1. Genomic Characterization of Diverse Gyroviruses Identified in the Feces of Domestic Cats
- Author
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Hailong Huang, Yanbing Guo, Shushuai Yi, Yanli Zhao, Kai Wang, Guoying Dong, Jiangting Niu, Hu Guixue, and Hao Dong
- Subjects
0301 basic medicine ,Sequence analysis ,030106 microbiology ,lcsh:Medicine ,Genome, Viral ,Genome ,Article ,Feces ,03 medical and health sciences ,Gyrovirus ,Phylogenetics ,Animals ,Amino Acid Sequence ,Viral evolution ,lcsh:Science ,Phylogeny ,Genetics ,Genetic diversity ,Multidisciplinary ,CATS ,Phylogenetic tree ,biology ,lcsh:R ,Genomics ,Sequence Analysis, DNA ,biology.organism_classification ,030104 developmental biology ,Animals, Domestic ,DNA, Viral ,Cats ,lcsh:Q - Abstract
Gyroviruses (GyVs) are small, single-stranded, circular DNA viruses in the genus Gyrovirus, which consists of the chicken anemia virus (CAV) prototype and nine other viral species. These different GyV species have been reported in chickens, humans, mice, and companion animals. To date, CAV has been identified in the feces of domestic cats, while the circulation of other GyV species in cats is currently unknown. In the present study, 197 fecal samples were collected from pet cats in northeast China, and samples were screened for different GyV species by PCR. Twelve GyV strains were identified from the feces of pet cats. These included 4 positive for CAV, 3 for HGyV/AGV2, 3 for GyV3 and 2 positive for GyV6. The complete genome sequences of the 12 cat-sourced GyV strains showed 93.9–99.7% nucleotide identities to the homologous reference GyV strains. Phylogenetic analyses based on the complete genomes, VP1, VP2 and VP3 genes showed the identical classification of GyV species with previous reports. Moreover, one and four unique amino acid substitutions were identified in the VP1 protein of the cat-sourced HGyV/AGV2 and GyV6 strains, respectively, and one substitution was also observed in the VP2 protein of one GyV6 strain identified in this study. In conclusion, our investigation demonstrates that the diverse GyV species were circulating in domestic cats, and provides the first molecular evidence for the circulation of HGyV/AGV2, GyV3 and GyV6 in domestic cats. These cat-origin GyVs possessed considerable genetic diversity. This study also raises the possibility that domestic cats, as reservoirs for gyroviruses, may inadvertently disseminate viruses to other species, e.g., humans and chickens.
- Published
- 2019
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