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Genomics of adaptive divergence with chromosome‐scale heterogeneity in crossover rate
Authors:Daniel Berner  Marius Roesti
Affiliation:1. Zoological Institute, University of Basel, Basel, Switzerland;2. Department of Zoology, University of British Columbia, Vancouver, BC, Canada
Abstract:Genetic differentiation between divergent populations is often greater in chromosome centres than peripheries. Commonly overlooked, this broadscale differentiation pattern is sometimes ascribed to heterogeneity in crossover rate and hence linked selection within chromosomes, but the underlying mechanisms remain incompletely understood. A literature survey across 46 organisms reveals that most eukaryotes indeed exhibit a reduced crossover rate in chromosome centres relative to the peripheries. Using simulations of populations diverging into ecologically different habitats through sorting of standing genetic variation, we demonstrate that such chromosome‐scale heterogeneity in crossover rate, combined with polygenic divergent selection, causes stronger hitchhiking and especially barriers to gene flow across chromosome centres. Without requiring selection on new mutations, this rapidly leads to elevated population differentiation in the low‐crossover centres relative to the high‐crossover peripheries of chromosomes (“Chromosome Centre‐Biased Differentiation”, CCBD). Using simulated and empirical data, we then show that strong CCBD between populations can provide evidence of polygenic adaptive divergence with a phase of gene flow. We further demonstrate that chromosome‐scale heterogeneity in crossover rate impacts analyses beyond that of population differentiation, including the inference of phylogenies and parallel adaptive evolution among populations, the detection of genetic loci under selection, and the interpretation of the strength of selection on genomic regions. Overall, our results call for a greater appreciation of chromosome‐scale heterogeneity in crossover rate in evolutionary genomics.
Keywords:barrier to gene flow  hitchhiking  linked selection  population differentiation  recombination  standing genetic variation
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