微卫星多样性支持现代人类起源于非洲的观点。

Minisatellite diversity supports a recent African origin for modern humans.

作者信息

Armour J A, Anttinen T, May C A, Vega E E, Sajantila A, Kidd J R, Kidd K K, Bertranpetit J, Pääbo S, Jeffreys A J

机构信息

Department of Genetics, University of Leicester, UK.

出版信息

Nat Genet. 1996 Jun;13(2):154-60. doi: 10.1038/ng0696-154.

DOI:10.1038/ng0696-154

PMID:8640220

Abstract

In a study of human diversity at a highly variable locus, we have mapped the internal structures of tandem-repetitive alleles from different populations at the minisatellite MS205 (D16S309). The results give an unusually detailed view of the different allelic structures represented on modern human chromosomes, and of the ancestral relationships between them. There was a clear difference in allelic diversity between African and non-African populations. A restricted set of allele families was found in non-African populations, and formed a subset of the much greater diversity seen on African chromosomes. The data strongly support a recent African origin for modern human diversity at this locus.

摘要

在一项针对高度可变基因座上人类多样性的研究中，我们绘制了来自不同人群的微卫星MS205（D16S309）串联重复等位基因的内部结构。研究结果为现代人类染色体上所呈现的不同等位基因结构及其之间的祖先关系提供了异常详细的视角。非洲人群和非非洲人群在等位基因多样性上存在明显差异。在非非洲人群中发现了一组有限的等位基因家族，它们构成了在非洲染色体上所观察到的更为丰富多样性的一个子集。这些数据有力地支持了现代人类在该基因座的多样性起源于近期非洲的观点。

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微卫星多样性支持现代人类起源于非洲的观点。

Minisatellite diversity supports a recent African origin for modern humans.

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