历史上的基因渐渗驱动了两种远洋鲨鱼之间广泛的线粒体混合。

Historical introgression drives pervasive mitochondrial admixture between two species of pelagic sharks.

作者信息

Corrigan Shannon, Maisano Delser Pierpaolo, Eddy Corey, Duffy Clinton, Yang Lei, Li Chenhong, Bazinet Adam L, Mona Stefano, Naylor Gavin J P

机构信息

Department of Biology, College of Charleston, Charleston SC, USA.

Institut de Systématique, Évolution, Biodiversité, ISYEB - UMR 7205 - CNRS, MNHN, UPMC, EPHE, Ecole Pratique des Hautes Etudes, Paris, France; EPHE, PSL Research University, Paris, France; Department of Zoology, University of Cambridge, Cambridge, UK(1).

出版信息

Mol Phylogenet Evol. 2017 May;110:122-126. doi: 10.1016/j.ympev.2017.03.011. Epub 2017 Mar 10.

DOI:10.1016/j.ympev.2017.03.011

PMID:28286223

Abstract

We use a genomic sampling of both nuclear and mitochondrial DNA markers to examine a pattern of genetic admixture between Carcharhinus galapagensis (Galapagos sharks) and Carcharhinus obscurus (dusky sharks), two well-known and closely related sharks that have been recognized as valid species for more than 100years. We describe widespread mitochondrial-nuclear discordance in which these species are readily distinguishable based on 2152 nuclear single nucleotide polymorphisms from 910 independent autosomal regions, but show pervasive mitochondrial admixture. The species are superficially morphologically cryptic as adults but show marked differences in internal anatomy, as well as niche separation. There was no indication of ongoing hybridization between the species. We conclude that the observed mitochondrial-nuclear discordance is likely due to historical mitochondrial introgression following a range expansion.

摘要

我们使用核DNA和线粒体DNA标记的基因组采样，来研究加拉帕戈斯真鲨（Carcharhinus galapagensis）和铅灰真鲨（Carcharhinus obscurus）之间的遗传混合模式。这两种著名且亲缘关系密切的鲨鱼已被认定为有效物种超过100年。我们描述了广泛存在的线粒体-核不一致现象，即基于来自910个独立常染色体区域的2152个核单核苷酸多态性，这些物种很容易区分，但线粒体显示出普遍的混合现象。这些物种成年后在外观形态上难以区分，但在内部解剖结构以及生态位分离方面存在显著差异。没有迹象表明这两个物种之间正在进行杂交。我们得出结论，观察到的线粒体-核不一致现象可能是由于范围扩张后历史上的线粒体基因渗入所致。

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历史上的基因渐渗驱动了两种远洋鲨鱼之间广泛的线粒体混合。

Historical introgression drives pervasive mitochondrial admixture between two species of pelagic sharks.

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