Different species of the Staphylococcus genus can be found as contaminants in foods and may carry virulence factors that could potentially make them The enterotoxigenic potential ofpathogenic or transfer genes to other bacteria. Therefore, the aim of the present study was to isolate and identify species of Staphylococcus genus isolated from sliced mozzarella cheeses and cold-cut slicers and characterize biofilm formation in vitro, presence of enterotoxins and antibiotic resistance genes, and β-lactamase production. Sampling was carried out in 44 retail markets and isolates identified on species level. Resistance genes blaZ and mecA, as well as enterotoxin genes sea, seb, sec, and sed, were identified using PCR. Phenotypic evaluation of biofilm formation and detection of β-lactamase enzyme were also analyzed. Nine species of coagulase-negative Staphylococcus (CNS) were identified from 85 bacterial isolates. Of this total, 67.0% were positive for the presence of one or both antimicrobial resistance genes blaZ and mecA, while the β-lactamase enzyme was detected in 52.9% isolates. Regarding biofilm production, 48.2% of isolates were positive and 51.8% were negative. However, none of the isolates were identified with the enterotoxin genes. The results demonstrate the potential risk of cross-contamination, as biofilm-producing CNS could persist in the cheese retail environment, highlighting the danger of resistance genes transferring to other commensal or pathogenic bacteria.
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