Porcine deltacoronavirus (PDCoV) was detected by RT-PCR in 12 of 97 (12.4%) intestinal samples collected during 2015 from piglets with diarrhoea in Thailand, Vietnam and Lao PDR. Spike, membrane and nucleocapsid genes were characterized, and phylogenetic analyses demonstrated that PDCoV isolates from Thai and Lao PDR form a novel cluster, separated from US and China isolates, but relatively were more closely related to China PDCoV than US isolates. Vietnam PDCoVs, however, were grouped together with US PDCoV. The analyses of amino acid changes suggested that they were from different lineage.
SummaryWe report the first detection of Senecavirus A (SVA) in nine of 12 (75%) pigs in Thailand in 2016. The full-length genome demonstrated that Thai SVA isolates were closely related to the first Canada strain (11-55910-3) than the recent strains causing outbreaks in Brazil, the United States and China in 2015-2016.
Porcine deltacoronavirus (PDCoV) has been reported in many countries, including Hong Kong, the United States, South Korea, China and Thailand. In January 2016, clinical diarrhea similar to that of porcine epidemic diarrhea virus (PEDV) with a lower mortality rate was reported on a swine farm in Lao PDR. Intestine samples were collected from 3-day-old pigs with clinical diarrhea and assayed for the presence of swine enteric coronaviruses. The PCR results were positive for PDCoV but negative for PEDV and TGEV. A phylogenetic tree demonstrated that PDCoV from Lao PDR was grouped separately from PDCoV isolates from China and the USA, but was more closely related to the Chinese isolates than to the US isolates. The full-length genome sequence of the novel PDCoV isolate P1_16_BTL_0116 was determined.
Increased evidence of porcine deltacoronavirus (PDCoV) causing diarrhoea in pigs has been reported in several countries worldwide. The virus has currently evolved into three separated groups including US, China and Southeast Asia (SEA) groups. In Vietnam, PDCoV was first reported in 2015. Based on phylogenetic analyses of spike, membrane and nucleocapsid genes, it is suggested that Vietnam PDCoV is chimeric virus. In the present study, we retrospectively investigated the presence of PDCoV in Vietnam and the full‐length genomes of six PDCoV isolates identified in 2014–2016 were further characterized. The results demonstrated that Vietnam PDCoV was first detected as early as 2014. All six Vietnam PDCoV are in the SEA group and further divided into two separated subgroups including SEA‐1 and SEA‐2. Vietnam PDCoV in SEA‐2 was closely related to Thai and Lao PDCoV. Recombination analysis demonstrated that three isolates in SEA‐1 were a chimeric virus of which P12_14_VN_0814, the first Vietnam isolate, and US PDCoV isolates were major and minor parents, respectively. The recombination was further evaluated by phylogenetic construction based on 3 recombinant fragments. The first and third fragments, closely related to P12_14_VN_0814, were associated with ORF1a/1b and N genes, respectively. The second fragment, associated with S, E, and M genes, was closely related to US PDCoV isolates. High antigenic and hydrophobic variations were detected in S1 protein. Three‐day‐old pigs challenged with the chimeric virus displayed clinical diseases and villus atrophy. In conclusion, Vietnam PDCoV is genetically diverse influenced by an external introduction from neighbouring countries. The chimeric Vietnam PDCoV can induce a disease similar to Thai PDCoV.
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