白腐菌对有机氯农药氯丹的酶促降解特性研究

doi:10.11924/j.issn.1000-6850.2012-1755

中国农学通报 ›› 2013, Vol. 29 ›› Issue (9): 178-183.doi: 10.11924/j.issn.1000-6850.2012-1755

所属专题：生物技术；植物保护

白腐菌对有机氯农药氯丹的酶促降解特性研究

肖鹏飞近藤隆一郎

收稿日期:2012-05-08 修回日期:2012-06-24 出版日期:2013-03-25 发布日期:2013-03-25
基金资助:
中央高校基本科研业务费专项资金资助“白腐真菌对氯代环戊二烯类杀虫剂的降解性能及降解机理”(DL12BA05)；日本农林水产省农场粮食安全项目资助“担子菌净化土壤技术的开发”(PO-3216)。

Enzymatic Degradation of Organochlorine Insecticide Chlordane by White Rot Fungus

Received:2012-05-08 Revised:2012-06-24 Online:2013-03-25 Published:2013-03-25

摘要/Abstract

摘要： 为了阐明对有机氯农药氯丹具有高效降解能力的白腐菌Phlebia brevispora的酶促降解特性及规律，在实验室条件下，菌株经过纯培养、超声波破碎和高速离心等过程，提取到胞内粗酶液和胞外粗酶液，研究了降解酶对氯丹的降解及其转化特性。结果显示，处理20 min后，胞内酶及胞外酶对10μmol/L氯丹的降解率分别达到33.2%和10.4%。氯丹胞内酶降解的酶促反应最适温度是32℃，最适pH 5.0，最适条件下反应1 h后的氯丹降解率为49.9%。胞内酶在25~40℃，pH 4.5~6.0范围内均具有较高的降解活性；胞内粗酶液的米氏常数Km为3.49μmol/L，最大反应速率Vmax为8.38μmol/min。在胞内酶及胞外酶培养体系分别检测到完全不同的代谢产物。结果表明，氯丹降解酶系包括胞外酶和胞内酶，其中胞内酶是主要降解酶。胞外酶主要催化氯丹的脱氢和脱氯化氢反应，而胞内酶则主要通过羟基化和置换反应将氯丹转化为一些羟基化产物。

关键词: 寒害, 寒害

Abstract: In order to clarify the mechanism of enzymatic degradation organochlorine insecticide chlordane by the white rot fungus Phlebia brevispora, the degradation characteristics of chlordane was determined by the crude enzyme extracted from this strain by pure culture, ultrasonic fragmentation and centrifuge separation. The results showed that, chlordane was degraded about 33.2% and 10.4% by intracellular enzyme and extracellular enzyme within 20 min. At pH 5.0 and 32℃, the crude enzyme showed greatest degradation activity (49.9% ), with its Michaelis-Mentn’s constant (Km) and maximum degradation rate (Vmax) of 3.49μmol/L and 8.38μmol/min, respectively. The results of metabolites analysis indicate that extracellular enzyme can degrade chlordane through dehydrogenation or dehydrochlorination, and intracellular enzyme can transform chlordane to some hydroxylated metabolites through hydroxylation or substitution of chlorine atom by hydroxyl group.

肖鹏飞近藤隆一郎. 白腐菌对有机氯农药氯丹的酶促降解特性研究[J]. 中国农学通报, 2013, 29(9): 178-183.

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白腐菌对有机氯农药氯丹的酶促降解特性研究

Enzymatic Degradation of Organochlorine Insecticide Chlordane by White Rot Fungus

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