Project description:Proteomic Characterization of Bacteriocin-Producing Enterococcus faecium Strains from foodstuffs

Project description:The transcriptional responses of class IIa bacteriocin resistance in 4 mutants of Enterococcus faecalis V583; three spontaneous pediocin PA-1 mutants; MOP1, MOP2 and MOP5 and one delta-mptD mutant called MOM1, studied by microarrays in E. faecalis V583.

Project description:Complete genome sequence of bacteriocin-producing Enterococcus faecium HY07, isolated from Chinese sausages

Project description:Bacteriocin-producing, tetracycline resistant L. garvieae

Project description:Bacteriocin-Producing from traditional Thai fermented food

Project description:Whole genome of bacteriocin-producing LAB strain

Project description:Whole-genome sequence of bacteriocin-producing Streptococcus ursoris JCM16316

Project description:Genome sequence of the multiple bacteriocin-producing E. faecium CRL1879

Project description:Purification and antibacterial mechanism of bacteriocin of Bacillus velezensis producing

Project description:Most bacteria are in fierce competition with other species for limited nutrients. Some bacteria can kill nearby cells by secreting bacteriocins, a diverse group of proteinaceous antimicrobials. However, bacteriocins are typically freely diffusible, and so of little value to planktonic cells in aqueous environments. Here, we identify an atypical two-protein bacteriocin in the gamma-proteobacterium Caulobacter crescentus that is retained on the surface of producer cells where it mediates cell contact-dependent killing. The bacteriocin-like proteins CdzC and CdzD harbor glycine-zipper motifs, often found in amyloids, and CdzC forms large, insoluble aggregates on the surface of producer cells. These aggregates can drive contact-dependent killing of other organisms, or Caulobacter cells not producing the CdzIE immunity protein. The Cdz system uses a type I secretion system and is unrelated to previously described contact-dependent inhibition systems. However, Cdz-like systems are found in many bacteria, suggesting that this form of contact-dependent inhibition is common.