Degradation of nicosulfuron by a novel isolated bacterial strain Klebsiella sp Y1: condition optimization, kinetics and degradation pathway

Wang Lin; Zhang Xiaolin; Li Yongmei

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Degradation of nicosulfuron by a novel isolated bacterial strain Klebsiella sp Y1: condition optimization, kinetics and degradation pathway

机译：新型分离细菌菌株Klebsiella sp Y1对烟嘧磺隆的降解：条件优化，动力学和降解途径

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A novel bacterial strain Klebsiella sp. Y1 was isolated from the soil of a constructed wetland, and it was identified based on the 16S rDNA sequence analysis. The co-metabolic degradation of nicosulfuron with glucose by Klebsiella sp. Y1 was investigated. The response surface methodology analysis indicated that the optimal pH and temperature were 7.0 and 35 degrees C, respectively, for the degradation of nicosulfuron. Under the optimal conditions, the degradation of nicosulfuron fitted Haldane kinetics model well. The removal of nicosulfuron was triggered by the acidification of glucose, which accelerated the hydrolysis of nicosulfuron. Then, the C-N bond of the sulfonylurea bridge was attacked and cleaved. Finally, the detected intermediate 2-amino-4,6-dimethoxypyrimidine was further biodegraded.

机译：新型细菌菌株克雷伯菌。 Y1是从人工湿地的土壤中分离出来的，并根据16S rDNA序列分析进行了鉴定。 Klebsiella sp。对葡萄糖与烟碱的协同代谢降解。对Y1进行了调查。响应面方法分析表明，烟嘧磺隆的最佳pH和温度分别为7.0和35℃。在最佳条件下，烟嘧磺隆的降解符合Haldane动力学模型。葡萄糖酸化触发了烟嘧磺隆的去除，从而加速了烟嘧磺隆的水解。然后，磺酰脲桥的C-N键被攻击并裂解。最后，将检测到的中间体2-氨基-4,6-二甲氧基嘧啶进一步生物降解。

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《Water Science and Technology》 |2016年第12期|共8页
作者
Wang Lin; Zhang Xiaolin; Li Yongmei;
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正文语种 eng
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degradation pathway; kinetics; Klebsiella sp Y1; nicosulfuron; optimal condition;

机译：降解途径;动力学;Klebsiella sp Y1;烟嘧磺隆;最佳条件;

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Degradation of nicosulfuron by a novel isolated bacterial strain Klebsiella sp Y1: condition optimization, kinetics and degradation pathway

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