聚酮
天然产物
流出
化学
基因
调节基因
生物化学
合成生物学
代谢工程
生物
DNA
抗生素
发酵
计算生物学
基因表达调控
细胞生物学
细胞毒性T细胞
生物合成
生产过剩
调节器
突变体
细菌
突变
细胞毒性
产量(工程)
转染
工业微生物学
聚酮合酶
作者
Ruo‐Qin Gao,Z Xu,Hai‐Xue Pan,Gong‐Li Tang
标识
DOI:10.1021/acssynbio.6c00122
摘要
antibiotic regulatory protein-family activators (LldRg1, LldRg5) and a two-component system (LldRg3/Rg4) within its biosynthetic gene cluster. Coordinated overexpression of these three regulators dramatically increased LLD titer >100-fold to ∼400 mg/L. This engineering also led to the coupregulation of an MFS transporter and a DNA repair-related self-resistance gene, suggesting a concerted activation of efflux and self-defense mechanisms alongside biosynthetic enhancement. Our work establishes an efficient microbial cell factory for LLD and demonstrates a generalizable strategy for enhancing the production of valuable, highly cytotoxic natural products.
科研通智能强力驱动
Strongly Powered by AbleSci AI