Abstract
Bacillus amyloliquefaciens generally secretes a mixture of multiple cyclic lipopeptides, including iturin, surfactin, and plipastatin, and it is challenging to discriminate each cyclic lipopeptide's antimicrobial activity directly. In this study, a chassis strain Bacillus subtilis 1A751 WR without cyclic lipopeptides operons was constructed by CRISPR/Cas9. The iturin gene cluster of B. amyloliquefaciens HYM-12 was captured and assembled with sfp and degQ genes using transformation-associated recombination (TAR). It was then integrated into the chassis strain to obtain an iturin mono-producing strain that could synthesize six iturin isoforms. The frameshift sfp gene of strain 1A751 Δpps was repaired by a scarless gene knock-in method to generate a surfactin mono-producing strain. Antimicrobial activity experiments indicated that the extracts of iturin, surfactin, and our previously constructed plipastatin mono-producing strains exhibited powerful inhibitory effects toward pathogenic bacteria. Interestingly, iturin showed significant antifungal activity, but surfactin and plipastatin exhibited weak antifungal activity. Compared with amphotericin B, iturin has a solid and durable antifungal activity. This study demonstrates that TAR cloning is efficient for cloning large gene clusters, proves the differences in the antimicrobial activity of three cyclic lipopeptides, and lays a theoretical basis for further elucidating their antimicrobial mechanism.
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