Pathogenicity and horizontal transmission evaluation of a novel isolated African swine fever virus strain with a three-large-fragment-gene deletion

African swine fever has caused substantial economic losses to China`s pig industry in recent years. Currently, the highly pathogenic African swine fever virus strain of genotype II is predominantly circulating in China, accompanied by a series of emerging isolates displaying unique genetic variations. The pathogenicity of these emerging strains is still unclear. Recently, a novel ASFV strain with a distinguishable three-large-fragment gene deletion was obtained from the field specimens, and its in vivo pathogenicity and transmission were evaluated in this study. The animal experiment involved inoculating a high dose of YNFN202103 and comparing its effects with those of the highly pathogenic strain GZ201801_2. Results showed that pigs infected by YNFN202103 exhibited significantly prolonged onset and survival time, lower viremia levels, and less severe histopathological lesions compared to GZ201801_2. These findings contributed valuable insights into the pathogenicity and transmission of ASFV and its prevention and eradication strategies in practical settings.

Development and evaluation of duplex TaqMan real-time PCR assay for detection and differentiation of wide-type and MGF505-2R gene-deleted African swine fever viruses

Background

African swine fever (ASF) is the most important disease to the pigs and cause serious economic losses to the countries with large-scale swine production. Vaccines are recognized as the most useful tool to prevent and control ASF virus (ASFV) infection. Currently, the MGF505 and MGF360 gene-deleted ASFVs or combined with CD2v deletion were confirmed to be the most promising vaccine candidates. Thus, it is essential to develop a diagnosis method to discriminate wide-type strain from the vaccines used.

Results

In this study, we established a duplex TaqMan real-time PCR based on the B646L gene and MGF505-2R gene. The sequence alignment showed that the targeted regions of primers and probes are highly conserved in the genotype II ASFVs. The duplex real-time assay can specifically detect B646L and MGF505-2R gene single or simultaneously without cross-reaction with other porcine viruses tested. The limit of detection was 5.8 copies and 3.0 copies for the standard plasmids containing B646L and MGF505-2R genes, respectively. Clinical samples were tested in parallel by duplex real-time PCR and a commercial ASFV detection kit. The detection results of these two assays against B646L gene were well consistent.

Conclusion

We successfully developed and evaluated a duplex TaqMan real-time PCR method which can effectively distinguish the wide type and MGF505 gene-deleted ASFVs. It would be a useful tool for the clinical diagnosis and control of ASF.

Development of a triplex real-time PCR assay for detection and differentiation of gene-deleted and wild-type African swine fever virus

African swine fever (ASF) is an infectious disease of domestic and wild pigs, caused by ASF virus (ASFV). In this study, a triplex real-time PCR assay was developed to detect and differentiate the gene-deleted and wild-type ASFV strains. Three pairs of primers and probes were designed to target the conserved region of B646L gene (p72), MGF_360-14L gene (located in the middle of MGF360-505R gene) and CD2v gene, respectively. Gene-deleted (with MGF360-505R and / or CD2v genes deletion) and wild-type ASFV strains were detected specifically and simultaneously by the assay developed without cross-reactions with other nucleic acids of PCV-2, CSFV, PRRSV, FMDV or SVA. The detection limits of the triplex rPCR were 7.9 copies, 9.7 copies, and 9.6 copies of standard plasmid DNA containing B646L gene, MGF_360-14L gene and CD2v gene, respectively. A total of 1215 field samples were tested in parallel by the triplex rPCR and real-time PCR recommended by OIE, and the B646L gene detection results were completely consistent between these two assays. The triplex rPCR assay was successfully developed to identify pigs infected with wild-type ASFV strains or immunized with the ASFV gene-deleted vaccine.