A new, coculture-inducible two-peptide bacteriocin named plantaricin NC8 (PLNC8) was isolated from Lactobacillus plantarum NC8 cultures which had been induced with Lactococcus lactis MG1363 or Pediococcus pentosaceus FBB63. This bacteriocin consists of two distinct peptides, named ␣ and , which were separated by C 2 -C 18 reverse-phase chromatography and whose complementary action is necessary for full plantaricin NC8 activity. N-terminal sequencing of both purified peptides showed 28 and 34 amino acids residues for PLNC8␣ and PLNC8, respectively, which showed no sequence similarity to other known bacteriocins. Mass spectrometry analysis showed molecular masses of 3,587 Da (␣) and 4,000 Da (). The corresponding genes, designated plNC8A and plNC8B, were sequenced, and their nucleotide sequences revealed that both peptides are produced as bacteriocin precursors of 47 and 55 amino acids, respectively, which include N-terminal leader sequences of the double-glycine type. The mature ␣ and  peptides contain 29 and 34 amino acids, respectively. An open reading frame, orfC, which encodes a putative immunity protein was found downstream of plNC8B and overlapping plNC8A. Upstream of the putative ؊35 region of plNC8B, two direct repeats of 9 bp were identified, which agrees with the consensus sequence and structure of promoters of class II bacteriocin operons whose expression is dependent on an autoinduction mechanism.Many lactic acid bacteria (LAB) produce antimicrobial peptides known as bacteriocins, which are directed mainly to inhibit the growth of related species or species with the same nutritive requirements (14,31,35,52). Hence, bacteriocin production seems to be aimed to compete against other bacteria which are present in the same ecological niche (4,19,20,43). It has been shown that bacteriocin production provides the producer strain with a selective advantage over other nonproducing, isogenic bacteria (46). On the other hand, it might be expected that biosynthesis of bacteriocins is a high-energyconsuming process, providing an advantage to the producer strain only if the cost/benefit ratio is favorable (19,43). It is well known that biosynthesis of proteinaceous substances is a high-energy-consuming process and for this reason is well controlled by molecular regulatory systems such as induction and catabolic repression, for instance. This suggests that bacteriocin production by LAB should also be controlled and regulated by these molecular mechanisms.Bacteria must be able to adapt their metabolism to the changing environmental conditions. This adaptation requires that bacteria sense the multitude of extracellular signals and respond by controlling the expression of an adequate repertoire of genes. Thus, bacteriocin production has been shown to be influenced by pH (1,5,6,32,34), temperature (17, 37, 54), medium composition (3, 13, 26, 27, 55), DNA-damaging agents (24,25,42), and growth conditions (8,15,28,32). However, how the presence of competing microorganisms affects production of bacteriocins is still qu...
