毒物
生物降解
合成生物学
生化工程
生物生产
生物修复
计算生物学
生物
计算机科学
化学
细菌
生物技术
生态学
工程类
遗传学
毒性
有机化学
作者
Huan Liu,Lige Zhang,Weiwei Wang,Haiyang Hu,Xingyu Ouyang,Ping Xu,Hongzhi Tang
出处
期刊:Advanced Science
[Wiley]
日期:2023-09-13
卷期号:10 (31): e2304318-e2304318
被引量:23
标识
DOI:10.1002/advs.202304318
摘要
Abstract Modules, toolboxes, and synthetic biology systems may be designed to address environmental bioremediation. However, weak and decentralized functional modules require complex control. To address this issue, an integrated system for toxicant detection and biodegradation, and subsequent suicide in chronological order without exogenous inducers is constructed. Salicylic acid, a typical pollutant in industrial wastewater, is selected as an example to demonstrate this design. Biosensors are optimized by regulating the expression of receptors and reporters to get 2‐fold sensitivity and 6‐fold maximum output. Several stationary phase promoters are compared, and promoter P fic is chosen to express the degradation enzyme. Two concepts for suicide circuits are developed, with the toxin/antitoxin circuit showing potent lethality. The three modules are coupled in a stepwise manner. Detection and biodegradation, and suicide are sequentially completed with partial attenuation compared to pre‐integration, except for biodegradation, being improved by the replacements of ribosome binding site. Finally, a long‐term stability test reveals that the engineered strain maintained its function for ten generations. The study provides a novel concept for integrating and controlling functional modules that can accelerate the transition of synthetic biology from conceptual to practical applications.
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