多种鼠类啮齿动物精子形态高度不同的跨物种雄性生殖的分子进化。

Emily E K Kopania, Gregg W C Thomas, Carl R Hutter, Sebastian M E Mortimer, Colin M Callahan, Emily Roycroft, Anang S Achmadi, William G Breed, Nathan L Clark, Jacob A Esselstyn, Kevin C Rowe, Jeffrey M Good
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引用次数: 0

摘要

精子竞争可推动雄性生殖特征的快速进化,但精子竞争强度的变化如何影响不同支系的表型和分子多样性,目前仍不清楚。旧世界小鼠和大鼠(鼠亚科)是一种快速辐射动物,在精子形态和产生方面表现出惊人的多样性。我们结合表型和序列数据,建立了 78 个鼠类物种的生殖性状和基因进化模型。我们发现了几种睾丸相对质量较小的变化,这种性状反映了精子竞争的减少。一些精子性状与相对睾丸质量相关,这表明交配系统的进化可能会选择与精子竞争能力相关的趋同性状。精子发生蛋白的分子进化速率也与相对睾丸质量相关,但其方向出乎意料。我们预测精子竞争会导致相对睾丸质量大的物种之间的快速分化,但却发现许多精子发生基因在相对睾丸质量较小的物种中进化得更快,这是由于放松了净化选择。虽然一些生殖基因是在正选择下进化的,但在睾丸较小的物种中,松弛选择在快速进化中发挥了更大的作用。我们的研究结果表明,性选择可以施加强大的净化选择,从而影响雄性生殖的进化。
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Sperm competition intensity shapes divergence in both sperm morphology and reproductive genes across murine rodents.

It remains unclear how variation in the intensity of sperm competition shapes phenotypic and molecular evolution across clades. Mice and rats in the subfamily Murinae are a rapid radiation exhibiting incredible diversity in sperm morphology and production. We combined phenotypic and genomic data to perform phylogenetic comparisons of male reproductive traits and genes across 78 murine species. We identified several shifts towards smaller relative testes mass, presumably reflecting reduced sperm competition. Several sperm traits were associated with relative testes mass, suggesting that mating system evolution selects for convergent suites of traits related to sperm competitive ability. We predicted that sperm competition would also drive more rapid molecular divergence in species with large testes. Contrary to this, we found that many spermatogenesis genes evolved more rapidly in species with smaller relative testes mass due to relaxed purifying selection. While some reproductive genes evolved rapidly under recurrent positive selection, relaxed selection played a greater role in underlying rapid evolution in small testes species. Our work demonstrates that postcopulatory sexual selection can impose strong purifying selection shaping the evolution of male reproduction, and that broad patterns of molecular evolution may help identify genes that contribute to male fertility.

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