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Genetic evolution and epidemiological analysis of Seneca Valley virus (SVV) in China
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  • Jinyong Zhang,
  • He Zhang,
  • Wenchao Sun,
  • Cui Jiao,
  • Pengpeng Xiao,
  • Jicheng Han,
  • Fulong Nan,
  • changzhan xie,
  • Zhuo Ha,
  • Zhuoxin Li,
  • Yu-biao Xie,
  • Yuan Meng,
  • Huijun Lu,
  • Ningyi Jin
Jinyong Zhang

Corresponding Author:jinyongnh@163.com

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Wenchao Sun
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Pengpeng Xiao
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Jicheng Han
Academy of Military Sciences
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Fulong Nan
Academy of Military Sciences
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changzhan xie
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Zhuo Ha
Northeast Agricultural University
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Zhuoxin Li
Yanbian University
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Yu-biao Xie
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Huijun Lu
Academy of Military Sciences
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Ningyi Jin
Academy of Military Sciences
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Abstract

Seneca Valley virus (SVV) is a novel Picornaviridae that is closely associated with porcine idiopathic vesicular disease (PIVD). Here, we report the detection and isolation of a novel strain of SVV, CH-GX-01-2019, from swine in Guangxi Province, China. The complete genomic sequence of CH-GX-01-2019 exhibited 93.3 - 98.9% identify with other SVV isolates at the nucleotide level. This new strain of SVV showed the highest level of similarity (98.9%) with Vietnamese strains and exhibited two consecutive mutations in the VP1 gene. Phylogenetic analysis based on the complete genome and the VP1 gene showed that Chinese forms of SVV can be divided into three clusters. We analyzed the geographical distributions of SVV strains in China and found that the epidemiology of these viruses in China is complicated; most strains are distributed predominantly in south and central China. Between 2015 and 2019, the dominant epidemic strains of Chinese SSV changed from clusters 1 and 3 to cluster 2. CH-GX-01-2019 (cluster 3) represents a recombinant strain from Colombia-2016 (cluster 2) and HB-CH-2016 (cluster 1). Our findings will enhance our understanding of the prevalence and genetic variation of SVV in the swine herds of China and provide important insights into the molecular epidemiology of SVV.
Jan 2021Published in Virus Research volume 291 on pages 198177. 10.1016/j.virusres.2020.198177