Author: Lee, Sunhee; Lee, Changhee
Title: First detection of novel enterovirus G recombining a torovirus papainâ€like protease gene associated with diarrhoea in swine in South Korea Cord-id: 31cola6l Document date: 2018_12_1
ID: 31cola6l
Snippet: Enterovirus species G (EVâ€G) comprises a highly diversity of 20 genotypes that is prevalent in pig populations, with or without diarrhoea. In the present study, a novel EVâ€G strain (KOR/KNUâ€1811/2018) that resulted from crossâ€order recombination was discovered in diagnostic faecal samples from neonatal pigs with diarrhoea that were negative for swine enteric coronaviruses and rotavirus. The recombinant EVâ€G genome possessed an exogenous 594â€nucleotide (198â€amino acid) sequence, fla
Document: Enterovirus species G (EVâ€G) comprises a highly diversity of 20 genotypes that is prevalent in pig populations, with or without diarrhoea. In the present study, a novel EVâ€G strain (KOR/KNUâ€1811/2018) that resulted from crossâ€order recombination was discovered in diagnostic faecal samples from neonatal pigs with diarrhoea that were negative for swine enteric coronaviruses and rotavirus. The recombinant EVâ€G genome possessed an exogenous 594â€nucleotide (198â€amino acid) sequence, flanked by two viral 3C(pro) cleavage sites at the 5′ and 3′ ends in its 2C/3A junction region. This insertion encoded a predicted protease similar to the porcine torovirus papainâ€like cysteine protease (PLCP), which was recently found in the EVâ€G1, â€G2, and â€G17 genomes. The complete KNUâ€1811 genome shared 73.7% nucleotide identity with a prototype EVâ€G1 strain, but had 83.9%–86.7% sequence homology with the global EVâ€G1â€PLCP strains. Genetic and phylogenetic analyses demonstrated that the Korean recombinant EVâ€G's own VP1 and inserted foreign PLCP genes are most closely related independently to contemporary chimeric G1â€PLCP and G17â€PLCP strains respectively. These results implied that the torovirusâ€derived PLCP gene might have undergone continuous nucleotide mutations in the respective EVâ€G genome following its independent acquisition through naturally occurring recombination. Our results advance the understanding of the genetic evolution of EVâ€G driven by infrequent viral recombination events, by which EVâ€G populations laterally gain an exotic gene encoding a virulence factor from heterogeneous virus families, thereby causing clinical disease in swine.
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