The genomic basis of adaptive evolution in threespine sticklebacks |
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| Authors: | Jones Felicity C,Grabherr Manfred G,Chan Yingguang Frank,Russell Pamela,Mauceli Evan,Johnson Jeremy,Swofford Ross,Pirun Mono,Zody Michael C,White Simon,Birney Ewan,Searle Stephen,Schmutz Jeremy,Grimwood Jane,Dickson Mark C,Myers Richard M,Miller Craig T,Summers Brian R,Knecht Anne K,Brady Shannon D,Zhang Haili,Pollen Alex A,Howes Timothy,Amemiya Chris Broad Institute Genome Sequencing Platform & Whole Genome Assembly Team,Baldwin Jen,Bloom Toby,Jaffe David B,Nicol Robert,Wilkinson Jane,Lander Eric S,Di Palma Federica,Lindblad-Toh Kerstin,Kingsley David M |
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| Affiliation: | Department of Developmental Biology, Beckman Center B300, Stanford University School of Medicine, Stanford California 94305, USA. |
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| Abstract: | Marine stickleback fish have colonized and adapted to thousands of streams and lakes formed since the last ice age, providing an exceptional opportunity to characterize genomic mechanisms underlying repeated ecological adaptation in nature. Here we develop a high-quality reference genome assembly for threespine sticklebacks. By sequencing the genomes of twenty additional individuals from a global set of marine and freshwater populations, we identify a genome-wide set of loci that are consistently associated with marine-freshwater divergence. Our results indicate that reuse of globally shared standing genetic variation, including chromosomal inversions, has an important role in repeated evolution of distinct marine and freshwater sticklebacks, and in the maintenance of divergent ecotypes during early stages of reproductive isolation. Both coding and regulatory changes occur in the set of loci underlying marine-freshwater evolution, but regulatory changes appear to predominate in this well known example of repeated adaptive evolution in nature. |
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