Y染色体短串联重复中间变异等位基因DYS392.2、DYS449.2和DYS385.2描绘了人类Y染色体单倍群树中的新系统发育亚结构。
Y-chromosome short tandem repeat intermediate variant alleles DYS392.2, DYS449.2, and DYS385.2 delineate new phylogenetic substructure in human Y-chromosome haplogroup tree.
作者信息
Myres Natalie M, Ritchie Kathleen H, Lin Alice A, Hughes Robert H, Woodward Scott R, Underhill Peter A
机构信息
Sorenson Molecular Genealogy Foundation, Salt Lake City, Utah, USA.
出版信息
Croat Med J. 2009 Jun;50(3):239-49. doi: 10.3325/cmj.2009.50.239.
AIM
To determine the human Y-chromosome haplogroup backgrounds of intermediate-sized variant alleles displayed by short tandem repeat (STR) loci DYS392, DYS449, and DYS385, and to evaluate the potential of each intermediate variant to elucidate new phylogenetic substructure within the human Y-chromosome haplogroup tree.
METHODS
Molecular characterization of lineages was achieved using a combination of Y-chromosome haplogroup defining binary polymorphisms and up to 37 short tandem repeat loci. DNA sequencing and median-joining network analyses were used to evaluate Y-chromosome lineages displaying intermediate variant alleles.
RESULTS
We show that DYS392.2 occurs on a single haplogroup background, specifically I1*-M253, and likely represents a new phylogenetic subdivision in this European haplogroup. Intermediate variants DYS449.2 and DYS385.2 both occur on multiple haplogroup backgrounds, and when evaluated within specific haplogroup contexts, delineate new phylogenetic substructure, with DYS449.2 being informative within haplogroup A-P97 and DYS385.2 in haplogroups D-M145, E1b1a-M2, and R1b*-M343. Sequence analysis of variant alleles observed within the various haplogroup backgrounds showed that the nature of the intermediate variant differed, confirming the mutations arose independently.
CONCLUSIONS
Y-chromosome short tandem repeat intermediate variant alleles, while relatively rare, typically occur on multiple haplogroup backgrounds. This distribution indicates that such mutations arise at a rate generally intermediate to those of binary markers and STR loci. As a result, intermediate-sized Y-STR variants can reveal phylogenetic substructure within the Y-chromosome phylogeny not currently detected by either binary or Y-STR markers alone, but only when such variants are evaluated within a haplogroup context.
目的
确定短串联重复序列(STR)位点DYS392、DYS449和DYS385显示的中等大小变异等位基因的人类Y染色体单倍群背景,并评估每个中间变异在阐明人类Y染色体单倍群树内新的系统发育亚结构方面的潜力。
方法
使用Y染色体单倍群定义二元多态性和多达37个短串联重复序列位点的组合来实现谱系的分子特征分析。DNA测序和中位连接网络分析用于评估显示中间变异等位基因的Y染色体谱系。
结果
我们发现DYS392.2出现在单一单倍群背景上,具体为I1*-M253,并且可能代表该欧洲单倍群中的一个新的系统发育细分。中间变异DYS449.2和DYS385.2都出现在多个单倍群背景上,并且在特定单倍群背景下进行评估时,描绘了新的系统发育亚结构,其中DYS449.2在A-P97单倍群中具有信息性,DYS385.2在D-M145、E1b1a-M2和R1b*-M343单倍群中具有信息性。在各种单倍群背景中观察到的变异等位基因的序列分析表明,中间变异的性质不同,证实这些突变是独立发生的。
结论
Y染色体短串联重复序列中间变异等位基因虽然相对罕见,但通常出现在多个单倍群背景上。这种分布表明,此类突变的出现速率通常介于二元标记和STR位点之间。因此,中等大小的Y-STR变异可以揭示Y染色体系统发育中目前单独使用二元或Y-STR标记无法检测到的系统发育亚结构,但前提是仅在单倍群背景下评估此类变异时才能做到。
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