Wang Xiuge, Ju Zhihua, Jiang Qiang, Zhong Jifeng, Liu Chengkun, Wang Jinpeng, Hoff Jesse L, Schnabel Robert D, Zhao Han, Gao Yaping, Liu Wenhao, Wang Lingling, Gao Yundong, Yang Chunhong, Hou Minghai, Huang Ning, Regitano Luciana C A, Porto-Neto Laercio R, Decker Jared E, Taylor Jeremy F, Huang Jinming
Dairy Cattle Research Center, Shandong Academy of Agricultural Sciences, Jinan, Shandong 250131, China.
Dairy Cattle Research Center, Shandong Academy of Agricultural Sciences, Jinan, Shandong 250131, China; Institute of Animal Science, Jiangsu Academy of Agricultural Sciences, Nanjing, Jiangsu 210014, China.
Genomics. 2021 May;113(3):1491-1503. doi: 10.1016/j.ygeno.2021.03.023. Epub 2021 Mar 23.
Domestication and subsequent selection of cattle to form breeds and biological types that can adapt to different environments partitioned ancestral genetic diversity into distinct modern lineages. Genome-wide selection particularly for adaptation to extreme environments left detectable signatures genome-wide. We used high-density genotype data for 42 cattle breeds and identified the influence of Bos grunniens and Bos javanicus on the formation of Chinese indicine breeds that led to their divergence from India-origin zebu. We also found evidence for introgression, admixture, and migration in most of the Chinese breeds. Selection signature analyses between high-altitude (≥1800 m) and low-altitude adapted breeds (<1500 m) revealed candidate genes (ACSS2, ALDOC, EPAS1, EGLN1, NUCB2) and pathways that are putatively involved in hypoxia adaptation. Immunohistochemical, real-time PCR and CRISPR/cas9 ACSS2-knockout analyses suggest that the up-regulation of ACSS2 expression in the liver promotes the metabolic adaptation of cells to hypoxia via the hypoxia-inducible factor pathway. High altitude adaptation involved the introgression of alleles from high-altitude adapted yaks into Chinese Bos taurus taurus prior to their formation into recognized breeds and followed by selection. In addition to selection, adaptation to high altitude environments has been facilitated by admixture and introgression with locally adapted cattle populations.
牛的驯化以及随后为形成能适应不同环境的品种和生物类型而进行的选择,将祖先的遗传多样性划分到了不同的现代谱系中。全基因组选择,尤其是为适应极端环境而进行的选择,在全基因组中留下了可检测的特征。我们使用了42个牛品种的高密度基因型数据,确定了牦牛和爪哇牛对中国瘤牛品种形成的影响,这导致了它们与印度起源的瘤牛产生分化。我们还发现了大多数中国品种存在基因渗入、混合和迁移的证据。对高海拔(≥1800米)和低海拔适应品种(<1500米)之间的选择特征分析揭示了可能参与低氧适应的候选基因(ACSS2、ALDOC、EPAS1、EGLN1、NUCB2)和途径。免疫组织化学、实时PCR和CRISPR/cas9 ACSS2基因敲除分析表明,肝脏中ACSS2表达的上调通过低氧诱导因子途径促进细胞对低氧的代谢适应。高海拔适应涉及在形成公认品种之前,将来自高海拔适应牦牛的等位基因渗入中国普通牛中,随后进行选择。除了选择之外,与当地适应的牛群进行混合和基因渗入也促进了对高海拔环境的适应。
