Molecular Evolution Analysis and Geographic Investigation of Severe Acute Respiratory Syndrome Coronavirus-Like Virus in Palm Civets at an Animal Market and on Farms

Biao Kan , Ming Wang , Huaiqi Jing , Biao Kan , Ming Wang , Huaiqi Jing , Huifang Xu , Xiugao Jiang , Meiying Yan , Weili Liang , Han Zheng , Kanglin Wan , Qiyong Liu , Buyun Cui , Yanmei Xu , Enmin Zhang , Hongxia Wang , Jingrong Ye , Guichang Li , Machao Li , Zhigang Cui , Xiaobao Qi , Kai Chen , Lin Du , Kai Gao , Yu-teng Zhao , Xiao-zhong Zou , Yue-Ju Feng , Yu-Fan Gao , Rong Hai , Dongzhen Yu , Yi Guan , Jianguo Xu
2005 Journal of Virology 353 citations

Abstract

ABSTRACT Massive numbers of palm civets were culled to remove sources for the reemergence of severe acute respiratory syndrome (SARS) in Guangdong Province, China, in January 2004, following SARS coronavirus detection in market animals. The virus was identified in all 91 palm civets and 15 raccoon dogs of animal market origin sampled prior to culling, but not in 1,107 palm civets later sampled at 25 farms, spread over 12 provinces, which were claimed to be the source of traded animals. Twenty-seven novel signature variation residues (SNVs) were identified on the spike gene and were analyzed for their phylogenetic relationships, based on 17 sequences obtained from animals in our study and from other published studies. Analysis indicated that the virus in palm civets at the live-animal market had evolved to infect humans. The evolutionary starting point was a prototype group consisting of three viral sequences of animal origin. Initially, seven SNV sites caused six amino acid changes, at positions 147, 228, 240, 479, 821, and 1080 of the spike protein, to generate low-pathogenicity viruses. One of these was linked to the first SARS patient in the 2003-2004 period. A further 14 SNVs caused 11 amino acid residue changes, at positions 360, 462, 472, 480, 487, 609, 613, 665, 743, 765, and 1163. The resulting high-pathogenicity groups were responsible for infections during the so-called early-phase epidemic of 2003. Finally, the remaining six SNVs caused four amino acid changes, at positions 227, 244, 344, and 778, which resulted in the group of viruses responsible for the global epidemic.

Keywords

BiologyPalmVirologyCoronavirusCoronavirus disease 2019 (COVID-19)Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)2019-20 coronavirus outbreakRespiratory systemCoronavirus InfectionsBetacoronavirusPathologyOutbreakAnatomyMedicineInfectious disease (medical specialty)

MeSH Terms

Amino Acid SequenceAnimalsAnimalsDomesticChinaDisease OutbreaksDisease ReservoirsEvolutionMolecularGenetic VariationHumansMembrane GlycoproteinsMolecular Sequence DataPhylogenyRaccoon DogsSevere acute respiratory syndrome-related coronavirusSequence HomologyAmino AcidSevere Acute Respiratory SyndromeSpike GlycoproteinCoronavirusViral Envelope ProteinsViverridae

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Publication Info

Year
2005
Type
article
Volume
79
Issue
18
Pages
11892-11900
Citations
353
Access
Closed

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Cite This

Biao Kan, Ming Wang, Huaiqi Jing et al. (2005). Molecular Evolution Analysis and Geographic Investigation of Severe Acute Respiratory Syndrome Coronavirus-Like Virus in Palm Civets at an Animal Market and on Farms. Journal of Virology , 79 (18) , 11892-11900. https://doi.org/10.1128/jvi.79.18.11892-11900.2005

Identifiers

DOI
10.1128/jvi.79.18.11892-11900.2005
PMID
16140765
PMCID
PMC1212604

Data Quality

Data completeness: 90%