Genomic Characterization of From Beef Cattle Feedlots and Associated Environmental Continuum.

Enterococci are commensal bacteria of the gastrointestinal tract of humans, animals, and insects. They are also found in soil, water, and plant ecosystems. The presence of enterococci in human, animal, and environmental settings makes these bacteria ideal candidates to study antimicrobial resistance in the One-Health continuum. This study focused on isolates ( = 4,601) predominantly isolated from beef production systems including bovine feces ( = 4,117, 89.5%), catch-basin water ( = 306, 66.5%), stockpiled bovine manure ( = 24, 0.5%), and natural water sources near feedlots ( = 145, 32%), and a few isolates from urban wastewater ( = 9, 0.2%) denoted as human-associated environmental samples. Antimicrobial susceptibility profiling of a subset ( = 1,319) of isolates originating from beef production systems ( = 1,308) showed high resistance to tetracycline (65%) and erythromycin (57%) with 50.4% isolates harboring multi-drug resistance, whereas urban wastewater isolates ( = 9) were resistant to nitrofurantoin (44.5%) and tigecycline (44.5%) followed by linezolid (33.3%). Genes for tetracycline ( and ) and macrolide resistance were frequently found in beef production isolates. Antimicrobial resistance profiles of isolates recovered from different environmental settings appeared to reflect the kind of antimicrobial usage in beef and human sectors. Comparative genomic analysis of isolates showed an open pan-genome that consisted of 1,427 core genes, 358 soft core genes, 1701 shell genes, and 7,969 cloud genes. Across species comparative genomic analysis conducted on , and genomes revealed that had unique genes associated with vitamin production, cellulose, and pectin degradation, traits which may support its adaptation to the bovine digestive tract. and more frequently harbored virulence genes associated with biofilm formation, iron transport, and cell adhesion, suggesting niche specificity within these species.