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自然选择塑造了人类线粒体DNA（mtDNA）的区域变异。

Natural selection shaped regional mtDNA variation in humans.

作者信息

Mishmar Dan, Ruiz-Pesini Eduardo, Golik Pawel, Macaulay Vincent, Clark Andrew G, Hosseini Seyed, Brandon Martin, Easley Kirk, Chen Estella, Brown Michael D, Sukernik Rem I, Olckers Antonel, Wallace Douglas C

机构信息

Center for Molecular and Mitochondrial Medicine and Genetics, University of California, Irvine, 92697-3940, USA.

出版信息

Proc Natl Acad Sci U S A. 2003 Jan 7;100(1):171-6. doi: 10.1073/pnas.0136972100. Epub 2002 Dec 30.

DOI:10.1073/pnas.0136972100

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC140917/

Abstract

Human mtDNA shows striking regional variation, traditionally attributed to genetic drift. However, it is not easy to account for the fact that only two mtDNA lineages (M and N) left Africa to colonize Eurasia and that lineages A, C, D, and G show a 5-fold enrichment from central Asia to Siberia. As an alternative to drift, natural selection might have enriched for certain mtDNA lineages as people migrated north into colder climates. To test this hypothesis we analyzed 104 complete mtDNA sequences from all global regions and lineages. African mtDNA variation did not significantly deviate from the standard neutral model, but European, Asian, and Siberian plus Native American variations did. Analysis of amino acid substitution mutations (nonsynonymous, Ka) versus neutral mutations (synonymous, Ks) (kaks) for all 13 mtDNA protein-coding genes revealed that the ATP6 gene had the highest amino acid sequence variation of any human mtDNA gene, even though ATP6 is one of the more conserved mtDNA proteins. Comparison of the kaks ratios for each mtDNA gene from the tropical, temperate, and arctic zones revealed that ATP6 was highly variable in the mtDNAs from the arctic zone, cytochrome b was particularly variable in the temperate zone, and cytochrome oxidase I was notably more variable in the tropics. Moreover, multiple amino acid changes found in ATP6, cytochrome b, and cytochrome oxidase I appeared to be functionally significant. From these analyses we conclude that selection may have played a role in shaping human regional mtDNA variation and that one of the selective influences was climate.

摘要

人类线粒体DNA（mtDNA）呈现出显著的区域差异，传统上认为这是由遗传漂变造成的。然而，要解释为何只有两个mtDNA谱系（M和N）离开非洲去殖民欧亚大陆，以及为何谱系A、C、D和G从中亚到西伯利亚呈现出5倍的富集，并非易事。作为漂变的一种替代解释，随着人们向北迁移到更寒冷的气候中，自然选择可能使某些mtDNA谱系得到了富集。为了验证这一假设，我们分析了来自全球所有区域和谱系的104个完整的mtDNA序列。非洲mtDNA的变异与标准中性模型没有显著偏差，但欧洲、亚洲以及西伯利亚加上美洲原住民的变异则有偏差。对所有13个mtDNA蛋白质编码基因的氨基酸替换突变（非同义突变，Ka）与中性突变（同义突变，Ks）（Ka/Ks）进行分析后发现，ATP6基因在所有人类mtDNA基因中具有最高的氨基酸序列变异，尽管ATP6是较为保守的mtDNA蛋白质之一。比较热带、温带和北极地区每个mtDNA基因的Ka/Ks比率发现，ATP6在北极地区的mtDNA中高度可变，细胞色素b在温带地区特别可变，而细胞色素氧化酶I在热带地区的变异性明显更高。此外，在ATP6、细胞色素b和细胞色素氧化酶I中发现的多个氨基酸变化似乎具有功能意义。从这些分析中我们得出结论，选择可能在塑造人类区域mtDNA变异中发挥了作用，其中一种选择影响因素是气候。