The first genome sequence derived from buffalo highly similar to porcine-origin sequences reveals potential cross-species transmission of Seneca Valley virus

Xia Zhou; Weifang Liang; Dianhong Lv; Guangbin Si; JH Li; Zhifei Chen; Weiyou Cai; Qi Zhai; Shao-Lun Zhai; Dong-Sheng He

doi:10.22541/au.160396938.85875907/v1

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The first genome sequence derived from buffalo highly similar to porcine-origin sequences reveals potential cross-species transmission of Seneca Valley virus

Xia Zhou,
Weifang Liang,
Dianhong Lv,
Guangbin Si,
JH Li,
Zhifei Chen,
Weiyou Cai,
Qi Zhai,
Shao-Lun Zhai,
Dong-Sheng He

Abstract

Seneca Valley virus (SVV) strain (SVA/GD/China/2018) was first isolated from a buffalo farm in Guangdong, China, using seven mammalian cell lines. A genetic analysis revealed that SVA/GD/China/2018 had a high nucleotide similarity with the porcine-origin SVV strains, revealing potential cross-species transmission of SVV from pigs to buffaloes.