Utilization of the leucocin A export system in Leuconostoc gelidum for production of a Lactobacillus bacteriocin.

The lactacin F complex, composed of LafA and LafX peptides, is produced by Lactobacillus johnsonii VPI 11088 (ATCC 11506) and is active against various lactobacilli and Enterococcus faecalis. The genetic determinants encoding the lactacin F peptides, LafA and LafX, are organized in a chromosomal operon comprised of genes lafA, lafX, and ORFZ. The lactacin F operon was introduced into Leuconostoc (Lc.) gelidum UAL187-22 which produces leucocin A. Leucocin A, a plasmid-encoded bacteriocin, inhibits E. faecalis, Listeria monocytogenes, and other lactic acid bacteria. The culture supernatant of the Leuconostoc transformant containing the lactacin F operon inhibited both lactacin F-and leucocin A-sensitive indicators. Concurrent expression of both bacteriocins did not alter the production of native leucocin A. Additive inhibitory effects due to the presence of both bacteriocins were not observed. An isogenic derivative of UAL187-22, which has lost the leucocin-encoding plasmid, was unable to produce active lactacin F when transformed with the appropriate recombinant plasmid. The ability of Lc. gelidum UAL187-22 to produce lactacin F demonstrates that the export system for leucocin A is capable of producing both bacteriocins simultaneously.