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LsbB

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LsbB is an antibacterial peptide isolated from Lactococcus lactis. It has activity against gram-positive bacteria and fungi.

Category
Functional Peptides
Catalog number
BAT-012641
Molecular Formula
C156H246N44O40S
Molecular Weight
3410
Synonyms
Met-Lys-Thr-Ile-Leu-Arg-Phe-Val-Ala-Gly-Tyr-Asp-Ile-Ala-Ser-His-Lys-Lys-Lys-Thr-Gly-Gly-Tyr-Pro-Trp-Glu-Arg-Gly-Lys-Ala
Sequence
MKTILRFVAGYDIASHKKKTGGYPWERGKA
1. Defining the structure and receptor binding domain of the leaderless bacteriocin LsbB
Kirill V Ovchinnikov, Per E Kristiansen, Gordana Uzelac, Ljubisa Topisirovic, Milan Kojic, Jon Nissen-Meyer, Ingolf F Nes, Dzung B Diep J Biol Chem. 2014 Aug 22;289(34):23838-45. doi: 10.1074/jbc.M114.579698. Epub 2014 Jul 3.
LsbB is a class II leaderless lactococcal bacteriocin of 30 amino acids. In the present work, the structure and function relationship of LsbB was assessed. Structure determination by NMR spectroscopy showed that LsbB has an N-terminal α-helix, whereas the C-terminal of the molecule remains unstructured. To define the receptor binding domain of LsbB, a competition assay was performed in which a systematic collection of truncated peptides of various lengths covering different parts of LsbB was used to inhibit the antimicrobial activity of LsbB. The results indicate that the outmost eight-amino acid sequence at the C-terminal end is likely to contain the receptor binding domain because only truncated fragments from this region could antagonize the antimicrobial activity of LsbB. Furthermore, alanine substitution revealed that the tryptophan in position 25 (Trp(25)) is crucial for the blocking activity of the truncated peptides, as well as for the antimicrobial activity of the full-length bacteriocin. LsbB shares significant sequence homology with five other leaderless bacteriocins, especially at their C-terminal halves where all contain a conserved KXXXGXXPWE motif, suggesting that they might recognize the same receptor as LsbB. This notion was supported by the fact that truncated peptides with sequences derived from the C-terminal regions of two LsbB-related bacteriocins inhibited the activity of LsbB, in the same manner as found with the truncated version of LsbB. Taken together, these structure-function studies provide strong evidence that the receptor-binding parts of LsbB and sequence-related bacteriocins are located in their C-terminal halves.
2. LsbB Bacteriocin Interacts with the Third Transmembrane Domain of the YvjB Receptor
Marija Miljkovic, Gordana Uzelac, Nemanja Mirkovic, Giulia Devescovi, Dzung B Diep, Vittorio Venturi, Milan Kojic Appl Environ Microbiol. 2016 Aug 15;82(17):5364-74. doi: 10.1128/AEM.01293-16. Print 2016 Sep 1.
The Zn-dependent membrane-located protease YvjB has previously been shown to serve as a target receptor for LsbB, a class II leaderless lactococcal bacteriocin. Although yvjB is highly conserved in the genus Lactococcus, the bacteriocin appears to be active only against the subspecies L. lactis subsp. lactis Comparative analysis of the YvjB proteins of a sensitive strain (YvjBMN) and a resistant strain (YvjBMG) showed that they differ from each other in 31 positions. In this study, we applied site-directed mutagenesis and performed directed binding studies to provide biochemical evidence that LsbB interacts with the third transmembrane helix of YvjB in susceptible cells. The site-directed mutagenesis of LsbB and YvjB proteins showed that certain amino acids and the length of LsbB are responsible for the bacteriocin activity, most probably through adequate interaction of these two proteins; the essential amino acids in LsbB responsible for the activity are tryptophan (Trp(25)) and terminal alanine (Ala(30)). It was also shown that the distance between Trp(25) and terminal alanine is crucial for LsbB activity. The crucial region in YvjB for the interaction with LsbB is the beginning of the third transmembrane helix, particularly amino acids tyrosine (Tyr(356)) and alanine (Ala(353)). In vitro experiments showed that LsbB could interact with both YvjBMN and YvjBMG, but the strength of interaction is significantly less with YvjBMG In vivo experiments with immunofluorescently labeled antibody demonstrated that LsbB specifically interacts only with cells carrying YvjBMN IMPORTANCE: The antimicrobial activity of LsbB bacteriocin depends on the correct interaction with the corresponding receptor in the bacterial membrane of sensitive cells. Membrane-located bacteriocin receptors have essential primary functions, such as cell wall synthesis or sugar transport, and it seems that interaction with bacteriocins is suicidal for cells. This study showed that the C-terminal part of LsbB is crucial for the bacteriocin activity, most probably through adequate interaction with the third transmembrane domain of the YvjB receptor. The conserved Tyr(356) and Ala(353) residues of YvjB are essential for the function of this Zn-dependent membrane-located protease as a bacteriocin receptor.
3. Expression of bacteriocin LsbB is dependent on a transcription terminator
Gordana Uzelac, Marija Miljkovic, Jelena Lozo, Zorica Radulovic, Natasa Tosic, Milan Kojic Microbiol Res. 2015 Oct;179:45-53. doi: 10.1016/j.micres.2015.06.011. Epub 2015 Jul 16.
The production of LsbB, leaderless class II bacteriocin, is encoded by genes (lsbB and lmrB) located on plasmid pMN5 in Lactococcus lactis BGMN1-5. Heterologous expression of the lsbB gene using the pAZIL vector (pAZIL-lsbB) in L. lactis subsp. cremoris MG7284 resulted in a significant reduction (more than 30 times) of bacteriocin LsbB expression. Subcloning and deletion experiments with plasmid pMN5 revealed that full expression of LsbB requires the presence of a complete transcription terminator located downstream of the lsbB gene. RNA stability analysis revealed that the presence of a transcription terminator increased the RNA stability by three times and the expression of LsbB by 30 times. The study of the influence of transcription terminator on the expression of other bacteriocin genes (lcnB, for lactococcin B production) indicated that this translational terminator likely functions in a lsbB-specific manner rather than in a general manner.
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