生物钟基因的渐变群：使昼夜节律与环境精确同步

Clines in clock genes: fine-tuning circadian rhythms to the environment.

作者信息

Kyriacou Charalambos P, Peixoto Alexandre A, Sandrelli Federica, Costa Rodolfo, Tauber Eran

机构信息

Department of Genetics, University of Leicester, Leicester, UK.

出版信息

Trends Genet. 2008 Mar;24(3):124-32. doi: 10.1016/j.tig.2007.12.003. Epub 2008 Feb 19.

DOI:10.1016/j.tig.2007.12.003

PMID:18243399

Abstract

The dissection of the circadian clock into its molecular components represents the most striking and well-studied example of a gene regulatory network underlying a complex behavioural trait. By contrast, the evolutionary analysis of the clock has developed more slowly. Here we review studies that have surveyed intraspecific clock gene variation over large geographical areas and have discovered latitudinal clines in gene frequencies. Such spatial patterns traditionally suggest that natural selection shapes genetic variation, but it is equally possible that population history, or a mixture of demography and selection, could contribute to the clines. We discuss how population genetics, together with functional assays, can illuminate these possible cases of natural selection in Drosophila clock genes.

摘要

将生物钟解析为其分子组成部分，是复杂行为特征背后基因调控网络中最显著且研究充分的例子。相比之下，生物钟的进化分析发展较为缓慢。在此，我们回顾了一些研究，这些研究在大地理区域内调查了种内生物钟基因变异，并发现了基因频率的纬度渐变群。传统上，这种空间模式表明自然选择塑造了遗传变异，但种群历史，或人口统计学与选择的混合因素，同样有可能导致这种渐变群的形成。我们讨论了群体遗传学与功能分析如何能够阐明果蝇生物钟基因中这些可能的自然选择情况。

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生物钟基因的渐变群：使昼夜节律与环境精确同步

Clines in clock genes: fine-tuning circadian rhythms to the environment.

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