铁载体
铜绿假单胞菌
粉煤灰
基因工程
化学
煤
废物管理
微生物学
细菌
生物
工程类
生物化学
基因
遗传学
作者
Yingjie Song,Derong Dai,Qinqin Ma,Rui Bao
标识
DOI:10.1002/adsu.202500366
摘要
Abstract Microbial siderophores, potent iron‐chelating molecules, offer significant promise for the bioremediation of heavy metal‐contaminated industrial wastes. However, their large‐scale application remains limited by biological and environmental constraints. In this study, a genetically engineered strain of Pseudomonas aeruginosa , designated BR01, developed by introducing the plasmid pRK‐ bfmR is presented. Integrated proteomic and transcriptional assays reveal that overexpression of the osmolality‐responsive regulator BfmR reprograms cellular metabolism, enhancing iron acquisition pathways while downregulating virulence‐associated and non‐essential metabolic processes. As a result, strain BR01 demonstrates a 3.82‐fold increase in siderophore production ( P < 0.01) and a 2.95‐fold enhancement in iron extraction from coal fly ash ( P < 0.01) compared to the wild type. Further optimization of growth conditions boosts siderophore yield by an additional 1.73–2.48 times ( P < 0.01). Moreover, the engineered strain shows improved tolerance to cadmium (Cd) and lead (Pb), indicating its robustness in harsh industrial environments. These findings underscore the potential of genetically optimized bacteria to enhance the sustainability of bioremediation technologies.
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