Your search keyword '"He, Yaoxi"' showing total 4 results

1. Large-scale genome sequencing redefines the genetic footprints of high-altitude adaptation in Tibetans.

Author

Zheng W, He Y, Guo Y, Yue T, Zhang H, Li J, Zhou B, Zeng X, Li L, Wang B, Cao J, Chen L, Li C, Li H, Cui C, Bai C, Baimakangzhuo, Qi X, Ouzhuluobu, and Su B

Subjects

Reproducibility of Results, Selection, Genetic, Humans, Genome, Human, Adaptation, Physiological genetics, Altitude

Abstract

Background: Tibetans are genetically adapted to high-altitude environments. Though many studies have been conducted, the genetic basis of the adaptation remains elusive due to the poor reproducibility for detecting selective signatures in the Tibetan genomes., Results: Here, we present whole-genome sequencing (WGS) data of 1001 indigenous Tibetans, covering the major populated areas of the Qinghai-Tibetan Plateau in China. We identify 35 million variants, and more than one-third of them are novel variants. Utilizing the large-scale WGS data, we construct a comprehensive map of allele frequency and linkage disequilibrium and provide a population-specific genome reference panel, referred to as 1KTGP. Moreover, with the use of a combined approach, we redefine the signatures of Darwinian-positive selection in the Tibetan genomes, and we characterize a high-confidence list of 4320 variants and 192 genes that have undergone selection in Tibetans. In particular, we discover four new genes, TMEM132C, ATP13A3, SANBR, and KHDRBS2, with strong signals of selection, and they may account for the adaptation of cardio-pulmonary functions in Tibetans. Functional annotation and enrichment analysis indicate that the 192 genes with selective signatures are likely involved in multiple organs and physiological systems, suggesting polygenic and pleiotropic effects., Conclusions: Overall, the large-scale Tibetan WGS data and the identified adaptive variants/genes can serve as a valuable resource for future genetic and medical studies of high-altitude populations., (© 2023. The Author(s).)

Published

2023

2. Genetic adaptation of skin pigmentation in highland Tibetans.

Author

Yang Z, Bai C, Pu Y, Kong Q, Guo Y, Liu X, Zhao Q, Qiu Z, Zheng W, He Y, Lin Y, Deng L, Zhang C, Xu S, Peng Y, Xiang K, Zhang X, Cui C, Pan Y, Xin J, Wang Y, Liu S, Wang L, Guo H, Feng Z, Wang S, Shi H, Jiang B, Wu T, Qi X, and Su B

Subjects

Acyltransferases genetics, Ethnicity, Humans, Melanins genetics, Phenotype, Tibet, Transcriptome, Ultraviolet Rays, Adaptation, Physiological genetics, Altitude, Skin Pigmentation genetics

Abstract

Strong ultraviolet (UV) radiation at high altitude imposes a serious selective pressure, which may induce skin pigmentation adaptation of indigenous populations. We conducted skin pigmentation phenotyping and genome-wide analysis of Tibetans in order to understand the underlying mechanism of adaptation to UV radiation. We observe that Tibetans have darker baseline skin color compared with lowland Han Chinese, as well as an improved tanning ability, suggesting a two-level adaptation to boost their melanin production. A genome-wide search for the responsible genes identifies GNPAT showing strong signals of positive selection in Tibetans. An enhancer mutation (rs75356281) located in GNPAT intron 2 is enriched in Tibetans (58%) but rare in other world populations (0 to 18%). The adaptive allele of rs75356281 is associated with darker skin in Tibetans and, under UVB treatment, it displays higher enhancer activities compared with the wild-type allele in in vitro luciferase assays. Transcriptome analyses of gene-edited cells clearly show that with UVB treatment, the adaptive variant of GNPAT promotes melanin synthesis, likely through the interactions of CAT and ACAA1 in peroxisomes with other pigmentation genes, and they act synergistically, leading to an improved tanning ability in Tibetans for UV protection.

Published

2022

3. The Transcriptomic Landscape of Yaks Reveals Molecular Pathways for High Altitude Adaptation.

Author

Qi X, Zhang Q, He Y, Yang L, Zhang X, Shi P, Yang L, Liu Z, Zhang F, Liu F, Liu S, Wu T, Cui C, Ouzhuluobu, Bai C, Baimakangzhuo, Han J, Zhao S, Liang C, and Su B

Subjects

Animals, Cattle genetics, Gene Expression, Hypoxia metabolism, Lung metabolism, Male, Molecular Sequence Annotation, Myocardium metabolism, Signal Transduction, Adaptation, Biological, Altitude, Cattle metabolism, Transcriptome

Abstract

Yak is one of the largest native mammalian species at the Himalayas, the highest plateau area in the world with an average elevation of >4,000 m above the sea level. Yak is well adapted to high altitude environment with a set of physiological features for a more efficient blood flow for oxygen delivery under hypobaric hypoxia. Yet, the genetic mechanism underlying its adaptation remains elusive. We conducted a cross-tissue, cross-altitude, and cross-species study to characterize the transcriptomic landscape of domestic yaks. The generated multi-tissue transcriptomic data greatly improved the current yak genome annotation by identifying tens of thousands novel transcripts. We found that among the eight tested tissues (lung, heart, kidney, liver, spleen, muscle, testis, and brain), lung and heart are two key organs showing adaptive transcriptional changes and >90% of the cross-altitude differentially expressed genes in lung display a nonlinear regulation. Pathways related to cell survival and proliferation are enriched, including PI3K-Akt, HIF-1, focal adhesion, and ECM-receptor interaction. These findings, in combination with the comprehensive transcriptome data set, are valuable to understanding the genetic mechanism of hypoxic adaptation in yak.

Published

2019

4. Cross-altitude analysis suggests a turning point at the elevation of 4,500 m for polycythemia prevalence in Tibetans.

Author

Zhang H, He Y, Cui C, Ouzhuluobu, Baimakangzhuo, Duojizhuoma, Dejiquzong, Bianba, Gonggalanzi, Pan Y, Qula, Kangmin, Cirenyangji, Baimayangji, Bai C, Guo W, Yangla, Peng Y, Zhang X, Xiang K, Yang Z, Liu S, Tao X, Gengdeng, Zheng W, Guo Y, Wu T, Qi X, and Su B

Subjects

Acclimatization genetics, Adult, Altitude Sickness blood, Altitude Sickness genetics, Ethnicity genetics, Female, Hemoglobins analysis, Humans, Male, Polycythemia blood, Polycythemia etiology, Polycythemia genetics, Prevalence, Tibet epidemiology, Altitude, Altitude Sickness epidemiology, Polycythemia epidemiology, Selection, Genetic

Published

2017