Characterization of Mundticin L,a Class IIa Anti-Listeria Bacteriocin from Enterococcus mundtii CUGF08

Enterococcus mundtii CUGF08, a lactic acid bacterium isolated from alfalfa sprouts, was found to produce mundticin L, a new class IIa bacteriocin that has a high level of inhibitory activity against the genus Listeria. The plasmid-associated operons containing genes for the mundticin L precursor, the ATP binding cassette (ABC) transporter, and immunity were cloned and sequenced. The fifth residue of the conservative consensus sequence YGNGX in the mature bacteriocin is leucine instead of valine in the sequences of the homologous molecules mundticin KS (ATO6) and enterocin CRL35. The primary structures of the ABC transporter and the immunity protein are homologous but unique.Bacteriocins are ribosomally synthesized proteinaceous compounds that inhibit closely related bacteria (19). Due to consumer concerns with chemical and irradiation preservation methods and due to the rising demand for minimally processed food products, alternative methods for shelf life extension and enhanced safety are needed. Bacteriocins are considered “natural” antimicrobials since many bacteriocins are produced by food grade lactic acid bacteria, which are generally recognized as safe. Bacteriocins can be divided into three main classes: the class I lanthionine-containing lantibiotics, exemplified by nisin; the class II non-lanthionine-containing bacteriocins; and the class III heat-labile, large proteins (6). Class III bacteriocins have limited application due to their thermal instability and cytolytic activity against eukaryotic cells. Class II can be further divided into class IIa containing pediocin-like bacteriocins, class IIb containing two-peptide bacteriocins, and class IIc containing other bacteriocins (8). Class IIa bacteriocins have been extensively studied since pediocin PA-1 was first discovered (12) and characterized (20). Currently, only nisin in class I has been approved by the FDA as a natural food additive. Bacteriocins belonging to class IIa are promising alternative antimicrobials since they are more stable over a broader range of heating regimens and pH conditions. In addition, these bacteriocins exhibit stronger antimicrobial activity against the genus Listeria than nisin (17) but have a narrower antimicrobial spectrum.The potential applications of class IIa bacteriocins in both meat and plant-based foods as a means to provide protection against potential food-borne pathogens and extend shelf life continue to expand. In an attempt to use biological methods for controlling food-borne pathogens on fresh sprouts, a number of food grade lactic acid bacteria were isolated from the indigenous microbiota on alfalfa sprouts. Some of these isolates were found to be bacteriocinogenic. This study describes a new class IIa bacteriocin, mundticin L produced by Enterococcus mundtii CUGF08 isolated from alfalfa sprouts.