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Journal articles on the topic 'Hmong-Mien people'

Author: Grafiati
Published: 5 June 2025
Last updated: 2 August 2025

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1

TAN, Hui, Rui WANG, and Chuan-Chao WANG. "Fine-scale genetic profile and admixture history of two Hmong-Mien–speaking Miao tribes from Southwest China inferred from genome-wide data." Human Biology 93, no. 3 (2021): 179–99. https://doi.org/10.1353/hub.2021.0010.

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As the dominant indigenous minority in Southern China, Hmong-Mien speaking Miao people were thought to be the descendants of Neolithic Yangtze rice farmers. However, the fine-scale population structure and genetic profile of the Miao populations remains unclear due to the limited Miao samples from Southern China and Southeast Asia. Here, we genotyped 19 individuals from the two largest Miao tribes in Guizhou province (Southwest China) via SNP chips and co-analyzed with published available modern and ancient East Asians. We observed that studied Guizhou Miao displayed a closer genomic affinity
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2

HE, Guanglin, Yingxiang LI, Xing ZOU, and al. et. "The northern gene flow into southeastern East Asians inferred from genome-wide array genotyping." Journal of Systematics and Evolution 61, no. 1 (2022): 179–97. https://doi.org/10.1111/jse.12826.

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The population history of Southeast (SE) China remains poorly understood due to the sparse sampling of present-day populations and limited modeling with ancient genomic data. We report genome-wide genotyping data from 207 present-day Han Chinese and Hmong-Mien (HM)-speaking She people from Fujian and Taiwan Island, SE China. We coanalyzed 66 Early Neolithic to Iron Age ancient Fujian and Taiwan Island individuals obtained from previously published works to explore the genetic continuity and admixture based on patterns of genetic variations of the high-resolution time transect. We found the gen
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3

HE, Guanglin, Yunhe ZHANG, Lan-Hai WEI, et al. "The genomic formation of Tanka people, an isolated "gypsies in water" in the coastal region of Southeast China." American Journal of Biological Anthropology 178, no. 1 (2022): 154–70. https://doi.org/10.1002/ajpa.24495.

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<strong>Objectives&nbsp;</strong>Three different hypotheses proposed via the controversial evidence from cultural, anthropological, and uniparental genetic analyses, respectively, stated that Tanka people probably originated from Han Chinese, ancient Baiyue tribe, or the admixture of them. Therefore, the genetic origin and admixture history of the Tanka people, an isolated &ldquo;Gypsies in water&rdquo; in the coastal region of Southeast China, are needed to be genetically clarified using genome-wide SNP data. <strong>Materials and methods&nbsp;</strong>To elucidate the genetic origin of the S
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4

Konkov, Andrey S. "Population-Genetic History of China in the Context of the East Asian Population History." Oriental Courier, no. 3 (2023): 170. http://dx.doi.org/10.18254/s268684310026641-3.

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The territory of modern China was a zone of active population transformations from the time of its occupation by human species. There was the formation zone of the progenitors of all Mongoloid populations associated with the eastern trunk of non-Africans. The most ancient group is associated with the population of Tianyuan cave (田園洞). The basal steam split, after Tianyuan branch separation into two clusters of southern and northern populations. The north groups formed a gene pool base for the modern population of the northern half of China, Japan, Korea, as well as Mongolia, Siberia, and Ameri
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5

Komissarov, S. A., and A. I. Solovyev. "Dances with Drums: On the Problem of Descendants of the DongSon-Dian Civilization." Vestnik NSU. Series: History and Philology 23, no. 10 (2024): 104–17. https://doi.org/10.25205/1818-7919-2024-23-10-104-117.

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The article presents an attempt to identify the most likely descendants of the Dian culture among the vast list of nonHan peoples inhabiting South-Western and Southern China at the present time. Bronze drums, as an important element of material culture were taken as the first selection criterion, since they were one of the most noticeable markers for sites and relics of the DongSon-Dian civilization. However, it turned out that the area of distribution of these items is too large, and many peoples adopted (borrowed) this effective symbol of wealth and power. To limit the sample, the study took
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6

YANG, Meiqing, Guanglin HE, Zheng REN, and al. et. "Genomic insights into the unique demographic history and genetic structure of five Hmong-Mien-Speaking miao and yao populations in southwest China." Frontiers in Ecology and Evolution 10 (June 9, 2022). https://doi.org/10.3389/fevo.2022.849195.

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Southern China was the original center of multiple ancestral populations related to modern Hmong-Mien, Tai-Kadai, Austroasiatic, and Austronesian people. More recent genetic surveys have focused on the fine-scale genetic structure and admixture history of southern Chinese populations, but the genetic formation and diversification of Hmong-Mien speakers are far from clear due to the sparse genetic sampling. Here, we reported nearly 700,000 single-nucleotide polymorphisms (SNPs) data from 130 Guizhou Miao and Yao individuals. We used principal component analysis, ADMIXTURE, <em>f</em>-statistics
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7

Yang, Meiqing, Guanglin He, Zheng Ren, et al. "Genomic Insights Into the Unique Demographic History and Genetic Structure of Five Hmong-Mien-Speaking Miao and Yao Populations in Southwest China." Frontiers in Ecology and Evolution 10 (June 9, 2022). http://dx.doi.org/10.3389/fevo.2022.849195.

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Southern China was the original center of multiple ancestral populations related to modern Hmong-Mien, Tai-Kadai, Austroasiatic, and Austronesian people. More recent genetic surveys have focused on the fine-scale genetic structure and admixture history of southern Chinese populations, but the genetic formation and diversification of Hmong-Mien speakers are far from clear due to the sparse genetic sampling. Here, we reported nearly 700,000 single-nucleotide polymorphisms (SNPs) data from 130 Guizhou Miao and Yao individuals. We used principal component analysis, ADMIXTURE, f-statistics, qpAdm,
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8

Chuan-Chao, Wang. "Genomic insights into the unique demographic history and genetic structure of five Hmong-Mien-speaking Miao and Yao populations in Southwest China." January 5, 2022. https://doi.org/10.5281/zenodo.5821037.

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Hmong-Mien is a language family speaking mainly in southern China and Southeast Asia. A large-scale genetic survey of ethnolinguistically diverse populations in South China was necessary to better understand the genetic evolution patterns of southern Chinese indigenes, especially for the fine-scale genetic structure and demographic history of Hmong-Mien populations. We reported nearly 700,000 single nucleotide polymorphisms (SNPs) data from 130 Miao and Yao individuals from Guizhou province. We used principal component analysis, ADMIXTURE, f-statistics, qpAdm, phylogenetic tree, fineSTRUCTURE
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9

Chuan-Chao, Wang. "Genomic affinity of three Hmong-Mien speaking groups Dongjia, Xijia and Gejia from southwest China." February 2, 2022. https://doi.org/10.5281/zenodo.5945087.

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Many ethnic groups are unrecognised in southwest China due to distinct physical characters, languages, and cultural traditions with official minority groups. Dongjia, Xijia and Gejia are three unrecognised ethnic groups in Guizhou province. The genetic study of population ancestral origin and divergence is essential for understanding the history of these groups and their cultures. However, the genetic structure of Dongjia, Xijia and Gejia groups remains poorly studied due to the sparse sampling of three present-day populations. Therefore, to infer the genetic structure, population history and
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10

Bin, Xiaoyun, Rui Wang, Youyi Huang, et al. "Genomic Insight Into the Population Structure and Admixture History of Tai-Kadai-Speaking Sui People in Southwest China." Frontiers in Genetics 12 (September 20, 2021). http://dx.doi.org/10.3389/fgene.2021.735084.

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Sui people, which belong to the Tai-Kadai-speaking family, remain poorly characterized due to a lack of genome-wide data. To infer the fine-scale population genetic structure and putative genetic sources of the Sui people, we genotyped 498,655 genome-wide single-nucleotide polymorphisms (SNPs) using SNP arrays in 68 Sui individuals from seven indigenous populations in Guizhou province and Guangxi Zhuang Autonomous Region in Southwest China and co-analyzed with available East Asians via a series of population genetic methods including principal component analysis (PCA), ADMIXTURE, pairwise Fst
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11

Yang, Meiqing, Xiaomin Yang, Zheng Ren, et al. "Genetic Admixture History and Forensic Characteristics of Guizhou Sui People Inferred From Autosomal Insertion/Deletion and Genome-Wide Single-Nucleotide Polymorphisms." Frontiers in Ecology and Evolution 10 (May 16, 2022). http://dx.doi.org/10.3389/fevo.2022.844761.

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Insertion-deletion (Indel) serves as one of the important markers in forensic personal identification and parentage testing, especially for cases with degraded samples. However, the genetic diversity and forensic features in ethnolinguistically diverse southwestern Chinese populations remain to be explored. Sui, one Tai-Kadai-speaking population residing in Guizhou, has a complex genetic history based on linguistic, historic, and anthropological evidence. In this study, we genotyped 30 Indels from 511 Guizhou Sui individuals and obtained approximately 700,000 genome-wide single-nucleotide poly
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12

Wang, Chuan-Chao. "Genomic insight into the population structure and admixture history of Tai-Kadai-speaking Sui people in Southwest China." Frontiers in Genetics, July 1, 2021, doi: 10.3389/fgene.2021.735084. https://doi.org/10.5281/zenodo.5483577.

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Sui people, which belongs to the Tai-Kadai-speaking family, remain poorly characterized due to a lack of genomic-wide data. To infer the fine-scale genetic structure and putative genetic sources of the Sui population, we genotyped 498,655 genome-wide single nucleotide polymorphisms (SNPs) using SNP-arrays in 58 Sui individuals from seven indigenous populations in Guizhou province and Guangxi Zhuang Autonomous Region, Southwest China. We applied principal component analysis (PCA), ADMIXTURE, pairwise Fst genetic distance, <em>f</em>-statistics, <em>qpWave</em> and <em>qpAdm</em> analysis to inf
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13

BIN, Xiaoyun, Rui WANG, Youyi HUANG, et al. "Genomic insight into the population structure and admixture history of Tai-Kadai-Speaking Sui people in Southwest China." Frontiers in Genetics 12 (September 20, 2021). https://doi.org/10.3389/fgene.2021.735084.

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Sui people, which belong to the Tai-Kadai-speaking family, remain poorly characterized&nbsp;due to a lack of genome-wide data. To infer the fine-scale population genetic structure&nbsp;and putative genetic sources of the Sui people, we genotyped 498,655 genome-wide single-nucleotide polymorphisms (SNPs) using SNP arrays in 68 Sui individuals from&nbsp;seven indigenous populations in Guizhou province and Guangxi Zhuang Autonomous&nbsp;Region in Southwest China and co-analyzed with available East Asians via a series of&nbsp;population genetic methods including principal component analysis (PCA),
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14

YANG, Meiqing, Xiaomin YANG, Zheng REN, et al. "Genetic Admixture History and Forensic Characteristics of Guizhou Sui People Inferred From Autosomal InsertionDeletion and Genome-Wide Single-Nucleotide Polymorphisms." Frontiers in Ecology and Evolution 10 (May 16, 2022). https://doi.org/10.3389/fevo.2022.844761.

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Insertion-deletion (Indel) serves as one of the important markers in forensic personal identification and parentage testing, especially for cases with degraded samples. However, the genetic diversity and forensic features in ethnolinguistically diverse southwestern Chinese populations remain to be explored. Sui, one Tai-Kadai-speaking population residing in Guizhou, has a complex genetic history based on linguistic, historic, and anthropological evidence. In this study, we genotyped 30 Indels from 511 Guizhou Sui individuals and obtained approximately 700,000 genome-wide single-nucleotide poly
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15

Chuan-Chao, Wang. "Fine-scale population admixture landscape of Tai-Kadai-speaking Maonan in Southwest China inferred from genome-wide SNP data." November 15, 2021. https://doi.org/10.5281/zenodo.5701604.

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Guizhou province harbored extensive ethnolinguistic and cultural diversity and was occupied by Sino-Tibetan-, Hmong-Mien- and Tai-Kadai-speaking populations. However, previous genetic analyses mainly focused on the genetic admixture history of the former two linguistic groups, the admixture history of Tai-Kadai-speaking populations in Guizhou needed to be further characterized. Thus, we genotyped genome-wide SNP data from 41 Tai-Kadai-speaking Maonan people and make a comprehensive population genetic analysis to explore their genetic origin and admixture history based on the sharing alleles an
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16

Chen, Jing, Guanglin He, Zheng Ren, et al. "Fine-Scale Population Admixture Landscape of Tai–Kadai-Speaking Maonan in Southwest China Inferred From Genome-Wide SNP Data." Frontiers in Genetics 13 (February 17, 2022). http://dx.doi.org/10.3389/fgene.2022.815285.

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Guizhou Province harbors extensive ethnolinguistic and cultural diversity with Sino-Tibetan-, Hmong–Mien-, and Tai–Kadai-speaking populations. However, previous genetic analyses mainly focused on the genetic admixture history of the former two linguistic groups. The admixture history of Tai–Kadai-speaking populations in Guizhou needed to be characterized further. Thus, we genotyped genome-wide SNP data from 41 Tai–Kadai-speaking Maonan people and made a comprehensive population genetic analysis to explore their genetic origin and admixture history based on the pattern of the sharing alleles an
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17

CHEN, Jing, Guanglin HE, Zheng REN, and al. et. "Fine-scale population admixture landscape of Tai–Kadai-Speaking Maonan in Southwest China inferred from genome-wide SNP data." Frontiers in Genetics 13 (February 17, 2022). https://doi.org/10.3389/fgene.2022.815285.

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Guizhou Province harbors extensive ethnolinguistic and cultural diversity with Sino-Tibetan-, Hmong&ndash;Mien-, and Tai&ndash;Kadai-speaking populations. However, previous genetic analyses mainly focused on the genetic admixture history of the former two linguistic groups. The admixture history of Tai&ndash;Kadai-speaking populations in Guizhou needed to be characterized further. Thus, we genotyped genome-wide SNP data from 41 Tai&ndash;Kadai-speaking Maonan people and made a comprehensive population genetic analysis to explore their genetic origin and admixture history based on the pattern o
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18

Roberge, Dominic, Jean Michaud, and Paul Lutard. "Socialist-neoliberal Conservation: Hopeful Resilience within the Hoàng Liên National Park, Vietnam." Conservation and Society, December 10, 2024. https://doi.org/10.4103/cs.cs_26_24.

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Abstract This article tackles some resilient discourses and strategies engaged by Hmong and Mien people living in Hoàng Liên National Park, a prominent conservation area of the northern Vietnamese highlands located in Sa Pa district, Lao Cai province, Vietnam. Facing the neoliberal transition of socialist institutions, economy, and ecology, communities living in and out of this mountain range must adopt enduring mindsets and demeanours to sustain their environmental imaginaries and ensure some future for their hard-earned livelihoods. Looking at this situation through everyday politics, we arg
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19

He, Guanglin, Peixin Wang, Jing Chen, et al. "Differentiated genomic footprints suggest isolation and long-distance migration of Hmong-Mien populations." BMC Biology 22, no. 1 (2024). http://dx.doi.org/10.1186/s12915-024-01828-x.

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Abstract Background The underrepresentation of Hmong-Mien (HM) people in Asian genomic studies has hindered our comprehensive understanding of the full landscape of their evolutionary history and complex trait architecture. South China is a multi-ethnic region and indigenously settled by ethnolinguistically diverse HM, Austroasiatic (AA), Tai-Kadai (TK), Austronesian (AN), and Sino-Tibetan (ST) people, which is regarded as East Asia’s initial cradle of biodiversity. However, previous fragmented genetic studies have only presented a fraction of the landscape of genetic diversity in this region,
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20

Xie, Ming‐Xia, Xing‐Yue Hu, Qi‐Yang Wang, et al. "Genetic formation of Sui populations in southwest China." Journal of Systematics and Evolution, February 28, 2024. http://dx.doi.org/10.1111/jse.13056.

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AbstractThe Sui people living in Guizhou province have a unique ethnic culture and population history due to their long‐time isolation from other populations. To investigate the genetic structure of Sui populations in different regions of Guizhou, we genotyped 89 individuals from four Sui populations using genome‐wide single nucleotide polymorphisms arrays. We analyzed the data using principal component analysis, ADMIXTURE analysis, f‐statistics, qpWave/qpAdm, TreeMix analysis, fineSTRUCTURE, and GLOBETROTTER. We found that Sui populations in Guizhou were genetically homogeneous and had a clos
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21

Mingxia, Xie, Hu Xingyue, Wang Chuan-Chao, and Huang Jiang. "Genetic formation of Sui populations in southwest China." August 29, 2023. https://doi.org/10.5281/zenodo.8297816.

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The Sui people living in Guizhou province have a unique ethnic culture and population history due to their long-time isolation from other populations. To investigate the genetic structure of Sui populations in different regions of Guizhou, we genotyped 89 individuals from 4 Sui populations using genome-wide SNP arrays. We analyzed the data using principal component analysis (PCA), ADMIXTURE analysis, <em>f</em>-statistics, <em>qpWave/qpAdm</em>, TreeMix analysis, fineSTRUCTURE, and GLOBETROTTER. We found that Sui populations in Guizhou were genetically homogeneous and they had a close genetic
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22

Liu, Yan, Jie Xie, Mengge Wang, et al. "Genomic Insights Into the Population History and Biological Adaptation of Southwestern Chinese Hmong–Mien People." Frontiers in Genetics 12 (January 3, 2022). http://dx.doi.org/10.3389/fgene.2021.815160.

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Hmong–Mien (HM) -speaking populations, widely distributed in South China, the north of Thailand, Laos, and Vietnam, have experienced different settlement environments, dietary habits, and pathogenic exposure. However, their specific biological adaptation remained largely uncharacterized, which is important in the population evolutionary genetics and Trans-Omics for regional Precision Medicine. Besides, the origin and genetic diversity of HM people and their phylogenetic relationship with surrounding modern and ancient populations are also unknown. Here, we reported genome-wide SNPs in 52 repre
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23

LIU, Yan, Jie XIE, Mengge WANG, et al. "Genomic Insights Into the Population History and Biological Adaptation of Southwestern Chinese Hmong–Mien People." Frontiers in genetics 12 (January 3, 2022). https://doi.org/10.3389/fgene.2021.815160.

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Hmong&ndash;Mien (HM) -speaking populations, widely distributed in South China, the north of Thailand, Laos, and Vietnam, have experienced different settlement environments, dietary habits, and pathogenic exposure. However, their specific biological adaptation remained largely uncharacterized, which is important in the population evolutionary genetics and Trans-Omics for regional Precision Medicine. Besides, the origin and genetic diversity of HM people and their phylogenetic relationship with surrounding modern and ancient populations are also unknown. Here, we reported genome-wide SNPs in 52
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24

Ren, Zheng, Meiqing Yang, Xiaoye Jin, et al. "Genetic substructure of Guizhou Tai-Kadai-speaking people inferred from genome-wide single nucleotide polymorphisms data." Frontiers in Ecology and Evolution 10 (September 13, 2022). http://dx.doi.org/10.3389/fevo.2022.995783.

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The genome-wide characteristics and admixture history of the Tai-Kadai-speaking populations are essential for understanding the population genetic diversity in southern China. We genotyped about 700,000 single nucleotide polymorphisms (SNPs) of 239 individuals from six Tai-Kadai-speaking populations residing in the mountainous Guizhou Province of southwestern China. We merged the genome-wide data with available populations and ancients in East and Southeast Asia to infer Tai-Kadai-speaking populations’ admixture history and genetic structure. We observed a genetic substructure within the studi
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25

REN, Zheng, Meiqing YANG, Xiaoye JIN, et al. "Genetic substructure of Guizhou Tai-Kadai-speaking people inferred from genome-wide single nucleotide polymorphisms data." Frontiers in Ecology and Evolution 10 (September 13, 2022). https://doi.org/10.3389/fevo.2022.995783.

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The genome-wide characteristics and admixture history of the Tai-Kadai-speaking populations are essential for understanding the population genetic diversity in southern China. We genotyped about 700,000 single nucleotide polymorphisms (SNPs) of 239 individuals from six Tai-Kadai-speaking populations residing in the mountainous Guizhou Province of southwestern China. We merged the genome-wide data with available populations and ancients in East and Southeast Asia to infer Tai-Kadai-speaking populations&rsquo; admixture history and genetic structure. We observed a genetic substructure within the
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26

Wang, Jiawen, Lin Yang, Shuhan Duan, et al. "Genome-wide allele and haplotype-sharing patterns suggested one unique Hmong–Mein-related lineage and biological adaptation history in Southwest China." Human Genomics 17, no. 1 (2023). http://dx.doi.org/10.1186/s40246-023-00452-0.

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Abstract Background Fine-scale genetic structure of ethnolinguistically diverse Chinese populations can fill the gap in the missing diversity and evolutionary landscape of East Asians, particularly for anthropologically informed Chinese minorities. Hmong–Mien (HM) people were one of the most significant indigenous populations in South China and Southeast Asia, which were suggested to be the descendants of the ancient Yangtze rice farmers based on linguistic and archeological evidence. However, their deep population history and biological adaptative features remained to be fully characterized.
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27

Wang, Mengge, Shuhan Duan, Qiuxia Sun, et al. "The complex genetic landscape of southwestern Chinese populations contributed to their extensive ethnolinguistic diversity." Frontiers in Ecology and Evolution 11 (October 11, 2023). http://dx.doi.org/10.3389/fevo.2023.1235655.

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The comprehensive characterization of the fine-scale genetic background of ethnolinguistically diverse populations can gain new insights into the population admixture processes, which is essential for evolutionary and medical genomic research. However, the genetic diversity and population history of southern Chinese indigenous people are underrepresented in human genetics research and their interaction with historical immigrants remains unknown. Here, we collected genome-wide SNP data from 20 Guizhou populations belonging to three primary language families [Tai-Kadai (TK), Hmong-Mien (HM), and
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28

Wang, Jiawen, Jun Wu, Qiuxia Sun, et al. "Extensive genetic admixture between Tai-Kadai-speaking people and their neighbours in the northeastern region of the Yungui Plateau inferred from genome-wide variations." BMC Genomics 24, no. 1 (2023). http://dx.doi.org/10.1186/s12864-023-09412-3.

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Abstract Background Yungui Plateau in Southwest China is characterized by multi-language and multi-ethnic communities and is one of the regions with the wealthiest ethnolinguistic, cultural and genetic diversity in East Asia. There are numerous Tai-Kadai (TK)-speaking populations, but their detailed evolutionary history and biological adaptations are still unclear. Results Here, we genotyped genome-wide SNP data of 77 unrelated TK-speaking Zhuang and Dong individuals from the Yungui Plateau and explored their detailed admixture history and adaptive features using clustering patterns, allele fr
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29

Guanglin, He. "Extensive genetic admixture between Tai-Kadai-speaking people and their neighbors from Yungui Plateau inferred from genome-wide variations." October 21, 2022. https://doi.org/10.5281/zenodo.7233402.

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<strong>Background:</strong> Southwest China is characterized by multi-language and multi-ethnic communities and is one of the regions with the wealthiest ethnolinguistic and genetic diversity in East Asia. There are numerous Tai-Kadai (TK)-speaking populations, but the detailed evolutionary history and biological adaptations of these populations are still unclear. <strong>Results: </strong>Here, we genotyped genome-wide SNP data of 77 unrelated TK-speaking Zhuang and Dong individuals from the Yungui Plateau and explored their detailed admixture history and adaptive features using clustering p
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30

Guanglin, He. "Multiple sources of genetic diversity contributed to the extensive ethnolinguistic diversity in Southwest China." November 2, 2022. https://doi.org/10.5281/zenodo.7273078.

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Fine-scale genetic backgrounds based on the sharing of alleles and haplotypes can gain new insights into the population admixture processes of ethnolinguistically diverse populations, which is essential for evolutionary and medical phenotypes. However, the genetic diversity and population history of southern Chinese indigenous people and their interaction with Han Chinese populations keep unknown. Here, we genotyped 700K genome-wide SNPs from four Guizhou populations and merged them with publicly available data from 18 Guizhou populations and SNP data from 200 modern and ancient East Asian gro
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31

Chuan-Chao, Wang. "Fine-scale genetic profile and admixture history of two Hmong-Mien-speaking Miao tribes from Southwest China inferred from genome-wide data." September 8, 2021. https://doi.org/10.5281/zenodo.5493628.

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As the dominant indigenous minority in Southern China, Hmong-Mien speaking Miao people was the hypothesis the descendent of Neolithic Yangtze rice farmers. However, the fine-scale population structure and genetic profile of the Miao populations remains unclear due to the limited Miao samples from Southern China and Southeast Asia. Here, we genotyped 19 individuals from the two largest Miao tribes in Guizhou province (Southwest China) <em>via</em> SNP chips and co-analyzed with published available modern and ancient East Asians. We observed studied Guizhou Miao displayed a closer genomic affini
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32

Wang, Mengge, Yuguo Huang, Kaijun Liu, et al. "Multiple human population movements and cultural dispersal events shaped the landscape of Chinese paternal heritage." Molecular Biology and Evolution, June 17, 2024. http://dx.doi.org/10.1093/molbev/msae122.

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Abstract Large-scale genomic projects and ancient DNA innovations have ushered in a new paradigm for exploring human evolutionary history. However, the genetic legacy of spatiotemporally diverse ancient Eurasians within Chinese paternal lineages remains unresolved. Here, we report an integrated Y-chromosome genomic database encompassing 15,563 individuals from both modern and ancient Eurasians, including 919 newly reported individuals, to investigate Chinese paternal genomic diversity. The high-resolution, time-stamped phylogeny reveals multiple diversification events and extensive expansions
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33

Wang, Mengge, Didi Yuan, Xing Zou, et al. "Fine-Scale Genetic Structure and Natural Selection Signatures of Southwestern Hans Inferred From Patterns of Genome-Wide Allele, Haplotype, and Haplogroup Lineages." Frontiers in Genetics 12 (August 24, 2021). http://dx.doi.org/10.3389/fgene.2021.727821.

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The evolutionary and admixture history of Han Chinese have been widely discussed via traditional autosomal and uniparental genetic markers [e.g., short tandem repeats, low-density single nucleotide polymorphisms). However, their fine-scale genetic landscapes (admixture scenarios and natural selection signatures) based on the high-density allele/haplotype sharing patterns have not been deeply characterized. Here, we collected and generated genome-wide data of 50 Han Chinese individuals from four populations in Guizhou Province, one of the most ethnolinguistically diverse regions, and merged it
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34

Mafu, Chitipat, Katekaew Seangpraw, Parichat Ong-Artborirak, et al. "Self-care Behaviors and Lipid Profiles among an Ethnic Minority Adult Population in Thai Rural Communities." Open Public Health Journal 16, no. 1 (2023). http://dx.doi.org/10.2174/18749445-v16-e230403-2022-173.

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Background: Health perceptions and increased self-care behaviors can effectively prevent and control many diseases and improve one’s health. This study aimed to investigate the association of self-care behaviors with lipid profiles and creatinine among an ethnic minority adult population in Thai rural communities. Methods: A cross-sectional study was performed from January to April 2021 among ethnic minorities from hill tribe communities of Phayao Province, Northern Thailand. A total of 252 adults ages 20 and older were recruited from various ethnic groups, including Indigenous (34.5%), Hmong
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Mafu, Chitipat, Katekaew Seangpraw, Parichat Ong-Artborirak, et al. "Self-care Behaviors and Lipid Profiles among an Ethnic Minority Adult Population in Thai Rural Communities." Open Public Health Journal 16, no. 1 (2023). http://dx.doi.org/10.2174/18749445-v16-e230404-2022-173.

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Abstract:
Background: Health perceptions and increased self-care behaviors can effectively prevent and control many diseases and improve one’s health. This study aimed to investigate the association of self-care behaviors with lipid profiles and creatinine among an ethnic minority adult population in Thai rural communities. Methods: A cross-sectional study was performed from January to April 2021 among ethnic minorities from hill tribe communities of Phayao Province, Northern Thailand. A total of 252 adults ages 20 and older were recruited from various ethnic groups, including Indigenous (34.5%), Hmong
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