Antibiotic profiling of wild-type bacilli led to the discovery of new lanthipeptide subtilin-producing Bacillus spizizenii strains whose 16S rDNA sequences differ from the B. spizizenii typing strain.

Two dozen field-collected Bacillus and a dozen Bacillus spizizenii wild-type strains from strain collections were selected on the basis of their antagonistic properties against the Gram-positive strain Micrococcus luteus. Based on their genetic and antibiotic profiles, they were characterized (subtilin encoding spaS gene sequences, mass spectrometric, and quantitative-reversed phase liquid chromatographic analyses, as well as the presence of the lanthionine cyclase protein SpaC by western blotting), seven novel producers of the lanthipeptide subtilin. Phylogenetic analyses of the subtilin-producing wild-type strains based on their 16S rRNA sequences showed that all seven strains could be classified as B.

Structure-function relationships of the lanthionine cyclase SpaC involved in biosynthesis of the Bacillus subtilis peptide antibiotic subtilin.

Biosynthesis of the lantibiotic subtilin in Bacillus subtilis is accomplished by a synthetase complex consisting of the dehydratase SpaB, cyclase SpaC, and transporter SpaT. Genetically engineered subtilin cyclases SpaC and related NisC and EriC proteins involved in biosynthesis of the lantibiotics nisin and ericin A/S, respectively, were analyzed to functionally substitute native SpaC in vivo. We could show for the first time posttranslational modification of a lantibiotic precursor peptide (subtilin) by a hybrid lantibiotic synthetase (SpaBT/EriC).

Dual control of subtilin biosynthesis and immunity in Bacillus subtilis.

The production of the peptide antibiotic (lantibiotic) subtilin in Bacillus subtilis ATCC 6633 is highly regulated. Transcriptional organization and regulation of the subtilin gene cluster encompassing 11 genes was characterized. Two polycistronic mRNAs encoding transcript spaBTC (6.