The intricate relationship between sexually antagonistic selection and the evolution of sex chromosome fusions
Authored by Tomotaka Matsumoto, Jun Kitano
Date Published: 2016
DOI: 10.1016/j.jtbi.2016.05.036
Sponsors:
Japanese Society for the Promotion of Science (JSPS)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Sex chromosomes are among the most evolutionarily labile features in
some groups of animals. One of the mechanisms causing structural changes
of sex chromosomes is fusion with an autosome. A recent study showed
that the establishment rates of Y chromosome-autosome fusions are much
higher than those of other fusions (i.e., X-autosome, W-autosome, and
Z-autosome fusions) in fishes and reptiles. Although sexually
antagonistic selection may be one of the most important driving forces
of sex chromosome-autosome fusions, a previous theoretical analysis
showed that sexually antagonistic selection alone cannot explain the
excess of Y-autosome fusions in these taxa. This previous analysis, however, is based on the assumption that sexually antagonistic selection
is symmetric, sexually antagonistic alleles are maintained only by
selection-drift balance (i.e., no supply of mutation), and only one type
of fusion arises within a population. Here, we removed these assumptions
and made an individual-based model to simulate the establishment of sex
chromosome-autosome fusions. Our simulations showed that the highest
establishment rate of Y-autosome fusion can be achieved when the fusion
captures a rare male beneficial allele, if the recurrent mutation rates
are high enough to maintain the polymorphism of alleles with asymmetric, sexually antagonistic effects. Our results demonstrate that sexually
antagonistic selection can influence the dynamics of sex chromosome
structural changes, but the type of fusion that becomes the most common
depends on fusion rates, recurrent mutation rates, and selection
regimes. Because the evolutionary fate of sex chromosome-autosome
fusions is highly parameter-sensitive, further attempts to empirically
measure these parameters in natural populations are essential for a
better understanding of the roles of sexually antagonistic selection in
sex chromosome evolution. (C) 2016 Elsevier Ltd. All rights reserved.
Tags
Adaptation
conflict
fitness
Fish
Origin
Genetic-variation
Drosophila
Drive