ABSTRACT The lantibiotic (lanthionine-containing antibiotic) mersacidin is an antimicrobial peptide consisting of 20 amino acids and is produced by Bacillus sp. strain HIL Y-85,54728. The structural gene ( mrsA ) and the genes for producer self-protection, modification enzymes, transport proteins, and regulator proteins are organized in a 12.3-kb biosynthetic gene cluster on the chromosome of the producer strain. Mersacidin is produced in stationary phase in a synthetic medium (K. Altena, A. Guder, C. Cramer, and G. Bierbaum, Appl. Environ. Microbiol. 66:2565-2571, 2000). To investigate the influence of the alternative sigma factor H on mersacidin biosynthesis, a SigH knockout was constructed. The knockout mutant was asporogenous, and a comparison to the wild-type strain indicated no significant differences concerning mersacidin production and immunity. Characterization of the mrsA promoter showed that the gene is transcribed by the housekeeping sigma factor A. The biosynthesis of some lantibiotic peptides like nisin or subtilin is regulated in a cell-density-dependent manner (M. Kleerebezem, Peptides 25:1405-1414, 2004). When mersacidin was added at a concentration of 2 mg/liter to an exponentially growing culture, an earlier production of antibacterial activity against Micrococcus luteus ATCC 4698 in comparison to that of the control culture was observed, suggesting that mersacidin itself functions as an autoinducer. In real-time PCR experiments, the expression of mrsA was remarkably increased in the induced culture compared to the control. In conclusion, mersacidin is yet another lantibiotic peptide whose biosynthesis can be regulated by an autoinducing mechanism.