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从基因组数据推断人类的正选择。

Inferring positive selection in humans from genomic data.

作者信息

Wollstein Andreas, Stephan Wolfgang

机构信息

Section of Evolutionary Biology, Department of Biology II, University of Munich, Großhaderner Str. 2, 82152 Planegg-Martinsried, Germany.

出版信息

Investig Genet. 2015 Apr 1;6:5. doi: 10.1186/s13323-015-0023-1. eCollection 2015.

DOI:10.1186/s13323-015-0023-1
PMID:25834723
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4381672/
Abstract

Adaptation can be described as an evolutionary process that leads to an adjustment of the phenotypes of a population to their environment. In the classical view, new mutations can introduce novel phenotypic features into a population that leave footprints in the genome after fixation, such as selective sweeps. Alternatively, existing genetic variants may become beneficial after an environmental change and increase in frequency. Although they may not reach fixation, they may cause a shift of the optimum of a phenotypic trait controlled by multiple loci. With the availability of polymorphism data from various organisms, including humans and chimpanzees, it has become possible to detect molecular evidence of adaptation and to estimate the strength and target of positive selection. In this review, we discuss the two competing models of adaptation and suitable approaches for detecting the footprints of positive selection on the molecular level.

摘要

适应可被描述为一个进化过程,该过程导致种群的表型适应其环境。在传统观点中,新的突变可将新的表型特征引入种群,这些特征在固定后会在基因组中留下印记,例如选择性清除。或者,现有遗传变异在环境变化后可能变得有益并增加频率。尽管它们可能不会达到固定状态,但可能会导致由多个基因座控制的表型性状的最优值发生偏移。随着包括人类和黑猩猩在内的各种生物多态性数据的可得性,检测适应的分子证据并估计正选择的强度和目标已成为可能。在本综述中,我们讨论了两种相互竞争的适应模型以及在分子水平上检测正选择印记的合适方法。

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