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岛屿定居银眼鹎在物种形成连续统中的分化基因组格局()

The Genomic Landscape of Divergence Across the Speciation Continuum in Island-Colonising Silvereyes ().

作者信息

Sendell-Price Ashley T, Ruegg Kristen C, Anderson Eric C, Quilodrán Claudio S, Van Doren Benjamin M, Underwood Vinh L, Coulson Tim, Clegg Sonya M

机构信息

Department of Zoology, University of Oxford, United Kingdom

Department of Zoology, University of Oxford, United Kingdom.

出版信息

G3 (Bethesda). 2020 Sep 2;10(9):3147-3163. doi: 10.1534/g3.120.401352.

DOI:10.1534/g3.120.401352
PMID:32660974
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7466963/
Abstract

Inferring the evolutionary dynamics at play during the process of speciation by analyzing the genomic landscape of divergence is a major pursuit in population genomics. However, empirical assessments of genomic landscapes under varying evolutionary scenarios that are known are few, thereby limiting our ability to achieve this goal. Here we combine RAD-sequencing and individual-based simulations to evaluate the genomic landscape of divergence in the silvereye (). Using pairwise comparisons that differ in divergence timeframe and the presence or absence of gene flow, we document how genomic patterns accumulate along the speciation continuum. In contrast to previous predictions, our results provide limited support for the idea that divergence accumulates around loci under divergent selection or that genomic islands widen with time. While a small number of genomic islands were found in populations diverging with and without gene flow, in few cases were SNPs putatively under selection tightly associated with genomic islands. The transition from localized to genome-wide levels of divergence was captured using individual-based simulations that considered only neutral processes. Our results challenge the ubiquity of existing verbal models that explain the accumulation of genomic differences across the speciation continuum and instead support the idea that divergence both within and outside of genomic islands is important during the speciation process.

摘要

通过分析分化的基因组格局来推断物种形成过程中起作用的进化动态,是群体基因组学的一项主要研究内容。然而,针对已知的不同进化场景下基因组格局的实证评估却很少,从而限制了我们实现这一目标的能力。在这里,我们结合RAD测序和基于个体的模拟,来评估银眼鸟( )的分化基因组格局。通过使用在分化时间框架以及基因流存在与否方面存在差异的成对比较,我们记录了基因组模式是如何沿着物种形成连续统积累的。与之前的预测相反,我们的结果对以下观点的支持有限:即分化在分歧选择下的基因座周围积累,或者基因组岛随时间变宽。虽然在有基因流和没有基因流的分化种群中都发现了少数基因组岛,但在少数情况下,假定受到选择的单核苷酸多态性(SNP)与基因组岛紧密相关。使用仅考虑中性过程的基于个体的模拟,捕捉到了从局部到全基因组水平的分化转变。我们的结果挑战了解释整个物种形成连续统中基因组差异积累的现有文字模型的普遍性,相反,支持了基因组岛内外的分化在物种形成过程中都很重要这一观点。

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