Institute of Forensic Medicine, West China School of Basic Science and Forensic Medicine, Sichuan University, Chengdu 610041, China.
Institute of Forensic Medicine, West China School of Basic Science and Forensic Medicine, Sichuan University, Chengdu 610041, China; Department of Anthropology and Ethnology, Institute of Anthropology, National Institute for Data Science in Health and Medicine, and School of Life Sciences, Xiamen University, Xiamen 361005, China.
Forensic Sci Int Genet. 2021 Sep;54:102565. doi: 10.1016/j.fsigen.2021.102565. Epub 2021 Jul 20.
The Mongolian people, one of the Mongolic-speaking populations, are native to the Mongolian Plateau in North China and southern Siberia. Many ancient DNA studies recently reported extensive population transformations during the Paleolithic to historic periods in this region, while little is known about the paternal genetic legacy of modern geographically different Mongolians. Here, we genotyped 215 Y-chromosomal single nucleotide polymorphisms (Y-SNPs) and 37 Y-chromosomal short tandem repeats (Y-STRs) among 679 Mongolian individuals from Hohhot, Hulunbuir, and Ordos in North China using the AGCU Y37 kit and our developed eight Y-SNP SNaPshot panels (including two panels first reported herein). The C-M130 Y-SNP SNaPshot panel defines 28 subhaplogroups, and the N/O/Q complementary Y-SNP SNaPshot panel defines 30 subhaplogroups of N1b-F2930, N1a1a1a1a3-B197, Q-M242, and O2a2b1a1a1a4a-CTS4658, which improved the resolution our developed Y-SNP SNaPshot panel set and could be applied for dissecting the finer-scale paternal lineages of Mongolic speakers. We found a strong association between Mongolian-prevailing haplogroups and some observed microvariants among the newly generated Y-STR haplotype data, suggesting the possibility of haplogroup prediction based on the distribution of Y-STR haplotypes. We identified three main ancestral sources of the observed Mongolian-dominant haplogroups, including the local lineage of C2*-M217 and incoming lineages from other regions of southern East Asia (O2*-M122, O1b*-P31, and N1*-CTS3750) and western Eurasia (R1*-M173). We also observed DE-M145, D1*-M174, C1*-F3393, G*-M201, I-M170, J*-M304, L-M20, O1a*-M119, and Q*-M242 at relatively low frequencies (< 5.00%), suggesting a complex admixture history between Mongolians and other incoming Eurasians from surrounding regions. Genetic clustering analyses indicated that the studied Mongolians showed close genetic affinities with other Altaic-speaking populations and Sinitic-speaking Hui people. The Y-SNP haplotype/haplogroup-based genetic legacy not only revealed that the stratification among geographically/linguistically/ethnically different Chinese populations was highly consistent with the geographical division and language classification, but also demonstrated that patrilineal genetic materials could provide fine-scale genetic structures among geographically different Mongolian people, suggesting that our developed high-resolution Y-SNP SNaPshot panels have the potential for forensic pedigree searches and biogeographical ancestry inference.
蒙古族是蒙古语族的一员,原产于中国北方的蒙古高原和西伯利亚南部。最近的许多古 DNA 研究报告称,该地区在旧石器时代到历史时期经历了广泛的人口转型,而对于现代地理上不同的蒙古人的父系遗传遗产却知之甚少。在这里,我们使用 AGCU Y37 试剂盒和我们开发的八个 Y 染色体单核苷酸多态性(Y-SNP)SNaPshot 面板(包括本文首次报道的两个面板),对来自中国北方呼和浩特、呼伦贝尔和鄂尔多斯的 679 名蒙古人进行了 215 个 Y 染色体单核苷酸多态性(Y-SNP)和 37 个 Y 染色体短串联重复(Y-STR)的基因分型。C-M130 Y-SNP SNaPshot 面板定义了 28 个子单倍群,N/O/Q 互补 Y-SNP SNaPshot 面板定义了 N1b-F2930、N1a1a1a1a3-B197、Q-M242 和 O2a2b1a1a1a4a-CTS4658 的 30 个子单倍群,这提高了我们开发的 Y-SNP SNaPshot 面板的分辨率,并可用于解析蒙古语使用者更精细的父系谱系。我们发现蒙古语占主导地位的单倍群与新生成的 Y-STR 单倍型数据中的一些观察到的微变异之间存在很强的关联,这表明基于 Y-STR 单倍型的分布进行单倍群预测是可能的。我们确定了观察到的蒙古语主导单倍群的三个主要祖先来源,包括当地的 C2*-M217 谱系和来自东亚其他地区(O2*-M122、O1b*-P31 和 N1*-CTS3750)和欧亚大陆西部(R1*-M173)的传入谱系。我们还观察到 DE-M145、D1*-M174、C1*-F3393、G*-M201、I-M170、J*-M304、L-M20、O1a*-M119 和 Q*-M242 的频率相对较低(<5.00%),这表明蒙古人与来自周边地区的其他欧亚外来人口之间存在复杂的混合历史。遗传聚类分析表明,所研究的蒙古人与其 Altaic 语系和 Sinitic 语系的回族人群具有密切的遗传亲缘关系。基于 Y-SNP 单倍型/单倍群的遗传遗产不仅表明,地理上/语言上/民族上不同的中国人群之间的分层与地理划分和语言分类高度一致,而且还表明父系遗传物质可以提供地理上不同的蒙古人群之间的精细遗传结构,这表明我们开发的高分辨率 Y-SNP SNaPshot 面板具有在法医学系谱搜索和生物地理祖先推断方面的潜力。
