Staphylococcus aureus is one of the important pathogens causing human diseases, especially its treatment has great challenges due to its resistance to methicillin and vancomycin. The Bacillus strains are known to be major sources of second metabolites that can function as drugs. Therefore, it is of great value to excavate metabolites with good inhibitory activity against S. aureus from Bacillus strains. In this study, a strain Bacillus paralicheniformis CPL618 with good antagonistic activity against S. aureus was isolated and genome analysis showed that the size was 4,447,938 bp and contained four gene clusters fen, bac, dhb, and lch which are potentially responsible for four cyclic peptides fengycin, bacitracin, bacillibactin, and lichenysin biosynthesis, respectively. These gene clusters were knockout by homologous recombination. The bacteriostatic experiment results showed that the antibacterial activity of ∆bac decreased 72.3% while Δfen, Δdhb, and ΔlchA did not significantly changed as that of wild type. Interestingly, the maximum bacitracin yield was up to 92 U/mL in the LB medium, which was extremely unusual in wild type strains. To further improve the production of bacitracin, transcription regulators abrB and lrp were knocked out, the bacitracin produced by ΔabrB, Δlrp, and ΔabrB + lrp was 124 U/mL, 112 U/mL, and 160 U/ml, respectively. Although no new anti-S. aureus compounds was found by using genome mining in this study, the molecular mechanisms of high yield of bacitracin and anti-S. aureus in B. paralicheniformis CPL618 were clarified. Moreover, B. paralicheniformis CPL618 was further genetically engineered for industrial production of bacitracin.
© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.