Abstract
High resistance to class IIa bacteriocins in Listeria monocytogenes has been clearly linked to lack of expression of the mptACD operon, encoding the EII t Man mannose PTS permease. Also, intermediate resistance has been associated with membrane phospholipid modifications in the spontaneous mutants L. monocytogenes B73-V1 and B73-V2. We constructed a new mutant of L. monocytogenes that was interrupted in mpoA, and which also exhibited an intermediate resistance phenotype. The mpoABCD operon putatively encodes a PTS permease of the mannose family similar to that encoded by the mpt operon. In silico analysis indicated that mpo transcription might be dependent on σ 54. Our study demonstrated that the three intermediate resistant mutants have a slight decrease in mptACD expression, showing that the level of sensitivity is correlated to the level of mpt expression. We show a cross-regulation between mpo and mpt. In particular, the mpo mutant has a defect in mpt expression that possibly could explain its intermediate resistance phenotype.
Published Version
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