1 / 33

The fate of Y chromosomes Heath Blackmon

The fate of Y chromosomes Heath Blackmon. Sexually Antagonistic Allele. Inversion. Dominant M ale Determining A llele. Inversion. Autosomes. X Y. X Y. X Y. X Y. Intermittent Recombination. Gene Gains. Muller’s Ratchet. Background Selection.

hall
Download Presentation

The fate of Y chromosomes Heath Blackmon

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The fate of Y chromosomes • Heath Blackmon

  2. Sexually Antagonistic Allele Inversion Dominant Male Determining Allele Inversion Autosomes X Y X Y X Y X Y

  3. Intermittent Recombination Gene Gains Muller’s Ratchet Background Selection Gene Duplication Genetic Hitchhiking Intrachromosomal Gene Conversion Hill-Robertson Effect

  4. Recent Work • Largely comparative genomics using groups of sequenced Y chromosomes or autosomes that have become sex determining in some lineages. • My Approach • Sacrifice the genomic detail but expand the number of species. Use a comparative phylogenetic approach with karyotypes.

  5. Coleoptera

  6. Coleoptera karyotype database • 1978 Compilation ~2,000 records • New data from ~200 publications 6+ languages • 4,726 records • 1,302 genera • 56 families • 2-34 Autosomes • 30 Sex Chromosome Systems • B Chromosomes • Haplodiploidy and Parthenogenesis

  7. 4,118 Taxa with Sex Chromosome Data

  8. 4,118 Taxa with Sex Chromosome Data

  9. Sequence Alignment Downloaded 2763 seq 7 genes 1136 taxa (2 mit. 5 nuc.) Final data set 1040 taxa Adephaga Polyphaga

  10. Polyphaga 744species Adephaga 296 species

  11. Distribution of Sex Chromosome Systems among Suborders of Coleoptera

  12. Coding Methods 2 State 3 State

  13. Two State Character Coding • Model 2.1 Model 2.2 Three State Character Coding Model 3.1 Model 3.3 Model 3.6

  14. Bayes Factors: Model Selection Log Bayes Factor = log pr(D|ѲAlt) – log pr(D| ѲNull) Support for the more complex model 0-2 Barely worth mentioning 2-6 Substantial 6-10 Strong > 10 Decisive

  15. Model 2.1 and 2.2 in Adephaga 2 State Coding Harmonic Mean of the Likelihood 1-Rate 2-Rates Bayes Factor 1.9

  16. Model 2.1 and 2.2 in Polyphaga 2 State Coding Harmonic Mean of the Likelihood 2-Rates 1-Rate Bayes Factor 11.8

  17. Model 3.1, 3.3, and 3.6 in Polyphaga 3 State Coding Harmonic Mean of the Likelihood Bayes Factor 17.54 6-Rates 1-Rate 3-Rates

  18. Model Choice

  19. Model Adequacy: Posterior Predictive SimulationsCould our model and phylogeny have given rise to the observed data? 1 2 3 4 5 6 θ1 θ2 θ3 θ4 θ5 θ6

  20. Interpretation of PPS results Good Model Poor Model Observed Data Observed Data

  21. Posterior predictive distribution of sex chromosome systems states in Polyphaga ● Realized Data 1500 Simulated Data Sets ● X0 Root (120) ● XY Root (840) ● Xy+ Root (540) 100% Xy+ 100% XO 100% XY

  22. ■Polyphaga ■Adephaga

  23. Polyphaga Adephaga X Y X Y X

  24. Polyphaga Adephaga X Y 5.3% 0.3% X Y X

  25. How can we explain this result? • Existing “genic” models of Y chromosome decay predict that the completely non-recombining Y should be lost more frequently. • Adephaga: Antagonistic selection • Selection to reduce recombination • Selection for faithful segregation • Polyphaga: Antagonism is resolved • The rate of Y chromosome loss is driven simply by the benefit of keeping the Y.

  26. Sexual selection, which implies the possession of considerable perceptive powers and of strong passions, seems to have been more effective with the Lamelicorns than any other family of the Coleoptera… -Darwin 1871 The Descent of Man. Vol. 1 pg. 377

  27. Emlen et al. 2006

  28. http://www.zin.ru

  29. Acknowledgements • Jeffery Demuth • Esther Betran • Paul Chippendale • Trey Fondon • Matthew Fujita • Jeremy Brown • Matt Mosley • David Sanchez • Matt Steffenson • Jacobo Velasco • Eric Watson

More Related