Minocycline has been widely used in clinical treatment and its residues were considered to have environmental safety risks due to complex chemical structure.Therefore,it is necessary to find an efficient and environme...Minocycline has been widely used in clinical treatment and its residues were considered to have environmental safety risks due to complex chemical structure.Therefore,it is necessary to find an efficient and environmentally friendly method to remove minocycline from the environment.This study screened and isolated a minocycline degrading strain DM13 from the activated sludge for municipal sewage pipeline,and optimized the biodegradation of minocycline by DM13 under various environmental conditions.The maximum biodegradation efficiency of 50 mg/L minocycline reached 93%at 72 h with the temperature of 30℃,the initial pH of 7.0,and the inoculation rate of 3%.Two potential biotransformation pathways were proposed,including deamination,demethylation,and decarbonylation.The acute toxicity assessment showed that the biotransformation products of minocycline had lower toxicity than the parent compound.In addition,the first-generation tetracycline antibiotics could be removed,suggesting that strain DM13 has the potential for application in treating antibiotic wastewater.展开更多
基金supported by the Natural Science Basic Research Program of Shaanxi Province(No.2023-JC-JQ-36).
文摘Minocycline has been widely used in clinical treatment and its residues were considered to have environmental safety risks due to complex chemical structure.Therefore,it is necessary to find an efficient and environmentally friendly method to remove minocycline from the environment.This study screened and isolated a minocycline degrading strain DM13 from the activated sludge for municipal sewage pipeline,and optimized the biodegradation of minocycline by DM13 under various environmental conditions.The maximum biodegradation efficiency of 50 mg/L minocycline reached 93%at 72 h with the temperature of 30℃,the initial pH of 7.0,and the inoculation rate of 3%.Two potential biotransformation pathways were proposed,including deamination,demethylation,and decarbonylation.The acute toxicity assessment showed that the biotransformation products of minocycline had lower toxicity than the parent compound.In addition,the first-generation tetracycline antibiotics could be removed,suggesting that strain DM13 has the potential for application in treating antibiotic wastewater.
