Surfactin–Bacillaene Copathway Engineering Strategy Boosts Fengycin Production and Antifungal Activity in Bacillus velezensis HN-Q-8
Yuzhu Gao, Liuhui Zhao, Dai Zhang, Dongmei Zhao, Qian Li, Haibin Jiang, Yang Pan, Jiehua Zhu, Zhihui Yang

TL;DR
Scientists improved a bacteria's ability to fight potato fungi by engineering its pathways, boosting the production of a key antifungal compound.
Contribution
A novel copathway engineering strategy was used to significantly increase fengycin production and antifungal activity in Bacillus velezensis.
Findings
The ΔsrfAAΔbaeBE mutant produced 98.83 mg/L fengycin in basal medium, a 2.39-fold increase over wild-type.
After medium optimization, fengycin production reached 155.61 mg/L, a 3.77-fold increase over wild-type.
The mutant showed enhanced antifungal activity against four major potato pathogens and increased volatile compound production.
Abstract
Previous studies have demonstrated that Bacillus velezensis HN-Q-8 shows significant inhibitory effects against various plant pathogenic fungi causing potato diseases, primarily attributed to the production of fengycin. However, the low yield of fengycin in wild-type strains limits its practical application, and the influence of its biosynthesis pathway on volatile organic compound production remains unclear. In this study, to enhance fengycin production in Bacillus velezensis HN-Q-8, we applied metabolic engineering by targeting competitive pathways. Specifically, a double mutant (ΔsrfAAΔbaeBE) was constructed by knocking out the surfactin synthase gene srfAA and the bacillaene synthesis gene baeBE. The fengycin yield of the ΔsrfAAΔbaeBE mutant in the basal (sodium glutamate) fermentation medium reached 98.83 mg/L, representing a 2.39-fold increase over the wild-type strain. Subsequent…
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Taxonomy
TopicsPlant-Microbe Interactions and Immunity · Microbial Natural Products and Biosynthesis · Bacterial biofilms and quorum sensing
