In August 2019, lumpy skin disease occurred for the first time in Xinjiang, China, and then quickly spread to many provinces in China. Here, the virus was isolated from the skin scabs of affected cattle during June 2020 in Guangdong, China. Virus isolation, transmission electron microscopy and polymerase chain reaction identified lumpy skin disease virus (LSDV) in the skin crusts of sick cattle. For the isolation of LSDV, the most sensitive cell line is primary cattle testicular (PCT) cells, while Vero cells cannot be used for the isolation of LSDV. In addition, we evaluated the growth characteristics of LSDV in vitro. Compared with MDBK and Vero cells, LSDV produced higher virus titters in PCT cells at 72 h. Phylogenetic analysis based on second-generation sequencing of the LSDV whole genome showed that the isolated virus (LSDV/MZGD/2020) is closely related to Asian strains and formed a new branch. LSDV/MZGD/2020 is also a vaccine recombinant strain that is distinct from the recombinant strain found in Russia. Through Recombination Detection Program (RDP), Simplot and phylogenetic analyses, strong evidence for recombination events was found in Chinese field LSDV strains. The China LSDV/MZGD/2020 strain may be the result of multiple recombination events between the Neethling 2490 and Neethling vaccine LW 1959 strains. This study expands our knowledge of the genetic diversity and evolution of LSDV.
Keywords: genome; lumpy skin disease; recombination; virus isolation.
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