Coupling of twelve putative chromosomal inversions maintains a strong barrier to gene flow between snail ecotypes

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Alan Le Moan, Sean Stankowski, M. Rafajlović, Olga Ortega-Martinez, Rui Faria, Roger K Butlin, Kerstin Johannesson
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Abstract

Chromosomal rearrangements can lead to the coupling of reproductive barriers, but whether and how they contribute to the completion of speciation remains unclear. Marine snails of the genus Littorina repeatedly form hybrid zones between populations segregating for multiple inversion arrangements, providing opportunities to study their barrier effects. Here, we analyzed 2 adjacent transects across hybrid zones between 2 ecotypes of Littorina fabalis (“large” and “dwarf”) adapted to different wave exposure conditions on a Swedish island. Applying whole-genome sequencing, we found 12 putative inversions on 9 of 17 chromosomes. Nine of the putative inversions reached near differential fixation between the 2 ecotypes, and all were in strong linkage disequilibrium. These inversions cover 20% of the genome and carry 93% of divergent single nucleotide polymorphisms (SNPs). Bimodal hybrid zones in both transects indicated that the 2 ecotypes of Littorina fabalis maintain their genetic and phenotypic integrity following contact. The bimodality reflects the strong coupling between inversion clines and the extension of the barrier effect across the whole genome. Demographic inference suggests that coupling arose during a period of allopatry and has been maintained for > 1,000 generations after secondary contact. Overall, this study shows that the coupling of multiple chromosomal inversions contributes to strong reproductive isolation. Notably, 2 of the putative inversions overlap with inverted genomic regions associated with ecotype differences in a closely related species (Littorina saxatilis), suggesting the same regions, with similar structural variants, repeatedly contribute to ecotype evolution in distinct species.
十二个推定染色体倒位的耦合对蜗牛生态型之间的基因流动构成了强大的障碍
染色体重排可导致生殖障碍的耦合,但染色体重排是否以及如何有助于完成物种分化仍不清楚。海洋蜗牛属(Littorina)屡次在因多种倒位排列而分离的种群之间形成杂交区,这为研究其障碍效应提供了机会。在这里,我们分析了瑞典岛屿上适应不同波浪暴露条件的两种生态型 Littorina fabalis("大 "和 "矮")之间杂交区的两个相邻横断面。通过全基因组测序,我们在 17 条染色体中的 9 条上发现了 12 个推定倒位。其中 9 个假定倒位在 2 个生态型之间达到了接近差异固定的程度,而且所有倒位都处于强连锁不平衡状态。这些倒位占基因组的 20%,携带 93% 的单核苷酸多态性(SNPs)。两个横断面上的双峰杂交区表明,Littorina fabalis 的两个生态型在接触后保持了遗传和表型的完整性。双峰性反映了反转克隆之间的强耦合以及屏障效应在整个基因组中的延伸。人口学推断表明,耦合产生于异源繁殖时期,并在二次接触后维持了 1000 代以上。总之,这项研究表明,多个染色体倒位的耦合导致了强烈的生殖隔离。值得注意的是,其中两个假定倒位与一个近缘物种(Littorina saxatilis)中与生态型差异相关的倒位基因组区域重叠,这表明具有相似结构变异的相同区域在不同物种中反复促成了生态型的进化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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