海洋岛屿上的重复进化:比较基因组学揭示了鸟类的物种特异性过程。

IF 2.3 Q2 ECOLOGY
María Recuerda, Julio César Hernández Montoya, Guillermo Blanco, Borja Milá
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引用次数: 0

摘要

了解遗传漂变、自然选择、基因流和人口历史在推动海岛种群表型和基因组分化方面的相互作用,有助于我们深入了解物种分化过程。不同的海岛类群在殖民到大洋岛屿时受到了相似的选择压力,比较不同类群的模式为研究重复进化和识别其基因组分化景观中的共同模式提供了机会。我们选择了四种既有大陆种群又有岛屿种群的雀形目鸟类(Common Chaffinch Fringilla coelebs/canariensis、Red-billed Chough Pyrrhocorax pyrrhocorax、House Finch Haemorhous mexicanus 和 Dark-eyed/island Junco Junco hyemalis/insularis)。岛屿种群与大陆种群之间的体型变化符合岛屿规则。对于每个物种,我们对大陆和岛屿个体的全基因组进行了测序,以推断它们的人口历史,描述它们的基因组分化特征,并确定形成它们的因素。我们估算了相对(Fst)和绝对(dxy)分化、核苷酸多样性(π)、Tajima's D、基因密度和重组率。我们还沿基因组搜索了选择性横扫和染色体倒位。所有物种在岛屿殖民化后的有效种群规模(Ne)都明显缩小。我们发现,相对于基因组平均值,所有四个物种的基因组分化区域形态各异,这表明选择在岛屿-大陆分化中的作用,但这些区域的位置缺乏一致性,这表明每个物种在岛屿环境中的进化方式不同。我们的研究结果表明,尽管鸟类基因组的结构高度保守,所涉及的选择性因素也相似,但每个物种在岛屿殖民时分化所涉及的基因组机制(如染色体倒位)和历史因素(如经常性选择)却各不相同。这些差异很可能是受遗传漂移、适性性状的多基因性以及特定情况下的选择压力等因素的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Repeated evolution on oceanic islands: comparative genomics reveals species-specific processes in birds.

Understanding the interplay between genetic drift, natural selection, gene flow, and demographic history in driving phenotypic and genomic differentiation of insular populations can help us gain insight into the speciation process. Comparing patterns across different insular taxa subjected to similar selective pressures upon colonizing oceanic islands provides the opportunity to study repeated evolution and identify shared patterns in their genomic landscapes of differentiation. We selected four species of passerine birds (Common Chaffinch Fringilla coelebs/canariensis, Red-billed Chough Pyrrhocorax pyrrhocorax, House Finch  Haemorhous mexicanus and Dark-eyed/island Junco Junco hyemalis/insularis) that have both mainland and insular populations. Changes in body size between island and mainland populations were consistent with the island rule. For each species, we sequenced whole genomes from mainland and insular individuals to infer their demographic history, characterize their genomic differentiation, and identify the factors shaping them. We estimated the relative (Fst) and absolute (dxy) differentiation, nucleotide diversity (π), Tajima's D, gene density and recombination rate. We also searched for selective sweeps and chromosomal inversions along the genome. All species shared a marked reduction in effective population size (Ne) upon island colonization. We found diverse patterns of differentiated genomic regions relative to the genome average in all four species, suggesting the role of selection in island-mainland differentiation, yet the lack of congruence in the location of these regions indicates that each species evolved differently in insular environments. Our results suggest that the genomic mechanisms involved in the divergence upon island colonization-such as chromosomal inversions, and historical factors like recurrent selection-differ in each species, despite the highly conserved structure of avian genomes and the similar selective factors involved. These differences are likely influenced by factors such as genetic drift, the polygenic nature of fitness traits and the action of case-specific selective pressures.

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