Journal
SCIENCE OF THE TOTAL ENVIRONMENT
Volume 867, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.scitotenv.2023.161510
Keywords
Organophosphorus pollutions; OP-degrading enzymes; Bioremediation; Immobilization; Medical detoxification
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Organophosphorus compounds (OPs) have been widely used in agriculture for their high insecticidal efficiency and pose a significant threat as chemical warfare agents. Excessive and unreasonable use of OPs has caused great harm to the environment and food chain. This review focuses on the properties, structure, and catalytic mechanism of various OP-degrading enzymes, as well as methods for improving their expression level, catalytic performance, and stability. The immobilization and latest applications of OP-degrading enzymes are also discussed.
Organophosphorus compounds (OPs) have been widely used in agriculture for decades because of their high insecticidal efficiency, which maintains and increases crop yields worldwide. More importantly, OPs, as typical chemical warfare agents, are a serious concern and significant danger for military and civilian personnel. The widespread use of OPs, superfluous and unreasonable use, has caused great harm to the environment and food chain. Developing efficient and environmentally friendly solutions for the decontamination of OPs is a long-term challenge. Microbial enzymes show potential application as natural and green biocatalysts. Thus, utilizing OP-degrading enzymes for environmental decontamination presents significant advantages, as these enzymes can rapidly hydrolyze OPs; are environmentally friendly, nonflammable, and noncorrosive; and can be discarded safely and easily. Here, the properties, structure and catalytic mechanism of various typical OP-degrading enzymes are reviewed. The methods and effects utilized to improve the expression level, catalytic performance and stability of OP-degrading enzymes were systematically summarized. In addition, the immobilization of OP-degrading enzymes was explicated emphatically, and the latest progress of cascade reactions based on immobilized enzymes was discussed. Finally, the latest applications of OP-degrading enzymes were summarized, including biosensors, nanozyme mimics and medical detoxification. This review provides guidance for the future development of OP-degrading enzymes and promotes their application in the field of environmental bioremediation and medicine.
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