Objectives: Aeromonas veronii can cause infections in humans and a wide variety of aquatic and terrestrial animals as well as causing serious economic losses in aquaculture worldwide. Aeromonas veronii strain JC529 was isolated from an infected common carp in a fish pond in Jilin Province. In this study, we identified the multidrug resistance genes and traced the source of the strain in order to lay the foundation for research on the resistance mechanisms of other Aeromonas isolates.
Methods: The isolated strain was sequenced using PacBio RS II and Illumina HiSeq 4000 platforms. Corrected reads were assembled using Celera and Falcon software and genes were predicted using Glimmer software. Seven databases were used for general function annotation. Virulence factors and resistance genes were identified based on the core data set in the VFDB and ARDB databases. Concurrently, 68 publicly available A. veronii genomes (including A. veronii JC529) were compared to reveal the clustering relationship of JC529.
Results: Aeromonas veronii strain JC529 has a circular chromosome of 4 834 659 bp with a GC content of 59.64%, including 4264 protein-coding genes, 2 prophages, 482 virulence factors and 27 antibiotic resistance genes, indicating that strain JC529 is a multidrug-resistant strain. The phylogenetic tree showed that strains JC529 and NS, PDB, AG5.28.6 and VCK1 appear to be inherited from a common ancestor and affect aquaculture in China and Greece.
Conclusion: Strain JC529 is a multidrug-resistant A. veronii strain and has been inherited from a common ancestor with Greece.
Keywords: Aeromonas veronii; Antimicrobial resistance; Resistance mechanism; Whole genome sequence.
Copyright © 2021 The Author(s). Published by Elsevier Ltd.. All rights reserved.