Identification and characterization of bacteriocin biosynthetic gene clusters found in multiple bacteriocins producing Lactiplantibacillus plantarum PUK6

Abstract

The multiple bacteriocins produced by Lactiplantibacillus plantarum PUK6 isolated from misozuke-tofu (tofu pickled in miso) were identified as plantaricins A, EF, and NC8. The pln locus (21,847 bp) containing the three plantaricin structural genes and another newly found putative bacteriocin structural genes (orf1 and orf2) were determined, and a biosynthesis mechanism was proposed. Reverse transcription-PCR analysis revealed that orf1 and orf2, the putative two-peptide bacteriocin structural genes, were expressed after 8h (logarithmic growth phase) and 20h (stationary growth phase) of cultivation of the PUK6 strain. Additionally, the growth inhibition profile obtained using the chemically synthesized mature peptides of Orf1 and Orf2 (referred to as mOrf1 and mOrf2) showed that the equimolar mixture of mOrf1 and mOrf2 exhibited bactericidal effect against the indicator strain Latilactobacillus sakei subsp. sakei JCM 1157T. Furthermore, fluorescence microscopic analysis revealed disruption of the cell membranes. These findings indicate that orf1 and orf2 are structural genes encoding class IIb bacteriocins consisting of two peptides. Therefore, the novel bacteriocin encoded by plnPUK6α (orf1) and plnPUK6β (orf2) genes was named plantaricin PUK6. Since the PUK6 strain produces multiple bacteriocins, when used as a starter culture, it could contribute to improving the shelf life of fermented foods and preventing the appearance of bacteriocin-resistant bacteria.