEALKRQAQEEAKGALLGTSGLKRRFSRLENRYEALAKQVASEMRFVQDLVRALEQEKLQGVECGLR,DAPK,death-associated protein kinase 3,DAPK3,CAMK,2004,141,DAPK3,EELGSGQFAIVRKYAAKFIEIEREVNILREIRPNIITLHDIVLILELVSGGELFDFLAEYLHSKRIAHFDLKPENIMLLIDFGIA,Human,DAPK,Protein kinase domain,13.0,275.0,454.0,PF00069,True
+P0C1S8,WEE2,Wee1B,Wee1B,Wee1-like protein kinase 2,Other,WEE,nan,WEE2,MDDKDIDKELRQKLNFSYCEETEIEGQKKVEESREASSQTPEKGEVQDSEAKGTPPWTPLSNVHELDTSSEKDKESPDQILRTPVSHPLKCPETPAQPDSRSKLLPSDSPSTPKTMLSRLVISPTGKLPSRGPKHLKLTPAPLKDEMTSLALVNINPFTPESYKKLFLQSGGKRKIRGDLEEAGPEEGKGGLPAKRCVLRETNMASRYEKEFLEVEKIGVGEFGTVYKCIKRLDGCVYAIKRSMKTFTELSNENSALHEVYAHAVLGHHPHVVRYYSSWAEDDHMIIQNEYCNGGSLQAAISENTKSGNHFEEPKLKDILLQISLGLNYIHNSSMVHLDIKPSNIFICHKMQSESSGVIEEVENEADWFLSANVMYKIGDLGHATSINKPKVEEGDSRFLANEILQEDYRHLPKADIFALGLTIAVAAGAESLPTNGAAWHHIRKGNFPDVPQELSESFSSLLKNMIQPDAEQRPSAAALARNTVLRPSLGKTEELQQQLNLEKFKTATLERELREAQQAQSPQGYTHHGDTGVSGTHTGSRSTKRLVGGKSARSSSFTSGEREPLH,WEE,WEE1 homolog 2 (S. pombe),WEE2,Other,2279,335,Wee1B,EKIGVGEFGTVYKYAIKRSSALHEVYAHAVLGPHVVRYYSSIIQNEYCNGGSLQAAISEYIHNSSMVHLDIKPSNIFIIGDLGHA,Human,,Protein kinase domain,214.0,482.0,567.0,PF00069,True
+Q05823,RNASEL,RNAseL,RNAseL,2-5A-dependent ribonuclease,Other,Other-Unique,nan,RNASEL,MESRDHNNPQEGPTSSSGRRAAVEDNHLLIKAVQNEDVDLVQQLLEGGANVNFQEEEGGWTPLHNAVQMSREDIVELLLRHGADPVLRKKNGATPFILAAIAGSVKLLKLFLSKGADVNECDFYGFTAFMEAAVYGKVKALKFLYKRGANVNLRRKTKEDQERLRKGGATALMDAAEKGHVEVLKILLDEMGADVNACDNMGRNALIHALLSSDDSDVEAITHLLLDHGADVNVRGERGKTPLILAVEKKHLGLVQRLLEQEHIEINDTDSDGKTALLLAVELKLKKIAELLCKRGASTDCGDLVMTARRNYDHSLVKVLLSHGAKEDFHPPAEDWKPQSSHWGAALKDLHRIYRPMIGKLKFFIDEKYKIADTSEGGIYLGFYEKQEVAVKTFCEGSPRAQREVSCLQSSRENSHLVTFYGSESHRGHLFVCVTLCEQTLEACLDVHRGEDVENEEDEFARNVLSSIFKAVQELHLSCGYTHQDLQPQNILIDSKKAAHLADFDKSIKWAGDPQEVKRDLEDLGRLVLYVVKKGSISFEDLKAQSNEEVVQLSPDEETKDLIHRLFHPGEHVRDCLSDLLGHPFFWTWESRYRTLRNVGNESDIKTRKSESEILRLLQPGPSEHSKSFDKWTTKINECVMKKMNKFYEKRGNFYQNTVGDLLKFIRNLGEHIDEEKHKKMKLKIGDPSLYFQKTFPDLVIYVYTKLQNTEYRKHFPQTHSPNKPQCDGAGGASGLASPGC,Other-Unique,ribonuclease L,RNASEL,Other,0,303,RNAseL,YKIADTSEGGIYLVAVKTFRAQREVSCLQSSRSHLVTFYGSFVCVTLCEQ-TLEACLDVLHLSCGYTHQDLQPQNILILADFDKS,Human,,Protein kinase domain,385.0,513.0,741.0,PF00069,True
+Q9BX84,TRPM6,ChaK2,ChaK2,Transient receptor potential cation channel subfamily M member 6,Atypical,Alpha,ChaK,TRPM6,MKEQPVLERLQSQKSWIKGVFDKRECSTIIPSSKNPHRCTPVCQVCQNLIRCYCGRLIGDHAGIDYSWTISAAKGKESEQWSVEKHTTKSPTDTFGTINFQDGEHTHHAKYIRTSYDTKLDHLLHLMLKEWKMELPKLVISVHGGIQNFTMPSKFKEIFSQGLVKAAETTGAWIITEGINTGVSKHVGDALKSHSSHSLRKIWTVGIPPWGVIENQRDLIGKDVVCLYQTLDNPLSKLTTLNSMHSHFILSDDGTVGKYGNEMKLRRNLEKYLSLQKIHCRSRQGVPVVGLVVEGGPNVILSVWETVKDKDPVVVCEGTGRAADLLAFTHKHLADEGMLRPQVKEEIICMIQNTFNFSLKQSKHLFQILMECMVHRDCITIFDADSEEQQDLDLAILTALLKGTNLSASEQLNLAMAWDRVDIAKKHILIYEQHWKPDALEQAMSDALVMDRVDFVKLLIEYGVNLHRFLTIPRLEELYNTKQGPTNTLLHHLVQDVKQHTLLSGYRITLIDIGLVVEYLIGRAYRSNYTRKHFRALYNNLYRKYKHQRHSSGNRNESAESTLHSQFIRTAQPYKFKEKSIVLHKSRKKSKEQNVSDDPESTGFLYPYNDLLVWAVLMKRQKMAMFFWQHGEEATVKAVIACILYRAMAHEAKESHMVDDASEELKNYSKQFGQLALDLLEKAFKQNERMAMTLLTYELRNWSNSTCLKLAVSGGLRPFVSHTCTQMLLTDMWMGRLKMRKNSWLKIIISIILPPTILTLEFKSKAEMSHVPQSQDFQFMWYYSDQNASSSKESASVKEYDLERGHDEKLDENQHFGLESGHQHLPWTRKVYEFYSAPIVKFWFYTMAYLAFLMLFTYTVLVEMQPQPSVQEWLVSIYIFTNAIEVVREICISEPGKFTQKVKVWISEYWNLTETVAIGLFSAGFVLRWGDPPFHTAGRLIYCIDIIFWFSRLLDFFAVNQHAGPYVTMIAKMTANMFYIVIIMAIVLLSFGVARKAILSPKEPPSWSLARDIVFEPYWMIYGEVYAGEIDVCSSQPSCPPGSFLTPFLQAVYLFVQYIIMVNLLIAFFNNVYLDMESISNNLWKYNRYRYIMTYHEKPWLPPPLILLSHVGLLLRRLCCHRAPHDQEEGDVGLKLYLSKEDLKKLHDFEEQCVEKYFHEKMEDVNCSCEERIRVTSERVTEMYFQLKEMNEKVSFIKDSLLSLDSQVGHLQDLSALTVDTLKVLSAVDTLQEDEALLAKRKHSTCKKLPHSWSNVICAEVLGSMEIAGEKKYQYYSMPSSLLRSLAGGRHPPRVQRGALLEITNSKREATNVRNDQERQETQSSIVVSGVSPNRQAHSKYGQFLLVPSNLKRVPFSAETVLPLSRPSVPDVLATEQDIQTEVLVHLTGQTPVVSDWASVDEPKEKHEPIAHLLDGQDKAEQVLPTLSCTPEPMTMSSPLSQAKIMQTGGGYVNWAFSEGDETGVFSIKKKWQTCLPSTCDSDSSRSEQHQKQAQDSSLSDNSTRSAQSSECSEVGPWLQPNTSFWINPLRRYRPFARSHSFRFHKEEKLMKICKIKNLSGSSEIGQGAWVKAKMLTKDRRLSKKKKNTQGLQVPIITVNACSQSDQLNPEPGENSISEEEYSKNWFTVSKFSHTGVEPYIHQKMKTKEIGQCAIQISDYLKQSQEDLSKNSLWNSRSTNLNRNSLLKSSIGVDKISASLKSPQEPHHHYSAIERNNLMRLSQTIPFTPVQLFAGEEITVYRLEESSPLNLDKSMSSWSQRGRAAMIQVLSREEMDGGLRKAMRVVSTWSEDDILKPGQVFIVKSFLPEVVRTWHKIFQESTVLHLCLREIQQQRAAQKLIYTFNQVKPQTIPYTPRFLEVFLIYCHSANQWLTIEKYMTGEFRKYNNNNGDEITPTNTLEELMLAFSHWTYEYTRGELLVLDLQGVGENLTDPSVIKPEVKQSRGMVFGPANLGEDAIRNFIAKHHCNSCCRKLKLPDLKRNDYSPERINSTFGLEIKIESAEEPPARETGRNSPEDDMQL,Alpha,Transient receptor potential cation channel subfamily M member 6,TRPM6,Atypical,498,79,ChaK2,,Human,ChaK,,,,,,
+Q9BVS4,RIOK2,RIOK2,RIOK2,Serine/threonine-protein kinase RIO2,Atypical,RIO,RIO2,RIOK2,MGKVNVAKLRYMSRDDFRVLTAVEMGMKNHEIVPGSLIASIASLKHGGCNKVLRELVKHKLIAWERTKTVQGYRLTNAGYDYLALKTLSSRQVVESVGNQMGVGKESDIYIVANEEGQQFALKLHRLGRTSFRNLKNKRDYHKHRHNVSWLYLSRLSAMKEFAYMKALYERKFPVPKPIDYNRHAVVMELINGYPLCQIHHVEDPASVYDEAMELIVKLANHGLIHGDFNEFNLILDESDHITMIDFPQMVSTSHPNAEWYFDRDVKCIKDFFMKRFSYESELFPTFKDIRREDTLDVEVSASGYTKEMQADDELLHPLGPDDKNIETKEGSEFSFSDGEVAEKAEVYGSENESERNCLEESEGCYCRSSGDPEQIKEDSLSEESADARSFEMTEFNQALEEIKGQVVENNSVTEFSEEKNRTENYNRQDGQRVQGGVPAGSDEYEDECPHLIALSSLNREFRPFRDEENVGAMNQYRTRTLSITSSGSAVSCSTIPPELVKQKVKRQLTKQQKSAVRRRLQKGEANIFTKQRRENMQNIKSSLEAASFWGE,RIO,Serine/threonine-protein kinase RIO2,RIOK2,Atypical,2187,101,RIOK2,NQMGVGKESDIYIFALKLHSAMKEFAYMKALYFPVPKPIDYAVVMELINGYPLCQIHHVLANHG-LIHGDFNEFNLILMIDFPQM,Human,RIO2,,,,,,
+Q86TB3,ALPK2,AlphaK2,AlphaK2,Alpha-protein kinase 2,Atypical,Alpha,nan,ALPK2,MKDSEGPQRPPLCFLSTLLSQKVPEKSDAVLRCIISGQPKPEVTWYKNGQAIDGSGIISNYEFFENQYIHVLHLSCCTKNDAAVYQISAKNSFGMICCSASVEVECSSENPQLSPNLEDDRDRGWKHETGTHEEERANQIDEKEHPYKEEESISPGTPRSADSSPSKSNHSLSLQSLGNLDISVSSSENPLGVKGTRHTGEAYDPSNTEEIANGLLFLNSSHIYEKQDRCCHKTVHSMASKFTDGDLNNDGPHDEGLRSSQQNPKVQKYISFSLPLSEATAHIYPGDSAVANKQPSPQLSSEDSDSDYELCPEITLTYTEEFSDDDLEYLECSDVMTDYSNAVWQRNLLGTEHVFLLESDDEEMEFGEHCLGGCEHFLSGMGCGSRVSGDAGPMVATAGFCGHHSQPQEVGVRSSRVSKHGPSSPQTGMTLILGPHQDGTSSVTEQGRYKLPTAPEAAENDYPGIQGETRDSHQAREEFASDNLLNMDESVRETEMKLLSGESENSGMSQCWETAADKRVGGKDLWSKRGSRKSARVRQPGMKGNPKKPNANLRESTTEGTLHLCSAKESAEPPLTQSDKRETSHTTAAATGRSSHADARECAISTQAEQEAKTLQTSTDSVSKEGNTNCKGEGMQVNTLFETSQVPDWSDPPQVQVQETVRETISCSQMPAFSEPAGEESPFTGTTTISFSNLGGVHKENASLAQHSEVKPCTCGPQHEEKQDRDGNIPDNFREDLKYEQSISEANDETMSPGVFSRHLPKDARADFREPVAVSVASPEPTDTALTLENVCDEPRDREAVCAMECFEAGDQGTCFDTIDSLVGRPVDKYSPQEICSVDTELAEGQNKVSDLCSSNDKTLEVFFQTQVSETSVSTCKSSKDGNSVMSPLFTSTFTLNISHTASEGATGENLAKVENSTYPLASTVHAGQEQPSPSNSGGLDETQLLSSENNPLVQFKEGGDKSPSPSAADTTATPASYSSIVSFPWEKPTTLTANNECFQATRETEDTSTVTIATEVHPAKYLAVSIPEDKHAGGTEERFPRASHEKVSQFPSQVQLDHILSGATIKSTKELLCRAPSVPGVPHHVLQLPEGEGFCSNSPLQVDNLSGDKSQTVDRADFRSYEENFQERGSETKQGVQQQSLSQQGSLSAPDFQQSLPTTSAAQEERNLVPTAHSPASSREGAGQRSGWGTRVSVVAETAGEEDSQALSNVPSLSDILLEESKEYRPGNWEAGNKLKIITLEASASEIWPPRQLTNSESKASDGGLIIPDKVWAVPDSLKADAVVPELAPSEIAALAHSPEDAESALADSRESHKGEEPTISVHWRSLSSRGFSQPRLLESSVDPVDEKELSVTDSLSAASETGGKENVNNVSQDQEEKQLKMDHTAFFKKFLTCPKILESSVDPIDEISVIEYTRAGKPEPSETTPQGAREGGQSNDGNMGHEAEIQPAILQVPCLQGTILSENRISRSQEGSMKQEAEQIQPEEAKTAIWQVLQPSEGGERIPSGCSIGQIQESSDGSLGEAEQSKKDKAELISPTSPLSSCLPIMTHASLGVDTHNSTGQIHDVPENDIVEPRKRQYVFPVSQKRGTIENERGKPLPSSPDLTRFPCTSSPEGNVTDFLISHKMEEPKIEVLQIGETKPPSSSSSSAKTLAFISGERELEKAPKLLQDPCQKGTLGCAKKSREREKSLEARAGKSPGTLTAVTGSEEVKRKPEAPGSGHLAEGVKKKILSRVAALRLKLEEKENIRKNSAFLKKMPKLETSLSHTEEKQDPKKPSCKREGRAPVLLKKIQAEMFPEHSGNVKLSCQFAEIHEDSTICWTKDSKSIAQVQRSAGDNSTVSFAIVQASPKDQGLYYCCIKNSYGKVTAEFNLTAEVLKQLSSRQDTKGCEEIEFSQLIFKEDFLHDSYFGGRLRGQIATEELHFGEGVHRKAFRSTVMHGLMPVFKPGHACVLKVHNAIAYGTRNNDELIQRNYKLAAQECYVQNTARYYAKIYAAEAQPLEGFGEVPEIIPIFLIHRPENNIPYATVEEELIGEFVKYSIRDGKEINFLRRESEAGQKCCTFQHWVYQKTSGCLLVTDMQGVGMKLTDVGIATLAKGYKGFKGNCSMTFIDQFKALHQCNKYCKMLGLKSLQNNNQKQKQPSIGKSKVQTNSMTIKKAGPETPGEKKT,Alpha,Alpha-protein kinase 2,ALPK2,Atypical,0,77,AlphaK2,,Human,Alpha,,,,,,
+Q96QP1,ALPK1,AlphaK3,AlphaK3,Alpha-protein kinase 1,Atypical,Alpha,nan,ALPK1,MNNQKVVAVLLQECKQVLDQLLLEAPDVSEEDKSEDQRCRALLPSELRTLIQEAKEMKWPFVPEKWQYKQAVGPEDKTNLKDVIGAGLQQLLASLRASILARDCAAAAAIVFLVDRFLYGLDVSGKLLQVAKGLHKLQPATPIAPQVVIRQARISVNSGKLLKAEYILSSLISNNGATGTWLYRNESDKVLVQSVCIQIRGQILQKLGMWYEAAELIWASIVGYLALPQPDKKGLSTSLGILADIFVSMSKNDYEKFKNNPQINLSLLKEFDHHLLSAAEACKLAAAFSAYTPLFVLTAVNIRGTCLLSYSSSNDCPPELKNLHLCEAKEAFEIGLLTKRDDEPVTGKQELHSFVKAAFGLTTVHRRLHGETGTVHAASQLCKEAMGKLYNFSTSSRSQDREALSQEVMSVIAQVKEHLQVQSFSNVDDRSYVPESFECRLDKLILHGQGDFQKILDTYSQHHTSVCEVFESDCGNNKNEQKDAKTGVCITALKTEIKNIDTVSTTQEKPHCQRDTGISSSLMGKNVQRELRRGGRRNWTHSDAFRVSLDQDVETETEPSDYSNGEGAVFNKSLSGSQTSSAWSNLSGFSSSASWEEVNYHVDDRSARKEPGKEHLVDTQCSTALSEELENDREGRAMHSLHSQLHDLSLQEPNNDNLEPSQNQPQQQMPLTPFSPHNTPGIFLAPGAGLLEGAPEGIQEVRNMGPRNTSAHSRPSYRSASWSSDSGRPKNMGTHPSVQKEEAFEIIVEFPETNCDVKDRQGKEQGEEISERGAGPTFKASPSWVDPEGETAESTEDAPLDFHRVLHNSLGNISMLPCSSFTPNWPVQNPDSRKSGGPVAEQGIDPDASTVDEEGQLLDSMDVPCTNGHGSHRLCILRQPPGQRAETPNSSVSGNILFPVLSEDCTTTEEGNQPGNMLNCSQNSSSSSVWWLKSPAFSSGSSEGDSPWSYLNSSGSSWVSLPGKMRKEILEARTLQPDDFEKLLAGVRHDWLFQRLENTGVFKPSQLHRAHSALLLKYSKKSELWTAQETIVYLGDYLTVKKKGRQRNAFWVHHLHQEEILGRYVGKDYKEQKGLWHHFTDVERQMTAQHYVTEFNKRLYEQNIPTQIFYIPSTILLILEDKTIKGCISVEPYILGEFVKLSNNTKVVKTEYKATEYGLAYGHFSYEFSNHRDVVVDLQGWVTGNGKGLIYLTDPQIHSVDQKVFTTNFGKRGIFYFFNNQHVECNEICHRLSLTRPSMEKPCT,Alpha,Alpha-protein kinase 1,ALPK1,Atypical,0,75,AlphaK1,,Human,Alpha,,,,,,
+P25440,BRD2,BRD2,BRD2,Bromodomain-containing protein 2,Atypical,BRD,nan,BRD2,MLQNVTPHNKLPGEGNAGLLGLGPEAAAPGKRIRKPSLLYEGFESPTMASVPALQLTPANPPPPEVSNPKKPGRVTNQLQYLHKVVMKALWKHQFAWPFRQPVDAVKLGLPDYHKIIKQPMDMGTIKRRLENNYYWAASECMQDFNTMFTNCYIYNKPTDDIVLMAQTLEKIFLQKVASMPQEEQELVVTIPKNSHKKGAKLAALQGSVTSAHQVPAVSSVSHTALYTPPPEIPTTVLNIPHPSVISSPLLKSLHSAGPPLLAVTAAPPAQPLAKKKGVKRKADTTTPTPTAILAPGSPASPPGSLEPKAARLPPMRRESGRPIKPPRKDLPDSQQQHQSSKKGKLSEQLKHCNGILKELLSKKHAAYAWPFYKPVDASALGLHDYHDIIKHPMDLSTVKRKMENRDYRDAQEFAADVRLMFSNCYKYNPPDHDVVAMARKLQDVFEFRYAKMPDEPLEPGPLPVSTAMPPGLAKSSSESSSEESSSESSSEEEEEEDEEDEEEEESESSDSEEERAHRLAELQEQLRAVHEQLAALSQGPISKPKRKREKKEKKKKRKAEKHRGRAGADEDDKGPRAPRPPQPKKSKKASGSGGGSAALGPSGFGPSGGSGTKLPKKATKTAPPALPTGYDSEEEEESRPMSYDEKRQLSLDINKLPGEKLGRVVHIIQAREPSLRDSNPEEIEIDFETLKPSTLRELERYVLSCLRKKPRKPYTIKKPVGKTKEELALEKKRELEKRLQDVSGQLNSTKKPPKKANEKTESSSAQQVAVSRLSASSSSSDSSSSSSSSSSSDTSDSDSG,BRD,Bromodomain-containing protein 2,BRD2,Atypical,1944,83,BRD2,,Human,,,,,,,
+Q15059,BRD3,BRD3,BRD3,Bromodomain-containing protein 3,Atypical,BRD,nan,BRD3,MSTATTVAPAGIPATPGPVNPPPPEVSNPSKPGRKTNQLQYMQNVVVKTLWKHQFAWPFYQPVDAIKLNLPDYHKIIKNPMDMGTIKKRLENNYYWSASECMQDFNTMFTNCYIYNKPTDDIVLMAQALEKIFLQKVAQMPQEEVELLPPAPKGKGRKPAAGAQSAGTQQVAAVSSVSPATPFQSVPPTVSQTPVIAATPVPTITANVTSVPVPPAAAPPPPATPIVPVVPPTPPVVKKKGVKRKADTTTPTTSAITASRSESPPPLSDPKQAKVVARRESGGRPIKPPKKDLEDGEVPQHAGKKGKLSEHLRYCDSILREMLSKKHAAYAWPFYKPVDAEALELHDYHDIIKHPMDLSTVKRKMDGREYPDAQGFAADVRLMFSNCYKYNPPDHEVVAMARKLQDVFEMRFAKMPDEPVEAPALPAPAAPMVSKGAESSRSSEESSSDSGSSDSEEERATRLAELQEQLKAVHEQLAALSQAPVNKPKKKKEKKEKEKKKKDKEKEKEKHKVKAEEEKKAKVAPPAKQAQQKKAPAKKANSTTTAGRQLKKGGKQASASYDSEEEEEGLPMSYDEKRQLSLDINRLPGEKLGRVVHIIQSREPSLRDSNPDEIEIDFETLKPTTLRELERYVKSCLQKKQRKPFSASGKKQAAKSKEELAQEKKKELEKRLQDVSGQLSSSKKPARKEKPGSAPSGGPSRLSSSSSSESGSSSSSGSSSDSSDSE,BRD,Bromodomain-containing protein 3,BRD3,Atypical,2725,84,BRD3,,Human,,,,,,,
+O60885,BRD4,BRD4,BRD4,BRD4 protein,Atypical,BRD,nan,BRD4,MSAESGPGTRLRNLPVMGDGLETSQMSTTQAQAQPQPANAASTNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTEETEIMIVQAKGRGRGRKETGTAKPGVSTVPNTTQASTPPQTQTPQPNPPPVQATPHPFPAVTPDLIVQTPVMTVVPPQPLQTPPPVPPQPQPPPAPAPQPVQSHPPIIAATPQPVKTKKGVKRKADTTTPTTIDPIHEPPSLPPEPKTTKLGQRRESSRPVKPPKKDVPDSQQHPAPEKSSKVSEQLKCCSGILKEMFAKKHAAYAWPFYKPVDVEALGLHDYCDIIKHPMDMSTIKSKLEAREYRDAQEFGADVRLMFSNCYKYNPPDHEVVAMARKLQDVFEMRFAKMPDEPEEPVVAVSSPAVPPPTKVVAPPSSSDSSSDSSSDSDSSTDDSEEERAQRLAELQEQLKAVHEQLAALSQPQQNKPKKKEKDKKEKKKEKHKRKEEVEENKKSKAKEPPPKKTKKNNSSNSNVSKKEPAPMKSKPPPTYESEEEDKCKPMSYEEKRQLSLDINKLPGEKLGRVVHIIQSREPSLKNSNPDEIEIDFETLKPSTLRELERYVTSCLRKKRKPQAEKVDVIAGSSKMKGFSSSESESSSESSSSDSEDSETEMAPKSKKKGHPGREQKKHHHHHHQQMQQAPAPVPQQPPPPPQQPPPPPPPQQQQQPPPPPPPPSMPQQAAPAMKSSPPPFIATQVPVLEPQLPGSVFDPIGHFTQPILHLPQPELPPHLPQPPEHSTPPHLNQHAVVSPPALHNALPQQPSRPSNRAAALPPKPARPPAVSPALTQTPLLPQPPMAQPPQVLLEDEEPPAPPLTSMQMQLYLQQLQKVQPPTPLLPSVKVQSQPPPPLPPPPHPSVQQQLQQQPPPPPPPQPQPPPQQQHQPPPRPVHLQPMQFSTHIQQPPPPQGQQPPHPPPGQQPPPPQPAKPQQVIQHHHSPRHHKSDPYSTGHLREAPSPLMIHSPQMSQFQSLTHQSPPQQNVQPKKQELRAASVVQPQPLVVVKEEKIHSPIIRSEPFSPSLRPEPPKHPESIKAPVHLPQRPEMKPVDVGRPVIRPPEQNAPPPGAPDKDKQKQEPKTPVAPKKDLKIKNMGSWASLVQKHPTTPSSTAKSSSDSFEQFRRAAREKEEREKALKAQAEHAEKEKERLRQERMRSREDEDALEQARRAHEEARRRQEQQQQQRQEQQQQQQQQAAAVAAAATPQAQSSQPQSMLDQQRELARKREQERRRREAMAATIDMNFQSDLLSIFEENLF,BRD,Bromodomain-containing protein 4,BRD4,Atypical,1945,85,BRD4,,Human,,,,,,,
+Q58F21,BRDT,BRDT,BRDT,Bromodomain testis-specific protein,Atypical,BRD,nan,BRDT,MSLPSRQTAIIVNPPPPEYINTKKNGRLTNQLQYLQKVVLKDLWKHSFSWPFQRPVDAVKLQLPDYYTIIKNPMDLNTIKKRLENKYYAKASECIEDFNTMFSNCYLYNKPGDDIVLMAQALEKLFMQKLSQMPQEEQVVGVKERIKKGTQQNIAVSSAKEKSSPSATEKVFKQQEIPSVFPKTSISPLNVVQGASVNSSSQTAAQVTKGVKRKADTTTPATSAVKASSEFSPTFTEKSVALPPIKENMPKNVLPDSQQQYNVVKTVKVTEQLRHCSEILKEMLAKKHFSYAWPFYNPVDVNALGLHNYYDVVKNPMDLGTIKEKMDNQEYKDAYKFAADVRLMFMNCYKYNPPDHEVVTMARMLQDVFETHFSKIPIEPVESMPLCYIKTDITETTGRENTNEASSEGNSSDDSEDERVKRLAKLQEQLKAVHQQLQVLSQVPFRKLNKKKEKSKKEKKKEKVNNSNENPRKMCEQMRLKEKSKRNQPKKRKQQFIGLKSEDEDNAKPMNYDEKRQLSLNINKLPGDKLGRVVHIIQSREPSLSNSNPDEIEIDFETLKASTLRELEKYVSACLRKRPLKPPAKKIMMSKEELHSQKKQELEKRLLDVNNQLNSRKRQTKSDKTQPSKAVENVSRLSESSSSSSSSSESESSSSDLSSSDSSDSESEMFPKFTEVKPNDSPSKENVKKMKNECIPPEGRTGVTQIGYCVQDTTSANTTLVHQTTPSHVMPPNHHQLAFNYQELEHLQTVKNISPLQILPPSGDSEQLSNGITVMHPSGDSDTTMLESECQAPVQKDIKIKNADSWKSLGKPVKPSGVMKSSDELFNQFRKAAIEKEVKARTQELIRKHLEQNTKELKASQENQRDLGNGLTVESFSNKIQNKCSGEEQKEHQQSSEAQDKSKLWLLKDRDLARQKEQERRRREAMVGTIDMTLQSDIMTMFENNFD,BRD,Bromodomain testis-specific protein,BRDT,Atypical,2729,82,BRDT,,Human,,,,,,,
+Q96L96,ALPK3,AlphaK1,AlphaK1,Alpha-protein kinase 3,Atypical,Alpha,nan,ALPK3,MGSRRAPSRGWGAGGRSGAGGDGEDDGPVWIPSPASRSYLLSVRPETSLSSNRLSHPSSGRSTFCSIIAQLTEETQPLFETTLKSRSVSEDSDVRFTCIVTGYPEPEVTWYKDDTELDRYCGLPKYEITHQGNRHTLQLYRCREEDAAIYQASAQNSKGIVSCSGVLEVGTMTEYKIHQRWFAKLKRKAAAKLREIEQSWKHEKAVPGEVDTLRKLSPDRFQRKRRLSGAQAPGPSVPTREPEGGTLAAWQEGETETAQHSGLGLINSFASGEVTTNGEAAPENGEDGEHGLLTYICDAMELGPQRALKEESGAKKKKKDEESKQGLRKPELEKAAQSRRSSENCIPSSDEPDSCGTQGPVGVEQVQTQPRGRAARGPGSSGTDSTRKPASAVGTPDKAQKAPGPGPGQEVYFSLKDMYLENTQAVRPLGEEGPQTLSVRAPGESPKGKAPLRARSEGVPGAPGQPTHSLTPQPTRPFNRKRFAPPKPKGEATTDSKPISSLSQAPECGAQSLGKAPPQASVQVPTPPARRRHGTRDSTLQGQAGHRTPGEVLECQTTTAPTMSASSSSDVASIGVSTSGSQGIIEPMDMETQEDGRTSANQRTGSKKNVQADGKIQVDGRTRGDGTQTAQRTRADRKTQVDAGTQESKRPQSDRSAQKGMMTQGRAETQLETTQAGEKIQEDRKAQADKGTQEDRRMQGEKGMQGEKGTQSEGSAPTAMEGQSEQEVATSLGPPSRTPKLPPTAGPRAPLNIECFVQTPEGSCFPKKPGCLPRSEEAVVTASRNHEQTVLGPLSGNLMLPAQPPHEGSVEQVGGERCRGPQSSGPVEAKQEDSPFQCPKEERPGGVPCMDQGGCPLAGLSQEVPTMPSLPGTGLTASPKAGPCSTPTSQHGSTATFLPSEDQVLMSSAPTLHLGLGTPTQSHPPETMATSSEGACAQVPDVEGRTPGPRSCDPGLIDSLKNYLLLLLKLSSTETSGAGGESQVGAATGGLVPSATLTPTVEVAGLSPRTSRRILERVENNHLVQSAQTLLLSPCTSRRLTGLLDREVQAGRQALAAARGSWGPGPSSLTVPAIVVDEEDPGLASEGASEGEGEVSPEGPGLLGASQESSMAGRLGEAGGQAAPGQGPSAESIAQEPSQEEKFPGEALTGLPAATPEELALGARRKRFLPKVRAAGDGEATTPEERESPTVSPRGPRKSLVPGSPGTPGRERRSPTQGRKASMLEVPRAEEELAAGDLGPSPKAGGLDTEVALDEGKQETLAKPRKAKDLLKAPQVIRKIRVEQFPDASGSLKLWCQFFNILSDSVLTWAKDQRPVGEVGRSAGDEGPAALAIVQASPVDCGVYRCTIHNEHGSASTDFCLSPEVLSGFISREEGEVGEEIEMTPMVFAKGLADSGCWGDKLFGRLVSEELRGGGYGCGLRKASQAKVIYGLEPIFESGRTCIIKVSSLLVFGPSSETSLVGRNYDVTIQGCKIQNMSREYCKIFAAEARAAPGFGEVPEIIPLYLIYRPANNIPYATLEEDLGKPLESYCSREWGCAEAPTASGSSEAMQKCQTFQHWLYQWTNGSFLVTDLAGVDWKMTDVQIATKLRGYQGLKESCFPALLDRFASSHQCNAYCELLGLTPLKGPEAAHPQAKAKGSKSPSAGRKGSQLSPQPQKKGLPSPQGTRKSAPSSKATPQASEPVTTQLLGQPPTQEEGSKAQGMR,Alpha,Alpha-protein kinase 3,ALPK3,Atypical,0,76,AlphaK3,,Human,Alpha,,,,,,
+Q3MIX3,ADCK5,ADCK5,ADCK5,Uncharacterized aarF domain-containing protein kinase 5,Atypical,ABC1,ABC1-D,ADCK5,MWRPVQLCHFHSALLHSRQKPWPSPAVFFRRNVRGLPPRFSSPTPLWRKVLSTAVVGAPLLLGARYVMAEAREKRRMRLVVDGMGRFGRSLKVGLQISLDYWWCTNVVLRGVEENSPGYLEVMSACHQRAADALVAGAISNGGLYVKLGQGLCSFNHLLPPEYTRTLRVLEDRALKRGFQEVDELFLEDFQALPHELFQEFDYQPIAAASLAQVHRAKLHDGTSVAVKVQYIDLRDRFDGDIHTLELLLRLVEVMHPSFGFSWVLQDLKGTLAQELDFENEGRNAERCARELAHFPYVVVPRVHWDKSSKRVLTADFCAGCKVNDVEAIRSQGLAVHDIAEKLIKAFAEQIFYTGFIHSDPHPGNVLVRKGPDGKAELVLLDHGLYQFLEEKDRAALCQLWRAIILRDDAAMRAHAAALGVQDYLLFAEMLMQRPVRLGQLWGSHLLSREEAAYMVDMARERFEAVMAVLRELPRPMLLVLRNINTVRAINVALGAPVDRYFLMAKRAVRGWSRLAGATYRGVYGTSLLRHAKVVWEMLKFEVALRLETLAMRLTALLARALVHLSLVPPAEELYQYLET,ABC1,Uncharacterized aarF domain-containing protein kinase 5,ADCK5,Atypical,1929,73,ADCK5,QPIAAASLAQVHRVAVKVQDFENEGRNAERCAVVVPRVHWDKRVLTADFCKVNDVEAIRFYTG--FIHSDPHPGNVLVLLDHGLY,Human,ABC1-,,,,,,
+O15164,TRIM24,TIF1a,TIF1a,Transcription intermediary factor 1-alpha,Atypical,TIF1,nan,TRIM24,MEVAVEKAVAAAAAASAAASGGPSAAPSGENEAESRQGPDSERGGEAARLNLLDTCAVCHQNIQSRAPKLLPCLHSFCQRCLPAPQRYLMLPAPMLGSAETPPPVPAPGSPVSGSSPFATQVGVIRCPVCSQECAERHIIDNFFVKDTTEVPSSTVEKSNQVCTSCEDNAEANGFCVECVEWLCKTCIRAHQRVKFTKDHTVRQKEEVSPEAVGVTSQRPVFCPFHKKEQLKLYCETCDKLTCRDCQLLEHKEHRYQFIEEAFQNQKVIIDTLITKLMEKTKYIKFTGNQIQNRIIEVNQNQKQVEQDIKVAIFTLMVEINKKGKALLHQLESLAKDHRMKLMQQQQEVAGLSKQLEHVMHFSKWAVSSGSSTALLYSKRLITYRLRHLLRARCDASPVTNNTIQFHCDPSFWAQNIINLGSLVIEDKESQPQMPKQNPVVEQNSQPPSGLSSNQLSKFPTQISLAQLRLQHMQQQVMAQRQQVQRRPAPVGLPNPRMQGPIQQPSISHQQPPPRLINFQNHSPKPNGPVLPPHPQQLRYPPNQNIPRQAIKPNPLQMAFLAQQAIKQWQISSGQGTPSTTNSTSSTPSSPTITSAAGYDGKAFGSPMIDLSSPVGGSYNLPSLPDIDCSSTIMLDNIVRKDTNIDHGQPRPPSNRTVQSPNSSVPSPGLAGPVTMTSVHPPIRSPSASSVGSRGSSGSSSKPAGADSTHKVPVVMLEPIRIKQENSGPPENYDFPVVIVKQESDEESRPQNANYPRSILTSLLLNSSQSSTSEETVLRSDAPDSTGDQPGLHQDNSSNGKSEWLDPSQKSPLHVGETRKEDDPNEDWCAVCQNGGELLCCEKCPKVFHLSCHVPTLTNFPSGEWICTFCRDLSKPEVEYDCDAPSHNSEKKKTEGLVKLTPIDKRKCERLLLFLYCHEMSLAFQDPVPLTVPDYYKIIKNPMDLSTIKKRLQEDYSMYSKPEDFVADFRLIFQNCAEFNEPDSEVANAGIKLENYFEELLKNLYPEKRFPKPEFRNESEDNKFSDDSDDDFVQPRKKRLKSIEERQLLK,TIF1,Transcription intermediary factor 1-alpha,TRIM24,Atypical,2252,105,TIF1a,,Human,,,,,,,
+Q13263,TRIM28,TIF1b,TIF1b,Transcription intermediary factor 1-beta,Atypical,TIF1,nan,TRIM28,MAASAAAASAAAASAASGSPGPGEGSAGGEKRSTAPSAAASASASAAASSPAGGGAEALELLEHCGVCRERLRPEREPRLLPCLHSACSACLGPAAPAAANSSGDGGAAGDGTVVDCPVCKQQCFSKDIVENYFMRDSGSKAATDAQDANQCCTSCEDNAPATSYCVECSEPLCETCVEAHQRVKYTKDHTVRSTGPAKSRDGERTVYCNVHKHEPLVLFCESCDTLTCRDCQLNAHKDHQYQFLEDAVRNQRKLLASLVKRLGDKHATLQKSTKEVRSSIRQVSDVQKRVQVDVKMAILQIMKELNKRGRVLVNDAQKVTEGQQERLERQHWTMTKIQKHQEHILRFASWALESDNNTALLLSKKLIYFQLHRALKMIVDPVEPHGEMKFQWDLNAWTKSAEAFGKIVAERPGTNSTGPAPMAPPRAPGPLSKQGSGSSQPMEVQEGYGFGSGDDPYSSAEPHVSGVKRSRSGEGEVSGLMRKVPRVSLERLDLDLTADSQPPVFKVFPGSTTEDYNLIVIERGAAAAATGQPGTAPAGTPGAPPLAGMAIVKEEETEAAIGAPPTATEGPETKPVLMALAEGPGAEGPRLASPSGSTSSGLEVVAPEGTSAPGGGPGTLDDSATICRVCQKPGDLVMCNQCEFCFHLDCHLPALQDVPGEEWSCSLCHVLPDLKEEDGSLSLDGADSTGVVAKLSPANQRKCERVLLALFCHEPCRPLHQLATDSTFSLDQPGGTLDLTLIRARLQEKLSPPYSSPQEFAQDVGRMFKQFNKLTEDKADVQSIIGLQRFFETRMNEAFGDTKFSAVLVEPPPMSLPGAGLSSQELSGGPGDGP,TIF1,Transcription intermediary factor 1-beta,TRIM28,Atypical,2253,106,TIF1b,,Human,,,,,,,
+Q9UPN9,TRIM33,TIF1g,TIF1g,E3 ubiquitin-protein ligase TRIM33,Atypical,TIF1,nan,TRIM33,MAENKGGGEAESGGGGSGSAPVTAGAAGPAAQEAEPPLTAVLVEEEEEEGGRAGAEGGAAGPDDGGVAAASSGSAQAASSPAASVGTGVAGGAVSTPAPAPASAPAPGPSAGPPPGPPASLLDTCAVCQQSLQSRREAEPKLLPCLHSFCLRCLPEPERQLSVPIPGGSNGDIQQVGVIRCPVCRQECRQIDLVDNYFVKDTSEAPSSSDEKSEQVCTSCEDNASAVGFCVECGEWLCKTCIEAHQRVKFTKDHLIRKKEDVSESVGASGQRPVFCPVHKQEQLKLFCETCDRLTCRDCQLLEHKEHRYQFLEEAFQNQKGAIENLLAKLLEKKNYVHFAATQVQNRIKEVNETNKRVEQEIKVAIFTLINEINKKGKSLLQQLENVTKERQMKLLQQQNDITGLSRQVKHVMNFTNWAIASGSSTALLYSKRLITFQLRHILKARCDPVPAANGAIRFHCDPTFWAKNVVNLGNLVIESKPAPGYTPNVVVGQVPPGTNHISKTPGQINLAQLRLQHMQQQVYAQKHQQLQQMRMQQPPAPVPTTTTTTQQHPRQAAPQMLQQQPPRLISVQTMQRGNMNCGAFQAHQMRLAQNAARIPGIPRHSGPQYSMMQPHLQRQHSNPGHAGPFPVVSVHNTTINPTSPTTATMANANRGPTSPSVTAIELIPSVTNPENLPSLPDIPPIQLEDAGSSSLDNLLSRYISGSHLPPQPTSTMNPSPGPSALSPGSSGLSNSHTPVRPPSTSSTGSRGSCGSSGRTAEKTSLSFKSDQVKVKQEPGTEDEICSFSGGVKQEKTEDGRRSACMLSSPESSLTPPLSTNLHLESELDALASLENHVKIEPADMNESCKQSGLSSLVNGKSPIRSLMHRSARIGGDGNNKDDDPNEDWCAVCQNGGDLLCCEKCPKVFHLTCHVPTLLSFPSGDWICTFCRDIGKPEVEYDCDNLQHSKKGKTAQGLSPVDQRKCERLLLYLYCHELSIEFQEPVPASIPNYYKIIKKPMDLSTVKKKLQKKHSQHYQIPDDFVADVRLIFKNCERFNEMMKVVQVYADTQEINLKADSEVAQAGKAVALYFEDKLTEIYSDRTFAPLPEFEQEEDDGEVTEDSDEDFIQPRRKRLKSDERPVHIK,TIF1,E3 ubiquitin-protein ligase TRIM33,TRIM33,Atypical,2254,107,TIF1g,,Human,,,,,,,
+Q58A45,PAN3,PAN3,PAN3,PAB-dependent poly(A)-specific ribonuclease subunit 3,Other,PAN3,nan,PAN3,MNSGGGLPPPSAAASPSSSSLAAAVAVVAPPGVGGVPGGAAVGVKLKYCRYYAKDKTCFYGEECQFLHEDPAAGAAPGLGLHSNSVPLALAGAPVAGFPPGAVAGGGAGPPPGPKKPDLGDPGTGAAAGGGGSSGGLDGPRLAIPGMDGGALTDTSLTDSYFSTSFIGVNGFGSPVETKYPLMQRMTNSSSSPSLLNDSAKPYSAHDPLTSPASSLFNDFGALNISQRRKPRKYRLGMLEERLVPMGSKARKAKNPIGCLADRCKSGVPINMVWWNRVTENNLQTPNPTASEFIPKGGSTSRLSNVSQSNMSAFSQVFSHPSMGSPATAGLAPGMSLSAGSSPLHSPKITPHTSPAPRRRSHTPNPASYMVPSSASTSVNNPVSQTPSSGQVIQKETVGGTTYFYTDTTPAPLTGMVFPNYHIYPPTAPHVAYMQPKANAPSFFMADELRQELINRHLITMAQIDQADMPAVPTEVDSYHSLFPLEPLPPPNRIQKSSNFGYITSCYKAVNSKDDLPYCLRRIHGFRLVNTKCMVLVDMWKKIQHSNIVTLREVFTTKAFAEPSLVFAYDFHAGGETMMSRHFNDPNADAYFTKRKWGQHEGPLPRQHAGLLPESLIWAYIVQLSSALRTIHTAGLACRVMDPTKILITGKTRLRVNCVGVFDVLTFDNSQNNNPLALMAQYQQADLISLGKVVLALACNSLAGIQRENLQKAMELVTINYSSDLKNLILYLLTDQNRMRSVNDIMPMIGARFYTQLDAAQMRNDVIEEDLAKEVQNGRLFRLLAKLGTINERPEFQKDPTWSETGDRYLLKLFRDHLFHQVTEAGAPWIDLSHIISCLNKLDAGVPEKISLISRDEKSVLVVTYSDLKRCFENTFQELIAAANGQL,PAN3,PAN3 poly(A) specific ribonuclease subunit,PAN3,Other,0,1106,PAN3,RIQKSSNFGYITSPYCLRRCM-VLVDMWKKIQSNIVTLREVAYDFHAGGETMMSRHFNDTIHTAGLACRVMDPTKILIVNCVGVF,Human,0,,,,,,
+Q14296,FASTK,FASTK,FASTK,Fas-activated serine/threonine kinase,Atypical,FAST,nan,FASTK,MRRPRGEPGPRAPRPTEGATCAGPGESWSPSPNSMLRVLLSAQTSPARLSGLLLIPPVQPCCLGPSKWGDRPVGGGPSAGPVQGLQRLLEQAKSPGELLRWLGQNPSKVRAHHYSVALRRLGQLLGSRPRPPPVEQVTLQDLSQLIIRNCPSFDIHTIHVCLHLAVLLGFPSDGPLVCALEQERRLRLPPKPPPPLQPLLRGGQGLEAALSCPRFLRYPRQHLISSLAEARPEELTPHVMVLLAQHLARHRLREPQLLEAIAHFLVVQETQLSSKVVQKLVLPFGRLNYLPLEQQFMPCLERILAREAGVAPLATVNILMSLCQLRCLPFRALHFVFSPGFINYISGTPHALIVRRYLSLLDTAVELELPGYRGPRLPRRQQVPIFPQPLITDRARCKYSHKDIVAEGLRQLLGEEKYRQDLTVPPGYCTDFLLCASSSGAVLPVRTQDPFLPYPPRSCPQGQAASSATTRDPAQRVVLVLRERWHFCRDGRVLLGSRALRERHLGLMGYQLLPLPFEELESQRGLPQLKSYLRQKLQALGLRWGPEGG,FAST,Fas-activated serine/threonine kinase,FASTK,Atypical,0,86,FASTK,,Human,,,,,,,
+P49842,STK19,G11,G11,Serine/threonine-protein kinase 19,Atypical,G11,nan,STK19,MSWKRHHLIPETFGVKRRRKRGPVESDPLRGEPGSARAAVSELMQLFPRGLFEDALPPIVLRSQVYSLVPDRTVADRQLKELQEQGEIRIVQLGFDLDAHGIIFTEDYRTRVLKACDGRPYAGAVQKFLASVLPACGDLSFQQDQMTQTFGFRDSEITHLVNAGVLTVRDAGSWWLAVPGAGRFIKYFVKGRQAVLSMVRKAKYRELLLSELLGRRAPVVVRLGLTYHVHDLIGAQLVDCISTTSGTLLRLPET,G11,Serine/threonine-protein kinase 19,STK19,Atypical,2216,87,G11,,Human,,,,,,,
+P21675,TAF1,TAF1,TAF1,Transcription initiation factor TFIID subunit 1,Atypical,TAF1,nan,TAF1,MGPGCDLLLRTAATITAAAIMSDTDSDEDSAGGGPFSLAGFLFGNINGAGQLEGESVLDDECKKHLAGLGALGLGSLITELTANEELTGTDGALVNDEGWVRSTEDAVDYSDINEVAEDESRRYQQTMGSLQPLCHSDYDEDDYDADCEDIDCKLMPPPPPPPGPMKKDKDQDSITGVSENGEGIILPSIIAPSSLASEKVDFSSSSDSESEMGPQEATQAESEDGKLTLPLAGIMQHDATKLLPSVTELFPEFRPGKVLRFLRLFGPGKNVPSVWRSARRKRKKKHRELIQEEQIQEVECSVESEVSQKSLWNYDYAPPPPPEQCLSDDEITMMAPVESKFSQSTGDIDKVTDTKPRVAEWRYGPARLWYDMLGVPEDGSGFDYGFKLRKTEHEPVIKSRMIEEFRKLEENNGTDLLADENFLMVTQLHWEDDIIWDGEDVKHKGTKPQRASLAGWLPSSMTRNAMAYNVQQGFAATLDDDKPWYSIFPIDNEDLVYGRWEDNIIWDAQAMPRLLEPPVLTLDPNDENLILEIPDEKEEATSNSPSKESKKESSLKKSRILLGKTGVIKEEPQQNMSQPEVKDPWNLSNDEYYYPKQQGLRGTFGGNIIQHSIPAVELRQPFFPTHMGPIKLRQFHRPPLKKYSFGALSQPGPHSVQPLLKHIKKKAKMREQERQASGGGEMFFMRTPQDLTGKDGDLILAEYSEENGPLMMQVGMATKIKNYYKRKPGKDPGAPDCKYGETVYCHTSPFLGSLHPGQLLQAFENNLFRAPIYLHKMPETDFLIIRTRQGYYIRELVDIFVVGQQCPLFEVPGPNSKRANTHIRDFLQVFIYRLFWKSKDRPRRIRMEDIKKAFPSHSESSIRKRLKLCADFKRTGMDSNWWVLKSDFRLPTEEEIRAMVSPEQCCAYYSMIAAEQRLKDAGYGEKSFFAPEEENEEDFQMKIDDEVRTAPWNTTRAFIAAMKGKCLLEVTGVADPTGCGEGFSYVKIPNKPTQQKDDKEPQPVKKTVTGTDADLRRLSLKNAKQLLRKFGVPEEEIKKLSRWEVIDVVRTMSTEQARSGEGPMSKFARGSRFSVAEHQERYKEECQRIFDLQNKVLSSTEVLSTDTDSSSAEDSDFEEMGKNIENMLQNKKTSSQLSREREEQERKELQRMLLAAGSAASGNNHRDDDTASVTSLNSSATGRCLKIYRTFRDEEGKEYVRCETVRKPAVIDAYVRIRTTKDEEFIRKFALFDEQHREEMRKERRRIQEQLRRLKRNQEKEKLKGPPEKKPKKMKERPDLKLKCGACGAIGHMRTNKFCPLYYQTNAPPSNPVAMTEEQEEELEKTVIHNDNEELIKVEGTKIVLGKQLIESADEVRRKSLVLKFPKQQLPPKKKRRVGTTVHCDYLNRPHKSIHRRRTDPMVTLSSILESIINDMRDLPNTYPFHTPVNAKVVKDYYKIITRPMDLQTLRENVRKRLYPSREEFREHLELIVKNSATYNGPKHSLTQISQSMLDLCDEKLKEKEDKLARLEKAINPLLDDDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKVIVNPMDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNVCYQTLTEYDEHLTQLEKDICTAKEAALEEAELESLDPMTPGPYTPQPPDLYDTNTSLSMSRDASVFQDESNMSVLDIPSATPEKQVTQEGEDGDGDLADEEEGTVQQPQASVLYEDLLMSEGEDDEEDAGSDEEGDNPFSAIQLSESGSDSDVGSGGIRPKQPRMLQENTRMDMENEESMMSYEGDGGEASHGLEDSNISYGSYEEPDPKSNTQDTSFSSIGGYEVSEEEEDEEEEEQRSGPSVLSQVHLSEDEEDSEDFHSIAGDSDLDSDE,TAF1,Transcription initiation factor TFIID subunit 1,TAF1,Atypical,2231,103,TAF1,,Human,,,,,,,
+Q8IZX4,TAF1L,TAF1L,TAF1L,Transcription initiation factor TFIID subunit 1-like,Atypical,TAF1,nan,TAF1L,MRPGCDLLLRAAATVTAAIMSDSDSEEDSSGGGPFTLAGILFGNISGAGQLEGESVLDDECKKHLAGLGALGLGSLITELTANEELTGTGGALVNDEGWIRSTEDAVDYSDINEVAEDESQRHQQTMGSLQPLYHSDYDEDDYDADCEDIDCKLMPPPPPPPGPMKKDKDQDAITCVSESGEDIILPSIIAPSFLASEKVDFSSYSDSESEMGPQEATQAESEDGKLTLPLAGIMQHDATKLLPSVTELFPEFRPGKVLRFLHLFGPGKNVPSVWRSARRKRKKHRELIQEEQIQEVECSVESEVSQKSLWNYDYAPPPPPEQCLADDEITMMVPVESKFSQSTGDVDKVTDTKPRVAEWRYGPARLWYDMLGVSEDGSGFDYGFKLRKTQHEPVIKSRMMEEFRKLEESNGTDLLADENFLMVTQLHWEDSIIWDGEDIKHKGTKPQGASLAGWLPSIKTRNVMAYNVQQGFAPTLDDDKPWYSIFPIDNEDLVYGRWEDNIIWDAQAMPRLLEPPVLALDPNDENLILEIPDEKEEATSNSPSKESKKESSLKKSRILLGKTGVIREEPQQNMSQPEVKDPWNLSNDEYYFPKQQGLRGTFGGNIIQHSIPAMELWQPFFPTHMGPIKIRQFHRPPLKKYSFGALSQPGPHSVQPLLKHIKKKAKMREQERQASGGGELFFMRTPQDLTGKDGDLILAEYSEENGPLMMQVGMATKIKNYYKRKPGKDPGAPDCKYGETVYCHTSPFLGSLHPGQLLQALENNLFRAPVYLHKMPETDFLIIRTRQGYYIRELVDIFVVGQQCPLFEVPGPNSRRANMHIRDFLQVFIYRLFWKSKDRPRRIRMEDIKKAFPSHSESSIRKRLKLCADFKRTGMDSNWWVLKSDFRLPTEEEIRAKVSPEQCCAYYSMIAAKQRLKDAGYGEKSFFAPEEENEEDFQMKIDDEVHAAPWNTTRAFIAAMKGKCLLEVTGVADPTGCGEGFSYVKIPNKPTQQKDDKEPQAVKKTVTGTDADLRRLSLKNAKQLLRKFGVPEEEIKKLSRWEVIDVVRTMSTEQAHSGEGPMSKFARGSRFSVAEHQERYKEECQRIFDLQNKVLSSTEVLSTDTDSISAEDSDFEEMGKNIENMLQNKKTSSQLSREWEEQERKELRRMLLVAGSAASGNNHRDDVTASMTSLKSSATGHCLKIYRTFRDEEGKEYVRCETVRKPAVIDAYVRIRTTKDEKFIQKFALFDEKHREEMRKERRRIQEQLRRLKRNQEKEKLKGPPEKKPKKMKERPDLKLKCGACGAIGHMRTNKFCPLYYQTNVPPSKPVAMTEEQEEELEKTVIHNDNEELIKVEGTKIVFGKQLIENVHEVRRKSLVLKFPKQQLPPKKKRRVGTTVHCDYLNIPHKSIHRRRTDPMVTLSSILESIINDMRDLPNTHPFHTPVNAKVVKDYYKIITRPMDLQTLRENVRKCLYPSREEFREHLELIVKNSATYNGPKHSLTQISQSMLDLCDEKLKEKEDKLARLEKAINPLLDDDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKMIVNPVDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNICYQTITEYDEHLTQLEKDICTAKEAALEEAELESLDPMTPGPYTSQPPDMYDTNTSLSTSRDASVFQDESNLSVLDISTATPEKQMCQGQGRLGEEDSDVDVEGYDDEEEDGKPKPPAPEGGDGDLADEEEGTVQQPEASVLYEDLLISEGEDDEEDAGSDEEGDNPFSAIQLSESGSDSDVGYGGIRPKQPFMLQHASGEHKDGHGK,TAF1,Transcription initiation factor TFIID subunit 1-like,TAF1L,Atypical,2232,104,TAF1L,,Human,,,,,,,
+P11274,BCR,BCR,BCR,Breakpoint cluster region protein,Atypical,BCR,nan,BCR,MVDPVGFAEAWKAQFPDSEPPRMELRSVGDIEQELERCKASIRRLEQEVNQERFRMIYLQTLLAKEKKSYDRQRWGFRRAAQAPDGASEPRASASRPQPAPADGADPPPAEEPEARPDGEGSPGKARPGTARRPGAAASGERDDRGPPASVAALRSNFERIRKGHGQPGADAEKPFYVNVEFHHERGLVKVNDKEVSDRISSLGSQAMQMERKKSQHGAGSSVGDASRPPYRGRSSESSCGVDGDYEDAELNPRFLKDNLIDANGGSRPPWPPLEYQPYQSIYVGGMMEGEGKGPLLRSQSTSEQEKRLTWPRRSYSPRSFEDCGGGYTPDCSSNENLTSSEEDFSSGQSSRVSPSPTTYRMFRDKSRSPSQNSQQSFDSSSPPTPQCHKRHRHCPVVVSEATIVGVRKTGQIWPNDGEGAFHGDADGSFGTPPGYGCAADRAEEQRRHQDGLPYIDDSPSSSPHLSSKGRGSRDALVSGALESTKASELDLEKGLEMRKWVLSGILASEETYLSHLEALLLPMKPLKAAATTSQPVLTSQQIETIFFKVPELYEIHKEFYDGLFPRVQQWSHQQRVGDLFQKLASQLGVYRAFVDNYGVAMEMAEKCCQANAQFAEISENLRARSNKDAKDPTTKNSLETLLYKPVDRVTRSTLVLHDLLKHTPASHPDHPLLQDALRISQNFLSSINEEITPRRQSMTVKKGEHRQLLKDSFMVELVEGARKLRHVFLFTDLLLCTKLKKQSGGKTQQYDCKWYIPLTDLSFQMVDELEAVPNIPLVPDEELDALKIKISQIKNDIQREKRANKGSKATERLKKKLSEQESLLLLMSPSMAFRVHSRNGKSYTFLISSDYERAEWRENIREQQKKCFRSFSLTSVELQMLTNSCVKLQTVHSIPLTINKEDDESPGLYGFLNVIVHSATGFKQSSNLYCTLEVDSFGYFVNKAKTRVYRDTAEPNWNEEFEIELEGSQTLRILCYEKCYNKTKIPKEDGESTDRLMGKGQVQLDPQALQDRDWQRTVIAMNGIEVKLSVKFNSREFSLKRMPSRKQTGVFGVKIAVVTKRERSKVPYIVRQCVEEIERRGMEEVGIYRVSGVATDIQALKAAFDVNNKDVSVMMSEMDVNAIAGTLKLYFRELPEPLFTDEFYPNFAEGIALSDPVAKESCMLNLLLSLPEANLLTFLFLLDHLKRVAEKEAVNKMSLHNLATVFGPTLLRPSEKESKLPANPSQPITMTDSWSLEVMSQVQVLLYFLQLEAIPAPDSKRQSILFSTEV,BCR,Breakpoint cluster region protein,BCR,Atypical,2755,81,BCR,,Human,,,,,,,
+Q12979,ABR,ABR,ABR,Active breakpoint cluster region-related protein,Atypical,BCR,nan,ABR,MEPLSHRGLPRLSWIDTLYSNFSYGTDEYDGEGNEEQKGPPEGSETMPYIDESPTMSPQLSARSQGGGDGVSPTPPEGLAPGVEAGKGLEMRKLVLSGFLASEEIYINQLEALLLPMKPLKATATTSQPVLTIQQIETIFYKIQDIYEIHKEFYDNLCPKVQQWDSQVTMGHLFQKLASQLGVYKAFVDNYKVALETAEKCSQSNNQFQKISEELKVKGPKDSKDSHTSVTMEALLYKPIDRVTRSTLVLHDLLKHTPVDHPDYPLLQDALRISQNFLSSINEDIDPRRTAVTTPKGETRQLVKDGFLVEVSESSRKLRHVFLFTDVLLCAKLKKTSAGKHQQYDCKWYIPLADLVFPSPEESEASPQVHPFPDHELEDMKMKISALKSEIQKEKANKGQSRAIERLKKKMFENEFLLLLNSPTIPFRIHNRNGKSYLFLLSSDYERSEWREAIQKLQKKDLQAFVLSSVELQVLTGSCFKLRTVHNIPVTSNKDDDESPGLYGFLHVIVHSAKGFKQSANLYCTLEVDSFGYFVSKAKTRVFRDTAEPKWDEEFEIELEGSQSLRILCYEKCYDKTKVNKDNNEIVDKIMGKGQIQLDPQTVETKNWHTDVIEMNGIKVEFSMKFTSRDMSLKRTPSKKQTGVFGVKISVVTKRERSKVPYIVRQCVEEVEKRGIEEVGIYRISGVATDIQALKAVFDANNKDILLMLSDMDINAIAGTLKLYFRELPEPLLTDRLYPAFMEGIALSDPAAKENCMMHLLRSLPDPNLITFLFLLEHLKRVAEKEPINKMSLHNLATVFGPTLLRPSEVESKAHLTSAADIWSHDVMAQVQVLLYYLQHPPISFAELKRNTLYFSTDV,,,,,,,,,,,,,,,,
+B5MCJ9,TRIM66,TIF1D,TIF1D,Tripartite motif-containing protein 66,Atypical,TIF1,nan,TRIM66,XLLRKDCFQGLIQELGQIAKAHETVADATA,,,,,,,,,,,,,,,,
+Q9Y5P4,COL4A3BP,Col4A3BP,Col4A3BP,Collagen type IV alpha-3-binding protein,Atypical,Col4A3BP,nan,COL4A3BP,MSDNQSWNSSGSEEDPETESGPPVERCGVLSKWTNYIHGWQDRWVVLKNNALSYYKSEDETEYGCRGSICLSKAVITPHDFDECRFDISVNDSVWYLRAQDPDHRQQWIDAIEQHKTESGYGSESSLRRHGSMVSLVSGASGYSATSTSSFKKGHSLREKLAEMETFRDILCRQVDTLQKYFDACADAVSKDELQRDKVVEDDEDDFPTTRSDGDFLHSTNGNKEKLFPHVTPKGINGIDFKGEAITFKATTAGILATLSHCIELMVKREDSWQKRLDKETEKKRRTEEAYKNAMTELKKKSHFGGPDYEEGPNSLINEEEFFDAVEAALDRQDKIEEQSQSEKVRLHWPTSLPSGDAFSSVGTHRFVQKPYSRSSSMSSIDLVSASDDVHRFSSQVEEMVQNHMTYSLQDVGGDANWQLVVEEGEMKVYRREVEENGIVLDPLKATHAVKGVTGHEVCNYFWNVDVRNDWETTIENFHVVETLADNAIIIYQTHKRVWPASQRDVLYLSVIRKIPALTENDPETWIVCNFSVDHDSAPLNNRCVRAKINVAMICQTLVSPPEGNQEISRDNILCKITYVANVNPGGWAPASVLRAVAKREYPKFLKRFTSYVQEKTAGKPILF,,,,,,,,,,,,,,,,
+P53004,BLVRA,BLVRA,BLVRA,Biliverdin reductase A,Atypical,BLVRA,nan,BLVRA,MNAEPERKFGVVVVGVGRAGSVRMRDLRNPHPSSAFLNLIGFVSRRELGSIDGVQQISLEDALSSQEVEVAYICSESSSHEDYIRQFLNAGKHVLVEYPMTLSLAAAQELWELAEQKGKVLHEEHVELLMEEFAFLKKEVVGKDLLKGSLLFTAGPLEEERFGFPAFSGISRLTWLVSLFGELSLVSATLEERKEDQYMKMTVCLETEKKSPLSWIEEKGPGLKRNRYLSFHFKSGSLENVPNVGVNKNIFLKDQNIFVQKLLGQFSEKELAAEKKRILHCLGLAEEIQKYCCSRK,,,,,,,,,,,,,,,,
+Q9NRL2,BAZ1A,BAZ1A,BAZ1A,Bromodomain adjacent to zinc finger domain protein 1A,Atypical,BAZ,nan,BAZ1A,MPLLHRKPFVRQKPPADLRPDEEVFYCKVTNEIFRHYDDFFERTILCNSLVWSCAVTGRPGLTYQEALESEKKARQNLQSFPEPLIIPVLYLTSLTHRSRLHEICDDIFAYVKDRYFVEETVEVIRNNGARLQCRILEVLPPSHQNGFANGHVNSVDGETIIISDSDDSETQSCSFQNGKKKDAIDPLLFKYKVQPTKKELHESAIVKATQISRRKHLFSRDKLKLFLKQHCEPQDGVIKIKASSLSTYKIAEQDFSYFFPDDPPTFIFSPANRRRGRPPKRIHISQEDNVANKQTLASYRSKATKERDKLLKQEEMKSLAFEKAKLKREKADALEAKKKEKEDKEKKREELKKIVEEERLKKKEEKERLKVEREKEREKLREEKRKYVEYLKQWSKPREDMECDDLKELPEPTPVKTRLPPEIFGDALMVLEFLNAFGELFDLQDEFPDGVTLEVLEEALVGNDSEGPLCELLFFFLTAIFQAIAEEEEEVAKEQLTDADTKDLTEALDEDADPTKSALSAVASLAAAWPQLHQGCSLKSLDLDSCTLSEILRLHILASGADVTSANAKYRYQKRGGFDATDDACMELRLSNPSLVKKLSSTSVYDLTPGEKMKILHALCGKLLTLVSTRDFIEDYVDILRQAKQEFRELKAEQHRKEREEAAARIRKRKEEKLKEQEQKMKEKQEKLKEDEQRNSTADISIGEEEREDFDTSIESKDTEQKELDQDMVTEDEDDPGSHKRGRRGKRGQNGFKEFTRQEQINCVTREPLTADEEEALKQEHQRKEKELLEKIQSAIACTNIFPLGRDRMYRRYWIFPSIPGLFIEEDYSGLTEDMLLPRPSSFQNNVQSQDPQVSTKTGEPLMSESTSNIDQGPRDHSVQLPKPVHKPNRWCFYSSCEQLDQLIEALNSRGHRESALKETLLQEKSRICAQLARFSEEKFHFSDKPQPDSKPTYSRGRSSNAYDPSQMCAEKQLELRLRDFLLDIEDRIYQGTLGAIKVTDRHIWRSALESGRYELLSEENKENGIIKTVNEDVEEMEIDEQTKVIVKDRLLGIKTETPSTVSTNASTPQSVSSVVHYLAMALFQIEQGIERRFLKAPLDASDSGRSYKTVLDRWRESLLSSASLSQVFLHLSTLDRSVIWSKSILNARCKICRKKGDAENMVLCDGCDRGHHTYCVRPKLKTVPEGDWFCPECRPKQRSRRLSSRQRPSLESDEDVEDSMGGEDDEVDGDEEEGQSEEEEYEVEQDEDDSQEEEEVSLPKRGRPQVRLPVKTRGKLSSSFSSRGQQQEPGRYPSRSQQSTPKTTVSSKTGRSLRKINSAPPTETKSLRIASRSTRHSHGPLQADVFVELLSPRRKRRGRKSANNTPENSPNFPNFRVIATKSSEQSRSVNIASKLSLQESESKRRCRKRQSPEPSPVTLGRRSSGRQGGVHELSAFEQLVVELVRHDDSWPFLKLVSKIQVPDYYDIIKKPIALNIIREKVNKCEYKLASEFIDDIELMFSNCFEYNPRNTSEAKAGTRLQAFFHIQAQKLGLHVTPSNVDQVSTPPAAKKSRI,,,,,,,,,,,,,,,,
+Q9UIG0,BAZ1B,BAZ1B,BAZ1B,Tyrosine-protein kinase BAZ1B,Atypical,BAZ,nan,BAZ1B,MAPLLGRKPFPLVKPLPGEEPLFTIPHTQEAFRTREEYEARLERYSERIWTCKSTGSSQLTHKEAWEEEQEVAELLKEEFPAWYEKLVLEMVHHNTASLEKLVDTAWLEIMTKYAVGEECDFEVGKEKMLKVKIVKIHPLEKVDEEATEKKSDGACDSPSSDKENSSQIAQDHQKKETVVKEDEGRRESINDRARRSPRKLPTSLKKGERKWAPPKFLPHKYDVKLQNEDKIISNVPADSLIRTERPPNKEIVRYFIRHNALRAGTGENAPWVVEDELVKKYSLPSKFSDFLLDPYKYMTLNPSTKRKNTGSPDRKPSKKSKTDNSSLSSPLNPKLWCHVHLKKSLSGSPLKVKNSKNSKSPEEHLEEMMKMMSPNKLHTNFHIPKKGPPAKKPGKHSDKPLKAKGRSKGILNGQKSTGNSKSPKKGLKTPKTKMKQMTLLDMAKGTQKMTRAPRNSGGTPRTSSKPHKHLPPAALHLIAYYKENKDREDKRSALSCVISKTARLLSSEDRARLPEELRSLVQKRYELLEHKKRWASMSEEQRKEYLKKKREELKKKLKEKAKERREKEMLERLEKQKRYEDQELTGKNLPAFRLVDTPEGLPNTLFGDVAMVVEFLSCYSGLLLPDAQYPITAVSLMEALSADKGGFLYLNRVLVILLQTLLQDEIAEDYGELGMKLSEIPLTLHSVSELVRLCLRRSDVQEESEGSDTDDNKDSAAFEDNEVQDEFLEKLETSEFFELTSEEKLQILTALCHRILMTYSVQDHMETRQQMSAELWKERLAVLKEENDKKRAEKQKRKEMEAKNKENGKVENGLGKTDRKKEIVKFEPQVDTEAEDMISAVKSRRLLAIQAKKEREIQEREMKVKLERQAEEERIRKHKAAAEKAFQEGIAKAKLVMRRTPIGTDRNHNRYWLFSDEVPGLFIEKGWVHDSIDYRFNHHCKDHTVSGDEDYCPRSKKANLGKNASMNTQHGTATEVAVETTTPKQGQNLWFLCDSQKELDELLNCLHPQGIRESQLKERLEKRYQDIIHSIHLARKPNLGLKSCDGNQELLNFLRSDLIEVATRLQKGGLGYVEETSEFEARVISLEKLKDFGECVIALQASVIKKFLQGFMAPKQKRRKLQSEDSAKTEEVDEEKKMVEEAKVASALEKWKTAIREAQTFSRMHVLLGMLDACIKWDMSAENARCKVCRKKGEDDKLILCDECNKAFHLFCLRPALYEVPDGEWQCPACQPATARRNSRGRNYTEESASEDSEDDESDEEEEEEEEEEEEEDYEVAGLRLRPRKTIRGKHSVIPPAARSGRRPGKKPHSTRRSQPKAPPVDDAEVDELVLQTKRSSRRQSLELQKCEEILHKIVKYRFSWPFREPVTRDEAEDYYDVITHPMDFQTVQNKCSCGSYRSVQEFLTDMKQVFTNAEVYNCRGSHVLSCMVKTEQCLVALLHKHLPGHPYVRRKRKKFPDRLAEDEGDSEPEAVGQSRGRRQKK,,,,,,,,,,,,,,,,
diff --git a/devtools/conda-envs/test_env.yaml b/devtools/conda-envs/test_env.yaml
index ba8a138..9d93805 100644
--- a/devtools/conda-envs/test_env.yaml
+++ b/devtools/conda-envs/test_env.yaml
@@ -20,3 +20,4 @@ dependencies:
   - requests-cache
   - beautifulsoup4
   - numpy
+  - biopython
diff --git a/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/aligners.py b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/aligners.py
new file mode 100644
index 0000000..f480e31
--- /dev/null
+++ b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/aligners.py
@@ -0,0 +1,45 @@
+from dataclasses import dataclass
+
+from Bio import Align
+
+
+@dataclass
+class CustomAligner:
+    mode: str = "local"
+    """str: Alignment mode. Default is "local"."""
+    substitution_matrix: str = "BLOSUM62"
+    """str: Substitution matrix. Default is BLOSUM62."""
+    gap_score: int = -5
+    """int: Gap score. Default is -5."""
+    extend_gap_score: int = -1
+    """int: Gap extension score. Default is -1."""
+
+    def __post_init__(self):
+        self.aligner = Align.PairwiseAligner()
+        self.aligner.mode = self.mode
+        self.aligner.substitution_matrix = Align.substitution_matrices.load(
+            self.substitution_matrix
+        )
+        self.aligner.open_gap_score = self.gap_score
+        self.aligner.extend_gap_score = self.extend_gap_score
+
+    def align(self, seq1: str, seq2: str) -> Align.MultipleSeqAlignment:
+        return self.aligner.align(seq1, seq2)
+
+
+@dataclass
+class BL2UniProtAligner(CustomAligner):
+    mode: str = "global"
+    """str: Alignment mode. Default is "global."""
+
+    def __post_init__(self):
+        super().__post_init__()
+
+
+@dataclass
+class Kincore2UniProtAligner(CustomAligner):
+    mode: str = "local"
+    """str: Alignment mode. Default is "local."""
+
+    def __post_init__(self):
+        super().__post_init__()
diff --git a/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/kinase_schema.py b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/kinase_schema.py
index 9826145..c28ec93 100644
--- a/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/kinase_schema.py
+++ b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/kinase_schema.py
@@ -1,60 +1,596 @@
-from dataclasses import dataclass
+import logging
+import os
+from enum import Enum, StrEnum
 
-# TODO create a Pydantic model to incorporate and UniProt, Pfam, and KLIFS data for all
-# eventually populate with AF2 active BLAminus+ structures from Dunbrack lab
+import pandas as pd
+from pydantic import BaseModel, ValidationError, constr, model_validator
+from typing_extensions import Self
 
+from missense_kinase_toolkit.databases import klifs
+from missense_kinase_toolkit.databases.kincore import (
+    align_kincore2uniprot,
+    extract_pk_fasta_info_as_dict,
+)
+from missense_kinase_toolkit.databases.utils import get_repo_root
 
-# TODO: Make Pydantic model instead of dataclass
-@dataclass
-class KLIFSPocket:
-    """Dataclass to hold KLIFS pocket alignment information per kinase.
+logger = logging.getLogger(__name__)
 
-    Attributes
+
+LIST_PFAM_KD = [
+    "Protein kinase domain",
+    "Protein tyrosine and serine/threonine kinase",
+]
+
+
+class Group(str, Enum):
+    """Enum class for kinase groups."""
+
+    AGC = "AGC"  # Protein Kinase A, G, and C families
+    Atypical = "Atypical"  # Atypical protein kinases
+    CAMK = "CAMK"  # Calcium/calmodulin-dependent protein kinase family
+    CK1 = "CK1"  # Casein kinase 1 family
+    CMGC = "CMGC"  # Cyclin-dependent kinase, Mitogen-activated protein kinase, Glycogen synthase kinase, and CDK-like kinase families
+    RGC = "RGC"  # Receptor guanylate cyclase family
+    STE = "STE"  # Homologs of yeast Sterile 7, Sterile 11, Sterile 20 kinases
+    TK = "TK"  # Tyrosine kinase family
+    TKL = "TKL"  # Tyrosine kinase-like family
+    Other = "Other"  # Other protein kinases
+
+
+class Family(Enum):
+    """Enum class for kinase families (>=5 in KinHub)."""
+
+    STE20 = "STE20"
+    CAMKL = "CAMKL"
+    CDK = "CDK"
+    Eph = "Eph"
+    MAPK = "MAPK"
+    STKR = "STKR"
+    NEK = "NEK"
+    Src = "Src"
+    DYRK = "DYRK"
+    PKC = "PKC"
+    STE11 = "STE11"
+    RSK = "RSK"
+    MLK = "MLK"
+    GRK = "GRK"
+    CK1 = "CK1"
+    DMPK = "DMPK"
+    STE7 = "STE7"
+    PIKK = "PIKK"
+    RSKb = "RSKb"
+    Alpha = "Alpha"
+    Tec = "Tec"
+    CAMK1 = "CAMK1"
+    PDGFR = "PDGFR"
+    ULK = "ULK"
+    DAPK = "DAPK"
+    RAF = "RAF"
+    RIPK = "RIPK"
+    MLCK = "MLCK"
+    PKA = "PKA"
+    MAPKAPK = "MAPKAPK"
+    RGC = "RGC"
+    CDKL = "CDKL"
+    MAST = "MAST"
+    TSSK = "TSSK"
+    ABC1 = "ABC1"
+    PDHK = "PDHK"
+    Jak = "Jak"
+    Jakb = "Jakb"
+    Other = "Other"
+    Null = None
+
+
+KinaseDomainName = StrEnum(
+    "KinaseDomainName", {"KD" + str(idx + 1): kd for idx, kd in enumerate(LIST_PFAM_KD)}
+)
+
+UniProtSeq = constr(pattern=r"^[ACDEFGHIKLMNPQRSTVWXY]+$")
+"""Pydantic model for UniProt sequence constraints."""
+KLIFSPocket = constr(pattern=r"^[ACDEFGHIKLMNPQRSTVWY\-]{85}$")
+"""Pydantic model for KLIFS pocket sequence constraints."""
+UniProtID = constr(pattern=r"^[A-Z][0-9][A-Z0-9]{3}[0-9]$")
+"""Pydantic model for UniProt ID constraints."""
+
+
+class KinHub(BaseModel):
+    """Pydantic model for KinHub information."""
+
+    kinase_name: str
+    manning_name: list[str]
+    xname: list[str]
+    group: list[Group]
+    family: list[Family]
+
+
+class UniProt(BaseModel):
+    """Pydantic model for UniProt information."""
+
+    canonical_seq: UniProtSeq
+
+
+class KLIFS(BaseModel):
+    """Pydantic model for KLIFS information."""
+
+    gene_name: str
+    name: str
+    full_name: str
+    group: Group
+    family: Family
+    iuphar: int
+    kinase_id: int
+    pocket_seq: KLIFSPocket | None
+
+
+class Pfam(BaseModel):
+    """Pydantic model for Pfam information."""
+
+    domain_name: KinaseDomainName
+    start: int
+    end: int
+    protein_length: int
+    pfam_accession: str
+    in_alphafold: bool
+
+
+class KinCore(BaseModel):
+    """Pydantic model for KinCore information."""
+
+    seq: UniProtSeq
+    start: int | None
+    end: int | None
+    mismatch: list[int] | None
+
+
+class KinaseInfo(BaseModel):
+    """Pydantic model for kinase information."""
+
+    hgnc_name: str
+    uniprot_id: UniProtID
+    KinHub: KinHub
+    UniProt: UniProt
+    KLIFS: KLIFS | None
+    Pfam: Pfam | None
+    KinCore: KinCore | None
+    bool_offset: bool = True
+    KLIFS2UniProt: dict[str, int] | None = None
+
+    # https://docs.pydantic.dev/latest/examples/custom_validators/#validating-nested-model-fields
+    @model_validator(mode="after")
+    def change_wrong_klifs_pocket_seq(self) -> Self:
+        """KLIFS pocket has some errors compared to UniProt sequence - fix this via validation."""
+        # https://klifs.net/details.php?structure_id=9122 "NFM" > "HFM" but "H" present in canonical UniProt seq
+        if self.hgnc_name == "ADCK3":
+            self.KLIFS.pocket_seq = "RPFAAASIGQVHLVAMKIQDYQREAACARKFRFYVPEIVDEVLTTELVSGFPLDQAEGLELFEFHFMQTDPNWSNFFYLLDFGAT"
+        # https://klifs.net/details.php?structure_id=15054 shows "FLL" only change and region I flanks g.l
+        if self.hgnc_name == "LRRK2":
+            self.KLIFS.pocket_seq = "FLLGDGSFGSVYRVAVKIFLLRQELVVLCHLHPSLISLLAAMLVMELASKGSLDRLLQQYLHSAMIIYRDLKPHNVLLIADYGIA"
+        # https://klifs.net/details.php?structure_id=9709 just a misalignment vs. UniProt[130:196] aligns matches structure seq
+        if self.hgnc_name == "CAMKK1":
+            self.KLIFS.pocket_seq = "QSEIGKGAYGVVRHYAMKVERVYQEIAILKKLHVNVVKLIENLYLVFDLRKGPVMEVPCEYLHCQKIVHRDIKPSNLLKIADFGV"
+        return self
+
+    # https://stackoverflow.com/questions/68082983/validating-a-nested-model-in-pydantic
+    # skip if other validation errors occur in nested models first
+    @model_validator(mode="after")
+    @classmethod
+    def validate_uniprot_length(cls, values):
+        """Validate canonical UniProt sequence length matches Pfam length if Pfam not None."""
+        pfam = values.Pfam
+        uniprot = values.UniProt
+        if pfam is not None:
+            if len(uniprot.canonical_seq) != pfam.protein_length:
+                raise ValidationError(
+                    "UniProt sequence length does not match Pfam protein length."
+                )
+        return values
+
+    @model_validator(mode="after")
+    def generate_klifs2uniprot_dict(self) -> Self:
+        """Generate dictionary mapping KLIFS to UniProt indices."""
+
+        if self.KinCore is not None:
+            kd_idx = (self.KinCore.start - 1, self.KinCore.end - 1)
+        else:
+            kd_idx = (None, None)
+
+        if self.KLIFS is not None and self.KLIFS.pocket_seq is not None:
+            temp_obj = klifs.KLIFSPocket(
+                uniprotSeq=self.UniProt.canonical_seq,
+                klifsSeq=self.KLIFS.pocket_seq,
+                idx_kd=kd_idx,
+                offset_bool=self.bool_offset,
+            )
+
+            if temp_obj.list_align is not None:
+                self.KLIFS2UniProt = dict(
+                    zip(klifs.LIST_KLIFS_REGION, temp_obj.list_align)
+                )
+
+        return self
+
+
+def check_if_file_exists_then_load_dataframe(str_file: str) -> pd.DataFrame | None:
+    """Check if file exists and load dataframe.
+
+    Parameters
+    ----------
+    str_file : str
+        File to check and load.
+
+    Returns
+    -------
+    pd.DataFrame | None
+        Dataframe if file exists, otherwise None.
+    """
+    if os.path.isfile(str_file):
+        return pd.read_csv(str_file)
+    else:
+        logger.error(f"File {str_file} does not exist.")
+
+
+def concatenate_source_dataframe(
+    kinhub_df: pd.DataFrame | None = None,
+    uniprot_df: pd.DataFrame | None = None,
+    klifs_df: pd.DataFrame | None = None,
+    pfam_df: pd.DataFrame | None = None,
+    col_kinhub_merge: str | None = None,
+    col_uniprot_merge: str | None = None,
+    col_klifs_merge: str | None = None,
+    col_pfam_merge: str | None = None,
+    col_pfam_include: list[str] | None = None,
+    list_domains_include: list[str] | None = None,
+) -> pd.DataFrame:
+    """Concatenate database dataframes on UniProt ID.
+
+    Parameters
     ----------
-    uniprotID : str
-        UniProt ID
-    hgncName : str
-        HGNC name
-    uniprotSeq : str
-        UniProt canonical sequence
-    klifsSeq : str
-        KLIFS pocket sequence
-    list_klifs_region : list[str]
-        List of start and end regions of KLIFS pocket separated by ":"; end region will be the
-            same as start region if no concatenation necessary to find a single exact match
-    list_klifs_substr_actual : list[str]
-        List of substring of KLIFS pocket that maps to the *start region* of the KLIFS pocket
-    list_klifs_substr_match : list[str]
-        List of the actual substring used to match to the KLIFS pocket for the region(s) provided;
-            will be the same as list_klifs_substr_actual if no concatenation necessary to find a single exact match
-    list_substring_idxs : list[list[int] | None]
-        List of indices in UniProt sequence where KLIFS substring match starts;
-            offset by length of preceding KLIFS region with gaps removed
+    kinhub_df : pd.DataFrame | None, optional
+        KinHub dataframe, by default None and will be loaded from "data" dir.
+    uniprot_df : pd.DataFrame | None, optional
+        UniProt dataframe, by default None and will be loaded from "data" dir.
+    klifs_df : pd.DataFrame | None, optional
+        KLIFS dataframe, by default None and will be loaded from "data" dir.
+    pfam_df : pd.DataFrame | None, optional
+        Pfam dataframe, by default None and will be loaded from "data" dir.
+    col_kinhub_merge : str | None, optional
+        Column to merge KinHub dataframe, by default None.
+    col_uniprot_merge : str | None, optional
+        Column to merge UniProt dataframe, by default None.
+    col_klifs_merge : str | None, optional
+        Column to merge KLIFS dataframe, by default None.
+    col_pfam_merge : str | None, optional
+        Column to merge Pfam dataframe, by default None.
+    col_pfam_include : list[str] | None, optional
+        Columns to include in Pfam dataframe, by default None.
+    list_domains_include : list[str] | None, optional
+        List of Pfam domains to include, by default None.
 
+    Returns
+    -------
+    pd.DataFrame
+        Concatenated dataframe.
     """
 
-    uniprotID: str
-    hgncName: str
-    uniprotSeq: str
-    klifsSeq: str
-    list_klifs_region: list[str]
-    list_klifs_substr_actual: list[str]
-    list_klifs_substr_match: list[str]
-    list_substring_idxs: list[list[int] | None]
-
-    def remove_klifs_list_gaps(self):
-        """Remove gaps from KLIFS pocket substring list.
-
-        Returns
-        -------
-        list_substring_klifs_narm = list[str]
-            List of KLIFS pocket substrings with gaps removed
-
-        """
-        from missense_kinase_toolkit.databases.klifs import remove_gaps_from_klifs
-
-        list_substring_klifs_narm = [
-            remove_gaps_from_klifs(substring_klifs)
-            for substring_klifs in self.list_klifs_substring
+    # load dataframes if not provided from "data" sub-directory
+    path_data = os.path.join(get_repo_root(), "data")
+    if kinhub_df is None:
+        kinhub_df = check_if_file_exists_then_load_dataframe(
+            os.path.join(path_data, "kinhub.csv")
+        )
+    if uniprot_df is None:
+        uniprot_df = check_if_file_exists_then_load_dataframe(
+            os.path.join(path_data, "kinhub_uniprot.csv")
+        )
+    if klifs_df is None:
+        klifs_df = check_if_file_exists_then_load_dataframe(
+            os.path.join(path_data, "kinhub_klifs.csv")
+        )
+    if pfam_df is None:
+        pfam_df = check_if_file_exists_then_load_dataframe(
+            os.path.join(path_data, "kinhub_pfam.csv")
+        )
+    list_df = [kinhub_df, uniprot_df, klifs_df, pfam_df]
+    if any([True if i is None else False for i in list_df]):
+        list_df_shape = [i.shape if i is not None else None for i in list_df]
+        logger.error(f"One or more dataframes are None\n{list_df_shape}")
+        return None
+
+    # columns on which to merge dataframes
+    if col_kinhub_merge is None:
+        col_kinhub_merge = "UniprotID"
+    if col_uniprot_merge is None:
+        col_uniprot_merge = "uniprot_id"
+    if col_klifs_merge is None:
+        col_klifs_merge = "uniprot"
+    if col_pfam_merge is None:
+        col_pfam_merge = "uniprot"
+
+    # columns to include in the final dataframe
+    if col_pfam_include is None:
+        col_pfam_include = [
+            "name",
+            "start",
+            "end",
+            "protein_length",
+            "pfam_accession",
+            "in_alphafold",
         ]
-        return list_substring_klifs_narm
+
+    # list of Pfam domains to include
+    if list_domains_include is None:
+        list_domains_include = LIST_PFAM_KD
+
+    # set indices to merge columns
+    kinhub_df_merge = kinhub_df.set_index(col_kinhub_merge)
+    uniprot_df_merge = uniprot_df.set_index(col_uniprot_merge)
+    klifs_df_merge = klifs_df.set_index(col_klifs_merge)
+    pfam_df_merge = pfam_df.set_index(col_pfam_merge)
+
+    # filter Pfam dataframe for KD domains and columns to include
+    df_pfam_kd = pfam_df_merge.loc[
+        pfam_df_merge["name"].isin(LIST_PFAM_KD), col_pfam_include
+    ]
+
+    # rename "name" column in Pfam so doesn't conflict with KLIFS name
+    try:
+        df_pfam_kd = df_pfam_kd.rename(columns={"name": "domain_name"})
+    except KeyError:
+        pass
+
+    # concat dataframes
+    df_merge = pd.concat(
+        [kinhub_df_merge, uniprot_df_merge, klifs_df_merge, df_pfam_kd],
+        join="outer",
+        axis=1,
+    ).reset_index()
+
+    return df_merge
+
+
+def is_not_valid_string(str_input: str) -> bool:
+    if pd.isna(str_input) or str_input == "":
+        return True
+    else:
+        return False
+
+
+def convert_to_group(str_input: str, bool_list: bool = True) -> list[Group]:
+    """Convert KinHub group to Group enum.
+
+    Parameters
+    ----------
+    str_input : str
+        KinHub group to convert.
+    bool_list : bool, optional
+        Whether to return list of Group enums (e.g., converting KinHub), by default True.
+
+    Returns
+    -------
+    list[Group]
+        List of Group enums.
+    """
+    if bool_list:
+        return [Group(group) for group in str_input.split(", ")]
+    else:
+        return Group(str_input)
+
+
+def convert_str2family(str_input: str) -> Family:
+    """Convert string to Family enum.
+
+    Parameters
+    ----------
+    str_input : str
+        String to convert to Family enum.
+
+    Returns
+    -------
+    Family
+        Family enum.
+    """
+    try:
+        return Family(str_input)
+    except ValueError:
+        if is_not_valid_string(str_input):
+            return Family.Null
+        else:
+            return Family.Other
+
+
+def convert_to_family(
+    str_input: str,
+    bool_list: bool = True,
+) -> Family:
+    """Convert KinHub family to Family enum.
+
+    Parameters
+    ----------
+    str_input : str
+        String to convert to Family enum.
+
+    Returns
+    -------
+    Family
+        Family enum.
+    """
+    if bool_list:
+        return [convert_str2family(family) for family in str_input.split(", ")]
+    else:
+        return convert_str2family(str_input)
+
+
+def create_kinase_models_from_df(
+    df: pd.DataFrame | None = None,
+) -> dict[str, BaseModel]:
+    """Create Pydantic models for kinases from dataframes.
+
+    Parameters
+    ----------
+    df : pd.DataFrame | None, optional
+        Dataframe with merged kinase information, by default will be None.
+
+    Returns
+    -------
+    dict[str, BaseModel]
+        Dictionary of HGNC name key and kinase model key.
+    """
+
+    # load dataframe if not provided
+    if df is None:
+        df = concatenate_source_dataframe()
+
+    if df is None:
+        logger.error("Dataframe is None. Cannot create kinase models.")
+        return None
+
+    # create KinHub model
+    dict_kinase_models = {}
+
+    # create KinCore dictionary from fasta file
+    DICT_KINCORE = extract_pk_fasta_info_as_dict()
+
+    for _, row in df.iterrows():
+
+        id_uniprot = row["index"]
+        name_hgnc = row["HGNC Name"]
+
+        # create KinHub model
+        kinhub_model = KinHub(
+            kinase_name=row["Kinase Name"],
+            manning_name=row["Manning Name"].split(", "),
+            xname=row["xName"].split(", "),
+            group=convert_to_group(row["Group"]),
+            family=convert_to_family(row["Family"]),
+        )
+
+        # create UniProt model
+        uniprot_model = UniProt(canonical_seq=row["canonical_sequence"])
+
+        # create KLIFS model
+        if is_not_valid_string(row["family"]):
+            klifs_model = None
+        else:
+            if is_not_valid_string(row["pocket"]):
+                pocket = None
+            else:
+                pocket = row["pocket"]
+            klifs_model = KLIFS(
+                gene_name=row["gene_name"],
+                name=row["name"],
+                full_name=row["full_name"],
+                group=convert_to_group(row["group"], bool_list=False),
+                family=convert_to_family(row["family"], bool_list=False),
+                iuphar=row["iuphar"],
+                kinase_id=row["kinase_ID"],
+                pocket_seq=pocket,
+            )
+
+        # create Pfam model
+        if row["domain_name"] not in LIST_PFAM_KD:
+            pfam_model = None
+        else:
+            pfam_model = Pfam(
+                domain_name=row["domain_name"],
+                start=row["start"],
+                end=row["end"],
+                protein_length=row["protein_length"],
+                pfam_accession=row["pfam_accession"],
+                in_alphafold=row["in_alphafold"],
+            )
+
+        # create KinCore model
+        if id_uniprot in DICT_KINCORE.keys():
+            dict_temp = align_kincore2uniprot(
+                DICT_KINCORE[id_uniprot]["seq"],
+                uniprot_model.canonical_seq,
+            )
+            kincore_model = KinCore(**dict_temp)
+        else:
+            kincore_model = None
+
+        # create KinaseInfo model
+        kinase_info = KinaseInfo(
+            hgnc_name=name_hgnc,
+            uniprot_id=id_uniprot,
+            KinHub=kinhub_model,
+            UniProt=uniprot_model,
+            KLIFS=klifs_model,
+            Pfam=pfam_model,
+            KinCore=kincore_model,
+        )
+
+        dict_kinase_models[name_hgnc] = kinase_info
+
+    # TODO: For entries in DICT_KINCORE that are not in df, add to dict_kinase_models
+
+    return dict_kinase_models
+
+
+# # NOT IN USE - USE TO GENERATE ABOVE
+
+# import numpy as np
+# import pandas as pd
+# from itertools import chain
+
+# # generate these in databases.ipynb
+# df_kinhub = pd.read_csv("../data/kinhub.csv")
+# df_klifs = pd.read_csv("../data/kinhub_klifs.csv")
+# df_uniprot = pd.read_csv("../data/kinhub_uniprot.csv")
+# df_pfam = pd.read_csv("../data/kinhub_pfam.csv")
+
+# # generate list of families for kinase_schema.Family Enum
+# list_family = list(chain.from_iterable(df_kinhub["Family"].apply(lambda x: x.split(", ")).tolist()))
+# dict_family = {item: list_family.count(item) for item in set(list_family)}
+# dict_family = {k: v for k, v in sorted(dict_family.items(), key=lambda item: item[1], reverse=True)}
+# [key for key, val in dict_family.items() if val >= 5] # kinase_schema.Family; manually added Jak and JakB since Jak + JakB > 5
+
+# # see if should sub-family list Enum object
+# list_subfamily = list(chain.from_iterable(df_kinhub["SubFamily"].apply(lambda x: str(x).split(", ")).tolist()))
+# dict_subfamily = {item: list_subfamily.count(item) for item in set(list_subfamily)}
+# dict_subfamily = {k: v for k, v in sorted(dict_subfamily.items(), key=lambda item: item[1], reverse=True)}
+# [key for key, val in dict_subfamily.items() if val >= 5] # kinase_schema.SubFamily NOT IN USE AS N=3
+# df_pivot = pd.DataFrame(df_kinhub[["Family", "SubFamily"]].value_counts()).reset_index().pivot(columns="Family", index="SubFamily", values="count")
+# df_pivot.loc[df_pivot.index.isin([key for key, val in dict_subfamily.items() if val >= 5]),].dropna(axis=1, how="all")
+
+# # kinase_schema.UniProtSeq
+# "".join(sorted(list(set(chain.from_iterable(df_uniprot["canonical_sequence"].apply(lambda x: list(x)).tolist())))))
+
+# # kinase_schema.KLIFSPocket
+# "".join(sorted(list(set(chain.from_iterable(df_klifs_uniprot_narm["pocket"].apply(lambda x: list(x)).tolist())))))
+
+# # look at Pfam kinase domain annotations
+# list_kd = ["Protein kinase domain", "Protein tyrosine and serine/threonine kinase"]
+# # print(max(df_pfam.loc[df_pfam["name"].isin(list_kd), "uniprot"].value_counts().tolist())) # only 1 KD for those in list_kd
+
+# df_pfam_kd_simple = df_pfam.loc[df_pfam["name"].isin(list_kd), ]
+
+# df_multi = pd.DataFrame(df_pfam.loc[(~df_pfam["name"].isin(list_kd) & \
+#                                      df_pfam["name"].apply(lambda x: "kinase" in x.lower())), \
+#                         ["uniprot", "name", "type"]].groupby(["uniprot"]).agg(list))
+
+# df_multi["count"] = df_multi["name"].apply(len)
+# df_multi.sort_values(["count"], ascending=False, inplace=True)
+
+# list_single_kd = df_multi.loc[df_multi["count"] == 1, "name"].tolist()
+# list_multi_kd = df_multi.loc[df_multi["count"] > 1, "name"].tolist()
+
+# # [idx for idx, i in enumerate(list_single_kd) if "kinase" not in i[0].lower()] # []
+
+# df_temp = df_multi.loc[(df_multi["type"].apply(lambda x: "".join(x) != "family") \
+#                         & df_multi["type"].apply(lambda x: "family" in x)), ].reset_index()
+
+# for _, row in df_temp.iterrows():
+#     print(row["uniprot"])
+#     for i, j in zip(row["type"], row["name"]):
+#         print(f"{i} : {j}")
+#     print("")
+
+# df_multi.loc[df_multi["type"].apply(lambda x: "".join(x) == "family"), ]
+
+# list_multi_domain = (
+#     df_multi.loc[df_multi["type"]
+#         .apply(lambda x: "".join(x) == "domain"), "name"]
+#         .tolist()
+# )
diff --git a/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/kincore.py b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/kincore.py
new file mode 100644
index 0000000..5e4d898
--- /dev/null
+++ b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/kincore.py
@@ -0,0 +1,160 @@
+import os
+import re
+
+from Bio import SeqIO
+
+from missense_kinase_toolkit.databases.aligners import Kincore2UniProtAligner
+from missense_kinase_toolkit.databases.utils import get_repo_root
+
+
+def extract_pk_fasta_info_as_dict(
+    str_filename: str = "Human-PK.fasta",
+) -> dict[str, dict[str, str | int]]:
+    """Parse KinCore Human-PK.fasta file to extract information for KinaseInfo object.
+
+    Parameters
+    ----------
+    str_filename : str, optional
+        Filename of the fasta file, by default "Human-PK.fasta"
+
+    Returns
+    -------
+    dict[str, dict[str, str | int]]
+        Dictionary of {uniprot : {seq : str, start : int, end : int}}
+    """
+    fasta_sequences = SeqIO.parse(
+        open(os.path.join(get_repo_root(), "data", str_filename)), "fasta"
+    )
+    list_description, list_seq = [], []
+    for fasta in fasta_sequences:
+        list_description.append(fasta.description)
+        list_seq.append(str(fasta.seq))
+
+    list_uniprot = [x.split(" ")[-1] for x in list_description]
+
+    dict_out = {
+        list_uniprot[i]: {
+            "seq": list_seq[i],
+        }
+        for i in range(len(list_uniprot))
+    }
+
+    return dict_out
+
+
+def align_kincore2uniprot(
+    str_kincore: str,
+    str_uniprot: str,
+) -> dict[str, dict[str, str | int | list[int] | None]]:
+    """Align KinCore Human-PK.fasta to canonical Uniprot sequences.
+
+    Parameters
+    ----------
+    str_kicore : str
+        KinCore sequence
+    str_uniprot : str
+        Uniprot sequence
+
+    Returns
+    -------
+    dict[str, dict[str, str | None]]
+        Dictionary of {start : int | None, end : int, mismatch : list[int]}
+    """
+
+    dict_out = dict.fromkeys(["seq", "start", "end", "mismatch"])
+    dict_out["seq"] = str_kincore
+
+    aligner = Kincore2UniProtAligner()
+    alignments = aligner.align(str_kincore, str_uniprot)
+
+    # if multiple alignments, return None
+    if len(alignments) != 1:
+        print(f"Multiple alignments found for {str_kincore} and {str_uniprot}")
+        return dict_out
+
+    alignment = alignments[0]
+
+    # if alignment does not include full sequence, None
+    if alignment.sequences[0] != alignment[0, :]:
+        print(
+            f"Alignment does not include full sequence \
+              for {str_kincore} and {str_uniprot}"
+        )
+        pass
+
+    start = int(alignment.aligned[1][0][0])
+    dict_out["start"] = start + 1
+
+    end = int(alignment.aligned[1][0][1])
+    dict_out["end"] = end
+
+    # if mismatch, provide idx of mismatch in KinCore sequence
+    str_align = "".join(
+        [
+            i.split(" ")[-1]
+            for idx, i in enumerate(str(alignment).split("\n"))
+            if (idx + 1) % 2 == 0
+        ]
+    )
+    str_align = re.sub(r"[a-zA-Z0-9]", "", str_align)
+    if "." in str_align:
+        dict_out["mismatch"] = [idx for idx, i in enumerate(str_align) if i == "."]
+
+    return dict_out
+
+
+# # NOT IN USE - USED TO GENERATE ABOVE
+
+# import pandas as pd
+
+# from missense_kinase_toolkit.databases import kinase_schema
+
+# # generate these in databases.ipynb
+# df_kinhub = pd.read_csv("../data/kinhub.csv")
+# df_klifs = pd.read_csv("../data/kinhub_klifs.csv")
+# df_uniprot = pd.read_csv("../data/kinhub_uniprot.csv")
+# df_pfam = pd.read_csv("../data/kinhub_pfam.csv")
+
+# df_merge = kinase_schema.concatenate_source_dataframe(
+#     df_kinhub,
+#     df_uniprot,
+#     df_klifs,
+#     df_pfam
+# )
+
+# dict_kin = kinase_schema.create_kinase_models_from_df(df_merge)
+
+# dict_kincore = {key: val for key, val in dict_kin.items() if val.KinCore is not None}
+
+# aligner = kincore2uniprot_aligner()
+# dict_kincore_alignments = {val.hgnc_name: aligner.align(val.KinCore.seq, val.UniProt.canonical_seq) \
+#                            for key, val in dict_kincore.items()}
+
+# dict_kincore_idx = {}
+# for hgnc, alignments in dict_kincore_alignments.items():
+#     dict_temp = dict.fromkeys(["start", "end", "mismatch"])
+#     dict_kincore_idx[hgnc] = dict_temp
+#     # if multiple alignments, None
+#     if len(alignments) != 1:
+#         pass
+#     for alignment in alignments:
+#         # if alignment does not include full sequence, None
+#         if alignment.sequences[0] != alignment[0, :]:
+#             pass
+#         start = int(alignment.aligned[1][0][0])
+#         end = int(alignment.aligned[1][0][1])
+#         str_align = "".join([i.split(" ")[-1] for idx, i in \
+#                              enumerate(str(alignment).split("\n")) if (idx+1) % 2 == 0])
+#         str_align = re.sub(r"[a-zA-Z0-9]", "", str_align)
+#         if "." in str_align:
+#             dict_kincore_idx[hgnc]["mismatch"] = \
+#             [idx for idx, i in enumerate(str_align) if i == "."]
+#         dict_kincore_idx[hgnc]["start"] = start + 1
+#         dict_kincore_idx[hgnc]["end"] = end
+
+# name = "CDKL1" # only apparent mismatch
+# idx = dict_kincore_idx[name]["mismatch"][0] # 148
+# print(dict_kin[name].KinCore.seq[idx]) # A
+# print(dict_kin[name].UniProt.canonical_seq[idx + dict_kincore_idx[name]["start"] - 1]) # T
+
+# print(dict_kincore_alignments["CDKL1"][0]) # alignment object - see mismatch at 148
diff --git a/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/klifs.py b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/klifs.py
index 016a7e4..b455bdc 100644
--- a/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/klifs.py
+++ b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/klifs.py
@@ -1,372 +1,151 @@
 import logging
+import re
+from dataclasses import dataclass, field
+from itertools import chain
 
 import numpy as np
+from Bio import Align
 from bravado.client import SwaggerClient
 
+from missense_kinase_toolkit.databases.aligners import (
+    BL2UniProtAligner,
+    Kincore2UniProtAligner,
+)
 from missense_kinase_toolkit.databases.api_schema import SwaggerAPIClient
 
 logger = logging.getLogger(__name__)
 
 
-# courtesy of OpenCADD
-LIST_POCKET_KLIFS_REGIONS = [
-    (1, "I"),
-    (2, "I"),
-    (3, "I"),
-    (4, "g.l"),
-    (5, "g.l"),
-    (6, "g.l"),
-    (7, "g.l"),
-    (8, "g.l"),
-    (9, "g.l"),
-    (10, "II"),
-    (11, "II"),
-    (12, "II"),
-    (13, "II"),
-    (14, "III"),
-    (15, "III"),
-    (16, "III"),
-    (17, "III"),
-    (18, "III"),
-    (19, "III"),
-    (20, "αC"),
-    (21, "αC"),
-    (22, "αC"),
-    (23, "αC"),
-    (24, "αC"),
-    (25, "αC"),
-    (26, "αC"),
-    (27, "αC"),
-    (28, "αC"),
-    (29, "αC"),
-    (30, "αC"),
-    (31, "b.l"),
-    (32, "b.l"),
-    (33, "b.l"),
-    (34, "b.l"),
-    (35, "b.l"),
-    (36, "b.l"),
-    (37, "b.l"),
-    (38, "IV"),
-    (39, "IV"),
-    (40, "IV"),
-    (41, "IV"),
-    (42, "V"),
-    (43, "V"),
-    (44, "V"),
-    (45, "GK"),
-    (46, "hinge"),
-    (47, "hinge"),
-    (48, "hinge"),
-    (49, "linker"),
-    (50, "linker"),
-    (51, "linker"),
-    (52, "linker"),
-    (53, "αD"),
-    (54, "αD"),
-    (55, "αD"),
-    (56, "αD"),
-    (57, "αD"),
-    (58, "αD"),
-    (59, "αD"),
-    (60, "αE"),
-    (61, "αE"),
-    (62, "αE"),
-    (63, "αE"),
-    (64, "αE"),
-    (65, "VI"),
-    (66, "VI"),
-    (67, "VI"),
-    (68, "c.l"),
-    (69, "c.l"),
-    (70, "c.l"),
-    (71, "c.l"),
-    (72, "c.l"),
-    (73, "c.l"),
-    (74, "c.l"),
-    (75, "c.l"),
-    (76, "VII"),
-    (77, "VII"),
-    (78, "VII"),
-    (79, "VIII"),
-    (80, "xDFG"),
-    (81, "xDFG"),
-    (82, "xDFG"),
-    (83, "xDFG"),
-    (84, "a.l"),
-    (85, "a.l"),
-]
-"""list[tuple[int, str]]: Mapping KLIFS pocket ID to region"""
-
-
-def convert_pocket_region_list_to_dict() -> dict[str, dict[str, int]]:
-    """Convert list of pocket regions to dictionary.
-
-    Returns
-    -------
-    dict[str, dict[str, int]]
-        Dictionary with pocket regions as keys and start and end indices as values
-
-    """
-    list_klifs_region = list({i[1] for i in LIST_POCKET_KLIFS_REGIONS})
-
-    list_klifs_start = []
-    list_klifs_end = []
-    for region in list_klifs_region:
-        list_region = [i[0] for i in LIST_POCKET_KLIFS_REGIONS if i[1] == region]
-        start, end = min(list_region), max(list_region)
-        list_klifs_start.append(start), list_klifs_end.append(end)
-
-    idx_sort = np.argsort(np.array(list_klifs_start))
-    list_klifs_region = list(np.array(list_klifs_region)[idx_sort])
-    list_klifs_start = list(np.array(list_klifs_start)[idx_sort])
-    list_klifs_end = list(np.array(list_klifs_end)[idx_sort])
-
-    dict_klifs_regions = {
-        region: {"start": list_klifs_start[idx], "end": list_klifs_end[idx]}
-        for idx, region in enumerate(list_klifs_region)
-    }
-
-    return dict_klifs_regions
-
-
+# start/end and colors courtesy of OpenCADD
 DICT_POCKET_KLIFS_REGIONS = {
-    "I": {"start": 1, "end": 3},
-    "g.l": {"start": 4, "end": 9},
-    "II": {"start": 10, "end": 13},
-    "III": {"start": 14, "end": 19},
-    "αC": {"start": 20, "end": 30},
-    "b.l": {"start": 31, "end": 37},
-    "IV": {"start": 38, "end": 41},
-    "V": {"start": 42, "end": 44},
-    "GK": {"start": 45, "end": 45},
-    "hinge": {"start": 46, "end": 48},
-    "linker": {"start": 49, "end": 52},
-    "αD": {"start": 53, "end": 59},
-    "αE": {"start": 60, "end": 64},
-    "VI": {"start": 65, "end": 67},
-    "c.l": {"start": 68, "end": 75},
-    "VII": {"start": 76, "end": 78},
-    "VIII": {"start": 79, "end": 79},
-    "xDFG": {"start": 80, "end": 83},
-    "a.l": {"start": 84, "end": 85},
-}
-"""dict[str, dict[str, int]]: Mapping KLIFS pocket region to start and end indices"""
-
-
-# courtesy of OpenCADD
-POCKET_KLIFS_REGION_COLORS = {
-    "I": "khaki",
-    "g.l": "green",
-    "II": "khaki",
-    "III": "khaki",
-    "αC": "red",
-    "b.l": "green",
-    "IV": "khaki",
-    "V": "khaki",
-    "GK": "orange",
-    "hinge": "magenta",
-    "linker": "cyan",
-    "αD": "red",
-    "αE": "red",
-    "VI": "khaki",
-    "c.l": "darkorange",
-    "VII": "khaki",
-    "VIII": "khaki",
-    "xDFG": "cornflowerblue",
-    "a.l": "cornflowerblue",
+    "I": {
+        "start": 1,
+        "end": 3,
+        "contiguous": True,
+        "color": "khaki",
+    },
+    "g.l": {
+        "start": 4,
+        "end": 9,
+        "contiguous": True,
+        "color": "green",
+    },
+    "II": {
+        "start": 10,
+        "end": 13,
+        "contiguous": True,
+        "color": "khaki",
+    },
+    "III": {
+        "start": 14,
+        "end": 19,
+        "contiguous": False,
+        "color": "khaki",
+    },
+    "αC": {
+        "start": 20,
+        "end": 30,
+        "contiguous": True,
+        "color": "red",
+    },
+    "b.l": {
+        "start": 31,
+        "end": 37,
+        "contiguous": True,
+        "color": "green",
+    },
+    "IV": {
+        "start": 38,
+        "end": 41,
+        "contiguous": False,
+        "color": "khaki",
+    },
+    "V": {
+        "start": 42,
+        "end": 44,
+        "contiguous": True,
+        "color": "khaki",
+    },
+    "GK": {
+        "start": 45,
+        "end": 45,
+        "contiguous": True,
+        "color": "orange",
+    },
+    "hinge": {
+        "start": 46,
+        "end": 48,
+        "contiguous": True,
+        "color": "magenta",
+    },
+    "linker": {
+        "start": 49,
+        "end": 52,
+        "contiguous": True,
+        "color": "cyan",
+    },
+    "αD": {
+        "start": 53,
+        "end": 59,
+        "contiguous": False,
+        "color": "red",
+    },
+    "αE": {
+        "start": 60,
+        "end": 64,
+        "contiguous": True,
+        "color": "red",
+    },
+    "VI": {
+        "start": 65,
+        "end": 67,
+        "contiguous": True,
+        "color": "khaki",
+    },
+    "c.l": {
+        "start": 68,
+        "end": 75,
+        "contiguous": True,
+        "color": "darkorange",
+    },
+    "VII": {
+        "start": 76,
+        "end": 78,
+        "contiguous": False,
+        "color": "khaki",
+    },
+    "VIII": {
+        "start": 79,
+        "end": 79,
+        "contiguous": True,
+        "color": "khaki",
+    },
+    "xDFG": {
+        "start": 80,
+        "end": 83,
+        "contiguous": True,
+        "color": "cornflowerblue",
+    },
+    "a.l": {
+        "start": 84,
+        "end": 85,
+        "contiguous": False,
+        "color": "cornflowerblue",
+    },
 }
-"""dict[str, str]: Mapping KLIFS pocket region to color"""
-
-
-def remove_gaps_from_klifs(klifs_string: str) -> str:
-    """Remove gaps from KLIFS pocket sequence.
-
-    Parameters
-    ----------
-    klifs_pocket : str
-        KLIFS pocket sequence; can be entire sequence or substring
-
-    Returns
-    -------
-    klifs_pocket_narm : str
-        KLIFS pocket sequence without gaps (i.e., "-" removed)
-
-    """
-    klifs_pocket_narm = "".join([i for i in klifs_string if i != "-"])
-    return klifs_pocket_narm
-
-
-def return_idx_of_substring_in_superstring(
-    superstring: str, substring: str
-) -> list[int] | None:
-    """
-
-    Parameters
-    ----------
-    superstring : str
-        String in which to find substring index
-    substring : str
-        String in which to find superstring index
-
-    Returns
-    -------
-    list_out : list[int] | None
-        Index where substring begins in superstring; None if substring not in superstring
-
-    """
-    list_out = [
-        i for i in range(len(superstring)) if superstring.startswith(substring, i)
-    ]
-    return list_out
-
-
-def align_klifs_pocket_to_uniprot_seq(
-    idx_start: int,
-    idx_end: int,
-    str_uniprot: str,
-    str_klifs: str,
-) -> list[int] | None:
-    """Align KLIFS region to UniProt canonical Uniprot sequence.
-
-    Parameters
-    ----------
-    idx_start : int
-        Start index of KLIFS region
-    idx_end : int
-        End index of KLIFS region
-    str_uniprot : str
-        UniProt canonical sequence
-    str_klifs : str
-        KLIFS pocket sequence
-
-    Returns
-    -------
-    substring_klifs : str
-        Substring of KLIFS pocket that maps to indices for the region(s) provided
-    list_substring_idx : list[int] | None
-        List of indices in UniProt sequence where KLIFS region starts
+"""dict[str, dict[str, int | bool | str]]: Mapping KLIFS pocket region to start and end indices, \
+    boolean denoting if subsequent regions are contiguous, and colors."""
 
-    """
-    substring_klifs = str_klifs[idx_start:idx_end]
-    substring_klifs_narm = remove_gaps_from_klifs(substring_klifs)
-    if len(substring_klifs_narm) == 0:
-        list_idx = None
-    else:
-        list_idx = return_idx_of_substring_in_superstring(
-            str_uniprot, substring_klifs_narm
-        )
-    return substring_klifs, list_idx
 
-
-# TODO "b.l" algorithm since non-contiguous region
-# TODO keep match string separate from KLIFS substring at start region
-def iterate_klifs_alignment(
-    string_uniprot: str,
-    string_klifs: str,
-) -> dict[str, list[str | list[int] | None]]:
-    """Align KLIFS region to UniProt canonical Uniprot sequence.
-
-    Parameters
-    ----------
-    string_uniprot : str
-        UniProt canonical sequence
-    string_klifs : str
-        KLIFS pocket sequence
-
-    Returns
-    -------
-    dict_out : dict[str, list[str | list[int] | None]]
-        Dictionary with keys (match part of KLIFSPocket object):
-            list_klifs_region : list[str]
-                List of start and end regions of KLIFS pocket separated by ":"; end region will be the
-                    same as start region if no concatenation necessary to find a single exact match
-            list_klifs_substr_actual : list[str]
-                List of substring of KLIFS pocket that maps to the *start region* of the KLIFS pocket
-            list_klifs_substr_match : list[str]
-                List of the actual substring used to match to the KLIFS pocket for the region(s) provided;
-                    same as list_klifs_substr_actual if no concatenation necessary to find a single exact match
-            list_substring_idxs : list[list[int | None]]
-                List of indices in UniProt sequence where KLIFS region starts
-
-    """
-    list_klifs_region = []
-    list_klifs_substr_actual = []
-    list_klifs_substr_match = []
-    list_substring_idxs = []
-
-    dict_klifs = DICT_POCKET_KLIFS_REGIONS
-    list_klifs = list(dict_klifs.keys())
-
-    for klifs_index, klifs_region in enumerate(list_klifs):
-        klifs_region_start, klifs_region_end = klifs_region, klifs_region
-        klifs_idx_start, klifs_idx_end = (
-            dict_klifs[klifs_region_start]["start"] - 1,
-            dict_klifs[klifs_region_end]["end"],
-        )
-
-        str_klifs, list_substring_idx = align_klifs_pocket_to_uniprot_seq(
-            idx_start=klifs_idx_start,
-            idx_end=klifs_idx_end,
-            str_uniprot=string_uniprot,
-            str_klifs=string_klifs,
-        )
-        list_klifs_substr_actual.append(str_klifs)
-
-        # will no longer extract a single index here so can process elsewhere
-        # if list_substring_idx is None:
-        #     substring_idx = None
-
-        if list_substring_idx is not None:
-            # TODO: analyze KLIFS PDB structures to determine contiguous regions
-            if len(list_substring_idx) > 1:
-                # if not last KLIFs region concatenate with susbequent regions
-                if klifs_index + 1 < len(list_klifs):
-                    klifs_region_end = list_klifs[klifs_index + 1]
-                    klifs_idx_end = dict_klifs[klifs_region_end]["end"]
-                # if last KLIFs region concatenate with previous region
-                else:
-                    len_klifs = len(remove_gaps_from_klifs(str_klifs))
-                    klifs_region_start = list_klifs[klifs_index - 1]
-                    klifs_idx_start = dict_klifs[klifs_region_start]["start"]
-                klifs_idx_start, klifs_idx_end = (
-                    dict_klifs[klifs_region_start]["start"] - 1,
-                    dict_klifs[klifs_region_end]["end"],
-                )
-                str_klifs, list_substring_idx = align_klifs_pocket_to_uniprot_seq(
-                    idx_start=klifs_idx_start,
-                    idx_end=klifs_idx_end,
-                    str_uniprot=string_uniprot,
-                    str_klifs=string_klifs,
-                )
-                # if last KLIFS region offset by length of preceding KLIFS region with gaps removed
-                if klifs_index + 1 == len(list_klifs) and len(list_substring_idx) != 0:
-                    len_offset = len(remove_gaps_from_klifs(str_klifs)) - len_klifs
-                    list_substring_idx = [i + len_offset for i in list_substring_idx]
-
-        list_klifs_region.append(klifs_region_start + ":" + klifs_region_end)
-        list_klifs_substr_match.append(str_klifs)
-        list_substring_idxs.append(list_substring_idx)
-
-        # will no longer extract a single index here so can process multiple ways elsewhere
-        #     if len(list_substring_idx) != 1:
-        #         substring_idx = np.nan
-        #     else:
-        #         substring_idx = list_substring_idx[0]
-        # else:
-        #     try:
-        #         substring_idx = list_substring_idx[0]
-        #     except:
-        #         substring_idx = np.nan
-
-    dict_out = {
-        "list_klifs_region": list_klifs_region,
-        "list_klifs_substr_actual": list_klifs_substr_actual,
-        "list_klifs_substr_match": list_klifs_substr_match,
-        "list_substring_idxs": list_substring_idxs,
-    }
-
-    return dict_out
+LIST_KLIFS_REGION = list(
+    chain(
+        *[
+            [f"{key}:{i}" for i in range(val["start"], val["end"] + 1)]
+            for key, val in DICT_POCKET_KLIFS_REGIONS.items()
+        ]
+    )
+)
+"""list[str]: List of string of all KLIFS pocket regions in format region:idx."""
 
 
 class KLIFS(SwaggerAPIClient):
@@ -421,7 +200,8 @@ class KinaseInfo(KLIFS):
 
     def __init__(
         self,
-        kinase_name: str,
+        search_term: str,
+        search_field: str | None = None,
         species: str = "Human",
     ) -> None:
         """Initialize KinaseInfo Class object.
@@ -430,23 +210,30 @@ def __init__(
 
         Parameters
         ----------
-        kinase_name : str
-            Name of the kinase
+        search_term : str
+            Search term used to query KLIFS API
+        search_field : str | None
+            Search field (optional; default: None);
+            only used to post-hoc annotate column with search term in case of missing data
         species : str
             Species of the kinase; default "Human" but can also be "Mouse"
 
         Attributes
         ----------
-        kinase_name : str
-            Name of the kinase searched
+        search_term : str
+            Search term used to query KLIFS API
+        search_field : str | None
+            Search field (optional; default: None);
+            only used to post-hoc annotate column with search term in case of missing data
         species : str
             Species of the kinase
         _kinase_info : dict[str, str | int | None]
-            KLIFS API object
+            KLIFS API object for search term
 
         """
         super().__init__()
-        self.kinase_name = kinase_name
+        self.search_term = search_term
+        self.search_field = search_field
         self.species = species
         self._kinase_info = self.query_kinase_info()
 
@@ -462,7 +249,7 @@ def query_kinase_info(self) -> dict[str, str | int | None]:
         try:
             kinase_info = (
                 self._klifs.Information.get_kinase_ID(
-                    kinase_name=[self.kinase_name], species=self.species
+                    kinase_name=[self.search_term], species=self.species
                 )
                 .response()
                 .result[0]
@@ -474,7 +261,9 @@ def query_kinase_info(self) -> dict[str, str | int | None]:
             dict_kinase_info = dict(zip(list_key, list_val))
 
         except Exception as e:
-            print(f"Error in query_kinase_info for {self.kinase_name}:")
+            print(
+                f"Error in query_kinase_info for {self.search_term} (field: {self.search_field}):"
+            )
             print(e)
             list_key = [
                 "family",
@@ -490,18 +279,503 @@ def query_kinase_info(self) -> dict[str, str | int | None]:
                 "uniprot",
             ]
             dict_kinase_info = dict(zip(list_key, [None] * len(list_key)))
-            dict_kinase_info["name"] = self.kinase_name
+            if self.search_field is not None:
+                dict_kinase_info[self.search_field] = self.search_term
 
         return dict_kinase_info
 
-    def get_kinase_name(self):
-        """Get name of the kinase."""
-        return self.kinase_name
+    def get_search_term(self):
+        """Get search term used for query."""
+        return self.search_term
+
+    def get_search_field(self):
+        """Get search field used for query."""
+        return self.search_field
 
     def get_species(self):
-        """Get species of the kinase."""
+        """Get species used for query."""
         return self.species
 
     def get_kinase_info(self):
-        """Get information about the kinase."""
+        """Get information about the kinase from KLIFS query."""
         return self._kinase_info
+
+
+@dataclass
+class KLIFSPocket:
+    """Dataclass to hold KLIFS pocket alignment information per kinase.
+
+    Attributes
+    ----------
+    uniprotSeq : str
+        UniProt canonical sequence
+    klifsSeq : str
+        KLIFS pocket sequence
+    idx_kd : tuple[int | None, int | None]
+        Index of kinase domain in UniProt sequence (start, end)
+    offset_bool : bool
+        If True, offset indices by 1 to match 1-based indexing; default True
+    list_klifs_region : list[str]
+        List of start and end regions of KLIFS pocket separated by ":"; end region will be the
+            same as start region if no concatenation necessary to find a single exact match
+    list_klifs_substr_actual : list[str | None]
+        List of substring of KLIFS pocket that maps to the *start region* of the KLIFS pocket
+    list_klifs_substr_match : list[str | None]
+        List of the actual substring used to match to the KLIFS pocket for the region(s) provided;
+            will be the same as list_klifs_substr_actual if no concatenation necessary to find a single exact match
+    list_substring_idxs : list[list[int] | None]
+        List of indices in UniProt sequence where KLIFS substring match starts;
+            offset by length of preceding KLIFS region with gaps removed
+    list_align : list[str | None] | None
+        List of final alignments to UniProt sequence
+
+    """
+
+    uniprotSeq: str
+    klifsSeq: str
+    idx_kd: tuple[int | None, int | None]
+    offset_bool: bool = True
+    list_klifs_region: list[str | None] = field(default_factory=list)
+    list_klifs_substr_actual: list[str | None] = field(default_factory=list)
+    list_klifs_substr_match: list[str | None] = field(default_factory=list)
+    list_substring_idxs: list[list[int | None] | None] = field(default_factory=list)
+    list_align: list[str | None] | None = None
+
+    def __post_init__(self):
+        self.iterate_klifs_alignment()
+        self.generate_alignment_list(bool_offset=self.offset_bool)
+
+    @staticmethod
+    def remove_gaps_from_klifs(klifs_string: str) -> str:
+        """Remove gaps from KLIFS pocket sequence.
+
+        Parameters
+        ----------
+        klifs_pocket : str
+            KLIFS pocket sequence; can be entire sequence or substring
+
+        Returns
+        -------
+        klifs_pocket_narm : str
+            KLIFS pocket sequence without gaps (i.e., "-" removed)
+
+        """
+        klifs_pocket_narm = "".join([i for i in klifs_string if i != "-"])
+        return klifs_pocket_narm
+
+    @staticmethod
+    def return_idx_of_substring_in_superstring(
+        superstring: str,
+        substring: str,
+    ) -> list[int] | None:
+        """Returns the index where substring begins in superstring (does not require -1 offset).
+
+        Parameters
+        ----------
+        superstring : str
+            String in which to find substring index
+        substring : str
+            String in which to find superstring index
+
+        Returns
+        -------
+        list_out : list[int] | None
+            Index where substring begins in superstring; None if substring not in superstring
+
+        """
+        list_out = [
+            i for i in range(len(superstring)) if superstring.startswith(substring, i)
+        ]
+        return list_out
+
+    @staticmethod
+    def return_idx_of_alignment_match(
+        align: Align.PairwiseAlignments,
+    ) -> list[int]:
+        """Return indices of alignment match.
+
+        Parameters
+        ----------
+        align : Align.PairwiseAlignments
+            Pairwise alignments
+
+        Returns
+        -------
+        list[int]
+            List of indices for alignment match
+
+        """
+        # extract target (b.l) and query (UniProt) sequences
+        target = align.indices[0]
+        query = align.indices[1]
+
+        # where target is aligned, set to 1; where target is not aligned, set to np.nan
+        target[target >= 0] = 1
+        target = np.where(target == -1, np.nan, target)
+
+        # keep only indices where target is aligned to query
+        output = target * query
+        output = output[~np.isnan(output)]
+        output = [int(i) for i in output.tolist()]
+
+        return output
+
+    def select_correct_alignment(
+        self,
+        alignments: Align.PairwiseAlignments,
+        bool_bl: bool = True,
+    ) -> list[int]:
+        """Select correct alignment for b.l region.
+
+        Parameters
+        ----------
+        alignments : Align.PairwiseAlignments
+            Pairwise alignments
+        bool_bl : bool
+            If True, select correct alignment for b.l region; if False, select correct alignment for linker region
+
+        Returns
+        -------
+        list[int]
+            List of indices for correct alignment
+
+        """
+        list_alignments = [
+            re.findall(r"[A-Z]+", alignment[0, :]) for alignment in alignments
+        ]
+
+        if bool_bl:
+            # manual review showed 2 matches + gap + 5 matches
+            list_idx = [
+                idx
+                for idx, i in enumerate(list_alignments)
+                if len(i) == 2 and len(i[0]) == 2
+            ]
+            region = "b.l"
+        else:
+            # manual review showed 1 matches + gap + 3 matches
+            list_idx = [
+                idx
+                for idx, i in enumerate(list_alignments)
+                if len(i) == 2 and len(i[0]) == 1
+            ]
+            region = "linker"
+
+        if len(list_idx) > 1:
+            logging.error(
+                f"{len(list_idx)} correct alignments found for {region} region\n{list_alignments}"
+            )
+            return None
+        # BUB1B and PIK3R4 have "-" in b.l region so will not obey heuristic in list_idx
+        elif len(list_idx) == 0:
+            if len(alignments) == 1:
+                alignment = alignments[0]
+            else:
+                logging.error(
+                    f"{len(alignments)} non-heuristic alignments found for {region} region\n"
+                    f"{[print(i) for i in alignments]}"
+                )
+                return None
+        else:
+            alignment = alignments[list_idx[0]]
+
+        return self.return_idx_of_alignment_match(alignment)
+
+    def align_klifs_pocket_to_uniprot_seq(
+        self,
+        idx_start: int,
+        idx_end: int,
+    ) -> tuple[str, list[int] | None]:
+        """Align KLIFS region to UniProt canonical Uniprot sequence.
+
+        Parameters
+        ----------
+        idx_start : int
+            Start index of KLIFS region
+        idx_end : int
+            End index of KLIFS region
+
+        Returns
+        -------
+        substring_klifs : str
+            Substring of KLIFS pocket that maps to indices for the region(s) provided
+        list_idx : list[int] | None
+            List of indices in UniProt sequence where KLIFS region starts
+
+        """
+        substring_klifs = self.klifsSeq[idx_start:idx_end]
+        substring_klifs_narm = self.remove_gaps_from_klifs(substring_klifs)
+        if len(substring_klifs_narm) == 0:
+            list_idx = None
+        else:
+            list_idx = self.return_idx_of_substring_in_superstring(
+                self.uniprotSeq, substring_klifs_narm
+            )
+        return substring_klifs, list_idx
+
+    def find_start_or_end_idx_recursively(
+        self,
+        idx_in: int,
+        bool_start: bool = True,
+    ) -> int:
+        """Find the start or end indices in UniProt canonical sequence of flanking KLIFS regions recursively.
+
+        Parameters
+        ----------
+        idx_in : int
+            Index of KLIFS region (e.g., I is 0, g.l is 1, etc.)
+        bool_start : bool
+            If True, find start index (default); if False, find end index
+        """
+        # if looking for preceding region, start at idx_in - 1
+        if bool_start:
+            # if first region
+            if idx_in == 0:
+                # if KD start is None, return 0
+                if self.idx_kd[0] is None:
+                    return 0
+                # if KD start is provided, return KD start
+                else:
+                    return self.idx_kd[0]
+            idx_temp = self.list_substring_idxs[idx_in - 1]
+            str_temp = self.list_klifs_substr_actual[idx_in - 1]
+            if idx_temp is not None and len(idx_temp) == 1:
+                idx_out = idx_temp[0] + len(self.remove_gaps_from_klifs(str_temp))
+            else:
+                idx_out = self.find_start_or_end_idx_recursively(
+                    idx_in - 1, bool_start=True
+                )
+        # if looking for subsequent region, start at idx_in + 1
+        else:
+            # if last region
+            if idx_in == len(DICT_POCKET_KLIFS_REGIONS) - 1:
+                # if KD end is None, return len(self.uniprotSeq) - 1
+                if self.idx_kd[1] is None:
+                    return len(self.uniprotSeq) - 1
+                # if KD end is provided, return KD end
+                else:
+                    return self.idx_kd[1]
+            idx_temp = self.list_substring_idxs[idx_in + 1]
+            if idx_temp is not None and len(idx_temp) == 1:
+                idx_out = idx_temp[0]
+            else:
+                idx_out = self.find_start_or_end_idx_recursively(
+                    idx_in + 1, bool_start=False
+                )
+
+        return idx_out
+
+    def return_partial_alignments(
+        self,
+        idx: int,
+        align_fn: Align.PairwiseAligner | None = None,
+    ) -> tuple[int, int, Align.PairwiseAlignments | list[int | None] | None]:
+        """Return partial alignments for b.l region.
+
+        Parameters
+        ----------
+        idx : int
+            Index of region (e.g., I is 0, g.l is 1, etc.)
+        align_fn : Align.PairwiseAligner | None
+            Alignment function; if none provided will use exact match
+
+        Returns
+        -------
+        tuple[int, int, Align.PairwiseAlignments | list[int | None] | None]
+            Start, end, and alignments (either indices or alignments or None) for region
+
+        """
+        start_idx = self.find_start_or_end_idx_recursively(idx, bool_start=True)
+        end_idx = self.find_start_or_end_idx_recursively(idx, bool_start=False)
+
+        str_klifs = self.remove_gaps_from_klifs(self.list_klifs_substr_actual[idx])
+        str_uniprot = self.uniprotSeq[start_idx:end_idx]
+
+        if len(str_klifs) == 0:
+            return start_idx, end_idx, None
+        else:
+            if align_fn is not None:
+                aligned = align_fn.align(str_klifs, str_uniprot)
+            else:
+                aligned = self.return_idx_of_substring_in_superstring(
+                    str_uniprot, str_klifs
+                )
+
+            return start_idx, end_idx, aligned
+
+    def iterate_klifs_alignment(
+        self,
+    ) -> None:
+        """Align KLIFS region to UniProt canonical Uniprot sequence."""
+        dict_klifs = DICT_POCKET_KLIFS_REGIONS
+        list_klifs = list(dict_klifs.keys())
+
+        for klifs_index, klifs_region in enumerate(list_klifs):
+            klifs_region_start, klifs_region_end = klifs_region, klifs_region
+            klifs_idx_start, klifs_idx_end = (
+                dict_klifs[klifs_region_start]["start"] - 1,
+                dict_klifs[klifs_region_end]["end"],
+            )
+
+            str_klifs, list_substring_idx = self.align_klifs_pocket_to_uniprot_seq(
+                idx_start=klifs_idx_start,
+                idx_end=klifs_idx_end,
+            )
+            self.list_klifs_substr_actual.append(str_klifs)
+
+            # if None KLIFS all "-" so disregard; if multiple idxs returned,
+            # concatenate with contiguous regions to identify single match
+            if list_substring_idx is not None and len(list_substring_idx) > 1:
+                bool_cont = dict_klifs[klifs_region_start]["contiguous"]
+                # if contiguous with subsequent, concatenate with susbequent region
+                if bool_cont:
+                    klifs_region_end = list_klifs[klifs_index + 1]
+                # if not contiguous with subsequent, concatenate with previous region
+                else:
+                    klifs_region_start = list_klifs[klifs_index - 1]
+                    # need for offset later
+                    len_klifs = len(self.remove_gaps_from_klifs(str_klifs))
+                klifs_idx_start, klifs_idx_end = (
+                    dict_klifs[klifs_region_start]["start"] - 1,
+                    dict_klifs[klifs_region_end]["end"],
+                )
+                str_klifs, list_substring_idx = self.align_klifs_pocket_to_uniprot_seq(
+                    idx_start=klifs_idx_start,
+                    idx_end=klifs_idx_end,
+                )
+                # if concat with previous, offset by length of preceding KLIFS region with gaps removed
+                if (
+                    not bool_cont
+                    and list_substring_idx is not None
+                    and len(list_substring_idx) != 0
+                ):
+                    len_offset = len(self.remove_gaps_from_klifs(str_klifs)) - len_klifs
+                    list_substring_idx = [i + len_offset for i in list_substring_idx]
+
+            self.list_klifs_region.append(klifs_region_start + ":" + klifs_region_end)
+            self.list_klifs_substr_match.append(str_klifs)
+            self.list_substring_idxs.append(list_substring_idx)
+
+        # post-hoc adjustments
+
+        # b.l region non-contiguous alignment
+        idx_bl = [i for i, x in enumerate(list_klifs) if x == "b.l"][0]
+        # STK40 has no b.l region, so skip entirely
+        if self.list_substring_idxs[idx_bl] is None:
+            pass
+        else:
+            start, _, bl_alignments = self.return_partial_alignments(
+                idx=idx_bl,
+                align_fn=BL2UniProtAligner(),
+            )
+            list_bl = self.select_correct_alignment(bl_alignments)
+            self.list_substring_idxs[idx_bl] = [i + start for i in list_bl]
+
+        # interpolate multi-matching using previous and subsequent regions
+        for idx, substr_idx in enumerate(self.list_substring_idxs):
+            if idx != idx_bl and substr_idx is not None and len(substr_idx) > 1:
+                start = self.find_start_or_end_idx_recursively(idx, bool_start=True)
+                end = self.find_start_or_end_idx_recursively(idx, bool_start=False)
+                self.list_substring_idxs[idx] = [
+                    i for i in substr_idx if i >= start and i <= end
+                ]
+
+        # final partial alignment algorithm
+        for idx, substr_idx in enumerate(self.list_substring_idxs):
+            if substr_idx == []:
+                # check exact match
+                start_exact, _, align_exact = self.return_partial_alignments(idx=idx)
+                if align_exact != [] and len(align_exact) == 1:
+                    self.list_substring_idxs[idx] = [
+                        i + start_exact for i in align_exact
+                    ]
+                # if no exact match, try local alignment
+                else:
+                    start_local, _, align_local = self.return_partial_alignments(
+                        idx=idx,
+                        align_fn=Kincore2UniProtAligner(),
+                    )
+                    if len(align_local) == 1 and align_local[
+                        0
+                    ].target == self.remove_gaps_from_klifs(align_local[0][0, :]):
+                        list_local = self.return_idx_of_alignment_match(align_local[0])
+                        self.list_substring_idxs[idx] = [
+                            i + start_local for i in list_local
+                        ]
+                    # if no exact match, try global alignment
+                    else:
+                        start_global, _, align_global = self.return_partial_alignments(
+                            idx=idx,
+                            align_fn=BL2UniProtAligner(),
+                        )
+                        # all that remains is linker region where some gaps (1 + 3) occur
+                        list_global = self.select_correct_alignment(
+                            align_global, bool_bl=False
+                        )
+                        self.list_substring_idxs[idx] = [
+                            i + start_global for i in list_global
+                        ]
+
+    def generate_alignment_list(self, bool_offset: bool) -> list[str | None]:
+        """Generate and validate alignment list.
+
+        Parameters
+        ----------
+        bool_offset : bool
+            If True, offset indices by 1 to match 1-based indexing
+
+        Returns
+        -------
+        list[str | None]
+            List of alignments
+        """
+        list_align = []
+        for list_idx, list_seq in zip(
+            self.list_substring_idxs, self.list_klifs_substr_actual
+        ):
+            if list_idx is not None and len(list_idx) == 1:
+                if bool_offset:
+                    temp_idx = list_idx[0] + 1
+                else:
+                    temp_idx = list_idx[0]
+                for aa in list_seq:
+                    if aa == "-":
+                        list_align.append(None)
+                    else:
+                        list_align.append(temp_idx)
+                        temp_idx += 1
+            elif list_idx is None:
+                list_align.extend([None] * len(list_seq))
+            else:
+                idx = 0
+                for aa in list_seq:
+                    if aa == "-":
+                        list_align.append(None)
+                    else:
+                        if bool_offset:
+                            list_align.append(list_idx[idx] + 1)
+                        else:
+                            list_align.append(list_idx[idx])
+                        idx += 1
+
+        for idx, i in enumerate(list_align):
+            if i is not None:
+                if bool_offset:
+                    i = i - 1
+                if self.uniprotSeq[i] != self.klifsSeq[idx]:
+                    logging.error(
+                        f"Alignment mismatch at {idx} position in KLIFS pocket and {i} of UniProt\n"
+                        f"UniProt: {self.uniprotSeq[i]}\n"
+                        f"KLIFS: {self.klifsSeq[idx]}\n"
+                    )
+                    return None
+            else:
+                if self.klifsSeq[idx] != "-":
+                    logging.error(
+                        f"Alignment mismatch at {idx + 1} position in KLIFS pocket and {i} of UniProt\n"
+                        f"UniProt: -\n"
+                        f"KLIFS: {self.klifsSeq[idx]}\n"
+                    )
+                    return None
+
+        self.list_align = list_align
diff --git a/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/utils.py b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/utils.py
index 7042502..97a6072 100644
--- a/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/utils.py
+++ b/missense_kinase_toolkit/databases/missense_kinase_toolkit/databases/utils.py
@@ -1,5 +1,6 @@
 from typing import Any
 
+import git
 import numpy as np
 
 
@@ -174,3 +175,11 @@ def try_except_convert_str2int(str_in: str):
         return int(str_in)
     except ValueError:
         return str_in
+
+
+def get_repo_root():
+    try:
+        repo = git.Repo(".", search_parent_directories=True)
+        return repo.working_tree_dir
+    except git.InvalidGitRepositoryError:
+        return None
diff --git a/missense_kinase_toolkit/databases/poetry.lock b/missense_kinase_toolkit/databases/poetry.lock
index 84fc31f..ee60261 100644
--- a/missense_kinase_toolkit/databases/poetry.lock
+++ b/missense_kinase_toolkit/databases/poetry.lock
@@ -2047,6 +2047,24 @@ files = [
 [package.dependencies]
 traitlets = "*"
 
+[[package]]
+name = "matplotlib-venn"
+version = "1.1.1"
+description = "Functions for plotting area-proportional two- and three-way Venn diagrams in matplotlib."
+optional = false
+python-versions = "*"
+files = [
+    {file = "matplotlib-venn-1.1.1.tar.gz", hash = "sha256:d885bc015f5091a4b8a8138ff20a7ed166c33b5c36dbc0489f95a5cbc76a2ae5"},
+]
+
+[package.dependencies]
+matplotlib = "*"
+numpy = "*"
+scipy = "*"
+
+[package.extras]
+shapely = ["shapely"]
+
 [[package]]
 name = "mccabe"
 version = "0.7.0"
@@ -4221,4 +4239,4 @@ testing = ["coverage (>=5.0.3)", "zope.event", "zope.testing"]
 [metadata]
 lock-version = "2.0"
 python-versions = "^3.9"
-content-hash = "64e2993ed648621a0813b9ad50f35feb45b0f6201fe3633f7f1455c7f0c144c2"
+content-hash = "0bf6c5701add8319a859ce8448836c15ca1e9f789d30deedb3685880acce69cb"
diff --git a/missense_kinase_toolkit/databases/pyproject.toml b/missense_kinase_toolkit/databases/pyproject.toml
index bc8ed5f..fd29b5d 100644
--- a/missense_kinase_toolkit/databases/pyproject.toml
+++ b/missense_kinase_toolkit/databases/pyproject.toml
@@ -35,6 +35,7 @@ biopython = "^1.83"
 bokeh = "^3.4.1"
 seaborn = "^0.13.2"
 scipy = "^1.13.1"
+matplotlib-venn = "^1.1.1"
 
 [tool.poetry.group.dev.dependencies]
 black = "^24.3.0"
diff --git a/notebooks/databases.ipynb b/notebooks/databases.ipynb
index 0ff4de4..c63473f 100644
--- a/notebooks/databases.ipynb
+++ b/notebooks/databases.ipynb
@@ -89,22 +89,22 @@
        "    <tr>\n",
        "      <th>141</th>\n",
        "      <td>JAK1</td>\n",
-       "      <td>JAK1_b, JAK1</td>\n",
+       "      <td>JAK1, JAK1_b</td>\n",
        "      <td>JAK1, Domain2_JAK1</td>\n",
        "      <td>Tyrosine-protein kinase JAK1</td>\n",
        "      <td>TK</td>\n",
-       "      <td>Jak, JakB</td>\n",
+       "      <td>JakB, Jak</td>\n",
        "      <td>nan</td>\n",
        "      <td>P23458</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>142</th>\n",
        "      <td>JAK2</td>\n",
-       "      <td>JAK2, JAK2_b</td>\n",
+       "      <td>JAK2_b, JAK2</td>\n",
        "      <td>Domain2_JAK2, JAK2</td>\n",
        "      <td>Tyrosine-protein kinase JAK2</td>\n",
        "      <td>TK</td>\n",
-       "      <td>Jak, JakB</td>\n",
+       "      <td>JakB, Jak</td>\n",
        "      <td>nan</td>\n",
        "      <td>O60674</td>\n",
        "    </tr>\n",
@@ -112,10 +112,10 @@
        "      <th>143</th>\n",
        "      <td>JAK3</td>\n",
        "      <td>JAK3_b, JAK3</td>\n",
-       "      <td>Domain2_JAK3, JAK3</td>\n",
+       "      <td>JAK3, Domain2_JAK3</td>\n",
        "      <td>Tyrosine-protein kinase JAK3</td>\n",
        "      <td>TK</td>\n",
-       "      <td>Jak, JakB</td>\n",
+       "      <td>JakB, Jak</td>\n",
        "      <td>nan</td>\n",
        "      <td>P52333</td>\n",
        "    </tr>\n",
@@ -125,31 +125,31 @@
        "      <td>MSK1_b, MSK1</td>\n",
        "      <td>Domain2_MSK1, MSK1</td>\n",
        "      <td>Ribosomal protein S6 kinase alpha-5</td>\n",
-       "      <td>AGC, CAMK</td>\n",
-       "      <td>RSK, RSKb</td>\n",
-       "      <td>MSKb, MSK</td>\n",
+       "      <td>CAMK, AGC</td>\n",
+       "      <td>RSKb, RSK</td>\n",
+       "      <td>MSK, MSKb</td>\n",
        "      <td>O75582</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>192</th>\n",
        "      <td>RPS6KA4</td>\n",
        "      <td>MSK2_b, MSK2</td>\n",
-       "      <td>Domain2_MSK2, MSK2</td>\n",
+       "      <td>MSK2, Domain2_MSK2</td>\n",
        "      <td>Ribosomal protein S6 kinase alpha-4</td>\n",
-       "      <td>AGC, CAMK</td>\n",
-       "      <td>RSK, RSKb</td>\n",
-       "      <td>MSKb, MSK</td>\n",
+       "      <td>CAMK, AGC</td>\n",
+       "      <td>RSKb, RSK</td>\n",
+       "      <td>MSK, MSKb</td>\n",
        "      <td>O75676</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>268</th>\n",
        "      <td>RPS6KA2</td>\n",
-       "      <td>RSK3, RSK3_b</td>\n",
-       "      <td>RSK1, Domain2_RSK1</td>\n",
+       "      <td>RSK3_b, RSK3</td>\n",
+       "      <td>Domain2_RSK1, RSK1</td>\n",
        "      <td>Ribosomal protein S6 kinase alpha-2</td>\n",
-       "      <td>AGC, CAMK</td>\n",
-       "      <td>RSK, RSKb</td>\n",
-       "      <td>RSKb, RSKp90</td>\n",
+       "      <td>CAMK, AGC</td>\n",
+       "      <td>RSKb, RSK</td>\n",
+       "      <td>RSKp90, RSKb</td>\n",
        "      <td>Q15349</td>\n",
        "    </tr>\n",
        "    <tr>\n",
@@ -158,53 +158,53 @@
        "      <td>RSK2_b, RSK2</td>\n",
        "      <td>Domain2_RSK2, RSK2</td>\n",
        "      <td>Ribosomal protein S6 kinase alpha-3</td>\n",
-       "      <td>AGC, CAMK</td>\n",
-       "      <td>RSK, RSKb</td>\n",
-       "      <td>RSKb, RSKp90</td>\n",
+       "      <td>CAMK, AGC</td>\n",
+       "      <td>RSKb, RSK</td>\n",
+       "      <td>RSKp90, RSKb</td>\n",
        "      <td>P51812</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>270</th>\n",
        "      <td>RPS6KA1</td>\n",
        "      <td>RSK1_b, RSK1</td>\n",
-       "      <td>RSK3, Domain2_RSK3</td>\n",
+       "      <td>Domain2_RSK3, RSK3</td>\n",
        "      <td>Ribosomal protein S6 kinase alpha-1</td>\n",
-       "      <td>AGC, CAMK</td>\n",
-       "      <td>RSK, RSKb</td>\n",
-       "      <td>RSKb, RSKp90</td>\n",
+       "      <td>CAMK, AGC</td>\n",
+       "      <td>RSKb, RSK</td>\n",
+       "      <td>RSKp90, RSKb</td>\n",
        "      <td>Q15418</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>305</th>\n",
        "      <td>TYK2</td>\n",
-       "      <td>TYK2, TYK2_b</td>\n",
-       "      <td>Domain2_TYK2, TYK2</td>\n",
+       "      <td>TYK2_b, TYK2</td>\n",
+       "      <td>TYK2, Domain2_TYK2</td>\n",
        "      <td>Non-receptor tyrosine-protein kinase TYK2</td>\n",
        "      <td>TK</td>\n",
-       "      <td>Jak, JakB</td>\n",
+       "      <td>JakB, Jak</td>\n",
        "      <td>nan</td>\n",
        "      <td>P29597</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>395</th>\n",
        "      <td>EIF2AK4</td>\n",
-       "      <td>GCN2, GCN2_b</td>\n",
-       "      <td>GCN2, Domain2_GCN2</td>\n",
+       "      <td>GCN2_b, GCN2</td>\n",
+       "      <td>Domain2_GCN2, GCN2</td>\n",
        "      <td>Eukaryotic translation initiation factor 2-alp...</td>\n",
        "      <td>STE, Other</td>\n",
-       "      <td>STE-Unique, PEK</td>\n",
-       "      <td>GCN2, nan</td>\n",
+       "      <td>PEK, STE-Unique</td>\n",
+       "      <td>nan, GCN2</td>\n",
        "      <td>Q9P2K8</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>419</th>\n",
        "      <td>RPS6KA6</td>\n",
        "      <td>RSK4_b, RSK4</td>\n",
-       "      <td>Domain2_RSK4, RSK4</td>\n",
+       "      <td>RSK4, Domain2_RSK4</td>\n",
        "      <td>Ribosomal protein S6 kinase alpha-6</td>\n",
-       "      <td>AGC, CAMK</td>\n",
-       "      <td>RSK, RSKb</td>\n",
-       "      <td>RSKb, RSKp90</td>\n",
+       "      <td>CAMK, AGC</td>\n",
+       "      <td>RSKb, RSK</td>\n",
+       "      <td>RSKp90, RSKb</td>\n",
        "      <td>Q9UK32</td>\n",
        "    </tr>\n",
        "    <tr>\n",
@@ -235,17 +235,17 @@
       ],
       "text/plain": [
        "    HGNC Name           xName          Manning Name  \\\n",
-       "141      JAK1    JAK1_b, JAK1    JAK1, Domain2_JAK1   \n",
-       "142      JAK2    JAK2, JAK2_b    Domain2_JAK2, JAK2   \n",
-       "143      JAK3    JAK3_b, JAK3    Domain2_JAK3, JAK3   \n",
+       "141      JAK1    JAK1, JAK1_b    JAK1, Domain2_JAK1   \n",
+       "142      JAK2    JAK2_b, JAK2    Domain2_JAK2, JAK2   \n",
+       "143      JAK3    JAK3_b, JAK3    JAK3, Domain2_JAK3   \n",
        "191   RPS6KA5    MSK1_b, MSK1    Domain2_MSK1, MSK1   \n",
-       "192   RPS6KA4    MSK2_b, MSK2    Domain2_MSK2, MSK2   \n",
-       "268   RPS6KA2    RSK3, RSK3_b    RSK1, Domain2_RSK1   \n",
+       "192   RPS6KA4    MSK2_b, MSK2    MSK2, Domain2_MSK2   \n",
+       "268   RPS6KA2    RSK3_b, RSK3    Domain2_RSK1, RSK1   \n",
        "269   RPS6KA3    RSK2_b, RSK2    Domain2_RSK2, RSK2   \n",
-       "270   RPS6KA1    RSK1_b, RSK1    RSK3, Domain2_RSK3   \n",
-       "305      TYK2    TYK2, TYK2_b    Domain2_TYK2, TYK2   \n",
-       "395   EIF2AK4    GCN2, GCN2_b    GCN2, Domain2_GCN2   \n",
-       "419   RPS6KA6    RSK4_b, RSK4    Domain2_RSK4, RSK4   \n",
+       "270   RPS6KA1    RSK1_b, RSK1    Domain2_RSK3, RSK3   \n",
+       "305      TYK2    TYK2_b, TYK2    TYK2, Domain2_TYK2   \n",
+       "395   EIF2AK4    GCN2_b, GCN2    Domain2_GCN2, GCN2   \n",
+       "419   RPS6KA6    RSK4_b, RSK4    RSK4, Domain2_RSK4   \n",
        "436      SPEG    SPEG_b, SPEG    Domain2_SPEG, SPEG   \n",
        "450     OBSCN  Obscn_b, Obscn  Obscn, Domain2_Obscn   \n",
        "\n",
@@ -253,29 +253,29 @@
        "141                       Tyrosine-protein kinase JAK1          TK   \n",
        "142                       Tyrosine-protein kinase JAK2          TK   \n",
        "143                       Tyrosine-protein kinase JAK3          TK   \n",
-       "191                Ribosomal protein S6 kinase alpha-5   AGC, CAMK   \n",
-       "192                Ribosomal protein S6 kinase alpha-4   AGC, CAMK   \n",
-       "268                Ribosomal protein S6 kinase alpha-2   AGC, CAMK   \n",
-       "269                Ribosomal protein S6 kinase alpha-3   AGC, CAMK   \n",
-       "270                Ribosomal protein S6 kinase alpha-1   AGC, CAMK   \n",
+       "191                Ribosomal protein S6 kinase alpha-5   CAMK, AGC   \n",
+       "192                Ribosomal protein S6 kinase alpha-4   CAMK, AGC   \n",
+       "268                Ribosomal protein S6 kinase alpha-2   CAMK, AGC   \n",
+       "269                Ribosomal protein S6 kinase alpha-3   CAMK, AGC   \n",
+       "270                Ribosomal protein S6 kinase alpha-1   CAMK, AGC   \n",
        "305          Non-receptor tyrosine-protein kinase TYK2          TK   \n",
        "395  Eukaryotic translation initiation factor 2-alp...  STE, Other   \n",
-       "419                Ribosomal protein S6 kinase alpha-6   AGC, CAMK   \n",
+       "419                Ribosomal protein S6 kinase alpha-6   CAMK, AGC   \n",
        "436  Striated muscle preferentially expressed prote...        CAMK   \n",
        "450                                           Obscurin        CAMK   \n",
        "\n",
        "              Family     SubFamily UniprotID  \n",
-       "141        Jak, JakB           nan    P23458  \n",
-       "142        Jak, JakB           nan    O60674  \n",
-       "143        Jak, JakB           nan    P52333  \n",
-       "191        RSK, RSKb     MSKb, MSK    O75582  \n",
-       "192        RSK, RSKb     MSKb, MSK    O75676  \n",
-       "268        RSK, RSKb  RSKb, RSKp90    Q15349  \n",
-       "269        RSK, RSKb  RSKb, RSKp90    P51812  \n",
-       "270        RSK, RSKb  RSKb, RSKp90    Q15418  \n",
-       "305        Jak, JakB           nan    P29597  \n",
-       "395  STE-Unique, PEK     GCN2, nan    Q9P2K8  \n",
-       "419        RSK, RSKb  RSKb, RSKp90    Q9UK32  \n",
+       "141        JakB, Jak           nan    P23458  \n",
+       "142        JakB, Jak           nan    O60674  \n",
+       "143        JakB, Jak           nan    P52333  \n",
+       "191        RSKb, RSK     MSK, MSKb    O75582  \n",
+       "192        RSKb, RSK     MSK, MSKb    O75676  \n",
+       "268        RSKb, RSK  RSKp90, RSKb    Q15349  \n",
+       "269        RSKb, RSK  RSKp90, RSKb    P51812  \n",
+       "270        RSKb, RSK  RSKp90, RSKb    Q15418  \n",
+       "305        JakB, Jak           nan    P29597  \n",
+       "395  PEK, STE-Unique     nan, GCN2    Q9P2K8  \n",
+       "419        RSKb, RSK  RSKp90, RSKb    Q9UK32  \n",
        "436             Trio           nan    Q15772  \n",
        "450             Trio           nan    Q5VST9  "
       ]
@@ -298,7 +298,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 4,
+   "execution_count": 6,
    "metadata": {},
    "outputs": [],
    "source": [
@@ -307,7 +307,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 5,
+   "execution_count": 7,
    "metadata": {},
    "outputs": [
     {
@@ -316,7 +316,7 @@
        "'MLEICLKLVGCKSKKGLSSSSSCYLEEALQRPVASDFEPQGLSEAARWNSKENLLAGPSENDPNLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVNSLEKHSWYHGPVSRNAAEYLLSSGINGSFLVRESESSPGQRSISLRYEGRVYHYRINTASDGKLYVSSESRFNTLAELVHHHSTVADGLITTLHYPAPKRNKPTVYGVSPNYDKWEMERTDITMKHKLGGGQYGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSISDEVEKELGKQGVRGAVSTLLQAPELPTKTRTSRRAAEHRDTTDVPEMPHSKGQGESDPLDHEPAVSPLLPRKERGPPEGGLNEDERLLPKDKKTNLFSALIKKKKKTAPTPPKRSSSFREMDGQPERRGAGEEEGRDISNGALAFTPLDTADPAKSPKPSNGAGVPNGALRESGGSGFRSPHLWKKSSTLTSSRLATGEEEGGGSSSKRFLRSCSASCVPHGAKDTEWRSVTLPRDLQSTGRQFDSSTFGGHKSEKPALPRKRAGENRSDQVTRGTVTPPPRLVKKNEEAADEVFKDIMESSPGSSPPNLTPKPLRRQVTVAPASGLPHKEEAGKGSALGTPAAAEPVTPTSKAGSGAPGGTSKGPAEESRVRRHKHSSESPGRDKGKLSRLKPAPPPPPAASAGKAGGKPSQSPSQEAAGEAVLGAKTKATSLVDAVNSDAAKPSQPGEGLKKPVLPATPKPQSAKPSGTPISPAPVPSTLPSASSALAGDQPSSTAFIPLISTRVSLRKTRQPPERIASGAITKGVVLDSTEALCLAISRNSEQMASHSAVLEAGKNLYTFCVSYVDSIQQMRNKFAFREAINKLENNLRELQICPATAGSGPAATQDFSKLLSSVKEISDIVQR'"
       ]
      },
-     "execution_count": 5,
+     "execution_count": 7,
      "metadata": {},
      "output_type": "execute_result"
     }
@@ -334,7 +334,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 6,
+   "execution_count": 8,
    "metadata": {},
    "outputs": [],
    "source": [
@@ -343,7 +343,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 7,
+   "execution_count": 9,
    "metadata": {},
    "outputs": [
     {
@@ -383,7 +383,6 @@
        "      <th>end</th>\n",
        "      <th>dc-status</th>\n",
        "      <th>representative</th>\n",
-       "      <th>representative</th>\n",
        "      <th>model</th>\n",
        "      <th>score</th>\n",
        "    </tr>\n",
@@ -407,7 +406,6 @@
        "      <td>202</td>\n",
        "      <td>CONTINUOUS</td>\n",
        "      <td>False</td>\n",
-       "      <td>False</td>\n",
        "      <td>PF00017</td>\n",
        "      <td>9.300000e-21</td>\n",
        "    </tr>\n",
@@ -429,7 +427,6 @@
        "      <td>113</td>\n",
        "      <td>CONTINUOUS</td>\n",
        "      <td>False</td>\n",
-       "      <td>False</td>\n",
        "      <td>PF00018</td>\n",
        "      <td>2.000000e-09</td>\n",
        "    </tr>\n",
@@ -451,7 +448,6 @@
        "      <td>492</td>\n",
        "      <td>CONTINUOUS</td>\n",
        "      <td>False</td>\n",
-       "      <td>False</td>\n",
        "      <td>PF07714</td>\n",
        "      <td>1.400000e-97</td>\n",
        "    </tr>\n",
@@ -473,7 +469,6 @@
        "      <td>1130</td>\n",
        "      <td>CONTINUOUS</td>\n",
        "      <td>False</td>\n",
-       "      <td>False</td>\n",
        "      <td>PF08919</td>\n",
        "      <td>3.500000e-28</td>\n",
        "    </tr>\n",
@@ -500,14 +495,14 @@
        "2            pfam  domain  IPR001245             None     None    242   492   \n",
        "3            pfam  domain  IPR015015             None     None   1026  1130   \n",
        "\n",
-       "    dc-status  representative  representative    model         score  \n",
-       "0  CONTINUOUS           False           False  PF00017  9.300000e-21  \n",
-       "1  CONTINUOUS           False           False  PF00018  2.000000e-09  \n",
-       "2  CONTINUOUS           False           False  PF07714  1.400000e-97  \n",
-       "3  CONTINUOUS           False           False  PF08919  3.500000e-28  "
+       "    dc-status  representative    model         score  \n",
+       "0  CONTINUOUS           False  PF00017  9.300000e-21  \n",
+       "1  CONTINUOUS           False  PF00018  2.000000e-09  \n",
+       "2  CONTINUOUS           False  PF07714  1.400000e-97  \n",
+       "3  CONTINUOUS           False  PF08919  3.500000e-28  "
       ]
      },
-     "execution_count": 7,
+     "execution_count": 9,
      "metadata": {},
      "output_type": "execute_result"
     }
@@ -532,7 +527,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 8,
+   "execution_count": 10,
    "metadata": {},
    "outputs": [],
    "source": [
@@ -541,7 +536,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 9,
+   "execution_count": 11,
    "metadata": {},
    "outputs": [
     {
@@ -550,7 +545,7 @@
        "'P00519'"
       ]
      },
-     "execution_count": 9,
+     "execution_count": 11,
      "metadata": {},
      "output_type": "execute_result"
     }
@@ -575,7 +570,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 10,
+   "execution_count": 12,
    "metadata": {},
    "outputs": [],
    "source": [
@@ -584,7 +579,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 11,
+   "execution_count": 13,
    "metadata": {},
    "outputs": [
     {
@@ -603,18 +598,18 @@
        " 'uniprot': 'P00519'}"
       ]
      },
-     "execution_count": 11,
+     "execution_count": 13,
      "metadata": {},
      "output_type": "execute_result"
     }
    ],
    "source": [
-    "klifs.KinaseInfo(\"Abl1\")._kinase_info"
+    "klifs.KinaseInfo(search_term=\"Abl1\")._kinase_info"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 12,
+   "execution_count": 14,
    "metadata": {},
    "outputs": [
     {
@@ -633,13 +628,13 @@
        " 'uniprot': 'P00519'}"
       ]
      },
-     "execution_count": 12,
+     "execution_count": 14,
      "metadata": {},
      "output_type": "execute_result"
     }
    ],
    "source": [
-    "klifs.KinaseInfo(df_kinhub[\"UniprotID\"][0])._kinase_info"
+    "klifs.KinaseInfo(search_term=df_kinhub[\"UniprotID\"][0])._kinase_info"
    ]
   },
   {
@@ -651,7 +646,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 13,
+   "execution_count": 15,
    "metadata": {},
    "outputs": [],
    "source": [
@@ -669,7 +664,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 14,
+   "execution_count": 16,
    "metadata": {},
    "outputs": [],
    "source": [
@@ -679,9 +674,16 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 15,
+   "execution_count": 17,
    "metadata": {},
    "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "No API token provided\n"
+     ]
+    },
     {
      "data": {
       "text/plain": [
@@ -726,7 +728,7 @@
        "Name: 0, dtype: object"
       ]
      },
-     "execution_count": 15,
+     "execution_count": 17,
      "metadata": {},
      "output_type": "execute_result"
     }
@@ -747,7 +749,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 16,
+   "execution_count": 18,
    "metadata": {},
    "outputs": [
     {
@@ -756,7 +758,7 @@
        "'K'"
       ]
      },
-     "execution_count": 16,
+     "execution_count": 18,
      "metadata": {},
      "output_type": "execute_result"
     }
@@ -781,7 +783,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 17,
+   "execution_count": 19,
    "metadata": {},
    "outputs": [],
    "source": [
@@ -797,13 +799,13 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 18,
+   "execution_count": 20,
    "metadata": {},
    "outputs": [
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "ffc5f49c404c4895beb1f489854d2d45",
+       "model_id": "b31406a2ef6349f98333af7c5a98e7bf",
        "version_major": 2,
        "version_minor": 0
       },
@@ -838,13 +840,13 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 19,
+   "execution_count": 21,
    "metadata": {},
    "outputs": [
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "feffa1c33b28408886cd69903cc1b86a",
+       "model_id": "94dd23c551c045ab90d709e5c34125dc",
        "version_major": 2,
        "version_minor": 0
       },
@@ -881,13 +883,13 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 20,
+   "execution_count": 22,
    "metadata": {},
    "outputs": [
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "819379f11e9b486cb53ab9ba98c78e87",
+       "model_id": "1971e1a7c1844416943f4fff24508537",
        "version_major": 2,
        "version_minor": 0
       },
@@ -902,200 +904,82 @@
      "name": "stdout",
      "output_type": "stream",
      "text": [
-      "Error in query_kinase_info for ADRBK1:\n",
+      "Error in query_kinase_info for P78527 (field: uniprot):\n",
       "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for PRKDC:\n",
+      "Error in query_kinase_info for Q12979 (field: uniprot):\n",
       "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for ADRBK2:\n",
+      "Error in query_kinase_info for B5MCJ9 (field: uniprot):\n",
       "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for PAK7:\n",
+      "Error in query_kinase_info for Q9Y5P4 (field: uniprot):\n",
       "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for GSG2:\n",
+      "Error in query_kinase_info for P53004 (field: uniprot):\n",
       "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for ABR:\n",
+      "Error in query_kinase_info for Q9NRL2 (field: uniprot):\n",
       "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for TRIM66:\n",
-      "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for COL4A3BP:\n",
-      "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for BLVRA:\n",
-      "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for BAZ1A:\n",
-      "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n",
-      "Error in query_kinase_info for BAZ1B:\n",
+      "Error in query_kinase_info for Q9UIG0 (field: uniprot):\n",
       "Expected type to be dict for value [400, 'KLIFS error: An unknown kinase name was provided'] to unmarshal to a <class 'abc.Error'>.Was <class 'list'> instead.\n"
      ]
     }
    ],
    "source": [
     "df_klifs = pd.DataFrame()\n",
-    "for index, row in tqdm(df_kinhub.iterrows(), total = df_kinhub.shape[0]):\n",
-    "    df_temp = pd.DataFrame(klifs.KinaseInfo(row[\"HGNC Name\"])._kinase_info, index=[0])\n",
+    "for index, row in tqdm(df_kinhub.iterrows(), total=df_kinhub.shape[0]):\n",
+    "    df_temp = pd.DataFrame(klifs.KinaseInfo(row[\"UniprotID\"], \"uniprot\")._kinase_info, index=[0])\n",
     "    df_klifs = pd.concat([df_klifs, df_temp]).reset_index(drop=True)"
    ]
   },
+  {
+   "cell_type": "markdown",
+   "metadata": {},
+   "source": [
+    "### Save dataframes"
+   ]
+  },
   {
    "cell_type": "code",
-   "execution_count": 21,
+   "execution_count": 23,
    "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/html": [
-       "<div>\n",
-       "<style scoped>\n",
-       "    .dataframe tbody tr th:only-of-type {\n",
-       "        vertical-align: middle;\n",
-       "    }\n",
-       "\n",
-       "    .dataframe tbody tr th {\n",
-       "        vertical-align: top;\n",
-       "    }\n",
-       "\n",
-       "    .dataframe thead th {\n",
-       "        text-align: right;\n",
-       "    }\n",
-       "</style>\n",
-       "<table border=\"1\" class=\"dataframe\">\n",
-       "  <thead>\n",
-       "    <tr style=\"text-align: right;\">\n",
-       "      <th></th>\n",
-       "      <th>family</th>\n",
-       "      <th>full_name</th>\n",
-       "      <th>gene_name</th>\n",
-       "      <th>group</th>\n",
-       "      <th>iuphar</th>\n",
-       "      <th>kinase_ID</th>\n",
-       "      <th>name</th>\n",
-       "      <th>pocket</th>\n",
-       "      <th>species</th>\n",
-       "      <th>subfamily</th>\n",
-       "      <th>uniprot</th>\n",
-       "    </tr>\n",
-       "  </thead>\n",
-       "  <tbody>\n",
-       "    <tr>\n",
-       "      <th>0</th>\n",
-       "      <td>Abl</td>\n",
-       "      <td>ABL proto-oncogene 1, non-receptor tyrosine ki...</td>\n",
-       "      <td>ABL1</td>\n",
-       "      <td>TK</td>\n",
-       "      <td>1923</td>\n",
-       "      <td>392</td>\n",
-       "      <td>ABL1</td>\n",
-       "      <td>HKLGGGQYGEVYEVAVKTLEFLKEAAVMKEIKPNLVQLLGVYIITE...</td>\n",
-       "      <td>Human</td>\n",
-       "      <td></td>\n",
-       "      <td>P00519</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>1</th>\n",
-       "      <td>Ack</td>\n",
-       "      <td>tyrosine kinase, non-receptor, 2</td>\n",
-       "      <td>TNK2</td>\n",
-       "      <td>TK</td>\n",
-       "      <td>2246</td>\n",
-       "      <td>394</td>\n",
-       "      <td>ACK</td>\n",
-       "      <td>EKLGDGSFGVVRRVAVKCLDFIREVNAMHSLDRNLIRLYGVKMVTE...</td>\n",
-       "      <td>Human</td>\n",
-       "      <td></td>\n",
-       "      <td>Q07912</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>2</th>\n",
-       "      <td>STKR</td>\n",
-       "      <td>activin A receptor type IIA</td>\n",
-       "      <td>ACVR2A</td>\n",
-       "      <td>TKL</td>\n",
-       "      <td>1791</td>\n",
-       "      <td>523</td>\n",
-       "      <td>ACTR2</td>\n",
-       "      <td>EVKARGRFGCVWKVAVKIFSWQNEYEVYSLPGENILQFIGAWLITA...</td>\n",
-       "      <td>Human</td>\n",
-       "      <td>Type2</td>\n",
-       "      <td>P27037</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>3</th>\n",
-       "      <td>STKR</td>\n",
-       "      <td>activin A receptor type IIB</td>\n",
-       "      <td>ACVR2B</td>\n",
-       "      <td>TKL</td>\n",
-       "      <td>1792</td>\n",
-       "      <td>524</td>\n",
-       "      <td>ACTR2B</td>\n",
-       "      <td>EIKARGRFGCVWKVAVKIFSWQSEREIFSTPGENLLQFIAAWLITA...</td>\n",
-       "      <td>Human</td>\n",
-       "      <td>Type2</td>\n",
-       "      <td>Q13705</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>4</th>\n",
-       "      <td>ABC1</td>\n",
-       "      <td>Atypical kinase COQ8B, mitochondrial</td>\n",
-       "      <td>COQ8B</td>\n",
-       "      <td>Atypical</td>\n",
-       "      <td>1928</td>\n",
-       "      <td>71</td>\n",
-       "      <td>ADCK4</td>\n",
-       "      <td>VPFAAASIGQVHQVAVKIQDYRREAACAQNFRFRVPAVVKETRVLG...</td>\n",
-       "      <td>Human</td>\n",
-       "      <td>ABC1-</td>\n",
-       "      <td>Q96D53</td>\n",
-       "    </tr>\n",
-       "  </tbody>\n",
-       "</table>\n",
-       "</div>"
-      ],
-      "text/plain": [
-       "  family                                          full_name gene_name  \\\n",
-       "0    Abl  ABL proto-oncogene 1, non-receptor tyrosine ki...      ABL1   \n",
-       "1    Ack                   tyrosine kinase, non-receptor, 2      TNK2   \n",
-       "2   STKR                        activin A receptor type IIA    ACVR2A   \n",
-       "3   STKR                        activin A receptor type IIB    ACVR2B   \n",
-       "4   ABC1               Atypical kinase COQ8B, mitochondrial     COQ8B   \n",
-       "\n",
-       "      group iuphar kinase_ID    name  \\\n",
-       "0        TK   1923       392    ABL1   \n",
-       "1        TK   2246       394     ACK   \n",
-       "2       TKL   1791       523   ACTR2   \n",
-       "3       TKL   1792       524  ACTR2B   \n",
-       "4  Atypical   1928        71   ADCK4   \n",
-       "\n",
-       "                                              pocket species subfamily uniprot  \n",
-       "0  HKLGGGQYGEVYEVAVKTLEFLKEAAVMKEIKPNLVQLLGVYIITE...   Human            P00519  \n",
-       "1  EKLGDGSFGVVRRVAVKCLDFIREVNAMHSLDRNLIRLYGVKMVTE...   Human            Q07912  \n",
-       "2  EVKARGRFGCVWKVAVKIFSWQNEYEVYSLPGENILQFIGAWLITA...   Human     Type2  P27037  \n",
-       "3  EIKARGRFGCVWKVAVKIFSWQSEREIFSTPGENLLQFIAAWLITA...   Human     Type2  Q13705  \n",
-       "4  VPFAAASIGQVHQVAVKIQDYRREAACAQNFRFRVPAVVKETRVLG...   Human     ABC1-  Q96D53  "
-      ]
-     },
-     "execution_count": 21,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
+   "outputs": [],
    "source": [
-    "df_klifs.head()"
+    "df_kinhub.to_csv(\"../data/kinhub.csv\", index=False)\n",
+    "df_uniprot.to_csv(\"../data/kinhub_uniprot.csv\", index=False)\n",
+    "df_pfam.to_csv(\"../data/kinhub_pfam.csv\", index=False)\n",
+    "df_klifs.to_csv(\"../data/kinhub_klifs.csv\", index=False)"
    ]
   },
   {
    "cell_type": "markdown",
    "metadata": {},
    "source": [
-    "### Save dataframes"
+    "### Generating a serializable model using `Pydantic`"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 22,
+   "execution_count": 24,
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "from missense_kinase_toolkit.databases import kinase_schema"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 25,
    "metadata": {},
    "outputs": [],
    "source": [
-    "df_uniprot.to_csv(\"kinhub_uniprot.csv\", index=False)\n",
-    "df_pfam.to_csv(\"kinhub_pfam.csv\", index=False)\n",
-    "df_klifs.to_csv(\"kinhub_klifs.csv\", index=False)"
+    "df_merge = kinase_schema.concatenate_source_dataframe(\n",
+    "    df_kinhub,\n",
+    "    df_uniprot,\n",
+    "    df_klifs,\n",
+    "    df_pfam\n",
+    ")\n",
+    "df_merge.to_csv(\"../data/kinhub_uniprot_merge.csv\", index=False)\n",
+    "\n",
+    "dict_kin = kinase_schema.create_kinase_models_from_df(df_merge)\n",
+    "\n",
+    "model_kinase = kinase_schema.CollectionKinaseInfo(kinase_dict=dict_kin)"
    ]
   }
  ],
@@ -1115,7 +999,7 @@
    "name": "python",
    "nbconvert_exporter": "python",
    "pygments_lexer": "ipython3",
-   "version": "3.11.9"
+   "version": "3.11.7"
   }
  },
  "nbformat": 4,
diff --git a/notebooks/klifs_pocket.ipynb b/notebooks/klifs_pocket.ipynb
index eb2d7b4..413bfa7 100644
--- a/notebooks/klifs_pocket.ipynb
+++ b/notebooks/klifs_pocket.ipynb
@@ -18,25 +18,50 @@
     "import numpy as np\n",
     "import pandas as pd\n",
     "import copy\n",
+    "from itertools import chain\n",
     "\n",
     "import matplotlib.pyplot as plt\n",
     "import seaborn as sns\n",
     "%matplotlib inline\n",
     "\n",
-    "from missense_kinase_toolkit.databases import klifs, colors\n",
-    "from missense_kinase_toolkit.databases.kinase_schema import KLIFSPocket"
+    "from missense_kinase_toolkit.databases import klifs, colors, kinase_schema\n",
+    "from missense_kinase_toolkit.databases.klifs import KLIFSPocket"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "f03a2ab3-7387-41d5-9c3c-794ff908979b",
+   "metadata": {},
+   "source": [
+    "## Load data"
    ]
   },
   {
    "cell_type": "code",
    "execution_count": 2,
-   "id": "bc0ff2d8-8a06-4ba4-90e6-6f0c8bea429e",
+   "id": "d01ab1c6-1d6e-465a-9f1e-e5462f0ac264",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "# files generated in databases.ipynb must be in data directory\n",
+    "dict_kinase = kinase_schema.create_kinase_models_from_df()\n",
+    "\n",
+    "dict_klifs = {i: j for i, j in dict_kinase.items() if \\\n",
+    "              (j.KLIFS is not None and j.KLIFS.pocket_seq is not None)}"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 3,
+   "id": "cf9e691e-a7aa-4005-aece-ae6183323d4a",
    "metadata": {},
    "outputs": [],
    "source": [
-    "# generate these in databases.ipynb\n",
-    "df_klifs = pd.read_csv(\"kinhub_klifs.csv\")\n",
-    "df_uniprot = pd.read_csv(\"kinhub_uniprot.csv\")"
+    "# check that all KLIFS2UniProt alignments working as expected - should be no output\n",
+    "for hgnc, pocket in dict_klifs.items():\n",
+    "    list_temp = [pocket.UniProt.canonical_seq[val-1] == pocket.KLIFS.pocket_seq[idx] \\\n",
+    "                 for idx, (key, val) in enumerate(pocket.KLIFS2UniProt.items()) if val is not None]\n",
+    "    not any(list_temp)"
    ]
   },
   {
@@ -49,27 +74,19 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 3,
+   "execution_count": 4,
    "id": "3369c424-3727-449a-97c7-1a07114a1541",
    "metadata": {},
    "outputs": [],
    "source": [
-    "# df_klifs[\"group\"].value_counts()\n",
-    "# df_klifs.loc[~(df_klifs[\"pocket\"].apply(lambda x: \"-\" in str(x))), \"group\"].value_counts()\n",
-    "# df_klifs.loc[~((df_klifs[\"pocket\"].apply(lambda x: \"-\" in str(x))) | \n",
-    "#               df_klifs[\"pocket\"].apply(lambda x: len(str(x)) != 85)), \"group\"].value_counts()\n",
-    "# df_klifs.loc[(df_klifs[\"pocket\"].apply(lambda x: \"-\" in str(x))), \"gene_name\"].to_list()\n",
-    "\n",
-    "list_pocket = df_klifs.loc[~(df_klifs[\"pocket\"].apply(lambda x: len(str(x)) != 85)), \"pocket\"].to_list()\n",
-    "list_name = df_klifs.loc[~(df_klifs[\"pocket\"].apply(lambda x: len(str(x)) != 85)), \"gene_name\"].to_list()\n",
-    "\n",
-    "dict_pocket = {name : {idx + 1 : aa for idx, aa in enumerate(pocket)} for name, pocket in zip(list_name, list_pocket)}\n",
+    "dict_pocket = {key : {idx + 1 : aa for idx, aa in enumerate(val.KLIFS.pocket_seq)}\\\n",
+    "               for key, val in dict_klifs.items()}\n",
     "df_pocket = pd.DataFrame(dict_pocket).T"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 4,
+   "execution_count": 5,
    "id": "2cb0372b-dcbd-4f97-bdff-2045a46e87a8",
    "metadata": {},
    "outputs": [],
@@ -80,7 +97,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 5,
+   "execution_count": 6,
    "id": "88f3481e-6b5a-410f-9061-330820f50f9a",
    "metadata": {},
    "outputs": [],
@@ -93,7 +110,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 6,
+   "execution_count": 7,
    "id": "c61efdee-43bf-47d0-993f-cf5a1bcee962",
    "metadata": {},
    "outputs": [],
@@ -134,7 +151,7 @@
     },
     {
      "data": {
-      "image/png": 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",
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",
       "text/plain": [
        "<Figure size 1600x800 with 1 Axes>"
       ]
@@ -144,7 +161,7 @@
     },
     {
      "data": {
-      "image/png": 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",
       "text/plain": [
        "<Figure size 1600x800 with 1 Axes>"
       ]
@@ -154,7 +171,7 @@
     },
     {
      "data": {
-      "image/png": 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",
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",
       "text/plain": [
        "<Figure size 1600x800 with 1 Axes>"
       ]
@@ -164,7 +181,7 @@
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",
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",
       "text/plain": [
        "<Figure size 1600x800 with 1 Axes>"
       ]
@@ -174,7 +191,7 @@
     },
     {
      "data": {
-      "image/png": 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",
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",
       "text/plain": [
        "<Figure size 1600x800 with 1 Axes>"
       ]
@@ -184,7 +201,7 @@
     },
     {
      "data": {
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",
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",
       "text/plain": [
        "<Figure size 1600x800 with 1 Axes>"
       ]
@@ -195,7 +212,15 @@
    ],
    "source": [
     "# change x-axis lablel to include KLIFS pocket region\n",
-    "df_pocket_pivot.columns = [f\"{entry[0]} : {entry[1]}\" for entry in klifs.LIST_POCKET_KLIFS_REGIONS]\n",
+    "list_cols = [[f\"{key} : {i}\" for i in range(val[\"start\"], val[\"end\"] + 1)] \\\n",
+    "             for key, val in klifs.DICT_POCKET_KLIFS_REGIONS.items()]\n",
+    "list_cols = list(chain.from_iterable(list_cols))\n",
+    "df_pocket_pivot.columns = list_cols\n",
+    "\n",
+    "# match x-axis label colors to KLIF pocket region colors\n",
+    "list_axis_col = [[val[\"color\"]] * (val[\"end\"] + 1 - val[\"start\"]) \\\n",
+    "                 for _, val in klifs.DICT_POCKET_KLIFS_REGIONS.items()]\n",
+    "list_axis_col = list(chain.from_iterable(list_axis_col))\n",
     "\n",
     "list_cols = list(colors.DICT_COLORS.keys())\n",
     "for cols in list_cols:\n",
@@ -204,7 +229,6 @@
     "    dict_col = colors.DICT_COLORS[str_col][\"DICT_COLORS\"]\n",
     "    list_fill_col = [colors.map_single_letter_aa_to_color(i, dict_col) \\\n",
     "                     for i in df_pocket_pivot.index.tolist()]\n",
-    "    list_axis_col = [klifs.POCKET_KLIFS_REGION_COLORS[i[1]] for i in klifs.LIST_POCKET_KLIFS_REGIONS]\n",
     "    \n",
     "    if len(set(list_fill_col)) > 9:\n",
     "        edgecol = \"white\"\n",
@@ -226,10 +250,10 @@
     "    dict_annot = colors.DICT_COLORS[str_col][\"DICT_ANNOTATION\"]\n",
     "    if dict_annot is None:\n",
     "        ax.legend(loc=\"upper center\", \n",
-    "              bbox_to_anchor=(0.5, -0.15),\n",
-    "              fancybox=True, \n",
-    "              shadow=True, \n",
-    "              ncol=11)\n",
+    "                  bbox_to_anchor=(0.5, -0.15),\n",
+    "                  fancybox=True, \n",
+    "                  shadow=True, \n",
+    "                  ncol=11)\n",
     "    else:\n",
     "        l1 = ax.legend(loc=\"upper center\", \n",
     "                       bbox_to_anchor=(0.5, -0.15),\n",
@@ -248,1380 +272,6 @@
     "    plt.title(f\"{cols} Color Scheme\")\n",
     "    plt.savefig(f\"KLIFS_pocket_{cols}.pdf\", bbox_inches=\"tight\");"
    ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "d737943d-035b-49b4-a7e4-999b98c54eba",
-   "metadata": {},
-   "source": [
-    "# Align KLIFS pocket residues to canonial sequence"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 3,
-   "id": "f150c8bc-aa64-46a3-9723-4b07c40a9c07",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "df_klifs_narm = df_klifs.loc[~df_klifs[\"pocket\"].isna(), ].reset_index(drop=True)\n",
-    "df_klifs_uniprot_narm = df_klifs_narm.merge(df_uniprot, left_on=\"uniprot\", right_on=\"uniprot_id\", how=\"left\")"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 4,
-   "id": "0b396779-0f1e-4407-8eb4-182c11bfb566",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "# df_klifs.loc[df_klifs[\"pocket\"].isna(), ]\n",
-    "# df_klifs_narm.loc[df_klifs_narm[\"pocket\"].apply(lambda x: \"-\" in x), ]\n",
-    "# df_klifs_uniprot_narm.iloc[1]"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 5,
-   "id": "cd456ee4-5976-412c-bb75-c3bf9f7bc397",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "list_KLIFSPocket = []\n",
-    "for _, row in df_klifs_uniprot_narm.iterrows():\n",
-    "    uniprot_id = row[\"uniprot\"]\n",
-    "    hgnc = row[\"name\"]\n",
-    "    str_uniprot = row[\"canonical_sequence\"]\n",
-    "    str_klifs_pocket = row[\"pocket\"]\n",
-    "\n",
-    "    dict_temp2 = klifs.iterate_klifs_alignment(str_uniprot, str_klifs_pocket)\n",
-    "\n",
-    "    dict_temp1 = {\"uniprotID\": uniprot_id,\n",
-    "                  \"hgncName\": hgnc,\n",
-    "                  \"uniprotSeq\": str_uniprot,\n",
-    "                  \"klifsSeq\": str_klifs_pocket}\n",
-    "\n",
-    "    dict_out = dict(dict_temp1, **dict_temp2)\n",
-    "\n",
-    "    list_KLIFSPocket.append(KLIFSPocket(**dict_out))"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 10,
-   "id": "bc7cf100-ab0f-452b-b403-3553c769d15c",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "# from dataclasses import asdict\n",
-    "# import json\n",
-    "# print(json.dumps(asdict(list_KLIFSPocket[0]), indent=4, sort_keys=False, ensure_ascii=False))"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "61dc3e6a-0bbd-412a-8c4e-a1328a3a1127",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "list_err_narm = [] # regions that are technically missing (all \"-\")\n",
-    "list_err_concat = [] # regions that cannot be found after concatenation\n",
-    "list_err_match = [] # regions where no exact match is found for sequence"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 26,
-   "id": "a5667d3e-d657-4c3a-aeb5-d380c0a4e185",
-   "metadata": {},
-   "outputs": [
-    {
-     "name": "stdout",
-     "output_type": "stream",
-     "text": [
-      "SCYL1\n",
-      "I:I: ---\n",
-      "\n",
-      "SCYL3\n",
-      "I:I: ---\n",
-      "g.l:g.l: ------\n",
-      "\n",
-      "SgK495\n",
-      "I:I: ---\n",
-      "g.l:g.l: ------\n",
-      "II:II: ----\n",
-      "III:III: ------\n",
-      "αC:αC: -----------\n",
-      "b.l:b.l: -------\n",
-      "IV:IV: ----\n",
-      "V:V: ---\n",
-      "GK:GK: -\n",
-      "hinge:hinge: ---\n",
-      "\n",
-      "RSKL1\n",
-      "I:I: ---\n",
-      "g.l:g.l: ------\n",
-      "II:II: ----\n",
-      "\n",
-      "Slob\n",
-      "a.l:a.l: --\n",
-      "\n",
-      "TBCK\n",
-      "I:I: ---\n",
-      "g.l:g.l: ------\n",
-      "II:II: ----\n",
-      "\n",
-      "SgK307\n",
-      "I:I: ---\n",
-      "g.l:g.l: ------\n",
-      "II:II: ----\n",
-      "\n"
-     ]
-    }
-   ],
-   "source": [
-    "for klifspocket in list_KLIFSPocket:\n",
-    "    list_temp = [idx for idx, i in enumerate(klifspocket.list_substring_idxs) if i is None]\n",
-    "    if len(list_temp) > 0:\n",
-    "        print(f\"{klifspocket.hgncName}\")\n",
-    "        for idx in list_temp:\n",
-    "            print(f\"{klifspocket.list_klifs_region[idx]}: {klifspocket.list_klifs_substr_actual[idx]}\")\n",
-    "        print(\"\")"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 22,
-   "id": "1660c1c9-d30f-4ede-91f3-81349207615e",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "[]"
-      ]
-     },
-     "execution_count": 22,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "list_temp"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 21,
-   "id": "85e22839-16e1-4f7d-bcfc-60f45b1237b3",
-   "metadata": {},
-   "outputs": [
-    {
-     "name": "stdout",
-     "output_type": "stream",
-     "text": [
-      "SCYL1\n",
-      "SCYL3\n",
-      "SgK495\n",
-      "RSKL1\n",
-      "Slob\n",
-      "TBCK\n",
-      "SgK307\n"
-     ]
-    }
-   ],
-   "source": [
-    "for klifspocket in list_KLIFSPocket:\n",
-    "    if sum([i is None for i in klifspocket.list_substring_idxs]) > 0:\n",
-    "        print(klifspocket.hgncName)"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 18,
-   "id": "7e33f960-2c15-4259-b4c5-0fd6a87b2997",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "KLIFSPocket(uniprotID='P00519', hgncName='ABL1', uniprotSeq='MLEICLKLVGCKSKKGLSSSSSCYLEEALQRPVASDFEPQGLSEAARWNSKENLLAGPSENDPNLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVNSLEKHSWYHGPVSRNAAEYLLSSGINGSFLVRESESSPGQRSISLRYEGRVYHYRINTASDGKLYVSSESRFNTLAELVHHHSTVADGLITTLHYPAPKRNKPTVYGVSPNYDKWEMERTDITMKHKLGGGQYGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSISDEVEKELGKQGVRGAVSTLLQAPELPTKTRTSRRAAEHRDTTDVPEMPHSKGQGESDPLDHEPAVSPLLPRKERGPPEGGLNEDERLLPKDKKTNLFSALIKKKKKTAPTPPKRSSSFREMDGQPERRGAGEEEGRDISNGALAFTPLDTADPAKSPKPSNGAGVPNGALRESGGSGFRSPHLWKKSSTLTSSRLATGEEEGGGSSSKRFLRSCSASCVPHGAKDTEWRSVTLPRDLQSTGRQFDSSTFGGHKSEKPALPRKRAGENRSDQVTRGTVTPPPRLVKKNEEAADEVFKDIMESSPGSSPPNLTPKPLRRQVTVAPASGLPHKEEAGKGSALGTPAAAEPVTPTSKAGSGAPGGTSKGPAEESRVRRHKHSSESPGRDKGKLSRLKPAPPPPPAASAGKAGGKPSQSPSQEAAGEAVLGAKTKATSLVDAVNSDAAKPSQPGEGLKKPVLPATPKPQSAKPSGTPISPAPVPSTLPSASSALAGDQPSSTAFIPLISTRVSLRKTRQPPERIASGAITKGVVLDSTEALCLAISRNSEQMASHSAVLEAGKNLYTFCVSYVDSIQQMRNKFAFREAINKLENNLRELQICPATAGSGPAATQDFSKLLSSVKEISDIVQR', klifsSeq='HKLGGGQYGEVYEVAVKTLEFLKEAAVMKEIKPNLVQLLGVYIITEFMTYGNLLDYLREYLEKKNFIHRDLAARNCLVVADFGLS', list_klifs_region=['I:I', 'g.l:g.l', 'II:II', 'III:III', 'αC:αC', 'b.l:b.l', 'IV:IV', 'V:V', 'GK:hinge', 'hinge:hinge', 'linker:linker', 'αD:αD', 'αE:αE', 'VI:VI', 'c.l:c.l', 'VII:VII', 'VIII:xDFG', 'xDFG:xDFG', 'xDFG:a.l'], list_klifs_substr_actual=['HKL', 'GGGQYG', 'EVYE', 'VAVKTL', 'EFLKEAAVMKE', 'IKPNLVQ', 'LLGV', 'YII', 'T', 'EFM', 'TYGN', 'LLDYLRE', 'YLEKK', 'NFI', 'HRDLAARN', 'CLV', 'V', 'ADFG', 'LS'], list_klifs_substr_match=['HKL', 'GGGQYG', 'EVYE', 'VAVKTL', 'EFLKEAAVMKE', 'IKPNLVQ', 'LLGV', 'YII', 'TEFM', 'EFM', 'TYGN', 'LLDYLRE', 'YLEKK', 'NFI', 'HRDLAARN', 'CLV', 'VADFG', 'ADFG', 'ADFGLS'], list_substring_idxs=[[245], [248], [254], [267], [281], [], [300], [311], [314], [315], [318], [322], [352], [357], [360], [368], [378], [379], [383]])"
-      ]
-     },
-     "execution_count": 18,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "list_KLIFSPocket[0]"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "87272c61-aa0b-40a1-a743-d09ef7c21bc6",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "list_KLIFSPocket[0].list_"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 16,
-   "id": "c1d90201-3c58-4bf0-a848-d2e527e7f70f",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "0"
-      ]
-     },
-     "execution_count": 16,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "sum([i is None for i in asdict(list_KLIFSPocket[0])[\"list_substring_idxs\"]])"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "85c07198-e4b1-4927-bfe9-d36df52a8071",
-   "metadata": {},
-   "outputs": [],
-   "source": []
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "87272c61-aa0b-40a1-a743-d09ef7c21bc6",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "list_KLIFSPocket[0].list_"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 16,
-   "id": "c1d90201-3c58-4bf0-a848-d2e527e7f70f",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "0"
-      ]
-     },
-     "execution_count": 16,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "sum([i is None for i in asdict(list_KLIFSPocket[0])[\"list_substring_idxs\"]])"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "85c07198-e4b1-4927-bfe9-d36df52a8071",
-   "metadata": {},
-   "outputs": [],
-   "source": []
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "769f0255-9d89-43d8-84ea-8a491ea8fa51",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "list_keys = list(klifs.DICT_POCKET_KLIFS_REGIONS.keys())\n",
-    "dict_klifs_idx = {i:dict(zip(list_keys, [None for i in range(len(list_keys))])) for i in df_klifs_uniprot_narm[\"uniprot\"]}\n",
-    "dict_klifs_len = copy.deepcopy(dict_klifs_idx)\n",
-    "\n",
-    "list_err_narm = [] # regions that are technically missing (all \"-\")\n",
-    "list_err_concat = [] # regions that cannot be found after concatenation\n",
-    "list_err_match = [] # regions where no exact match is found for sequence\n",
-    "\n",
-    "for idx, klifs_region in enumerate(list_keys):\n",
-    "    for _, row in df_klifs_uniprot_narm.iterrows():\n",
-    "        uniprot_id = row[\"uniprot\"]\n",
-    "        hgnc = row[\"name\"]\n",
-    "        str_uniprot = row[\"canonical_sequence\"]\n",
-    "        str_klifs_pocket = row[\"pocket\"]\n",
-    "\n",
-    "        #TODO - add comment\n",
-    "        str_klifs, str_klifs_narm, list_klifs_idx = klifs.align_klifs_pocket_to_uniprot_seq(\n",
-    "            klifs_region_start=klifs_region,\n",
-    "            klifs_region_end=klifs_region,\n",
-    "            string_uniprot=str_uniprot,\n",
-    "            string_klifs=str_klifs_pocket)\n",
-    "        if list_klifs_idx is None:\n",
-    "            dict_klifs_len[uniprot_id][klifs_region], dict_klifs_idx[uniprot_id][klifs_region] = None, None\n",
-    "            list_err_narm.append(f\"{hgnc} {klifs_region} ({str_klifs})\")\n",
-    "        # if more than one location matches, concatenate regions\n",
-    "        if len(list_klifs_idx) > 1:\n",
-    "            # concatenate with subsequent region\n",
-    "            if idx + 1 < len(list_keys):\n",
-    "                end = dict_klifs_regions[list_keys[idx + 1]][\"end\"]\n",
-    "                str_keys = f\"{key}:{list_keys[idx + 1]}\"\n",
-    "            # concatenate with preceding region\n",
-    "            else:\n",
-    "                start = dict_klifs_regions[list_keys[idx - 1]][\"start\"]\n",
-    "                str_keys = f\"{list_keys[idx - 1]}:{key}\"\n",
-    "            test_sub = row[\"pocket\"][start:end]\n",
-    "            test_sub_narm = \"\".join([i for i in test_sub if i != \"-\"])\n",
-    "            list_start = [i for i in range(len(test_str)) if test_str.startswith(test_sub_narm, i)]\n",
-    "            if len(list_start) != 1:\n",
-    "                list_err_concat.append(f\"{row['name']} {str_keys} {len(list_start)} ({test_sub})\")\n",
-    "                dict_klifs_idx[row[\"uniprot\"]][key] = np.nan\n",
-    "            else:\n",
-    "                dict_klifs_idx[row[\"uniprot\"]][key] = list_start[0]\n",
-    "        else:\n",
-    "            try:\n",
-    "                dict_klifs_idx[row[\"uniprot\"]][key] = list_start[0]\n",
-    "            except:\n",
-    "                dict_klifs_idx[row[\"uniprot\"]][key] = np.nan\n",
-    "                # b.l is not contiguous - need to do an alternative process\n",
-    "                if key != \"b.l\":\n",
-    "                    list_err_match.append(f\"{row['name']} {key} {len(list_start)} ({test_sub})\")"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 211,
-   "id": "a6c60ff2-c4f0-4ddc-b0e5-b20d29a548fe",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "['SCYL1 I:g.l 20 (--------W)',\n",
-       " 'SCYL3 I:g.l 742 (---------)',\n",
-       " 'SgK495 I:g.l 435 (---------)',\n",
-       " 'RSKL1 I:g.l 1066 (---------)',\n",
-       " 'TBCK I:g.l 893 (---------)',\n",
-       " 'SgK307 I:g.l 1497 (---------)',\n",
-       " 'SgK495 g.l:II 435 (----------)',\n",
-       " 'RSKL1 g.l:II 1066 (----------)',\n",
-       " 'TBCK g.l:II 893 (----------)',\n",
-       " 'SgK307 g.l:II 1497 (----------)',\n",
-       " 'DMPK1 II:III 0 (EVAVYAMKIM)',\n",
-       " 'KIT II:III 0 (KVVEVAVKML)',\n",
-       " 'CaMKK2 II:III 0 (VVKLYAMKVL)',\n",
-       " 'SgK495 II:III 435 (----------)',\n",
-       " 'SMG1 II:III 0 (LLFLYLFKGL)',\n",
-       " 'SgK495 III:αC 435 (-----------------)',\n",
-       " 'SgK495 αC:b.l 435 (------------------)',\n",
-       " 'SgK495 b.l:IV 435 (-----------)',\n",
-       " 'AMPKa1 IV:V 0 (LYQVFMV)',\n",
-       " 'FGFR4 IV:V 0 (LLGVYVI)',\n",
-       " 'MSK1 IV:V 0 (LHYAHLI)',\n",
-       " 'PDGFRa IV:V 0 (LLGAYII)',\n",
-       " 'TTN IV:V 0 (LHESVMI)',\n",
-       " 'CaMKK2 IV:V 0 (LVEVYMV)',\n",
-       " 'SgK495 IV:V 435 (-------)',\n",
-       " 'TBK1 IV:V 0 (LFAIVLI)',\n",
-       " 'IGF1R V:GK 2 (LVIM)',\n",
-       " 'SgK495 V:GK 435 (----)',\n",
-       " 'HH498 V:GK 2 (AIVT)',\n",
-       " 'MPSK1 V:GK 2 (WLLL)',\n",
-       " 'CaMKK1 V:GK 0 (LYLF)',\n",
-       " 'SgK307 V:GK 2 (RLVY)',\n",
-       " 'JAK2 GK:hinge 2 (MEYL)',\n",
-       " 'JAK3 GK:hinge 2 (MEYL)',\n",
-       " 'SRPK1 GK:hinge 2 (FEVL)',\n",
-       " 'ADCK1 GK:hinge 2 (LLME)',\n",
-       " 'SgK495 GK:hinge 435 (----)',\n",
-       " 'Obscn GK:hinge 2 (LELC)',\n",
-       " 'RIOK2 GK:hinge 2 (MELI)',\n",
-       " 'PIM3 hinge:linker 0 (ERPEAQD)',\n",
-       " 'PIM1 hinge:linker 0 (ERPEVQD)',\n",
-       " 'TRRAP hinge:linker 0 (EDNPVEI)',\n",
-       " 'ADCK1 hinge:linker 0 (LMEFGQV)',\n",
-       " 'ACK VII:VIII 0 (LLLI)',\n",
-       " 'ACTR2B VII:VIII 0 (VLLL)',\n",
-       " 'BRSK2 VII:VIII 0 (LLLI)',\n",
-       " 'ALK1 VII:VIII 0 (VLVI)',\n",
-       " 'CDK7 VII:VIII 0 (LLLL)',\n",
-       " 'DCLK1 VII:VIII 0 (LLVL)',\n",
-       " 'CASK VII:VIII 0 (VLLL)',\n",
-       " 'PKG2 VII:VIII 0 (LILL)',\n",
-       " 'CHED VII:VIII 0 (ILLL)',\n",
-       " 'FMS VII:VIII 0 (VLLI)',\n",
-       " 'MARK3 VII:VIII 0 (LLLI)',\n",
-       " 'MARK2 VII:VIII 0 (LLLI)',\n",
-       " 'EphA1 VII:VIII 0 (ILVV)',\n",
-       " 'EphB6 VII:VIII 0 (VLVV)',\n",
-       " 'FGFR1 VII:VIII 0 (VLVI)',\n",
-       " 'FGFR3 VII:VIII 0 (VLVI)',\n",
-       " 'FGFR4 VII:VIII 0 (VLVI)',\n",
-       " 'FLT3 VII:VIII 0 (VLVI)',\n",
-       " 'FLT1 VII:VIII 0 (ILLI)',\n",
-       " 'FRAP VII:VIII 0 (LMLH)',\n",
-       " 'GAK VII:VIII 0 (LLLL)',\n",
-       " 'GSK3B VII:VIII 0 (LLLL)',\n",
-       " 'ErbB4 VII:VIII 0 (VLVI)',\n",
-       " 'IRAK3 VII:VIII 0 (ILLL)',\n",
-       " 'ITK VII:VIII 0 (CLVV)',\n",
-       " 'JAK2 VII:VIII 0 (ILVI)',\n",
-       " 'MAST3 VII:VIII 0 (LLIL)',\n",
-       " 'MAPKAPK3 VII:VIII 0 (LLYL)',\n",
-       " 'MAST2 VII:VIII 0 (LLIL)',\n",
-       " 'MAP3K5 VII:VIII 0 (VLII)',\n",
-       " 'NIK VII:VIII 0 (VLLL)',\n",
-       " 'p38a VII:VIII 0 (LAVI)',\n",
-       " 'PKCh VII:VIII 0 (VLLL)',\n",
-       " 'PDGFRa VII:VIII 0 (VLLI)',\n",
-       " 'PITSLRE VII:VIII 0 (LLLV)',\n",
-       " 'PKCa VII:VIII 0 (VMLI)',\n",
-       " 'PKCb VII:VIII 0 (VMLI)',\n",
-       " 'PKCd VII:VIII 0 (VLLI)',\n",
-       " 'PKCg VII:VIII 0 (VMLI)',\n",
-       " 'PKCi VII:VIII 0 (VLLL)',\n",
-       " 'PKCt VII:VIII 0 (ILLI)',\n",
-       " 'PKCz VII:VIII 0 (VLLL)',\n",
-       " 'PKN1 VII:VIII 0 (LLLI)',\n",
-       " 'RIPK3 VII:VIII 0 (VLLL)',\n",
-       " 'RSK1 VII:VIII 0 (ILLI)',\n",
-       " 'RSK2 VII:VIII 0 (ILLL)',\n",
-       " 'RSK3 VII:VIII 0 (ILLL)',\n",
-       " 'p38b VII:VIII 0 (VAVI)',\n",
-       " 'p38g VII:VIII 0 (LAVI)',\n",
-       " 'MAST1 VII:VIII 0 (LLIL)',\n",
-       " 'BMPR2 VII:VIII 0 (VLVI)',\n",
-       " 'TIE2 VII:VIII 0 (ILVI)',\n",
-       " 'TTN VII:VIII 0 (IIYI)',\n",
-       " 'TRRAP VII:VIII 0 (LQIT)',\n",
-       " 'TYK2 VII:VIII 0 (VLLI)',\n",
-       " 'ULK2 VII:VIII 0 (ILLI)',\n",
-       " 'DDR1 VII:VIII 0 (CLVI)',\n",
-       " 'DDR2 VII:VIII 0 (CLVI)',\n",
-       " 'EphA7 VII:VIII 0 (ILVV)',\n",
-       " 'MINK VII:VIII 0 (VLLL)',\n",
-       " 'NRK VII:VIII 0 (VLLL)',\n",
-       " 'ULK4 VII:VIII 0 (ILLF)',\n",
-       " 'DCLK3 VII:VIII 0 (LLVL)',\n",
-       " 'Erk7 VII:VIII 0 (VLLL)',\n",
-       " 'CDKL4 VII:VIII 0 (ILII)',\n",
-       " 'SCYL3 VII:VIII 0 (VFVL)',\n",
-       " 'RSKL2 VII:VIII 0 (LLLL)',\n",
-       " 'NEK8 VII:VIII 0 (ILLI)',\n",
-       " 'NRBP1 VII:VIII 0 (IFII)',\n",
-       " 'PKD2 VII:VIII 0 (VLLL)',\n",
-       " 'HH498 VII:VIII 0 (ILLV)',\n",
-       " 'QSK VII:VIII 0 (LLLI)',\n",
-       " 'MARK4 VII:VIII 0 (LLLI)',\n",
-       " 'RSK4 VII:VIII 0 (ILLL)',\n",
-       " 'NRBP2 VII:VIII 0 (IFII)',\n",
-       " 'SgK071 VII:VIII 0 (IILL)',\n",
-       " 'SSTK VII:VIII 0 (VLLL)',\n",
-       " 'Trad VII:VIII 0 (LLIL)',\n",
-       " 'ANKRD3 VII:VIII 0 (ILLI)',\n",
-       " 'BRSK1 VII:VIII 0 (LLLI)',\n",
-       " 'SIK VII:VIII 0 (LLLL)',\n",
-       " 'ADCK3 VII:VIII 0 (FFYL)',\n",
-       " 'Wnk3 VII:VIII 0 (IFII)',\n",
-       " 'EphA6 VII:VIII 0 (ILVV)',\n",
-       " 'SgK288 VII:VIII 0 (ILLI)',\n",
-       " 'TBCK VII:VIII 0 (ILLL)',\n",
-       " 'LRRK2 VII:VIII 0 (VLLI)',\n",
-       " 'BIKE VII:VIII 0 (ILLL)']"
-      ]
-     },
-     "execution_count": 211,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "list_err_concat"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 204,
-   "id": "f4d0a2cf-95a2-47c5-bab9-235fdbb6aed6",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "['SCYL1 I 1 (---)',\n",
-       " 'SCYL3 I 1 (---)',\n",
-       " 'SgK495 I 1 (---)',\n",
-       " 'RSKL1 I 1 (---)',\n",
-       " 'TBCK I 1 (---)',\n",
-       " 'SgK307 I 1 (---)',\n",
-       " 'SCYL3 g.l 1 (------)',\n",
-       " 'SgK495 g.l 1 (------)',\n",
-       " 'RSKL1 g.l 1 (------)',\n",
-       " 'TBCK g.l 1 (------)',\n",
-       " 'SgK307 g.l 1 (------)',\n",
-       " 'SgK495 II 1 (----)',\n",
-       " 'RSKL1 II 1 (----)',\n",
-       " 'TBCK II 1 (----)',\n",
-       " 'SgK307 II 1 (----)',\n",
-       " 'SgK495 III 1 (------)',\n",
-       " 'SgK495 αC 1 (-----------)',\n",
-       " 'SgK495 b.l 0 (-------)',\n",
-       " 'SgK495 IV 1 (----)',\n",
-       " 'SgK495 V 1 (---)',\n",
-       " 'SgK495 GK 1 (-)',\n",
-       " 'SgK495 hinge 1 (---)',\n",
-       " 'Slob a.l 4 (--)']"
-      ]
-     },
-     "execution_count": 204,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "list_err_narm"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 205,
-   "id": "1816de35-f28e-49b5-a08b-79d6563b7019",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "['LRRK2 I 0 (ADH)',\n",
-       " 'CaMKK1 I 0 (DAY)',\n",
-       " 'CaMKK1 g.l 0 (LQGAYG)',\n",
-       " 'ADCK4 linker 0 (LGVP)',\n",
-       " 'ATM linker 0 (TTVP)',\n",
-       " 'FRAP linker 0 (PCDT)',\n",
-       " 'PIM3 linker 0 (EAQD)',\n",
-       " 'PIM1 linker 0 (EVQD)',\n",
-       " 'PIM2 linker 0 (LAQD)',\n",
-       " 'TRRAP linker 0 (PVEI)',\n",
-       " 'ADCK1 linker 0 (FGQV)',\n",
-       " 'RIOK3 linker 0 (GAPK)',\n",
-       " 'RIOK1 linker 0 (GAPL)',\n",
-       " 'SMG1 linker 0 (DATP)',\n",
-       " 'ADCK2 linker 0 (YVSS)',\n",
-       " 'ADCK5 linker 0 (FCKV)',\n",
-       " 'ADCK3 VI 0 (NFM)']"
-      ]
-     },
-     "execution_count": 205,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "list_err_match"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 213,
-   "id": "86fb3550-46cc-4db4-b3ac-f48961c062b8",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/html": [
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-       "<style scoped>\n",
-       "    .dataframe tbody tr th:only-of-type {\n",
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-       "\n",
-       "    .dataframe tbody tr th {\n",
-       "        vertical-align: top;\n",
-       "    }\n",
-       "\n",
-       "    .dataframe thead th {\n",
-       "        text-align: right;\n",
-       "    }\n",
-       "</style>\n",
-       "<table border=\"1\" class=\"dataframe\">\n",
-       "  <thead>\n",
-       "    <tr style=\"text-align: right;\">\n",
-       "      <th></th>\n",
-       "      <th>P00519</th>\n",
-       "      <th>Q07912</th>\n",
-       "      <th>P27037</th>\n",
-       "      <th>Q13705</th>\n",
-       "      <th>Q96D53</th>\n",
-       "      <th>Q96RU8</th>\n",
-       "      <th>Q8IWQ3</th>\n",
-       "      <th>Q9Y3S1</th>\n",
-       "      <th>P31749</th>\n",
-       "      <th>P31751</th>\n",
-       "      <th>...</th>\n",
-       "      <th>Q9NSY1</th>\n",
-       "      <th>Q9BXA7</th>\n",
-       "      <th>Q86YV6</th>\n",
-       "      <th>Q7Z695</th>\n",
-       "      <th>O43293</th>\n",
-       "      <th>P0C1S8</th>\n",
-       "      <th>Q05823</th>\n",
-       "      <th>Q9BVS4</th>\n",
-       "      <th>Q3MIX3</th>\n",
-       "      <th>Q58A45</th>\n",
-       "    </tr>\n",
-       "  </thead>\n",
-       "  <tbody>\n",
-       "    <tr>\n",
-       "      <th>I</th>\n",
-       "      <td>245.0</td>\n",
-       "      <td>129.0</td>\n",
-       "      <td>195.0</td>\n",
-       "      <td>193.0</td>\n",
-       "      <td>212.0</td>\n",
-       "      <td>94.0</td>\n",
-       "      <td>22.0</td>\n",
-       "      <td>198.0</td>\n",
-       "      <td>153.0</td>\n",
-       "      <td>155.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>54.0</td>\n",
-       "      <td>15.0</td>\n",
-       "      <td>109.0</td>\n",
-       "      <td>284.0</td>\n",
-       "      <td>16.0</td>\n",
-       "      <td>215.0</td>\n",
-       "      <td>368.0</td>\n",
-       "      <td>98.0</td>\n",
-       "      <td>203.0</td>\n",
-       "      <td>492.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>g.l</th>\n",
-       "      <td>248.0</td>\n",
-       "      <td>132.0</td>\n",
-       "      <td>198.0</td>\n",
-       "      <td>196.0</td>\n",
-       "      <td>215.0</td>\n",
-       "      <td>97.0</td>\n",
-       "      <td>25.0</td>\n",
-       "      <td>201.0</td>\n",
-       "      <td>156.0</td>\n",
-       "      <td>158.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>57.0</td>\n",
-       "      <td>18.0</td>\n",
-       "      <td>112.0</td>\n",
-       "      <td>287.0</td>\n",
-       "      <td>19.0</td>\n",
-       "      <td>218.0</td>\n",
-       "      <td>371.0</td>\n",
-       "      <td>101.0</td>\n",
-       "      <td>206.0</td>\n",
-       "      <td>495.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>II</th>\n",
-       "      <td>254.0</td>\n",
-       "      <td>138.0</td>\n",
-       "      <td>204.0</td>\n",
-       "      <td>202.0</td>\n",
-       "      <td>221.0</td>\n",
-       "      <td>103.0</td>\n",
-       "      <td>31.0</td>\n",
-       "      <td>207.0</td>\n",
-       "      <td>162.0</td>\n",
-       "      <td>164.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>63.0</td>\n",
-       "      <td>24.0</td>\n",
-       "      <td>118.0</td>\n",
-       "      <td>293.0</td>\n",
-       "      <td>25.0</td>\n",
-       "      <td>224.0</td>\n",
-       "      <td>377.0</td>\n",
-       "      <td>107.0</td>\n",
-       "      <td>212.0</td>\n",
-       "      <td>501.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>III</th>\n",
-       "      <td>267.0</td>\n",
-       "      <td>154.0</td>\n",
-       "      <td>215.0</td>\n",
-       "      <td>213.0</td>\n",
-       "      <td>233.0</td>\n",
-       "      <td>116.0</td>\n",
-       "      <td>44.0</td>\n",
-       "      <td>220.0</td>\n",
-       "      <td>175.0</td>\n",
-       "      <td>177.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>75.0</td>\n",
-       "      <td>37.0</td>\n",
-       "      <td>131.0</td>\n",
-       "      <td>307.0</td>\n",
-       "      <td>38.0</td>\n",
-       "      <td>237.0</td>\n",
-       "      <td>388.0</td>\n",
-       "      <td>119.0</td>\n",
-       "      <td>224.0</td>\n",
-       "      <td>516.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>αC</th>\n",
-       "      <td>281.0</td>\n",
-       "      <td>172.0</td>\n",
-       "      <td>227.0</td>\n",
-       "      <td>225.0</td>\n",
-       "      <td>285.0</td>\n",
-       "      <td>126.0</td>\n",
-       "      <td>61.0</td>\n",
-       "      <td>237.0</td>\n",
-       "      <td>193.0</td>\n",
-       "      <td>195.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>90.0</td>\n",
-       "      <td>55.0</td>\n",
-       "      <td>146.0</td>\n",
-       "      <td>361.0</td>\n",
-       "      <td>59.0</td>\n",
-       "      <td>254.0</td>\n",
-       "      <td>399.0</td>\n",
-       "      <td>156.0</td>\n",
-       "      <td>276.0</td>\n",
-       "      <td>532.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>b.l</th>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>...</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>NaN</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>IV</th>\n",
-       "      <td>300.0</td>\n",
-       "      <td>191.0</td>\n",
-       "      <td>248.0</td>\n",
-       "      <td>246.0</td>\n",
-       "      <td>311.0</td>\n",
-       "      <td>145.0</td>\n",
-       "      <td>80.0</td>\n",
-       "      <td>256.0</td>\n",
-       "      <td>212.0</td>\n",
-       "      <td>214.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>110.0</td>\n",
-       "      <td>74.0</td>\n",
-       "      <td>165.0</td>\n",
-       "      <td>387.0</td>\n",
-       "      <td>78.0</td>\n",
-       "      <td>274.0</td>\n",
-       "      <td>419.0</td>\n",
-       "      <td>177.0</td>\n",
-       "      <td>302.0</td>\n",
-       "      <td>550.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>V</th>\n",
-       "      <td>311.0</td>\n",
-       "      <td>201.0</td>\n",
-       "      <td>263.0</td>\n",
-       "      <td>261.0</td>\n",
-       "      <td>318.0</td>\n",
-       "      <td>156.0</td>\n",
-       "      <td>91.0</td>\n",
-       "      <td>271.0</td>\n",
-       "      <td>223.0</td>\n",
-       "      <td>225.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>126.0</td>\n",
-       "      <td>86.0</td>\n",
-       "      <td>176.0</td>\n",
-       "      <td>394.0</td>\n",
-       "      <td>89.0</td>\n",
-       "      <td>285.0</td>\n",
-       "      <td>430.0</td>\n",
-       "      <td>184.0</td>\n",
-       "      <td>309.0</td>\n",
-       "      <td>567.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>GK</th>\n",
-       "      <td>314.0</td>\n",
-       "      <td>204.0</td>\n",
-       "      <td>266.0</td>\n",
-       "      <td>264.0</td>\n",
-       "      <td>321.0</td>\n",
-       "      <td>159.0</td>\n",
-       "      <td>94.0</td>\n",
-       "      <td>274.0</td>\n",
-       "      <td>226.0</td>\n",
-       "      <td>228.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>129.0</td>\n",
-       "      <td>89.0</td>\n",
-       "      <td>179.0</td>\n",
-       "      <td>397.0</td>\n",
-       "      <td>92.0</td>\n",
-       "      <td>288.0</td>\n",
-       "      <td>433.0</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>312.0</td>\n",
-       "      <td>570.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>hinge</th>\n",
-       "      <td>315.0</td>\n",
-       "      <td>205.0</td>\n",
-       "      <td>267.0</td>\n",
-       "      <td>265.0</td>\n",
-       "      <td>322.0</td>\n",
-       "      <td>160.0</td>\n",
-       "      <td>95.0</td>\n",
-       "      <td>275.0</td>\n",
-       "      <td>227.0</td>\n",
-       "      <td>229.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>130.0</td>\n",
-       "      <td>90.0</td>\n",
-       "      <td>180.0</td>\n",
-       "      <td>398.0</td>\n",
-       "      <td>93.0</td>\n",
-       "      <td>289.0</td>\n",
-       "      <td>434.0</td>\n",
-       "      <td>188.0</td>\n",
-       "      <td>313.0</td>\n",
-       "      <td>571.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>linker</th>\n",
-       "      <td>318.0</td>\n",
-       "      <td>208.0</td>\n",
-       "      <td>270.0</td>\n",
-       "      <td>268.0</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>163.0</td>\n",
-       "      <td>98.0</td>\n",
-       "      <td>278.0</td>\n",
-       "      <td>230.0</td>\n",
-       "      <td>232.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>133.0</td>\n",
-       "      <td>93.0</td>\n",
-       "      <td>183.0</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>96.0</td>\n",
-       "      <td>292.0</td>\n",
-       "      <td>437.0</td>\n",
-       "      <td>191.0</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>574.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>αD</th>\n",
-       "      <td>322.0</td>\n",
-       "      <td>212.0</td>\n",
-       "      <td>274.0</td>\n",
-       "      <td>272.0</td>\n",
-       "      <td>331.0</td>\n",
-       "      <td>166.0</td>\n",
-       "      <td>102.0</td>\n",
-       "      <td>282.0</td>\n",
-       "      <td>234.0</td>\n",
-       "      <td>236.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>137.0</td>\n",
-       "      <td>97.0</td>\n",
-       "      <td>187.0</td>\n",
-       "      <td>410.0</td>\n",
-       "      <td>100.0</td>\n",
-       "      <td>296.0</td>\n",
-       "      <td>440.0</td>\n",
-       "      <td>195.0</td>\n",
-       "      <td>323.0</td>\n",
-       "      <td>578.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>αE</th>\n",
-       "      <td>352.0</td>\n",
-       "      <td>241.0</td>\n",
-       "      <td>311.0</td>\n",
-       "      <td>310.0</td>\n",
-       "      <td>356.0</td>\n",
-       "      <td>194.0</td>\n",
-       "      <td>130.0</td>\n",
-       "      <td>312.0</td>\n",
-       "      <td>263.0</td>\n",
-       "      <td>264.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>169.0</td>\n",
-       "      <td>125.0</td>\n",
-       "      <td>216.0</td>\n",
-       "      <td>434.0</td>\n",
-       "      <td>128.0</td>\n",
-       "      <td>328.0</td>\n",
-       "      <td>474.0</td>\n",
-       "      <td>218.0</td>\n",
-       "      <td>351.0</td>\n",
-       "      <td>629.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>VI</th>\n",
-       "      <td>357.0</td>\n",
-       "      <td>246.0</td>\n",
-       "      <td>316.0</td>\n",
-       "      <td>315.0</td>\n",
-       "      <td>361.0</td>\n",
-       "      <td>199.0</td>\n",
-       "      <td>135.0</td>\n",
-       "      <td>317.0</td>\n",
-       "      <td>268.0</td>\n",
-       "      <td>269.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>174.0</td>\n",
-       "      <td>130.0</td>\n",
-       "      <td>221.0</td>\n",
-       "      <td>439.0</td>\n",
-       "      <td>133.0</td>\n",
-       "      <td>333.0</td>\n",
-       "      <td>479.0</td>\n",
-       "      <td>223.0</td>\n",
-       "      <td>355.0</td>\n",
-       "      <td>634.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>c.l</th>\n",
-       "      <td>360.0</td>\n",
-       "      <td>249.0</td>\n",
-       "      <td>319.0</td>\n",
-       "      <td>318.0</td>\n",
-       "      <td>364.0</td>\n",
-       "      <td>202.0</td>\n",
-       "      <td>138.0</td>\n",
-       "      <td>320.0</td>\n",
-       "      <td>271.0</td>\n",
-       "      <td>272.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>177.0</td>\n",
-       "      <td>133.0</td>\n",
-       "      <td>224.0</td>\n",
-       "      <td>442.0</td>\n",
-       "      <td>136.0</td>\n",
-       "      <td>336.0</td>\n",
-       "      <td>482.0</td>\n",
-       "      <td>225.0</td>\n",
-       "      <td>357.0</td>\n",
-       "      <td>637.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>VII</th>\n",
-       "      <td>368.0</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>327.0</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>372.0</td>\n",
-       "      <td>210.0</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>328.0</td>\n",
-       "      <td>279.0</td>\n",
-       "      <td>280.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>NaN</td>\n",
-       "      <td>141.0</td>\n",
-       "      <td>232.0</td>\n",
-       "      <td>450.0</td>\n",
-       "      <td>144.0</td>\n",
-       "      <td>344.0</td>\n",
-       "      <td>490.0</td>\n",
-       "      <td>233.0</td>\n",
-       "      <td>365.0</td>\n",
-       "      <td>645.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>VIII</th>\n",
-       "      <td>378.0</td>\n",
-       "      <td>267.0</td>\n",
-       "      <td>337.0</td>\n",
-       "      <td>336.0</td>\n",
-       "      <td>383.0</td>\n",
-       "      <td>220.0</td>\n",
-       "      <td>156.0</td>\n",
-       "      <td>339.0</td>\n",
-       "      <td>289.0</td>\n",
-       "      <td>290.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>195.0</td>\n",
-       "      <td>151.0</td>\n",
-       "      <td>244.0</td>\n",
-       "      <td>490.0</td>\n",
-       "      <td>158.0</td>\n",
-       "      <td>377.0</td>\n",
-       "      <td>500.0</td>\n",
-       "      <td>243.0</td>\n",
-       "      <td>379.0</td>\n",
-       "      <td>655.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>xDFG</th>\n",
-       "      <td>379.0</td>\n",
-       "      <td>268.0</td>\n",
-       "      <td>338.0</td>\n",
-       "      <td>337.0</td>\n",
-       "      <td>384.0</td>\n",
-       "      <td>221.0</td>\n",
-       "      <td>157.0</td>\n",
-       "      <td>340.0</td>\n",
-       "      <td>290.0</td>\n",
-       "      <td>291.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>196.0</td>\n",
-       "      <td>152.0</td>\n",
-       "      <td>245.0</td>\n",
-       "      <td>491.0</td>\n",
-       "      <td>159.0</td>\n",
-       "      <td>378.0</td>\n",
-       "      <td>501.0</td>\n",
-       "      <td>244.0</td>\n",
-       "      <td>380.0</td>\n",
-       "      <td>656.0</td>\n",
-       "    </tr>\n",
-       "    <tr>\n",
-       "      <th>a.l</th>\n",
-       "      <td>380.0</td>\n",
-       "      <td>272.0</td>\n",
-       "      <td>339.0</td>\n",
-       "      <td>338.0</td>\n",
-       "      <td>385.0</td>\n",
-       "      <td>222.0</td>\n",
-       "      <td>158.0</td>\n",
-       "      <td>341.0</td>\n",
-       "      <td>291.0</td>\n",
-       "      <td>292.0</td>\n",
-       "      <td>...</td>\n",
-       "      <td>197.0</td>\n",
-       "      <td>153.0</td>\n",
-       "      <td>246.0</td>\n",
-       "      <td>492.0</td>\n",
-       "      <td>160.0</td>\n",
-       "      <td>379.0</td>\n",
-       "      <td>502.0</td>\n",
-       "      <td>245.0</td>\n",
-       "      <td>381.0</td>\n",
-       "      <td>657.0</td>\n",
-       "    </tr>\n",
-       "  </tbody>\n",
-       "</table>\n",
-       "<p>19 rows × 482 columns</p>\n",
-       "</div>"
-      ],
-      "text/plain": [
-       "        P00519  Q07912  P27037  Q13705  Q96D53  Q96RU8  Q8IWQ3  Q9Y3S1  \\\n",
-       "I        245.0   129.0   195.0   193.0   212.0    94.0    22.0   198.0   \n",
-       "g.l      248.0   132.0   198.0   196.0   215.0    97.0    25.0   201.0   \n",
-       "II       254.0   138.0   204.0   202.0   221.0   103.0    31.0   207.0   \n",
-       "III      267.0   154.0   215.0   213.0   233.0   116.0    44.0   220.0   \n",
-       "αC       281.0   172.0   227.0   225.0   285.0   126.0    61.0   237.0   \n",
-       "b.l        NaN     NaN     NaN     NaN     NaN     NaN     NaN     NaN   \n",
-       "IV       300.0   191.0   248.0   246.0   311.0   145.0    80.0   256.0   \n",
-       "V        311.0   201.0   263.0   261.0   318.0   156.0    91.0   271.0   \n",
-       "GK       314.0   204.0   266.0   264.0   321.0   159.0    94.0   274.0   \n",
-       "hinge    315.0   205.0   267.0   265.0   322.0   160.0    95.0   275.0   \n",
-       "linker   318.0   208.0   270.0   268.0     NaN   163.0    98.0   278.0   \n",
-       "αD       322.0   212.0   274.0   272.0   331.0   166.0   102.0   282.0   \n",
-       "αE       352.0   241.0   311.0   310.0   356.0   194.0   130.0   312.0   \n",
-       "VI       357.0   246.0   316.0   315.0   361.0   199.0   135.0   317.0   \n",
-       "c.l      360.0   249.0   319.0   318.0   364.0   202.0   138.0   320.0   \n",
-       "VII      368.0     NaN   327.0     NaN   372.0   210.0     NaN   328.0   \n",
-       "VIII     378.0   267.0   337.0   336.0   383.0   220.0   156.0   339.0   \n",
-       "xDFG     379.0   268.0   338.0   337.0   384.0   221.0   157.0   340.0   \n",
-       "a.l      380.0   272.0   339.0   338.0   385.0   222.0   158.0   341.0   \n",
-       "\n",
-       "        P31749  P31751  ...  Q9NSY1  Q9BXA7  Q86YV6  Q7Z695  O43293  P0C1S8  \\\n",
-       "I        153.0   155.0  ...    54.0    15.0   109.0   284.0    16.0   215.0   \n",
-       "g.l      156.0   158.0  ...    57.0    18.0   112.0   287.0    19.0   218.0   \n",
-       "II       162.0   164.0  ...    63.0    24.0   118.0   293.0    25.0   224.0   \n",
-       "III      175.0   177.0  ...    75.0    37.0   131.0   307.0    38.0   237.0   \n",
-       "αC       193.0   195.0  ...    90.0    55.0   146.0   361.0    59.0   254.0   \n",
-       "b.l        NaN     NaN  ...     NaN     NaN     NaN     NaN     NaN     NaN   \n",
-       "IV       212.0   214.0  ...   110.0    74.0   165.0   387.0    78.0   274.0   \n",
-       "V        223.0   225.0  ...   126.0    86.0   176.0   394.0    89.0   285.0   \n",
-       "GK       226.0   228.0  ...   129.0    89.0   179.0   397.0    92.0   288.0   \n",
-       "hinge    227.0   229.0  ...   130.0    90.0   180.0   398.0    93.0   289.0   \n",
-       "linker   230.0   232.0  ...   133.0    93.0   183.0     NaN    96.0   292.0   \n",
-       "αD       234.0   236.0  ...   137.0    97.0   187.0   410.0   100.0   296.0   \n",
-       "αE       263.0   264.0  ...   169.0   125.0   216.0   434.0   128.0   328.0   \n",
-       "VI       268.0   269.0  ...   174.0   130.0   221.0   439.0   133.0   333.0   \n",
-       "c.l      271.0   272.0  ...   177.0   133.0   224.0   442.0   136.0   336.0   \n",
-       "VII      279.0   280.0  ...     NaN   141.0   232.0   450.0   144.0   344.0   \n",
-       "VIII     289.0   290.0  ...   195.0   151.0   244.0   490.0   158.0   377.0   \n",
-       "xDFG     290.0   291.0  ...   196.0   152.0   245.0   491.0   159.0   378.0   \n",
-       "a.l      291.0   292.0  ...   197.0   153.0   246.0   492.0   160.0   379.0   \n",
-       "\n",
-       "        Q05823  Q9BVS4  Q3MIX3  Q58A45  \n",
-       "I        368.0    98.0   203.0   492.0  \n",
-       "g.l      371.0   101.0   206.0   495.0  \n",
-       "II       377.0   107.0   212.0   501.0  \n",
-       "III      388.0   119.0   224.0   516.0  \n",
-       "αC       399.0   156.0   276.0   532.0  \n",
-       "b.l        NaN     NaN     NaN     NaN  \n",
-       "IV       419.0   177.0   302.0   550.0  \n",
-       "V        430.0   184.0   309.0   567.0  \n",
-       "GK       433.0     NaN   312.0   570.0  \n",
-       "hinge    434.0   188.0   313.0   571.0  \n",
-       "linker   437.0   191.0     NaN   574.0  \n",
-       "αD       440.0   195.0   323.0   578.0  \n",
-       "αE       474.0   218.0   351.0   629.0  \n",
-       "VI       479.0   223.0   355.0   634.0  \n",
-       "c.l      482.0   225.0   357.0   637.0  \n",
-       "VII      490.0   233.0   365.0   645.0  \n",
-       "VIII     500.0   243.0   379.0   655.0  \n",
-       "xDFG     501.0   244.0   380.0   656.0  \n",
-       "a.l      502.0   245.0   381.0   657.0  \n",
-       "\n",
-       "[19 rows x 482 columns]"
-      ]
-     },
-     "execution_count": 213,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "pd.DataFrame(dict_klifs_idx)"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 155,
-   "id": "2e913d58-c74e-45a1-aa1e-92447a81b254",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "114"
-      ]
-     },
-     "execution_count": 155,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "len(list_err)"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 147,
-   "id": "3d5781d4-2c69-43aa-85fb-00084cd2c509",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "'VF'"
-      ]
-     },
-     "execution_count": 147,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "test_sub"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 146,
-   "id": "e9689e9a-70fd-4ae0-a261-9d45a97b4e68",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "'VF'"
-      ]
-     },
-     "execution_count": 146,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "\"\".join([i for i in test_sub])"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "66285d2b-6391-4689-8b66-102720a8eeac",
-   "metadata": {},
-   "outputs": [],
-   "source": []
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "7b973b68-9d68-48e1-a2df-bafc0c58799e",
-   "metadata": {},
-   "outputs": [],
-   "source": []
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "21b662f2-3602-4a1b-8071-d41472bef174",
-   "metadata": {},
-   "outputs": [],
-   "source": []
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 28,
-   "id": "c07eee68-e57c-4a7f-b4e5-c23f04d1a7e0",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "family                                                              Abl\n",
-       "full_name             ABL proto-oncogene 1, non-receptor tyrosine ki...\n",
-       "gene_name                                                          ABL1\n",
-       "group                                                                TK\n",
-       "iuphar                                                           1923.0\n",
-       "kinase_ID                                                         392.0\n",
-       "name                                                               ABL1\n",
-       "pocket                HKLGGGQYGEVYEVAVKTLEFLKEAAVMKEIKPNLVQLLGVYIITE...\n",
-       "species                                                           Human\n",
-       "subfamily                                                           NaN\n",
-       "uniprot                                                          P00519\n",
-       "uniprot_id                                                       P00519\n",
-       "hgnc_name                                                          ABL1\n",
-       "canonical_sequence    MLEICLKLVGCKSKKGLSSSSSCYLEEALQRPVASDFEPQGLSEAA...\n",
-       "Name: 0, dtype: object"
-      ]
-     },
-     "execution_count": 28,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "df_klifs_uniprot_narm.iloc[0]"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "c253ae98-bfed-4f91-b7f6-2b8aa68bc289",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "list_klifs_region = list(set([i[1] for i in klifs.POCKET_KLIFS_REGIONS]))\n",
-    "\n",
-    "list_klifs_start = []\n",
-    "list_klifs_end = []\n",
-    "\n",
-    "for region in list_klifs_region:\n",
-    "    list_region = [i[0] for i in klifs.POCKET_KLIFS_REGIONS if i[1] == region]\n",
-    "    start, end = min(list_region), max(list_region)\n",
-    "    list_klifs_start.append(start), list_klifs_end.append(end)\n",
-    "\n",
-    "idx_sort = np.argsort(np.array(list_klifs_start))\n",
-    "list_klifs_region = list(np.array(list_klifs_region)[idx_sort])\n",
-    "list_klifs_start = list(np.array(list_klifs_start)[idx_sort])\n",
-    "list_klifs_end = list(np.array(list_klifs_end)[idx_sort])\n",
-    "\n",
-    "dict_klifs_regions = {region : {\"start\" : list_klifs_start[idx], \n",
-    "                                \"end\" : list_klifs_end[idx]} for idx, region in enumerate(list_klifs_region)}"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 54,
-   "id": "45c23943-9e67-4693-ba02-43ebfc098476",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "{'I': {'start': 1, 'end': 3},\n",
-       " 'g.l': {'start': 4, 'end': 9},\n",
-       " 'II': {'start': 10, 'end': 13},\n",
-       " 'III': {'start': 14, 'end': 19},\n",
-       " 'αC': {'start': 20, 'end': 30},\n",
-       " 'b.l': {'start': 31, 'end': 37},\n",
-       " 'IV': {'start': 38, 'end': 41},\n",
-       " 'V': {'start': 42, 'end': 44},\n",
-       " 'GK': {'start': 45, 'end': 45},\n",
-       " 'hinge': {'start': 46, 'end': 48},\n",
-       " 'linker': {'start': 49, 'end': 52},\n",
-       " 'αD': {'start': 53, 'end': 59},\n",
-       " 'αE': {'start': 60, 'end': 64},\n",
-       " 'VI': {'start': 65, 'end': 67},\n",
-       " 'c.l': {'start': 68, 'end': 75},\n",
-       " 'VII': {'start': 76, 'end': 78},\n",
-       " 'VIII': {'start': 79, 'end': 79},\n",
-       " 'xDFG': {'start': 80, 'end': 83},\n",
-       " 'a.l': {'start': 84, 'end': 85}}"
-      ]
-     },
-     "execution_count": 54,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "for key, val in dict_klifs_regions.items():\n",
-    "    val[\"start\"]"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 55,
-   "id": "d9545ae1-b187-44c4-9cd2-61da233c03f3",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "text/plain": [
-       "{'start': 1, 'end': 3}"
-      ]
-     },
-     "execution_count": 55,
-     "metadata": {},
-     "output_type": "execute_result"
-    }
-   ],
-   "source": [
-    "dict_klifs_regions[\"I\"][\"start\"]-1:dict_klifs_regions[\"I\"][\"end\"]-1"
-   ]
   }
  ],
  "metadata": {
@@ -1640,7 +290,7 @@
    "name": "python",
    "nbconvert_exporter": "python",
    "pygments_lexer": "ipython3",
-   "version": "3.11.9"
+   "version": "3.11.7"
   }
  },
  "nbformat": 4,