两个太平洋岛屿鸟类物种之间最近的二次接触、全基因组掺杂和新性别染色体的非对称导入。

IF 4 2区 生物学 Q1 GENETICS & HEREDITY PLoS Genetics Pub Date : 2024-08-22 eCollection Date: 2024-08-01 DOI:10.1371/journal.pgen.1011360
Elsie H Shogren, Jason M Sardell, Christina A Muirhead, Emiliano Martí, Elizabeth A Cooper, Robert G Moyle, Daven C Presgraves, J Albert C Uy
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引用次数: 0

摘要

亲缘关系密切的类群之间的二次接触是物种演化的 "关键时刻"--这是检验异地演化的生殖隔离是否有效的机会,也是识别将同域物种分开的遗传、行为和/或生态障碍的机会。众所周知,性染色体会迅速积累物种间的差异,这种效应对于从常染色体遗传过渡到性别特异性遗传的新性染色体来说可能会加剧。在这里,我们报告了在所罗门群岛,两种亲缘关系很近的食蜜鸟科鸟类--Myzomela cardinalis 和 Myzomela tristrami- 带有新性染色体,并且在经过约 1.1 年的地理隔离之后,最近又有了二次接触。这两个物种的杂交种在大约 100 年前首次被观察到。为了确定杂交的遗传后果,我们对在异地交配和同地交配中采样的个体进行了种群基因组分析,以确定接触区基因流动的特征。利用对多样性、分化和分歧的全基因组估算,我们发现整个基因组的引入程度和方向差异巨大。对于同栖鸟类来说,常染色体的引入是双向的,两个物种的表型杂交种和表型亲本都显示出混血的祖先。然而,在基因组的其他区域,情况却有所不同。Z/neo-Z连锁序列的引入是有限的,而W/neo-W区域和线粒体序列(mtDNA)的引入则是高度不对称的,只从入侵的M. cardinalis转移到常驻的M.因此,这些物种之间最近的杂交使得某些基因组区域的基因流动成为可能,但混交、非对称择偶和/或自然选择的相互作用导致基因组性连锁区域基因流动的数量和方向发生了变化。
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Recent secondary contact, genome-wide admixture, and asymmetric introgression of neo-sex chromosomes between two Pacific island bird species.

Secondary contact between closely related taxa represents a "moment of truth" for speciation-an opportunity to test the efficacy of reproductive isolation that evolved in allopatry and to identify the genetic, behavioral, and/or ecological barriers that separate species in sympatry. Sex chromosomes are known to rapidly accumulate differences between species, an effect that may be exacerbated for neo-sex chromosomes that are transitioning from autosomal to sex-specific inheritance. Here we report that, in the Solomon Islands, two closely related bird species in the honeyeater family-Myzomela cardinalis and Myzomela tristrami-carry neo-sex chromosomes and have come into recent secondary contact after ~1.1 my of geographic isolation. Hybrids of the two species were first observed in sympatry ~100 years ago. To determine the genetic consequences of hybridization, we use population genomic analyses of individuals sampled in allopatry and in sympatry to characterize gene flow in the contact zone. Using genome-wide estimates of diversity, differentiation, and divergence, we find that the degree and direction of introgression varies dramatically across the genome. For sympatric birds, autosomal introgression is bidirectional, with phenotypic hybrids and phenotypic parentals of both species showing admixed ancestry. In other regions of the genome, however, the story is different. While introgression on the Z/neo-Z-linked sequence is limited, introgression of W/neo-W regions and mitochondrial sequence (mtDNA) is highly asymmetric, moving only from the invading M. cardinalis to the resident M. tristrami. The recent hybridization between these species has thus enabled gene flow in some genomic regions but the interaction of admixture, asymmetric mate choice, and/or natural selection has led to the variation in the amount and direction of gene flow at sex-linked regions of the genome.

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PLoS Genetics
PLoS Genetics GENETICS & HEREDITY-
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期刊介绍: PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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