Cross-host evolution of severe acute respiratory syndrome coronavirus in palm civet and human

Huai‐Dong Song; Changchun Tu; Guowei Zhang; Shengyue Wang; Kui Zheng; Liancheng Lei; Qiuxia Chen; Yuwei Gao; Huiqiong Zhou; Hua Xiang; Huajun Zheng; Huajun Zheng; Shur-Wern Wang Chern; Feng Cheng; Chun‐Ming Pan; Xuan Hua; Sai‐Juan Chen; Huiming Luo; Duan-hua Zhou; Yufei Liu; Jianfeng He; Pengzhe Qin; Linghui Li; Yu-Qi Ren; Wen-Jia Liang; Yedong Yu; Larry J. Anderson; Ming Wang; Ruiheng Xu; Xinwei Wu; Huanying Zheng; Huanying Zheng; Jin-Ding Chen; Guodong Liang; Yang Gao; Ming Liao; Ling Fang; Liyun Jiang; Hui Li; Chen Fang; Biao Di; Lijuan He; Jin-Yan Lin; Suxiang Tong; Xiangang Kong; Lin Du; Pei Hao; Hua Tang; Andrea Bernini; Xiao‐Jing Yu; Ottavia Spiga; Zong-Ming Guo; Haiyan Pan; Weizhong He; Jean‐Claude Manuguerra; Arnaud Fontanet; Antoine Danchin; Neri Niccolai; Yixue Li; Chung‐I Wu; Guoping Zhao

doi:10.1073/pnas.0409608102

Cross-host evolution of severe acute respiratory syndrome coronavirus in palm civet and human

Huai‐Dong Song(Chinese National Human Genome Center), Changchun Tu(Chinese National Human Genome Center), Guowei Zhang(Chinese National Human Genome Center), Shengyue Wang(Chinese National Human Genome Center), Kui Zheng(Chinese National Human Genome Center), Liancheng Lei(Chinese National Human Genome Center), Qiuxia Chen(Chinese National Human Genome Center), Yuwei Gao(Chinese National Human Genome Center), Huiqiong Zhou(Chinese National Human Genome Center), Hua Xiang(Chinese National Human Genome Center), Huajun Zheng(Chinese National Human Genome Center), Huajun Zheng(Chinese National Human Genome Center), Shur-Wern Wang Chern(Chinese National Human Genome Center), Feng Cheng(Chinese National Human Genome Center), Chun‐Ming Pan(Chinese National Human Genome Center), Xuan Hua(Chinese National Human Genome Center), Sai‐Juan Chen(Chinese National Human Genome Center), Huiming Luo(Chinese National Human Genome Center), Duan-hua Zhou(Chinese National Human Genome Center), Yufei Liu(Chinese National Human Genome Center), Jianfeng He(Chinese National Human Genome Center), Pengzhe Qin(Chinese National Human Genome Center), Linghui Li(Chinese National Human Genome Center), Yu-Qi Ren(Chinese National Human Genome Center), Wen-Jia Liang(Chinese National Human Genome Center), Yedong Yu(Chinese National Human Genome Center), Larry J. Anderson(Chinese National Human Genome Center), Ming Wang(Chinese National Human Genome Center), Ruiheng Xu(Chinese National Human Genome Center), Xinwei Wu(Chinese National Human Genome Center), Huanying Zheng(Chinese National Human Genome Center), Huanying Zheng(Chinese National Human Genome Center), Jin-Ding Chen(Chinese National Human Genome Center), Guodong Liang(Chinese National Human Genome Center), Yang Gao(Chinese National Human Genome Center), Ming Liao(Chinese National Human Genome Center), Ling Fang(Chinese National Human Genome Center), Liyun Jiang(Chinese National Human Genome Center), Hui Li(Chinese National Human Genome Center), Chen Fang(Chinese National Human Genome Center), Biao Di(Chinese National Human Genome Center), Lijuan He(Chinese National Human Genome Center), Jin-Yan Lin(Chinese National Human Genome Center), Suxiang Tong(Chinese National Human Genome Center), Xiangang Kong(Chinese National Human Genome Center), Lin Du(Chinese National Human Genome Center), Pei Hao(Chinese National Human Genome Center), Hua Tang(Chinese National Human Genome Center), Andrea Bernini(Chinese National Human Genome Center), Xiao‐Jing Yu(Chinese National Human Genome Center), Ottavia Spiga(Chinese National Human Genome Center), Zong-Ming Guo(Chinese National Human Genome Center), Haiyan Pan(Chinese National Human Genome Center), Weizhong He(Chinese National Human Genome Center), Jean‐Claude Manuguerra(Chinese National Human Genome Center), Arnaud Fontanet(Chinese National Human Genome Center), Antoine Danchin(Chinese National Human Genome Center), Neri Niccolai(Chinese National Human Genome Center), Yixue Li(Chinese National Human Genome Center), Chung‐I Wu(Chinese National Human Genome Center), Guoping Zhao(Chinese National Human Genome Center)

Proceedings of the National Academy of Sciences

February 4, 2005

10.1073/pnas.0409608102

Cited by 736Open Access

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Abstract

The genomic sequences of severe acute respiratory syndrome coronaviruses from human and palm civet of the 2003/2004 outbreak in the city of Guangzhou, China, were nearly identical. Phylogenetic analysis suggested an independent viral invasion from animal to human in this new episode. Combining all existing data but excluding singletons, we identified 202 single-nucleotide variations. Among them, 17 are polymorphic in palm civets only. The ratio of nonsynonymous/synonymous nucleotide substitution in palm civets collected 1 yr apart from different geographic locations is very high, suggesting a rapid evolving process of viral proteins in civet as well, much like their adaptation in the human host in the early 2002-2003 epidemic. Major genetic variations in some critical genes, particularly the Spike gene, seemed essential for the transition from animal-to-human transmission to human-to-human transmission, which eventually caused the first severe acute respiratory syndrome outbreak of 2002/2003.

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