Skip to content
/ Nematoda-TE-Evolution Public

Analysis for the paper "Genetic drift, not life history or RNAi, determine long term evolution of transposable elements"

8 stars 5 forks Branches Tags Activity
Star
Notifications You must be signed in to change notification settings

HullUni-bioinformatics/Nematoda-TE-Evolution

BranchesTags

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

33 Commits
18S_tree
18S_tree
 
 
Genomes
Genomes
 
 
LTRHarvest
LTRHarvest
 
 
Library
Library
 
 
OneCodeToFIndThemAll
OneCodeToFIndThemAll
 
 
RepeatMasker
RepeatMasker
 
 
RepeatModeler
RepeatModeler
 
 
TE_counts
TE_counts
 
 
TE_sequences_by_TE_superfamily
TE_sequences_by_TE_superfamily
 
 
TE_sequences_by_nematode_species
TE_sequences_by_nematode_species
 
 
TransposonPSI
TransposonPSI
 
 
fit_of_TEs_to_tree
fit_of_TEs_to_tree
 
 
independent_contrasts
independent_contrasts
 
 
model_testing
model_testing
 
 
silencing
silencing
 
 
10_EvolutionaryAnalysis.ipynb
10_EvolutionaryAnalysis.ipynb
 
 
11_Ectopic_recombination_signature.ipynb
11_Ectopic_recombination_signature.ipynb
 
 
18S_tree.ipynb
18S_tree.ipynb
 
 
8_Search_RNAi_TE_silencing_pathway_proteins.ipynb
8_Search_RNAi_TE_silencing_pathway_proteins.ipynb
 
 
9_Figure1&2&S1_No_WTSI_genomes.ipynb
9_Figure1&2&S1_No_WTSI_genomes.ipynb
 
 
Detected_TE_sequences_as_fasta_files.ipynb
Detected_TE_sequences_as_fasta_files.ipynb
 
 
Example_RepeatModeler_Run.ipynb
Example_RepeatModeler_Run.ipynb
 
 
Fig4_ANOVA_Corrolation_with_independent_contrasts_&_anc_stated.ipynb
Fig4_ANOVA_Corrolation_with_independent_contrasts_&_anc_stated.ipynb
 
 
Integrated_TE_search_results.ipynb
Integrated_TE_search_results.ipynb
 
 
OneCodeToFindThemAll.ipynb
OneCodeToFindThemAll.ipynb
 
 
README.md
README.md
 
 
RepeatMasker.ipynb
RepeatMasker.ipynb
 
 
S2Fig_bottom_S1Results_section_1.ipynb
S2Fig_bottom_S1Results_section_1.ipynb
 
 
TE.py
TE.py
 
 
TransposonPSI_and_LTRHarvest.ipynb
TransposonPSI_and_LTRHarvest.ipynb
 
 
non_redundant_Nematoda_TE_lib.ipynb
non_redundant_Nematoda_TE_lib.ipynb
 
 

Repository files navigation

Genetic drift, not life history or RNAi, determine long term evolution of transposable elements

Amir Szitenberg, Soyeon Cha, Charles H. Opperman, David M. Bird, Mark L. Blaxter, David H. Lunt

Evolutionary Biology Group, School of Environmental Sciences, University of Hull, Hull, UK
Department of Plant Pathology, North Carolina State University, Raleigh, NC, USA
Institute of Evolutionary biology, School of Biological Sciences, University of Edinburgh, Edinburgh, UK

Corresponding author: E-mail: szitenberg@gmail.com

CC0

[![DOI](https://zenodo.org/badge/22650/HullUni-bioinformatics/Nematoda-TE-Evolution.svg)](https://zenodo.org/badge/latestdoi/22650/HullUni-bioinformatics/Nematoda-TE-Evolution)

Paper, Supplementary information

Jupyter Notebooks

  1. Build Nematoda 18S rRNA tree, calculate assembly GC content & length
  2. Make denovo TE libraries
  3. Make a non-redundant Nematoda TE library
  4. DNA sequence homology TE search
  5. Assemble RepeatMasker detected TEs
  6. Alternative TE detection approaches
  7. Merge TEs detected by different tools
  8. RNAi proteins honology search
  9. Figures 1, 2 and S1
  10. Evolutionary analysis (Figs3, 4, 5, S2, S3, S4)
  11. Test inverse corrolation between TE median sequence length and loads
  12. Write TE fasta files for each nematode species and for each TE superfamily
  13. S2 Figure, bottom panel (proportion of TEs used in evo analysis), S1 Results, section 1 (consensus TE lib composition)

About

Analysis for the paper "Genetic drift, not life history or RNAi, determine long term evolution of transposable elements"

Resources

Readme
Activity
Custom properties

Stars

8 stars

Watchers

4 watching

Forks

5 forks
Report repository

Releases 2

Revision Latest
Jul 19, 2016
+ 1 release

Packages

No packages published

Languages