Whole genome analysis identified a cefotaxime-resistant Empedobacter brevis GBW-1 isolate from ground beef encoding a novel metallo-beta-lactamase variant, blaEBR-6

While investigating foodstuffs for ESBL-producing Aeromonas species on ampicillin dextrin agar with vancomycin and cefotaxime, a multidrug-resistant Empedobacter brevis strain GBW-1 was identified from ground beef. Phylogenetic analysis supports the interconnectedness of environment, humans and food driving this species evolutionary development. Antimicrobial susceptibility testing demonstrated resistance to gentamicin, carbapenems and third-generation cephalosporins. Whole genome sequencing of this strain detected a 3.74 Mb genome with 32.8% GC content containing 3,780 coding genes. Among these genes, at least three known antimicrobial resistance (AMR) genes were identified with qacG, vanT gene within the vanG cluster, and a novel variant of the metallo-β-lactamase bla _EBR-6 . This novel homologue, EBR-6, was compared against previously known EBR variants and was found to be closest to EBR-3 with an 84.98% amino acid identity match. Docking software predicted these mutations vary the binding to meropenem. Furthermore, nearly 100 annotated regions associated with mobile genetic elements, including the presence of three, separate tra operons were identified on the genome. Together, these findings implicate the importance of horizontal gene transfer in the acquisition of AMR among the emerging pathogen Empedobacter brevis and further stress its One Health nature.