Identification of essential amino acid residues in the nisin dehydratase NisB

Rustem Khusainov, Auke J. van Heel, Jacek Lubelski, Gert N. Moll, Oscar P. Kuipers*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

11 Citations (Scopus)
294 Downloads (Pure)

Abstract

Nisin is a posttranslationally-modified antimicrobial peptide that has the ability to induce its own biosynthesis. Serines and threonines in the modifiable core peptide part of precursor nisin are dehydrated to dehydroalanines and dehydrobutyrines by the dehydratase NisB, and subsequently cysteines are coupled to the dehydroamino acids by the cyclase NisC. In this study, we applied extensive site-directed mutagenesis, together with direct binding studies, to investigate the molecular mechanism of the dehydratase NisB. We use a natural nisin-producing strain as a host to probe mutant-NisB functionality. Importantly, we are able to differentiate between intracellular and secreted fully dehydrated precursor nisin, enabling investigation of the NisB properties needed for the release of dehydrated precursor nisin to its devoted secretion system Nisi We report that single amino acid substitutions of conserved residues, i.e., R83A, R83M, and R87A result in incomplete dehydration of precursor nisin and prevention of secretion. Single point NisB mutants Y80F and H961A, result in a complete lack of dehydration of precursor nisin, but do not abrogate precursor nisin binding. The data indicate that residues Y80 and H961 are directly involved in catalysis, fitting well with their position in the recently published 3D-structure of NisB. We confirm, by in vivo studies, results that were previously obtained from in vitro experiments and NisB structure elucidation and show that previous findings translate well to effects seen in the original production host.

Original languageEnglish
Article number102
Number of pages12
JournalFrontiers in Microbiology
Volume6
DOIs
Publication statusPublished - 26-Feb-2015

Keywords

  • NisB
  • dehydratase
  • posttranslational modifications
  • mechanism
  • NisC
  • lanthionine
  • lantibiotics
  • nisin
  • MODIFICATION ENZYMES NISB
  • LACTOCOCCUS-LACTIS
  • LEADER PEPTIDE
  • LANTIBIOTIC NISIN
  • LIPID-II
  • BIOSYNTHESIS
  • PRENISIN
  • EXPRESSION
  • PROTEIN
  • ANGIOTENSIN-(1-7)

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