Microbial Degradation of Tetracycline Antibiotics: Mechanisms and Environmental Implications

微生物降解 生化工程 生物降解 降级(电信) 抗生素 四环素 环境修复 生物技术 微生物 生物 细菌 微生物学 污染 计算机科学 生态学 工程类 电信 遗传学
作者
Qin Li,Yanhong Zheng,Lijun Guo,Ying Xiao,Haiyue Li,Pingping Yang,Li Xia,Xiangqing Liu,Zhangyan Chen,Li Li,Huaidong Zhang
出处
期刊:Journal of Agricultural and Food Chemistry [American Chemical Society]
卷期号:72 (24): 13523-13536 被引量:79
标识
DOI:10.1021/acs.jafc.4c02677
摘要

The escalating global consumption of tetracyclines (TCs) as broad-spectrum antibiotics necessitates innovative approaches to mitigate their pervasive environmental persistence and associated risks. While initiatives such as China's antimicrobial reduction efforts highlight the urgency of responsible TC usage, the need for efficient degradation methods remains paramount. Microbial degradation emerges as a promising solution, offering novel insights into degradation pathways and mechanisms. Despite challenges, including the optimization of microbial activity conditions and the risk of antibiotic resistance development, microbial degradation showcases significant innovation in its cost-effectiveness, environmental friendliness, and simplicity of implementation compared to traditional degradation methods. While the published reviews have summarized some aspects of biodegradation of TCs, a systematic and comprehensive summary of all the TC biodegradation pathways, reactions, intermediates, and final products including ring-opening products involved with enzymes and mechanisms of each bacterium and fungus reported is necessary. This review aims to fill the current gap in the literature by offering a thorough and systematic overview of the structure, bioactivity mechanism, detection methods, microbial degradation pathways, and molecular mechanisms of all tetracycline antibiotics in various microorganisms. It comprehensively collects and analyzes data on the microbial degradation pathways, including bacteria and fungi, intermediate and final products, ring-opening products, product toxicity, and the degradation mechanisms for all tetracyclines. Additionally, it points out future directions for the discovery of degradation-related genes/enzymes and microbial resources that can effectively degrade tetracyclines. This review is expected to contribute to advancing knowledge in this field and promoting the development of sustainable remediation strategies for contaminated environments.
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