The blp(St) cluster of Streptococcus thermophilus LMD-9 was recently shown to contain all the genetic information required for the production of bacteriocins active against other S. thermophilus strains. In this study, we further investigated the antimicrobial activity of S. thermophilus LMD-9 by testing the susceptibility of 31 bacterial species (87 strains). We showed that LMD-9 displays an inhibitory spectrum targeted toward related gram-positive bacteria, including pathogens such as Listeria monocytogenes. Using deletion mutants, we investigated the contribution of the three putative bacteriocin-encoding operons blpD(St)-orf2, blpU(St)-orf3, and blpE(St)-blpF(St) (bac(St) operons) and of the blpG(St) gene, which encodes a putative modification protein, to the inhibitory spectrum and immunity of strain LMD-9. Our results present evidence that the blp(St) locus encodes a multipeptide bacteriocin system called thermophilin 9. Among the four class II bacteriocin-like peptides encoded within the bac(St) operons, BlpD(St) alone was sufficient to inhibit the growth of most thermophilin 9-sensitive species. The blpD(St) gene forms an operon with its associated immunity gene(s), and this functional bacteriocin/immunity module could easily be transferred to Lactococcus lactis. The remaining three Bac(St) peptides, BlpU(St), BlpE(St), and BlpF(St), confer poor antimicrobial activity but act as enhancers of the antagonistic activity of thermophilin 9 by an unknown mechanism. The blpG(St) gene was also shown to be specifically required for the antilisteria activity of thermophilin 9, since its deletion abolished the sensitivities of most Listeria species. By complementation of the motility deficiency of Escherichia coli dsbA, we showed that blpG(St) encodes a functional thiol-disulfide oxidase, suggesting an important role for disulfide bridges within thermophilin 9.