Whole-genome sequences of 89 Chinese sheep suggest role of <i>RXFP2</i> in the development of unique horn phenotype as response to semi-feralization

Zhangyuan Pan; Shengdi Li; Qiuyue Liu; Zhen Wang; Zhengkui Zhou; Ran Di; Benpeng Miao; Wenping Hu; Xiangyu Wang; Xiaoxiang Hu; Ze Xu; Dongkai Wei; Xiaoyun He; Liyun Yuan; Xiaofei Guo; Benmeng Liang; Ruichao Wang; Xiaoyu Li; Xiaohan Cao; Xinlong Dong; Qing Xia; Hongcai Shi; Geng Hao; Jean Yang; Cuicheng Luosang; Yiqiang Zhao; Mei Jin; Yingjie Zhang; Shenjin Lv; Fukuan Li; Guohui Ding; Mingxing Chu; Yixue Li

doi:10.1093/gigascience/giy019

Whole-genome sequences of 89 Chinese sheep suggest role of <i>RXFP2</i> in the development of unique horn phenotype as response to semi-feralization

Zhangyuan Pan(Linyi University), Shengdi Li(Chinese Academy of Sciences), Qiuyue Liu(Chinese Academy of Agricultural Sciences), Zhen Wang(Chinese Academy of Sciences), Zhengkui Zhou(Chinese Academy of Agricultural Sciences), Ran Di(Chinese Academy of Agricultural Sciences), Benpeng Miao(Chinese Academy of Sciences), Wenping Hu(Chinese Academy of Agricultural Sciences), Xiangyu Wang(Chinese Academy of Agricultural Sciences), Xiaoxiang Hu(China Agricultural University), Ze Xu, Dongkai Wei, Xiaoyun He(Chinese Academy of Agricultural Sciences), Liyun Yuan(Chinese Academy of Sciences), Xiaofei Guo(Chinese Academy of Agricultural Sciences), Benmeng Liang(Chinese Academy of Agricultural Sciences), Ruichao Wang(Chinese Academy of Sciences), Xiaoyu Li(Chinese Academy of Agricultural Sciences), Xiaohan Cao(Chinese Academy of Agricultural Sciences), Xinlong Dong(Chinese Academy of Agricultural Sciences), Qing Xia(Chinese Academy of Agricultural Sciences), Hongcai Shi(Xinjiang Academy of Animal Science), Geng Hao(Xinjiang Academy of Animal Science), Jean Yang(Tibet Academy of Agricultural and Animal Husbandry Sciences), Cuicheng Luosang(Tibet Academy of Agricultural and Animal Husbandry Sciences), Yiqiang Zhao(China Agricultural University), Mei Jin(Liaoning Normal University), Yingjie Zhang(Hebei Agricultural University), Shenjin Lv(Linyi University), Fukuan Li(Linyi University), Guohui Ding(Chinese Academy of Sciences), Mingxing Chu(Chinese Academy of Agricultural Sciences), Yixue Li(Chinese Academy of Sciences)

GigaScience

March 7, 2018

10.1093/gigascience/giy019

Cited by 157Open Access

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Abstract

Background: Animal domestication has been extensively studied, but the process of feralization remains poorly understood. Results: Here, we performed whole-genome sequencing of 99 sheep and identified a primary genetic divergence between 2 heterogeneous populations in the Tibetan Plateau, including 1 semi-feral lineage. Selective sweep and candidate gene analysis revealed local adaptations of these sheep associated with sensory perception, muscle strength, eating habit, mating process, and aggressive behavior. In particular, a horn-related gene, RXFP2, showed signs of rapid evolution specifically in the semi-feral breeds. A unique haplotype and repressed horn-related tissue expression of RXFP2 were correlated with higher horn length, as well as spiral and horizontally extended horn shape. Conclusions: Semi-feralization has an extensive impact on diverse phenotypic traits of sheep. By acquiring features like those of their wild ancestors, semi-feral sheep were able to regain fitness while in frequent contact with wild surroundings and rare human interventions. This study provides a new insight into the evolution of domestic animals when human interventions are no longer dominant.

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