基于35 Y-STR研究甘肃裕固族的父系多重起源

doi:10.16288/j.yczz.24-136

遗传 ›› 2024, Vol. 46 ›› Issue (12): 1042-1054.doi: 10.16288/j.yczz.24-136

基于35 Y-STR研究甘肃裕固族的父系多重起源

张咸鹏¹(), 于会新¹, 张劼², 贾欣怡², 何宵飞², 朱波峰⁴, 韦兰海¹^,⁵, 姚宏兵²^,³()

1.内蒙古师范大学民族学人类学学院，呼和浩特 010000
2.甘肃政法大学一带一路法医分子人类学研究中心，兰州 730000
3.中国政法大学证据科学研究院，北京 100000
4.南方医科大学法医学学院广州市法医多组学精准鉴定重点实验室，广州 510000
5.复旦大学生命科学学院现代人类学教育部重点实验室，上海 200000

收稿日期:2024-07-26 修回日期:2024-09-16 出版日期:2024-12-20 发布日期:2024-09-23
通讯作者: 姚宏兵，博士(在读)，副研究员、特聘教授，硕士生导师，研究方向：法医遗传学、分子人类学。E-mail: yaohongb@126.com
作者简介:张咸鹏，博士研究生，专业方向：民族学。E-mail: jyzxp521@163.com
基金资助:
内蒙古自治区直属高校基本科研业务费项目(2022JBBJ004);内蒙古师范大学研究生科研创新基金资助项目(CXJJB23005);国家自然科学基金(31760309);教育部人文社科规划基金(18YJAZH116);甘肃省引导科技创新专项(2018ZX03);兰州市人才创新创业项目(2018-RC-113);甘肃省高校产业支撑计划项目(2023CYZC-59)

Multiple ancestral components and complex origins of the Yugur people in Gansu province revealing by 35 Y-STR

Xianpeng Zhang¹(), Huixin Yu¹, Jie Zhang², Xinyi Jia², Xiaofei He², Bofeng Zhu⁴, Lanhai Wei¹^,⁵, Hongbing Yao²^,³()

1. School of Ethnology and Anthropology, Inner Mongolia Normal University, Hohhot 010000, China
2. Belt and Road Research Center for Forensic Molecular Anthropology, Gansu University of Political Science and Law, Lanzhou 730000, China
3. Institute of Evidence Law and Forensic Science, China University of Political Science and Law, Beijing 100000, China
4. Guangzhou Key Laboratory of Forensic Multi-Omics for Precision Identification, School of Forensic Medicine, Southern Medical University, Guangzhou 510000, China
5. MOE Key Laboratory of Contemporary Anthropology, School of Life Sciences, Fudan University, Shanghai 200000, China

Received:2024-07-26 Revised:2024-09-16 Published:2024-12-20 Online:2024-09-23
Supported by:
Fundamental Scientific Research Funds for Directly Affiliated Universities in Inner Mongolia Autonomous Region(2022JBBJ004);Inner Mongolia Normal University Graduate Research Innovation Fund(CXJJB23005);National Natural Science Foundation of China(31760309);Ministry of Education Humanities and Social Sciences Project(18YJAZH116);Gansu Province Guides the Special Project of Scientific and Technological Innovation(2018ZX03);Lanzhou Talent Innovation and Entrepreneurship Project(2018-RC-113);Gansu Provincial University Industry Support Program(2023CYZC-59)

摘要/Abstract

摘要：

裕固族是甘肃省特有少数民族，具有人口少、多语并用和复杂族源等特征，是河西走廊人群的典型代表。关于裕固族的起源、迁徙及形成过程，学界尚存在许多有争议的内容。本研究将从分子人类学的视角，以裕固族的父系遗传特征为依据，结合民族学、历史学和语言学等学科相关内容，进一步研究裕固族的形成过程。本研究使用含35个Y-STR的高分辨率试剂盒对237例甘肃裕固族男性样本进行了检测，并使用Y-STR分析推定了Y-SNP单倍群。本文整合已发布文献中多个群体的父系遗传数据，组成16 Y-STR数据集、25 Y-STR数据集和单倍群频率数据集，使用Network网络图、主成分分析、多维尺度分析、系统发育树和遗传距离等分析方法系统地分析了裕固族人群的父系遗传特征及其与周边人群的遗传关系。结果显示，裕固族的父系遗传组成表现出东西欧亚人群混合的特征，西欧亚谱系占13%；其与地理位置相近的汉族、藏族和蒙古族等人群表现出更近的遗传关系，而与维吾尔族等突厥语人群间的遗传距离较大；裕固族的遗传结构是演化过程中多族系融合的结果，与突厥语人群共享的Q1b1a3-L330和R1a1a-M17、与蒙古语人群共享的C2a1a1-F1756、C2a1a3-M504、C2a1a3a-F3796、C2a1a2-M48和C2b1a1a1a-M407、与藏族人群共享的D1a1a-M15和D1a1b1-P47，以及与汉族人群共享的多个支系是裕固族主要的父系类型。本文以更清晰的图景支持历史学、民族学和语言学所记述的裕固族形成过程及群体特征，为未来更细化的群体遗传学和法医遗传学研究打下基础。

关键词: Y-STR, 裕固族, 父系遗传结构, 多重起源

Abstract:

The Yugur people represent one of the ethnic groups residing within the Hexi Corridor, distinguishable by their small population size, linguistic diversity, intricate ancestral components, serving as a quintessential exemplar of the populations inhabiting this corridor. There are still many controversial issues in the academic community regarding the origin, migration, and formation process of the Yugur. In this study, we explored the formation process of the Yugur from the perspective of molecular anthropology, based on the paternal genetic characteristics of the Yugur people. And the study will synthesize multiple disciplines, encompassing ethnology, history and linguistics, in order to offer a thorough analysis. Within this research endeavor, a high-resolution kit comprising 35 Y-STRs was employed to examine 237 male specimens from the Yugur people in Gansu province. Y-SNP haplogroups were deduced through the utilization of Y-STR data. The paternal genetic data from diverse populations documented in published literature were merged to construct a 16 Y-STR dataset, a 25 Y-STR dataset, and a dataset detailing haplogroup frequencies. In this study, we employed haplotype network analysis, principal component analysis, multidimensional scaling analysis, phylogenetic tree construction, and genetic distance calculations to delve into the genetic structure, haplotype distribution, and genetic relationship with neighboring populations of the Yugur people. The findings of this study reveal that the Yugur people are a blend of ancestral lineages from both Eastern and Western Eurasian origins, with approximately 13% of their genetic component traced back to Western Eurasian populations. The Yugur people in Gansu province exhibits a more intimate genetic relationship with the Han, Tibetan, and Mongolian populations inhabiting nearby regions, while showing distinct genetic differences with Turkic-speaking groups like the Uyghur. Based on the merged data, we identified Q1b1a3-L330 and R1a1a-M17 shared with Turkic-speaking people, C2a1a1-F1756, C2a1a3-M504, C2a1a3a-F3796, C2a1a2-M48 and C2b1a1a1a-M407 shared with Mongolic-speaking people, D1a1a-M15 and D1a1b1-P47 shared with Tibetans, and multiple paternal lineages shared with Han people, which are the main paternal lineages of Yugur people, indicating multiple ancestral components and complex origins of Yugur. In this study, we provided a clearer genetic landscape which further supports the formation process and population characteristics of the Yugur people recorded in history, ethnology, and linguistics, and lays the foundation for more detailed studies on population genetics and forensic genetics in the future.

Key words: Y-STR, Yugur, paternal genetic structure, multiple paternal origins

张咸鹏, 于会新, 张劼, 贾欣怡, 何宵飞, 朱波峰, 韦兰海, 姚宏兵. 基于35 Y-STR研究甘肃裕固族的父系多重起源[J]. 遗传, 2024, 46(12): 1042-1054.

Xianpeng Zhang, Huixin Yu, Jie Zhang, Xinyi Jia, Xiaofei He, Bofeng Zhu, Lanhai Wei, Hongbing Yao. Multiple ancestral components and complex origins of the Yugur people in Gansu province revealing by 35 Y-STR[J]. Hereditas(Beijing), 2024, 46(12): 1042-1054.

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参考文献 49

[1]	Zhou QS. Language and ethnic identification. J Grad Sch Chin Acad Sci, 2006, (2): 133-136.
	周庆生. 语言与民族识别问题. 中国社会科学院研究生院学报, 2006, (2): 133-136.
[2]	Wang CC, Yeh HY, Popov AN, Zhang HQ, Matsumura H, Sirak K, Cheronet O, Kovalev A, Rohland N, Kim AM, Mallick S, Bernardos R, Tumen D, Zhao J, Liu YC, Liu JY, Mah M, Wang K, Zhang Z, Adamski N, Broomandkhoshbacht N, Callan K, Candilio F, Carlson KSD, Culleton BJ, Eccles L, Freilich S, Keating D, Lawson AM, Mandl K, Michel M, Oppenheimer J, Özdoğan KT, Stewardson K, Wen SQ, Yan S, Zalzala F, Chuang R, Huang CJ, Looh H, Shiung CC, Nikitin YG, Tabarev AV, Tishkin AA, Lin S, Sun ZY, Wu XM, Yang TL, Hu X, Chen L, Du H, Bayarsaikhan J, Mijiddorj E, Erdenebaatar D, Iderkhangai TO, Myagmar E, Kanzawa-Kiriyama H, Nishino M, Shinoda KI, Shubina OA, Guo JX, Cai WW, Deng QY, Kang LL, Li DW, Li DN, Lin R, Nini, Shrestha R, Wang LX, Wei LH, Xie GM, Yao HB, Zhang MF, He GL, Yang XM, Hu R, Robbeets M, Schiffels S, Kennett DJ, Jin L, Li H, Krause J, Pinhasi R, Reich D. Genomic insights into the formation of human populations in East Asia. Nature, 2021, 591(7850): 413-419.
[3]	Chiang CWK, Mangul S, Robles C, Sankararaman S. A comprehensive map of genetic variation in the world's largest ethnic group-Han Chinese. Mol Biol Evol, 2018, 35(11): 2736-2750. doi: 10.1093/molbev/msy170 pmid: 30169787
[4]	National Bureau of Statistics eds. China Statistical Yearbook-2021. Beijing: China Statistics Press, 2021: 1-558.
	国家统计局. 中国统计年鉴2021. 北京: 中国统计出版社, 2021: 1-558.
[5]	The Writing Group of "A Brief History of the Yugur Ethnic Group" eds. A brief history of the Yugur ethnic group. Beijing: The Ethnic Publishing House, 2008, 1-114.
	《裕固族简史》编写组, 《裕固族简史》修订本编写组编. 裕固族简史. 北京: 民族出版社, 2008, 1-114.
[6]	Wang YX. On the language attitude of the Yugur ethnic group. Lang Transl, 1999, (2): 9-14.
	王远新. 论裕固族的语言态度. 语言与翻译, 1999, (2): 9-14
[7]	He WG. A study of the Yugur people and its contemporary society in multi-ethnic relations. Beijing: The Ethnic Publishing House, 2011: 1-361.
	贺卫光. 多民族关系中的裕固族及其当代社会研究. 北京: 民族出版社, 2011: 1-361.
[8]	Wu YM. A preliminary study of the origin of the Yugur people. J South-Cent Univ Natl (Humanit Soc Sci), 1984, (1): 34-41.
	吴永明. 裕固族族源初探. 中南民族大学学报(人文社会科学版), 1984, (1): 34-41.
[9]	Zhou RX, Yang DQ, Zhang H, Yu WP, An LZ, Wang XL, Li H, Xu JJ, Xie XD. Origin and evolution of two Yugur sub-clans in Northwest China: a case study in paternal genetic landscape. Ann Hum Biol, 2008, 35(2): 198-211. doi: 10.1080/03014460801922927 pmid: 18428013
[10]	Wen SQ. Cultural transmission and gene flows-take languages and Y chromosomes as an example[Dissertation]. Lanzhou University, 2014.
	文少卿. 文化传播和基因流的关系—以语言和Y染色体为例[学位论文]. 兰州大学, 2014.
[11]	Chen YJ, Chen F, Xin N, Zhang HB, Zheng HB, Yu B, Li SB, Chen T. Genetic polymorphisms of X-STR loci in Chinese Yugur ethnic group and its application. Hereditas(Beijing), 2008, 30(9): 1143-1152.
	陈艳炯, 陈峰, 辛娜, 张洪波, 郑海波, 余兵, 李生斌, 陈腾. 中国甘肃裕固族X-STR遗传多态性及其应用研究. 遗传, 2008, 30(9): 1143-1152
[12]	Mi J. Polymorphisms of HLA-DRB1 gene in three ethnic groups in northern China[Dissertation]. Minzu University of China, 2008.
	米佳. 中国北方三个少数民族HLA-DRB1基因多态性研究[学位论文]. 中央民族大学, 2008.
[13]	Li SL. The development of a novel ancestry inference DIP system for degraded samples and its application in population genetics[Dissertation]. Southern Medical University, 2022.
	李双琳. 适用于降解检材的祖源推断DIP体系的研发及其在群体遗传学和法医学中的应用[学位论文]. 南方医科大学, 2022.
[14]	Jin L. Investigation on ABO blood type distribution of Dongxiang, Bao'an, and Yugu ethnic minorities in Gansu province. Chin J Blood Transfus, 2012, 25(8): 766-767.
	金龙. 甘肃少数民族东乡族、保安族、裕固族ABO血型分布调查. 中国输血杂志, 2012, 25(8): 766-767.
[15]	Huang YJ, Mi J, Liu L, Liu LN, Li X, Xu Z, Feng JC. The polymorphism on HLA-DRB1 locus of Gansu Yugu ethnic group and the analysis of its origin. Prog Mod Biomed, 2008, 8(4): 649-650+652.
	黄耀江, 米佳, 刘越, 刘丽娜, 李雪, 许宙, 冯金朝. 甘肃裕固族HLA-DRB1基因多态性及其族源分析. 现代生物医学进展, 2008, 8(4): 649-650+652.
[16]	Ma B, Chen JW, Yang XM, Bai JY, Ouyang SW, Mo XD, Chen WS, Wang CC, Hai XJ. The genetic structure and East-West population admixture in Northwest China inferred from genome-wide array genotyping. Front Genet, 2021, 12: 795570.
[17]	Lan Q, Zhao CY, Chen C, Xu H, Fang YT, Yao HB, Zhu BF. Forensic feature exploration and comprehensive genetic insights into Yugu ethnic minority and northern Han population via a novel NGS-based marker set. Front Genet, 2022, 13: 816737.
[18]	Lan Q. Forensic applications of a 41 multi-InDel panel and genetic dissection of Yugu and Han populations with multiple DNA markers[Dissertation]. Southern Medical University, 2022.
	兰琼. 41个Multi-InDel体系的法医学应用及联合多种分子标记解晰汉族和裕固族的遗传背景[学位论文]. 南方医科大学, 2022.
[19]	Yin CY, Sun H, Zhou HG, Jin L, Li SL. EA-YPredictor: one new software developed to predict pedigree haplogroup based on Y-STR haplotypes. Forensic Sci Technol, 2020, 45(2): 117-124.
	殷才湧, 孙辉, 周怀谷, 金力, 李士林. EA-YPredictor: 基于Y-STR数据的家系特异性单倍群归属判别分析软件. 刑事技术, 2020, 45(2): 117-124. doi: 10.16467/j.1008-3650.2020.02.002
[20]	Zhivotovsky LA, Underhill PA, Cinnioğlu C, Kayser M, Morar B, Kivisild T, Scozzari R, Cruciani F, Destro-Bisol G, Spedini G, Chambers GK, Herrera RJ, Yong KK, Gresham D, Tournev I, Feldman MW, Kalaydjieva L. The effective mutation rate at Y chromosome short tandem repeats, with application to human population-divergence time. Am J Hum Genet, 2004, 74(1): 50-61. doi: 10.1086/380911 pmid: 14691732
[21]	Ramakrishnan U, Mountain JL. Precision and accuracy of divergence time estimates from STR and SNPSTR variation. Mol Biol Evol, 2004, 21(10): 1960-1971. pmid: 15254260
[22]	Sengupta S, Zhivotovsky LA, King R, Mehdi SQ, Edmonds CA, Chow CE, Lin AA, Mitra M, Sil SK, Ramesh A, Usha Rani MV, Thakur CM, Cavalli-Sforza LL, Majumder PP, Underhill PA. Polarity and temporality of high-resolution Y-chromosome distributions in India identify both indigenous and exogenous expansions and reveal minor genetic influence of Central Asian pastoralists. Am J Hum Genet, 2006, 78(2): 202-221. doi: 10.1086/499411 pmid: 16400607
[23]	Lee J, Miller BK, Bayarsaikhan J, Johannesson E, Ventresca Miller A, Warinner C, Jeong C. Genetic population structure of the Xiongnu Empire at imperial and local scales. Sci Adv, 2023, 9(15): eadf3904.
[24]	Jeong C, Wang K, Wilkin S, Taylor WTT, Miller BK, Bemmann JH, Stahl R, Chiovelli C, Knolle F, Ulziibayar S, Khatanbaatar D, Erdenebaatar D, Erdenebat U, Ochir A, Ankhsanaa G, Vanchigdash C, Ochir B, Munkhbayar C, Tumen D, Kovalev A, Kradin N, Bazarov BA, Miyagashev DA, Konovalov PB, Zhambaltarova E, Miller AV, Haak W, Schiffels S, Krause J, Boivin N, Erdene M, Hendy J, Warinner C. A dynamic 6,000-year genetic history of eurasia's eastern steppe. Cell, 2020, 183(4): 890-904.e29. doi: 10.1016/j.cell.2020.10.015 pmid: 33157037
[25]	Wang HR, Yang MA, Wangdue S, Lu HL, Chen HH, Li LH, Dong GH, Tsring T, Yuan HB, He W, Ding MY, Wu XH, Li S, Tashi N, Yang T, Yang F, Tong Y, Chen ZJ, He YH, Cao P, Dai QY, Liu F, Feng XT, Wang TY, Yang RW, Ping WJ, Zhang ZX, Gao Y, Zhang M, Wang XJ, Zhang C, Yuan K, Ko AMS, Aldenderfer M, Gao X, Xu SH, Fu QM. Human genetic history on the Tibetan Plateau in the past 5100 years. Sci Adv, 2023, 9(11): eadd5582.
[26]	Zhu X, Jin X, Liu J, Yang L, Zou LX, Li CX, Huang J, Jiang L. Paternal genetic structure analysis of the modern Han populations based on Y-SNP and Y-STR. Hereditas(Beijing), 2024, 46(2): 149-167. doi: 10.16288/j.yczz.23-260 pmid: 38340005
	朱信, 金鑫, 刘俊, 杨澜, 邹丽馨, 李彩霞, 黄江, 江丽. 基于Y-SNP和Y-STR揭示汉族人群父系遗传关系. 遗传, 2024, 46(2): 149-167.
[27]	Wang XJ, Qian EF, Li Y, Song ZY, Zhao H, Xie HX, Li CX, Huang J, Jiang L. A genetic sub-structure study of the Tibetan population in Southwest China. Hereditas(Beijing), 2020, 42(6): 565-576.
	王小娟, 钱恩芳, 李悦, 宋正阳, 赵慧, 谢何鑫, 李彩霞, 黄江, 江丽. 中国西南地区藏族人群遗传亚结构研究. 遗传, 2020, 42(6): 565-576.
[28]	Bai F, Liu YC, Wangdue S, Wang TY, He W, Xi L, Tsho Y, Tsering T, Cao P, Dai QY, Liu F, Feng XT, Zhang M, Ran JK, Ping WJ, Payon D, Mao XW, Tong Y, Tsring T, Chen ZH, Fu QM. Ancient genomes revealed the complex human interactions of the ancient western Tibetans. Curr Biol, 2024, 34(12): 2594-2605.e7.
[29]	Wang MG, Huang YG, Liu KJ, Wang ZY, Zhang MH, Yuan HB, Duan SH, Wei LH, Yao HB, Sun QX, Zhong J, Tang RK, Chen J, Sun YT, Li XP, Su HR, Yang QX, Hu LP, Yun LB, Yang JB, Nie SJ, Cai Y, Yan JW, Zhou K, Wang CC, 10K_CPGDP Consortium, Zhu BF, Liu C, He GL. Multiple human population movements and cultural dispersal events shaped the landscape of Chinese paternal heritage. Mol Biol Evol, 2024, 41(7): msae122.
[30]	Song MY, Wang ZF, Lyu Q, Ying J, Wu Q, Jiang LR, Wang F, Zhou YX, Song F, Luo HB, Hou YP, Song XB, Ying BW. Paternal genetic structure of the Qiang ethnic group in China revealed by high-resolution Y-chromosome STRs and SNPs. Forensic Sci Int Genet, 2022, 61: 102774.
[31]	Wei LH, Li H, Jin L. Basic Principles and Applications of Molecular Anthropology. Shanghai: Shanghai Scientific and Technological Press, 2022: 1-253.
	韦兰海, 李辉, 金力. 分子人类学研究丛书分子人类学基本原理与应用. 上海: 上海科学技术出版社, 2022: 1-253.
[32]	Fan YM. Yugur. Beijing: The Ethnic Publishing House, 1986: 1-89.
	范玉梅. 裕固族. 北京: 民族出版社, 1986: 1-89.
[33]	Gao ZH, He HM. General history of the Yugur people. Lanzhou: Gansu People's Publishing House, 2003: 1-348.
	高自厚, 贺红梅. 裕固族通史. 兰州: 甘肃人民出版社, 2003: 1-348.
[34]	Ning C, Yan S, Hu K, Cui YQ, Jin L. Refined phylogenetic structure of an abundant East Asian Y-chromosomal haplogroup O-M134. Eur J Hum Genet*, 2016, 24(2): 307-309. doi: 10.1038/ejhg.2015.183 pmid: 26306641
[35]	Yan S, Wang CC, Zheng HX, Wang W, Qin ZD, Wei LH, Wang Y, Pan XD, Fu WQ, He YG, Xiong LJ, Jin WF, Li SL, An Y, Li H, Jin L. Y chromosomes of 40% Chinese descend from three Neolithic super-grandfathers. PLoS One, 2014, 9(8): e105691.
[36]	Wei LH, Li H. Molecular anthropology tracing of mongolic speaking population. Shanghai: Shanghai Scientific and Technological Press, 2022: 1-330.
	韦兰海, 李辉. 蒙古语人群的分子人类学溯源. 上海: 上海科学技术出版社, 2022: 1-330.
[37]	Wang MG, He GL, Zou X, Liu J, Ye ZW, Ming TY, Du WA, Wang Z, Hou YP. Genetic insights into the paternal admixture history of Chinese Mongolians via high-resolution customized Y-SNP SNaPshot panels. Forensic Sci Int Genet, 2021, 54: 102565.
[38]	Sun N, Ma PC, Yan S, Wen SQ, Sun C, Du PX, Cheng HZ, Deng XH, Wang CC, Wei LH. Phylogeography of Y-chromosome haplogroup Q1a1a-M120, a paternal lineage connecting populations in Siberia and East Asia. Ann Hum Biol, 2019, 46(3): 261-266. doi: 10.1080/03014460.2019.1632930 pmid: 31208219
[39]	Huang YZ, Pamjav H, Flegontov P, Stenzl V, Wen SQ, Tong XZ, Wang CC, Wang LX, Wei LH, Gao JY, Jin L, Li H. Dispersals of the siberian Y-chromosome haplogroup Q in eurasia. Mol Genet Genomics, 2018, 293(1): 107-117.
[40]	Qian EF, Deng P, Huang MS, Ma Q, Zhao H, Li CX, Huang J, Jiang L. Genetic polymorphism of Y Chromosome haplogroup D-M174 in East Asian populations. J Forensic Med, 2019, 35(3): 308-313.
	钱恩芳, 邓盼, 黄美莎, 马泉, 赵慧, 李彩霞, 黄江, 江丽. 东亚族群中Y染色体D-M174单倍群的遗传多态性. 法医学杂志, 2019, 35(3): 308-313. doi: 10.12116/j.issn.1004-5619.2019.03.009
[41]	Zhong H, Shi H, Qi XB, Duan ZY, Tan PP, Jin L, Su B, Ma RZ. Extended Y chromosome investigation suggests postglacial migrations of modern humans into East Asia via the northern route. Mol Biol Evol, 2011, 28(1): 717-727. doi: 10.1093/molbev/msq247 pmid: 20837606
[42]	Shou WH, Qiao EF, Wei CY, Dong YL, Tan SJ, Shi H, Tang WR, Xiao CJ. Y-chromosome distributions among populations in Northwest China identify significant contribution from Central Asian pastoralists and lesser influence of western Eurasians. J Hum Genet, 2010, 55(5): 314-322. doi: 10.1038/jhg.2010.30 pmid: 20414255
[43]	Yu HX, Ao C, Wang XP, Zhang XP, Sun J, Li H, Liu KJ, Wei LH. The impacts of bronze age in the gene pool of Chinese: Insights from phylogeographics of Y-chromosomal haplogroup N1a2a-F1101. Front Genet, 2023, 14: 1139722.
[44]	Hu K, Yan S, Liu K, Ning C, Wei LH, Li SL, Song B, Yu G, Chen F, Liu LJ, Zhao ZP, Wang CC, Yang YJ, Qin ZD, Tan JZ, Xue FZ, Li H, Kang LL, Jin L. The dichotomy structure of Y chromosome haplogroup N. Quant Biol, 2015, doi: 10.48550/arXiv.1504.06463.
[45]	Yang CH, Jin XY, Guo YX, Cui W, Chen C, Meng HT, Zhu BF. Genetic distribution analyses and population background explorations of Gansu Yugur and Guizhou Miao groups via InDel markers. J Hum Genet, 2019, 64(6): 535-543.
[46]	Chen ZZ, Lei XS. A brief record of western Yugur language. Beijing: The Ethnic Publishing House, 1985: 1-182.
	陈宗振, 雷选春. 西部裕固语简志. 北京: 民族出版社, 1985: 1-182.
[47]	Zhaonasitu. A brief record of eastern Yugur language. Beijing: The Ethnic Publishing House, 1981: 1-108.
	照那斯图. 东部裕固语简志. 北京: 民族出版社, 1981: 1-108.
[48]	Yang SM, Ding H. Ethnography of China. Beijing: China Minzu University Press, 2003: 1-453.
	杨圣敏, 丁宏. 中国民族志. 北京: 中央民族大学出版社, 2003: 1-453.
[49]	Zhao XR, Zhu ZN. A brief record of Uygur language. Beijing: The Ethnic Publishing House, 1985: 1-258.
	赵相如, 朱志宁. 维吾尔语简志. 北京: 民族出版社, 1985: 1-258.

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基因座	GD	基因座	GD
DYS19	0.750	DYF387S1a,b	0.922
DYS635	0.755	DYS518	0.860
DYS456	0.449	DYS449	0.855
DYS437	0.520	DYS576	0.801
DYS439	0.741	DYS570	0.784
DYS385a,b	0.952	DYS481	0.850
DYS389Ⅰ	0.631	DYS627	0.852
DYS448	0.634	DYS447	0.831
DYS389Ⅱ	0.756	DYS645	0.223
GATA_H4	0.565	DYS557	0.774
DYS393	0.600	DYS596	0.655
DYS391	0.499	DYS522	0.720
DYS390	0.674	DYS593	0.581
DYS392	0.769	DYS444	0.744
DYS438	0.568	DYS643	0.727
DYS458	0.826	DYS549	0.631
DYS533	0.606	DYS527a,b	0.945
DYS460	0.656

基于35 Y-STR研究甘肃裕固族的父系多重起源

Multiple ancestral components and complex origins of the Yugur people in Gansu province revealing by 35 Y-STR

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