Enterocin X, composed of two antibacterial peptides (X␣ and X), is a novel class IIb bacteriocin fromEnterococcus faecium KU-B5. When combined, X␣ and X display variably enhanced or reduced antibacterial activity toward a panel of indicators compared to each peptide individually. In E. faecium strains that produce enterocins A and B, such as KU-B5, only one additional bacteriocin had previously been known.Bacteriocins are gene-encoded antibacterial peptides and proteins. Because of their natural ability to preserve food, they are of particular interest to researchers in the food industry. Bacteriocins are grouped into three main classes according to their physical properties and compositions (11,12). Of these, class IIb bacteriocins are thermostable non-lanthionine-containing two-peptide bacteriocins whose full antibacterial activity requires the interaction of two complementary peptides (8,19). Therefore, two-peptide bacteriocins are considered to function together as one antibacterial entity (14).Enterocins A and B, first discovered and identified about 12 years ago (2, 3), are frequently present in Enterococcus faecium strains from various sources (3,5,6,9,13,16). So far, no other bacteriocins have been identified in these strains, except the enterocin P-like bacteriocin from E. faecium JCM 5804 T (18). Here, we describe the characterization and genetic identification of enterocin X in E. faecium KU-B5. Enterocin X (identified after the enterocin P-like bacteriocin was discovered) is a newly found class IIb bacteriocin in E. faecium strains that produce enterocins A and B.Enterocins A and B in Enterococcus faecium KU-B5. E. faecium KU-B5, a thermotolerant lactic acid bacterium screened from sugar apples in Thailand, has the ability to multiply and express antibacterial activity across a wide range of temperatures (20 to 43°C). Bacteriocin activity was tested by the critical dilution spot-on-lawn method (21) and expressed in activity units (AU) per milliliter. The strongest antibacterial activity of E. faecium was observed when it was cultured at 37°C in de Man-Rogosa-Sharpe (MRS) broth, with a wide spectrum of targets, including Enterococcus, Lactobacillus, Lactococcus, Bacillus, and Listeria (Table 1). Since enterocins A and B are frequently found in many antibacterial E. faecium strains, we initially examined the enterocin A-and B-encoding genes in E. faecium KU-B5 by using PCR with specific primers (5Ј-TGTACGAAGTGCATTCTCAA-3Ј and 5Ј-TA TTAAAGGACCGGGATCTA-3Ј for enterocin A; 5Ј-ACT CTAAAAGGAGCGAGTTT-3Ј and 5Ј-AGAGCTGGGGA TGAAATATT-3Ј for enterocin B). As expected, these genes were detected in genomic DNA of E. faecium KU-B5. However, the pooled activities from enterocins A and B could not explain the total activities in the culture supernatant of E. faecium KU-B5, such as activity toward Bacillus circulans JCM 2504 T (Table 1). On the other hand, the gene encoding the enterocin P-like bacteriocin (18) was not detected in E. faecium KU-B5. Thus, we assumed that other bacteriocins exist in E. faecium KU-B5,...
