Abstract
Salmonella is a momentously zoonotic and food-borne pathogen that seriously threats human and animal health around the world. Salmonella pathogenicity is closely related to its virulence genes profile. However, conventional virulence gene analysis methods cannot truly reveal whole virulence genes carried by Salmonella. In this study, whole genome sequencing in combination with Virulence Factor Database were applied to investigate whole virulence gene profiles of 243 Salmonella isolates from animals and humans in China from 2004 to 2019. The results showed that a total of 670 virulence genes were identified in Salmonella, among them, 319 virulence genes were found in all the Salmonella tested isolates, and 9 virulence genes were unique to Salmonella. The 670 virulence genes were classified into 14 categories according to their functions, and the genes related to adherence, effector delivery system, immune modulation, motility and nutritional/metabolic factors accounted for 84.63%. Relationships between virulence genes and serovars, sequence types indicated that strains belonged to the same serovar or sequence type had similar virulence genes profiles, however, isolates from different sources, years and locations of isolation had variable virulence gene profiles. In addition, copy number of virulence genes and homologous virulence genes shared with other pathogens were also analyzed in this study. In summary, we investigated pan-genomic virulence gene profiles and molecular epidemiology of Salmonella isolates from humans and animals in China from 2004 to 2019. These findings are beneficial for pathogenic monitoring, investigation of virulence evolution as well as prevention and control of Salmonella.
Published Version
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