Project description:We report the first complete genome sequence of porcine deltacoronavirus (PDCoV) strain CH/Sichuan/S27/2012 identified in feces of diarrheic piglets from mainland China in 2012. This strain has two unique in-frame deletions within the ORF1a gene and is phylogenetically between the prototype PDCoV (HKU15) and the 2014 U.S. strains.

Project description:Porcine deltacoronavirus Genome sequencing and assembly

Project description:Porcine deltacoronavirus Genome sequencing

Project description:Porcine deltacoronavirus Genome sequencing and assembly

Project description:Porcine deltacoronavirus strain CHN-SC2015，complete genome

Project description:Porcine epidemic diarrhea virus (PEDV) and porcine deltacoronavirus (PDCoV) are epizootic swine viruses. To detect and study the evolution of PEDV and PDCoV in central China (Shanxi, Henan, Hubei province), 70 clinical intestinal and fecal samples from piglets with severe watery diarrhea during August 2015 and June 2016 were collected, tested and analyzed. PEDV was more frequently detected by PCR than PDCoV. Phylogenetic analysis of S genes showed that the 10 PEDV strains from this study clustered into G2a (n = 7) and G2b (n = 3) groups. Additionally, the three G2b strains (PEDV S2△) contained the same specific 3 nt deletion in S2 as other reference strains in G2b. Interestingly, complete genome analysis indicated that CH/hubei/2016 was closer to the US INDEL strain and G2a group. CH/hubei/2016 had one recombination event in S2 gene which may have resulted from AH2012-12 (from G2b group) and CH-ZMDZY-11 (from G2a group). Furthermore, 10 purifying selection sites in S gene indicated an adaptive evolution of PEDV in central China swine herds. These results suggested that Pandemic G2a and G2b are predominant PEDV genotype circulating in central China. In addition, the deletion and recombination identified in S gene suggested PEDV strains of central exhibited an evolutionary variety. However, whether these changes affect the pathogenicity and antigenicity of wild PEDV is unknown and is worth for further investigation.

Project description:Porcine deltacoronavirus (PDCoV) is a newly emerging enteric pathogen in swine that causes diarrhea in neonatal piglets and creates an additional economic burden on porcine industries in Asia and North America. In this study, a PDCoV isolate, CHN-SC2015, was isolated from Sichuan Province in southwest China. The isolate was characterized by a cytopathic effect, immunofluorescence, and electron microscopy. CHN-SC2015 titers in LLC-PK cells ranged from 104.31 to 108.22 TCID50/mL during the first 30 passages. During serial passage, 11 nucleotide mutations occurred in the S gene, resulting in nine amino acid changes. A whole genome sequencing analysis demonstrated that CHN-SC2015 shares 97.5%-99.1% identity with 59 reference strains in GenBank. Furthermore, CHN-SC2015 contained 6-nt deletion and 9-nt insertion in the ORF1ab gene, 3-nt deletion in the S gene and 11-nt deletion in its 3'UTR compared with other reference strains available in GenBank. A phylogenetic analysis showed that CHN-SC2015 is more closely related to other PDCoV strains in China than to the strains from Southeast Asia, USA, Japan, and South Korea, indicating the diversity of genetic relationships and regional and epidemic characteristics among these strains. A recombination analysis indicated that CHN-SC2015 experienced recombination events between SHJS/SL/2016 and TT-1115. In vivo infection demonstrated that CHN-SC2015 is highly pathogenic to sucking piglets, causing diarrhea, vomiting, dehydration, and death. Virus was shed daily in the feces of infected piglets and upon necropsy, was found distributed in the gastrointestinal tract and in multiple organs. CHN-SC2015 is the first systematically characterized strain from southwest China hitherto reported. Our results enrich the body of information on the epidemiology, pathogenicity and molecular evolution associated with PDCoV.

Project description:In order to understand the prevalence and genetic diversity of porcine deltacoronavirus (PDCoV) in diarrhoeal pigs in Sichuan province, 634 clinical samples were collected from individual pigs with diarrhoea in 13 regions of Sichuan province, China, from January 2017 and June 2019. The detection results showed that the infection rate of PDCoV was relatively low in diarrhoeal pigs, 13.25% (84/634), but the infection rate of PEDV (porcine epidemic diarrhea virus) was high, 32.18% (204/634). Coinfection with PEDV was common (55.95%, 47/84) in PDCoV-infected diarrhoeal pigs. Additionally, the chance of PDCoV infection was 2.77 times higher in suckling piglets than in sows, and about 3.30 times higher in spring and winter than in summer. PDCoV/PEDV coinfection was 75% less likely in sows than in suckling piglets. The complete genomes of four Sichuan PDCoV strains were sequenced and analysed. There were some insertion-deletion signatures in the whole genome sequences of four strains, including a 6-nt deletion in the non-structural gene 2 region, a 9-nt insertion in the non-structural gene 3 region, a 3-nt deletion in the S gene region, and a distinguishing 11-nt deletion in the 3'UTR region. Phylogenetic analysis based on complete genome sequences revealed that the PDCoV Sichuan strains were closely related to other Chinese PDCoV reference strains; however, phylogenetic analysis based on S gene sequences showed that the CH/SC/2019 strain clustered in a large clade with strains from the USA, Japan, and Korea. These data advance our understanding of the genetic diversity and evolutionary characteristics of PDCoV in China and may contribute to vaccine development.

Project description: Not available

Project description:Porcine deltacoronavirus (PDCoV) has been detected sporadically in China since its first description in 2012. In our study, 62 faecal and intestinal samples from pigs with diarrhoea were collected in Guangxi Province, China, during 2017 and 2018. Twelve samples (19.4%, 12/62) were positive for PDCoV. Five complete genomes of PDCoV were then determined, and sequence alignment revealed that the five strains had discontinuous deletions at 400-401 aa in non-structural protein 2 (NSP2) and 758-760 aa in non-structural protein 3 (NSP3) compared with the respective proteins in the HKU15-44 strain. Notably, the CHN-GX81-2018 strain contained two insertions in the S gene and 3'-UTR. Multiple sequence alignment and phylogenetic analysis showed that four strains shared 98.2%-98.4% nucleotide identity with CHN-AH-2004 and were classified into a new cluster of China lineage strains, whereas the CHN-GX81-2018 strain shared 98.7% nucleotide identity with Vietnam/Binh21/2015 and belonged to the Vietnam/Laos/Thailand lineage. Recombination analyses revealed that four strains were the result of recombination between CHN-HB-2014 and Vietnam/Binh21/2015 strains. This study demonstrated the co-existence of multiple lineages of PDCoV in China, and our findings will aid the reorganization and evolution of the virus.