Female mating preferences determine system-level evolution in a gene network model Article

Fierst, JL. (2013). Female mating preferences determine system-level evolution in a gene network model . GENETICA, 141(4-6), 157-170. 10.1007/s10709-013-9714-9

cited authors

  • Fierst, JL

authors

abstract

  • Environmental patterns of directional, stabilizing and fluctuating selection can influence the evolution of system-level properties like evolvability and mutational robustness. Intersexual selection produces strong phenotypic selection and these dynamics may also affect the response to mutation and the potential for future adaptation. In order to to assess the influence of mating preferences on these evolutionary properties, I modeled a male trait and female preference determined by separate gene regulatory networks. I studied three sexual selection scenarios: sexual conflict, a Gaussian model of the Fisher process described in Lande (in Proc Natl Acad Sci 78(6):3721-3725, 1981) and a good genes model in which the male trait signalled his mutational condition. I measured the effects these mating preferences had on the potential for traits and preferences to evolve towards new states, and mutational robustness of both the phenotype and the individual's overall viability. All types of sexual selection increased male phenotypic robustness relative to a randomly mating population. The Fisher model also reduced male evolvability and mutational robustness for viability. Under good genes sexual selection, males evolved an increased mutational robustness for viability. Females choosing their mates is a scenario that is sufficient to create selective forces that impact genetic evolution and shape the evolutionary response to mutation and environmental selection. These dynamics will inevitably develop in any population where sexual selection is operating, and affect the potential for future adaptation. © 2013 Springer Science+Business Media Dordrecht.

publication date

  • June 1, 2013

published in

Digital Object Identifier (DOI)

start page

  • 157

end page

  • 170

volume

  • 141

issue

  • 4-6