Characterization of the nisin gene cluster nisABTCIPR of Lactococcus lactis. Requirement of expression of the nisA and nisI genes for development of immunity
TLDR
Transcription analyses of several L. lactis strains indicated that an expression product of the nisA gene, together with NisR, is required for the activation of nisinA transcription, indicating that NisI plays a role in the immunity mechanism.Abstract:
The nisin gene cluster nisABTCIPR of Lactococcus lactis, located on a 10-kbp DNA fragment of the nisin-sucrose transposon Tn5276, was characterized. This fragment was previously shown to direct nisin-A biosynthesis and to contain the nisP and nisR genes, encoding a nisin leader peptidase and a positive regulator, respectively [van der Meer, J. R., Polman, J., Beerthuyzen, M. M., Siezen, R. J., Kuipers, O. P. & de Vos, W. M. (1993) J. Bacteriol. 175, 2578–2588]. Further sequence analysis revealed the presence of four open-reading frames, nisB, nisT, nisC and nisI, downstream of the structural gene nisA. The nisT, nisC and nisI genes were subcloned and expressed individually in Escherichia coli, using the T7-RNA-polymerase system. This resulted in the production of radio-labelled proteins with sizes of 45 kDa (NisC) and 32 kDa (NisI). The nisT gene product was not detected, possibly because of protein instability. The deduced amino acid sequence of NisI contained a consensus Iipoprotein signal sequence, suggesting that this protein is a lipid-modified extracellular membrane-anchored protein. Expression of nisI in L. Iactis provided the cells with a significant level of protection against exogeneously added nisin, indicating that NisI plays a role in the immunity mechanism. In EDTA-treated E. coli cells, expression of nisI conferred up to a 170-fold increase in immunity against nisin A compared to controls. Moreover, a lactococcal strain deficient in nisin-A production, designated NZ9800, was created by gene replacement of nisA by a truncated nisA gene and was 10-fold less resistant to nisin A than the wild-type strain. A wild-type immunity level to nisin and production of nisin was obtained in strain NZ9800 harboring complementing nisA and nisZ plasmids. Transcription analyses of several L. IIactis strains indicated that an expression product of the nisA gene, together with NisR, is required for the activation of nisA transcription.read more
Citations
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Autoregulation of nisin biosynthesis in Lactococcus lactis by signal transduction.
Oscar P. Kuipers,Marke M. Beerthuyzen,Pascalle G.G.A. de Ruyter,Evert J. Luesink,Willem M. de Vos +4 more
TL;DR: In this article, a 4-base pair deletion is introduced into the structural nisA gene (ΔnisA) and transcription of ΔnisA is abolished, but the gene can be restored by adding subinhibitory amounts of nisin, nisin mutants, or nisin analogs to the culture medium.
Journal ArticleDOI
10 years of the nisin-controlled gene expression system (NICE) in Lactococcus lactis
Igor Mierau,Michiel Kleerebezem +1 more
TL;DR: An extensive overview is provided of the different applications in lactococci and other Gram-positive bacteria: over-expression of homologous and heterologous genes for functional studies and to obtain large quantities of specific gene products, metabolic engineering, and large-scale applications.
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Lantibiotics: biosynthesis and biological activities of uniquely modified peptides from gram-positive bacteria.
TL;DR: The fundamental aspects of the biosynthetic machinery, which include information for the antibiotic prepeptide, the modification enzymes and accessory functions such as dedicated proteases and ABC transporters as well as immunity factors and regulatory proteins, are discussed along with the biotechnological potential of the peptides and of the enzymes, which could be used for construction of novel, peptide-based biomedical effector molecules.
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Bacteriocins: modes of action and potentials in food preservation and control of food poisoning.
TL;DR: The mode of action of lantibiotics (class I) and class II LAB bacteriocins and their potentials in food preservation and control of food poisoning are focused on.
Journal ArticleDOI
Lipoproteins of gram-positive bacteria.
TL;DR: This work has shown that in the absence of the retentive outer membrane, components carrying out functions within the gram-positive cell envelope must somehow be tethered in order to prevent their loss into the growth environment.
References
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