This study aimed to characterize molecular mechanism of 3 Salmonella enterica strains and novel mobile genetic elements identified in them. The strains, designated SW1, SW39, and SW109084, were obtained from diarrhea patients. The results of susceptibility testing showed SW39 was nonsusceptible to imipenem and cefotaxime. Whole genome sequencing was performed on Illumina HiSeq platform. Multilocus-sequence typing revealed SW1 belonged to ST2529 which was first confirmed in S. enterica, SW109084 was ST34 which was first reported in Enteritidis and SW39 was ST19. Resistome analysis showed SW1, SW109084, and SW39 carried 14, 19, and 17 antibiotic resistance genes. Seven transposons and 4 integrons were confirmed in these strains. Notably, a novel In6- and In7-like class 1 integron designated InSW39 and a novel transposon Tn5393k were identified in plasmid pSW39. The study of genomics and resistance in S. enterica plays a significant role in prevention and treatment of Salmonella infections.
Copyright © 2020 Elsevier Inc. All rights reserved.

Author