Mate choice enhances post-zygotic barriers to gene flow via ancestry bundling

Author:

Muralidhar PavitraORCID,Coop GrahamORCID,Veller CarlORCID

Abstract

Hybridization and subsequent genetic introgression are now known to be common features of the histories of many species, including our own. Following hybridization, selection often purges introgressed DNA genome-wide. While mate choice can prevent hybridization in the first place, it is also known to play an important role in post-zygotic selection against hybrids, and thus the purging of introgressed DNA. However, this role is usually thought of as a direct one: a mating preference for conspecifics reduces the sexual fitness of hybrids, reducing the transmission of introgressed ancestry. Here, we explore a second, indirect role of mate choice as a barrier to gene flow. Under assortative mating, parents covary in their ancestry, causing ancestry to be “bundled” in their offspring and later generations. This bundling effect increases ancestry variance in the population, enhancing the efficiency with which post-zygotic selection purges introgressed DNA. Using whole-genome simulations, we show that the bundling effect can comprise a substantial portion of mate choice’s overall effect as a post-zygotic barrier to gene flow, and that it is driven by ancestry covariances between and within maternally and paternally inherited genomes. We derive a simple method for estimating the impact of the bundling effect from standard measures of assortative mating. Applying this method to data from a diverse set of hybrid zones, we find that the bundling effect increases the purging of introgressed DNA by between 1.2-fold (in a baboon system with weak assortative mating) and 14-fold (in a swordtail system with strong assortative mating). Thus, the bundling effect of mate choice contributes substantially to the genetic isolation of species.

Publisher

Cold Spring Harbor Laboratory

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