Convergent genomic signatures of high-Altitude adaptation among domestic mammals

Dong Dong Wu; Cui Ping Yang; Ming Shan Wang; Kun Zhe Dong; Da Wei Yan; Zi Qian Hao; Song Qing Fan; Shu Zhou Chu; Qiu Shuo Shen; Li Ping Jiang; Yan Li; Lin Zeng; He Qun Liu; Hai Bing Xie; Yun Fei Ma; Xiao Yan Kong; Shu Li Yang; Xin Xing Dong; Ali Esmailizadeh; David M. Irwin; Xiao Xiao; Ming Li; Yang Dong; Wen Wang; Peng Shi; Hai Peng Li; Yue Hui Ma; Xiao Gou; Yong Bin Chen; Ya Ping Zhang

doi:10.1093/nsr/nwz213

Convergent genomic signatures of high-Altitude adaptation among domestic mammals

Dong Dong Wu, Cui Ping Yang, Ming Shan Wang, Kun Zhe Dong, Da Wei Yan, Zi Qian Hao, Song Qing Fan, Shu Zhou Chu, Qiu Shuo Shen, Li Ping Jiang, Yan Li, Lin Zeng, He Qun Liu, Hai Bing Xie, Yun Fei Ma, Xiao Yan Kong, Shu Li Yang, Xin Xing Dong, Ali Esmailizadeh, David M. IrwinXiao Xiao, Ming Li, Yang Dong, Wen Wang, Peng Shi, Hai Peng Li, Yue Hui Ma, Xiao Gou, Yong Bin Chen, Ya Ping Zhang

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

Abundant and diverse domestic mammals living on the Tibetan Plateau provide useful materials for investigating adaptive evolution and genetic convergence. Here, we used 327 genomes from horses, sheep, goats, cattle, pigs and dogs living at both high and low altitudes, including 73 genomes generated for this study, to disentangle the genetic mechanisms underlying local adaptation of domestic mammals. Although molecular convergence is comparatively rare at the DNA sequence level, we found convergent signature of positive selection at the gene level, particularly the EPAS1 gene in these Tibetan domestic mammals. We also reported a potential function in response to hypoxia for the gene C10orf67, which underwent positive selection in three of the domestic mammals. Our data provide an insight into adaptive evolution of high-Altitude domestic mammals, and should facilitate the search for additional novel genes involved in the hypoxia response pathway.

Original language	English (US)
Pages (from-to)	952-963
Number of pages	12
Journal	National Science Review
Volume	7
Issue number	6
DOIs	https://doi.org/10.1093/nsr/nwz213
State	Published - Jun 1 2020
Externally published	Yes

Keywords

Tibetan Plateau
convergent evolution
domestic animals
genome
high altitude

ASJC Scopus subject areas

General

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10.1093/nsr/nwz213

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Wu, D. D., Yang, C. P., Wang, M. S., Dong, K. Z., Yan, D. W., Hao, Z. Q., Fan, S. Q., Chu, S. Z., Shen, Q. S., Jiang, L. P., Li, Y., Zeng, L., Liu, H. Q., Xie, H. B., Ma, Y. F., Kong, X. Y., Yang, S. L., Dong, X. X., Esmailizadeh, A., ... Zhang, Y. P. (2020). Convergent genomic signatures of high-Altitude adaptation among domestic mammals. National Science Review, 7(6), 952-963. https://doi.org/10.1093/nsr/nwz213

Wu, DD, Yang, CP, Wang, MS, Dong, KZ, Yan, DW, Hao, ZQ, Fan, SQ, Chu, SZ, Shen, QS, Jiang, LP, Li, Y, Zeng, L, Liu, HQ, Xie, HB, Ma, YF, Kong, XY, Yang, SL, Dong, XX, Esmailizadeh, A, Irwin, DM, Xiao, X, Li, M, Dong, Y, Wang, W, Shi, P, Li, HP, Ma, YH, Gou, X, Chen, YB & Zhang, YP 2020, 'Convergent genomic signatures of high-Altitude adaptation among domestic mammals', National Science Review, vol. 7, no. 6, pp. 952-963. https://doi.org/10.1093/nsr/nwz213

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title = "Convergent genomic signatures of high-Altitude adaptation among domestic mammals",

abstract = "Abundant and diverse domestic mammals living on the Tibetan Plateau provide useful materials for investigating adaptive evolution and genetic convergence. Here, we used 327 genomes from horses, sheep, goats, cattle, pigs and dogs living at both high and low altitudes, including 73 genomes generated for this study, to disentangle the genetic mechanisms underlying local adaptation of domestic mammals. Although molecular convergence is comparatively rare at the DNA sequence level, we found convergent signature of positive selection at the gene level, particularly the EPAS1 gene in these Tibetan domestic mammals. We also reported a potential function in response to hypoxia for the gene C10orf67, which underwent positive selection in three of the domestic mammals. Our data provide an insight into adaptive evolution of high-Altitude domestic mammals, and should facilitate the search for additional novel genes involved in the hypoxia response pathway.",

keywords = "Tibetan Plateau, convergent evolution, domestic animals, genome, high altitude",

author = "Wu, {Dong Dong} and Yang, {Cui Ping} and Wang, {Ming Shan} and Dong, {Kun Zhe} and Yan, {Da Wei} and Hao, {Zi Qian} and Fan, {Song Qing} and Chu, {Shu Zhou} and Shen, {Qiu Shuo} and Jiang, {Li Ping} and Yan Li and Lin Zeng and Liu, {He Qun} and Xie, {Hai Bing} and Ma, {Yun Fei} and Kong, {Xiao Yan} and Yang, {Shu Li} and Dong, {Xin Xing} and Ali Esmailizadeh and Irwin, {David M.} and Xiao Xiao and Ming Li and Yang Dong and Wen Wang and Peng Shi and Li, {Hai Peng} and Ma, {Yue Hui} and Xiao Gou and Chen, {Yong Bin} and Zhang, {Ya Ping}",

note = "Publisher Copyright: {\textcopyright} 2020 The Author(s) 2020. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd.",

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doi = "10.1093/nsr/nwz213",

language = "English (US)",

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AU - Yang, Cui Ping

AU - Wang, Ming Shan

AU - Dong, Kun Zhe

AU - Yan, Da Wei

AU - Hao, Zi Qian

AU - Fan, Song Qing

AU - Chu, Shu Zhou

AU - Shen, Qiu Shuo

AU - Jiang, Li Ping

AU - Li, Yan

AU - Zeng, Lin

AU - Liu, He Qun

AU - Xie, Hai Bing

AU - Ma, Yun Fei

AU - Kong, Xiao Yan

AU - Yang, Shu Li

AU - Dong, Xin Xing

AU - Esmailizadeh, Ali

AU - Irwin, David M.

AU - Xiao, Xiao

AU - Li, Ming

AU - Dong, Yang

AU - Wang, Wen

AU - Shi, Peng

AU - Li, Hai Peng

AU - Ma, Yue Hui

AU - Gou, Xiao

AU - Chen, Yong Bin

AU - Zhang, Ya Ping

PY - 2020/6/1

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N2 - Abundant and diverse domestic mammals living on the Tibetan Plateau provide useful materials for investigating adaptive evolution and genetic convergence. Here, we used 327 genomes from horses, sheep, goats, cattle, pigs and dogs living at both high and low altitudes, including 73 genomes generated for this study, to disentangle the genetic mechanisms underlying local adaptation of domestic mammals. Although molecular convergence is comparatively rare at the DNA sequence level, we found convergent signature of positive selection at the gene level, particularly the EPAS1 gene in these Tibetan domestic mammals. We also reported a potential function in response to hypoxia for the gene C10orf67, which underwent positive selection in three of the domestic mammals. Our data provide an insight into adaptive evolution of high-Altitude domestic mammals, and should facilitate the search for additional novel genes involved in the hypoxia response pathway.

AB - Abundant and diverse domestic mammals living on the Tibetan Plateau provide useful materials for investigating adaptive evolution and genetic convergence. Here, we used 327 genomes from horses, sheep, goats, cattle, pigs and dogs living at both high and low altitudes, including 73 genomes generated for this study, to disentangle the genetic mechanisms underlying local adaptation of domestic mammals. Although molecular convergence is comparatively rare at the DNA sequence level, we found convergent signature of positive selection at the gene level, particularly the EPAS1 gene in these Tibetan domestic mammals. We also reported a potential function in response to hypoxia for the gene C10orf67, which underwent positive selection in three of the domestic mammals. Our data provide an insight into adaptive evolution of high-Altitude domestic mammals, and should facilitate the search for additional novel genes involved in the hypoxia response pathway.

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Convergent genomic signatures of high-Altitude adaptation among domestic mammals

Abstract

Keywords

ASJC Scopus subject areas

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