Abstract
The biocontrol agent Lysobacter enzymogenes OH11 produces several structurally distinct antibiotic compounds, including the antifungal HSAF (Heat Stable Antifungal Factor) and alteramides, along with their 3-dehydroxyl precursors (3-deOH). We previously showed that the 3-hydroxylation is the final step of the biosynthesis and is also a key structural moiety for the antifungal activity. However, the procedure through which OH11 regulates the 3-hydroxylation is still not clear. In OH11, the gene orf3232 was predicted to encode a TetR regulator (LeTetR) with unknown function. Here, we deleted orf3232 and found that the LeTetR mutant produced very little HSAF and alteramides, while the 3-deOH compounds were not significantly affected. The production of HSAF and alteramides was restored in orf3232-complemented mutant. qRT-PCR showed that the deletion of orf3232 impaired the transcription of a putative fatty acid hydroxylase gene, orf2195, but did not directly affect the expression of the HSAF biosynthetic gene cluster (hsaf). When an enzyme extract from E. coli expressing the fatty acid hydroxylase gene, hsaf-orf7, was added to the LeTetR mutant, the production of HSAF and alteramides increased by 13–14 fold. This study revealed a rare function of the TetR family regulator, which positively controls the final step of the antifungal biosynthesis and thus controls the antifungal activity of the biocontrol agent.
Highlights
Lysobacter is a genus of Gram-negative gliding bacteria inhabiting soil and fresh water [1]
We found that a new TetR-family regulator, LeTetR encoded by orf3232 in L. enzymogenes OH11, positively regulates the 3-hydroxylation of HSAF
Genome annotation of L. enzymogenes OH11 predicted that orf3232 encodes a TetR regulator
Summary
Lysobacter is a genus of Gram-negative gliding bacteria inhabiting soil and fresh water [1]. HSAF belonging to the family of polycyclic tetramate macrolactams (PoTeM) is a predominate natural product of Lysobacter enzymogenes [3,4]. It exhibits a broad-spectrum antifungal activity with a novel mode of action and has the potential as a novel lead compound for fungicides or antifungal drugs [5,6,7]. In the Rpf/DSF pathway, the signal molecule LeDSF3 promotes the HSAF production and Clp expression [8]. In the DF pathway, the LysR-family regulator LysRLe binds to Molecules 2020, 25, 2286; doi:10.3390/molecules25102286 www.mdpi.com/journal/molecules
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