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Linked selection shapes the landscape of genomic variation in three oak species

Yi‐Ye Liang, Yong Shi, Shuai Yuan, Biao‐Feng Zhou, Xueyan Chen, Qing‐Qing An, Pär K. Ingvarsson, Christophe Plomion, Baosheng Wang

2021New Phytologist41 citationsDOIOpen Access PDF

Abstract

Summary Natural selection shapes genome‐wide patterns of diversity within species and divergence between species. However, quantifying the efficacy of selection and elucidating the relative importance of different types of selection in shaping genomic variation remain challenging. We sequenced whole genomes of 101 individuals of three closely related oak species to track the divergence history, and to dissect the impacts of selective sweeps and background selection on patterns of genomic variation. We estimated that the three species diverged around the late Neogene and experienced a bottleneck during the Pleistocene. We detected genomic regions with elevated relative differentiation (‘ F ST ‐islands’). Population genetic inferences from the site frequency spectrum and ancestral recombination graph indicated that F ST ‐islands were formed by selective sweeps. We also found extensive positive selection; the fixation of adaptive mutations and reduction neutral diversity around substitutions generated a signature of selective sweeps. Prevalent negative selection and background selection have reduced genetic diversity in both genic and intergenic regions, and contributed substantially to the baseline variation in genetic diversity. Our results demonstrate the importance of linked selection in shaping genomic variation, and illustrate how the extent and strength of different selection models vary across the genome.

Topics & Concepts

BiologyEvolutionary biologyNatural selectionSelection (genetic algorithm)Negative selectionGenetic diversityGenetic variationFixation (population genetics)GenomeBalancing selectionBackground selectionSelective sweepPopulationGeneticsGeneAlleleHaplotypeDemographyArtificial intelligenceSociologyComputer scienceGenetic diversity and population structureGenomics and Phylogenetic StudiesGenetic Mapping and Diversity in Plants and Animals