Regulation of Heterologous Subtilin Production in Bacillus subtilis W168
Research output: Book/Conference proceeding/Anthology/Report › Monograph › Contributed › peer-review
Contributors
Abstract
Background: Subtilin is a peptide antibiotic (lantibiotic) natively produced by Bacillus subtilis ATCC6633. It is encoded in a gene cluster spaBTCSIFEGRK (spa-locus) consisting of four transcriptional units: spaS (subtilin pre-peptide), spaBTC (modification and export), spaIFEG (immunity) and spaRK (regulation). Despite the pioneer understanding on subtilin biosynthesis, a robust platform to facilitate subtilin research and improve subtilin production is still a poorly explored spot. Results: In this work, the intact spa-locus was successfully integrated into the chromosome of Bacillus subtilis W168, which is the by far best-characterized Gram-positive model organism with powerful genetics and many advantages in industrial use. Through systematic analysis of spa-promoter activities in B. subtilis W168 wild type and mutant strains, our work demonstrates that subtilin is basally expressed in B. subtilis W168, and the transition state regulator AbrB strongly represses subtilin biosynthesis in a growth phase-dependent manner. The deletion of AbrB remarkably enhanced subtilin gene expression, resulting in comparable yield of bioactive subtilin production as for B. subtilis ATCC6633. However, while in B. subtilis ATCC6633 AbrB regulates subtilin gene expression via SigH, which in turn activates spaRK, AbrB of B. subtilis W168 controls subtilin gene expression in SigH-independent manner, except for the regulation of spaBTC. Furthermore, the work shows that subtilin biosynthesis in B. subtilis W168 is regulated by the two-component regulatory system SpaRK and strictly relies on subtilin itself as inducer to fulfill the autoregulatory circuit. In addition, by incorporating the subtilin-producing system (spa-locus) and subtilin-reporting system (P psdA-lux) together, we developed “online” reporter strains to efficiently monitor the dynamics of subtilin biosynthesis. Conclusions: Within this study, the model organism B. subtilis W168 was successfully established as a novel platform for subtilin biosynthesis and the underlying regulatory mechanism was comprehensively characterized. This work will not only facilitate genetic (engineering) studies on subtilin, but also pave the way for its industrial production. More broadly, this work will shed new light on the heterologous production of other lantibiotics.
Details
Original language | English |
---|---|
Publisher | BioMed Central, London |
Number of pages | 16 |
Volume | 21 |
Edition | 1 |
Publication status | Published - 7 Apr 2022 |
Peer-reviewed | Yes |
External IDs
Scopus | 85127756644 |
---|---|
WOS | 000779367100001 |
PubMed | 35392905 |
Mendeley | 97418978-dac6-3348-92c8-1c29ab634847 |
Keywords
ASJC Scopus subject areas
Keywords
- Bacillus subtilis W168, Biosynthesis regulation, Heterologous expression, Lantibiotic subtilin, Transition state regulator AbrB, Two-component system (TCS), spa-locus