Molecular detection and genomic characterization of Torque teno canis virus in domestic dogs in Guangxi Province, China.

The Torque teno canis virus (TTCaV) is a small virus with circular single-stranded DNA that has been reported to cause infections in dogs. The present study aimed to identify the presence of TTCaV in blood samples obtained from domestic dogs, and examine its diversity and evolution of the genomes. Five strains of TTCaV were detected, and the overall prevalence was found to be 7% (28/400). Phylogenetic analysis showed that the five genomes were closely clustered with the previously known Cf-TTV10 and LDL strains and formed a Thetatorque virus. Homology analysis of the whole genome showed a sequence identity of 94.6%-96.8% among the five genomes. The percent sequence similarity among the five complete genomes ranged from 95.3% to 97.4% and from 95.1% to 97% compared to the Cf-TTV10 and LDL strains respectively. The ORF1-encoded amino acid sequences showed 94.4%-97.2% identity among the five isolates. Our findings suggest that the TTCaV has a large genetic diversity and showed that TTCaV and canine parvovirus (CPV) co-infection exists in China. Further studies on the pathogenicity of TTCaV are required.

Comparison of Pathogenicity between PR8F and Different Mutants on the NS1 Locus in Mice.

The aim of this study was to explore the influence of mutation of different non-structural (NS) 1 amino-acid residues on the pathogenicity of influenza viruses and the function of NS1 virulence-related sites on the pathogenesis of influenza viruses. We analyzed segments of the NS1 protein gene and key sites related to virulence of influenza viruses based on a literature review. Fragments of the NS1 gene were cloned from the HIN1 subtype PR8F (non-mutated) and preserved by our research team with encoding sequence site-specific mutagenesis at aa42, aa8l, and aa149. Via a reverse genetics system, we rescued the mutant strains PR8F-42, PR8F-81, and PR8F-149, which were inoculated into chick embryos and could replicate stably after five passages. Efficiency of viral replication was measured by testing hemagglutination titers. BALB/c mice were inoculated With mutated or non-mutated PR8F (10(6) TCIDO(50)/100 µl for each mouse), respectively. The typical clinical manifestations (weight change and survival) were recorded. Autopsies, as well as observations of the pathologic features and pulmonary-tissue slices of mice that died after inoculation, were done. RNA of mouse lungs was extracted, and the residual quantity of virus in lungs was detected by quantitative polymerase chain reaction (qPCR). Results showed that mutation of NS1 at aa42 from Ser to Pro did not change the pathogenicity of PR8F in mice, but a low pathogenicity of PR8F occurred after mutation of NS1 at aa8l and aa149. The present study lays the foundation for further investigations of the function of NS1 pathogenicity-related sites in the pathogenesis of influenza viruses.