The yak genome and adaptation to life at high altitude

Qiang Qiu(Lanzhou University), Guojie Zhang(BGI Group (China)), Tao Ma(Lanzhou University), Wubin Qian(BGI Group (China)), Junyi Wang(BGI Group (China)), Zhiqiang Ye(Kunming Institute of Zoology), Changchang Cao(BGI Group (China)), Quanjun Hu(Lanzhou University), Jaebum Kim(University of Illinois Urbana-Champaign), Denis M. Larkin(Institute of Biological, Environmental and Rural Sciences), Loretta Auvil(University of Illinois Urbana-Champaign), Boris Capitanu(National Center for Supercomputing Applications), Jian Ma(University of Illinois Urbana-Champaign), Harris A. Lewin(University of California, Davis), Xiaoju Qian(BGI Group (China)), Yongshan Lang(BGI Group (China)), Ran Zhou(Lanzhou University), Lizhong Wang(Lanzhou University), Kun Wang(Lanzhou University), Jinquan Xia(BGI Group (China)), Sheng-Guang Liao(BGI Group (China)), Shengkai Pan(BGI Group (China)), Xu Lu(Lanzhou University), Haolong Hou(BGI Group (China)), Yan Wang(BGI Group (China)), Xuetao Zang(BGI Group (China)), Ye Yin(BGI Group (China)), Hui Ma(Lanzhou University), Jian Zhang(Lanzhou University), Zhaofeng Wang(Lanzhou University), Yingmei Zhang(BGI Group (China)), Dawei Zhang(Lanzhou University), Takahiro Yonezawa(Fudan University), Masami Hasegawa(Fudan University), Yang Zhong(Fudan University), Wenbin Liu(BGI Group (China)), Yan Zhang(Lanzhou University), Zhiyong Huang(BGI Group (China)), Shengxiang Zhang(Lanzhou University), Ruijun Long(Lanzhou University), Huanming Yang(BGI Group (China)), Jian Wang(BGI Group (China)), Johannes A. Lenstra(Utrecht University), D.N. Cooper(Cardiff University), Yi Wu(Lanzhou University), Jun Wang(BGI Group (China)), Peng Shi(Chinese Academy of Sciences), Jian Wang(BGI Group (China)), Jianquan Liu(Lanzhou University)
Nature Genetics
July 1, 2012
10.1038/ng.2343
Cited by 1,026Open Access
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Abstract

Domestic yaks (Bos grunniens) provide meat and other necessities for Tibetans living at high altitude on the Qinghai-Tibetan Plateau and in adjacent regions. Comparison between yak and the closely related low-altitude cattle (Bos taurus) is informative in studying animal adaptation to high altitude. Here, we present the draft genome sequence of a female domestic yak generated using Illumina-based technology at 65-fold coverage. Genomic comparisons between yak and cattle identify an expansion in yak of gene families related to sensory perception and energy metabolism, as well as an enrichment of protein domains involved in sensing the extracellular environment and hypoxic stress. Positively selected and rapidly evolving genes in the yak lineage are also found to be significantly enriched in functional categories and pathways related to hypoxia and nutrition metabolism. These findings may have important implications for understanding adaptation to high altitude in other animal species and for hypoxia-related diseases in humans.

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