性状协同进化中的自然选择检测。

Daohan Jiang, Jianzhi Zhang
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引用次数: 0

摘要

没有一种表型性状能独立于所有其他性状而进化,但性状-性状共同进化的原因尚不清楚。虽然共同进化可能仅仅是由同时影响相关性状的多效性突变引起的,但它也可能是由倾向于某些性状关系的多元自然选择引起的。为了获得性状-性状协同进化的一般机制,我们研究了16株酿酒酵母的220个细胞形态特征的进化,以及110种果蝇的24个翅膀形态特征的进化,以及这些特征在基因缺失或突变积累系(又称突变体)之间的变化。对于许多性状对,进化谱系之间的表型相关性与突变体之间的表型相关性显著不同。具体来说,我们发现了数百个特征之间的进化相关性相对于突变相关性被加强或逆转的案例,根据我们的群体遗传模拟,这可能是由多元选择引起的。此外,我们检测了酵母性状分析中增强模块化的选择。总之,这些结果表明性状-性状共同进化是由自然选择形成的,并表明突变的多效性结构不是最优的。因为这里分析的形态特征主要是因为它们的可测量性而被选择的,因此在自然选择方面不会有偏见,所以我们的结论可能是一般性的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Detecting natural selection in trait-trait coevolution.

Detecting natural selection in trait-trait coevolution.

Detecting natural selection in trait-trait coevolution.

Detecting natural selection in trait-trait coevolution.

No phenotypic trait evolves independently of all other traits, but the cause of trait-trait coevolution is poorly understood. While the coevolution could arise simply from pleiotropic mutations that simultaneously affect the traits concerned, it could also result from multivariate natural selection favoring certain trait relationships. To gain a general mechanistic understanding of trait-trait coevolution, we examine the evolution of 220 cell morphology traits across 16 natural strains of the yeast Saccharomyces cerevisiae and the evolution of 24 wing morphology traits across 110 fly species of the family Drosophilidae, along with the variations of these traits among gene deletion or mutation accumulation lines (a.k.a. mutants). For numerous trait pairs, the phenotypic correlation among evolutionary lineages differs significantly from that among mutants. Specifically, we find hundreds of cases where the evolutionary correlation between traits is strengthened or reversed relative to the mutational correlation, which, according to our population genetic simulation, is likely caused by multivariate selection. Furthermore, we detect selection for enhanced modularity of the yeast traits analyzed. Together, these results demonstrate that trait-trait coevolution is shaped by natural selection and suggest that the pleiotropic structure of mutation is not optimal. Because the morphological traits analyzed here are chosen largely because of their measurability and thereby are not expected to be biased with regard to natural selection, our conclusion is likely general.

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