Title of article
ESS gene expression of X-linked imprinted genes subject to sexual selection
Author/Authors
Seymour، نويسنده , , Robert M. and Pomiankowski، نويسنده , , Andrew، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
13
From page
81
To page
93
Abstract
We define ESS (Evolutionary Stable Strategy) conditions for the evolution of genomic imprinting at an X-linked locus. The system analysed is designed for mammalian imprinting in which X-linked genes typically undergo random X-inactivation and lack Y-linked homologues. We consider two models that map cellular gene expression to fitness in females subject to random X-inactivation. In the first model, female fitness is simply a function of the average gene expression across all cells. In the second model, each cell contributes independently to fitness, and female fitness is assessed as the average of these contributions across all cells. In both models, imprinting readily evolves when sexual selection favours different levels of gene expression in the two sexes. Imprinting is beneficial as it improves adaptation in both sexes. There are limits to the improvement in adaptation when sexual selection is strong and favours greater gene expression in males (the heterogametic sex). We also consider the consequences of an active Y-linked homologue on the evolution of imprinting. Our analysis suggests that restrictive conditions apply for the evolution of polymorphic ESSs at an X-linked imprinted loci.
Keywords
Genomic imprinting , imprinting , Sexual dimorphism , sexual selection , X chromosome
Journal title
Journal of Theoretical Biology
Serial Year
2006
Journal title
Journal of Theoretical Biology
Record number
1537743
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