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Largest-Scale Genomic Resource Reconstructing the Genetic Origin, Population Structure, and Biological Adaptations of the Hui People.

He Guanglin, G Chen, Jing J et al.

41047750 PubMed ID
40 Authors
2025-10-01 Published
103 Views
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Chapter I

Publication Details

Comprehensive information about this research publication

Authors

HG
He Guanglin
GC
G Chen
JJ
Jing J
DS
Duan Shuhan
SY
S Yang
QQ
Qingxin Q
LB
Li Bowen
BL
B Luo
LL
Lintao L
ZJ
Zhong Jie
JS
J Sun
QQ
Qiuxia Q
BF
Bu Fengxiao
FT
F Tang
RR
Renkuan R
LH
Lu Hongliang
HY
H Yuan
HH
Haibing H
YH
Yuan Huijun
HL
H Liu
CC
Chao C
WM
Wang Mengge
MH
M He
GG
Guanglin G
LC
Liu Chao
CW
C Wang
MM
Mengge M
TR
Tang Renkuan
RY
R Yun
LL
Libing L
YJ
Yang Junbao
JW
J Wang
CC
Chuan-Chao CC
YJ
Yan Jiangwei
JZ
J Zhu
BB
Bofeng B
HL
Hu Liping
LN
L Nie
SS
Shengjie S
YH
Yao Hongbing
Chapter II

Abstract

Summary of the research findings

Historical and archaeological records indicate that the Maritime and Land Silk Roads played a pivotal role in facilitating Trans-Eurasian migrations and cultural exchanges. However, the extent to which population movements or the spread of ideas shape Chinese Hui populations remains debated. We present the largest genomic resource to date, including 2,280 Hui individuals sequenced or genotyped from 30 diverse regions, to examine the genetic origins, population structure, and biological adaptations of this underrepresented group in global human genome research. We identified a detailed population structure characterized by five distinct genetic lineages of the Hui, influenced by geography and varying gene flow. The admixture history and demographic events suggest that the northwestern and northern Hui lineages emerged from demic diffusion during the Tang and Yuan Dynasties via the Land Silk Road. In contrast, the southern and island Hui lineages reflect cultural diffusion along the Maritime Silk Road, while the mixed southern-northern lineage likely developed through a combination of demic and cultural diffusion. Our findings support a hybrid model for Hui formation, indicating that both demographic processes and sociocultural transmissions contributed to their population history. We identified east-west highly differentiated variants and pre- and post-admixture adaptations in Hui genomes, demonstrating that admixture-driven adaptive or neutral variants impacted susceptibility to cardiovascular diseases and immune- and diet-related traits. These adaptive signatures include post-admixture signals of SLC24A5 and ECHDC1 in the Hui, as well as pre-admixture signals of the HLA region, BCL2A1, and KCNH8 in the East Asian source. Overall, our study suggests that Han-related genetic components helped the Hui population rapidly adapt to new local environments. Additionally, the frequency spectrum of clinically essential variants differed significantly between Hui and Han individuals, emphasizing the importance of including underrepresented populations in genomic research to promote health equity.

Chapter III

AI-Generated Summary

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Historical Context