Himalayan whole-genome sequences provide insight into population formation and adaptation
Himalayan whole-genome sequences provide insight into population formation and adaptation
Abstract High-altitude environments pose substantial challenges for human survival and reproduction, attracting considerable attention to the demographic and adaptive histories of high-altitude populations. Previous work focused mainly on Tibetans, establishing their genetic relatedness to East Asians and their genetic adaptation to high altitude, especially at EPAS1. Here, we present 87 new whole-genome sequences from 16 Himalayan populations and the insight they provide into the genomic history of the region. We show that population structure in the Himalayas began to emerge as early as 10,000 years ago, predating archaeological evidence of permanent habitation above 2,500 meters by approximately 6,000 years. The high prevalence of the introgressed adaptive EPAS1 haplotype in all high-altitude populations today supports a shared genetic origin and its importance for survival in this region. We also identify additional selection signals in genes associated with hypoxia, physical activity, immunity and metabolism which could have facilitated adaptation to the harsh environment. Over time, increasing genetic structure led to the diverse and strongly differentiated ethnic groups observed today, most of which maintained small population sizes throughout their history or experienced severe bottlenecks. Between 6,000 and 3,000 years ago, a few uniparental lineages became predominant, likely coinciding with the advent of agriculture, although significant population growth was not observed in the Himalayas except in the Tibetans. In more recent times, we detect bidirectional gene flow between high-altitude and lowland groups, occurring on both sides of the Himalayan range. The timing of this admixture aligns with the rise and expansion of historical regional powers, particularly during the Tibetan Empire and the northern Indian Gupta Empire. In the past few centuries, migrations to the Himalayas seem to have occurred alongside conflicts and population displacements in nearby regions and show some sex bias.
Ayub Qasim、Arciero Elena、Haber Marc、Hallast Pille、Hammoud Cidra、Kraaijenbrink Thirsa、van Driem George、Tyler-Smith Chris、Asan、Mezzavilla Massimo、Xue Yali、Chen Yuan、Jobling Mark A.、Skov Laurits、de Knijff Peter、Almarri Mohamed A.、Yang Huanming
Monash University Malaysia Genomics Platform, School of ScienceWellcome Sanger Institute||Quotient TherapeuticsCancer and Genomic Sciences, College of Medicine and Health, University of Birmingham DubaiWellcome Sanger Institute||The Jackson Laboratory for Genomic MedicineCancer and Genomic Sciences, College of Medicine and Health, University of BirminghamDepartment of Human Genetics, Leiden University Medical CenterInstitut f¨1r Sprachwissenschaft, Universit?t BernWellcome Sanger InstituteBGI-ShenzhenDepartment of Biology, University of PadovaWellcome Sanger InstituteWellcome Sanger InstituteDepartment of Genetics, Genomics and Cancer Sciences, University of Leicester, University RoadSection for Evolutionary Genomics, Globe Institute, University of CopenhagenDepartment of Human Genetics, Leiden University Medical CenterGenome Center, Department of Forensic Science and Criminology College of Medicine, Mohammed Bin Rashid University of Medicine and Health SciencesBGI-Shenzhen
遗传学人类学生物科学现状、生物科学发展
Ayub Qasim,Arciero Elena,Haber Marc,Hallast Pille,Hammoud Cidra,Kraaijenbrink Thirsa,van Driem George,Tyler-Smith Chris,Asan,Mezzavilla Massimo,Xue Yali,Chen Yuan,Jobling Mark A.,Skov Laurits,de Knijff Peter,Almarri Mohamed A.,Yang Huanming.Himalayan whole-genome sequences provide insight into population formation and adaptation[EB/OL].(2025-03-28)[2025-06-30].https://www.biorxiv.org/content/10.1101/2024.11.26.625458.点此复制
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