Bigger on the X - The effect of size on the evolution of chromosome inversion

Abstract

In many insects, X-linked inversions fix at a higher rate and are much less polymorphic than autosomal inversions. Here, we report that in Drosophila, X-linked inversions also capture 67% more genes. We estimated the number of genes captured through an approximate Bayesian computational analysis of gene orders in nine species of Drosophila. X-linked inversions fixed with a significantly larger gene content. Further, X-linked inversions of intermediate size enjoy highest fixation rate, while the fixation rate of autosomal inversions decreases with size. A less detailed analysis in Anopheles suggests a similar pattern holds in mosquitoes. We develop a population genetic model that assumes the fitness effects of inversions scale with the number of genes captured. We show that the same conditions that lead to a higher fixation rate also produce a larger size for inversions on the X.

Date
Jun 13, 2016 1:00 PM — 3:00 PM
Event
Evolution 2016
Changde Cheng
Changde Cheng
Senior Bioinformatics Research Scientist

I do research in machine learning, cancer, evolutionary biology, and infectious diseases.