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一株土壤细菌分离株对阿特拉津的降解与矿化作用

Degradation and mineralization of atrazine by a soil bacterial isolate.

作者信息

Radosevich M, Traina S J, Hao Y L, Tuovinen O H

机构信息

Department of Agronomy, Ohio State University, Columbus 43210.

出版信息

Appl Environ Microbiol. 1995 Jan;61(1):297-302. doi: 10.1128/aem.61.1.297-302.1995.

DOI:10.1128/aem.61.1.297-302.1995
PMID:7887609
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC167284/
Abstract

An atrazine-degrading bacterial culture was isolated from an agricultural soil previously impacted by herbicide spills. The organism was capable of using atrazine under aerobic conditions as the sole source of C and N. Cyanuric acid could replace atrazine as the sole source of N, indicating that the organism was capable of ring cleavage. Ring cleavage was confirmed in 14CO2 evolution experiments with [U-14C-ring]atrazine. Between 40 and 50% of ring-14C was mineralized to 14CO2. [14C]biuret and [14C]urea were detected in spent culture media. Cellular assimilation of 14C was negligible, in keeping with the fully oxidized valence of the ring carbon. Chloride release was stoichiometric. The formation of ammonium during atrazine degradation was below the stoichiometric amount, suggesting a deficit due to cellular assimilation and metabolite-N accumulation. With excess glucose and with atrazine as the sole N source, free ammonium was not detected, suggesting assimilation into biomass. The organism degraded atrazine anaerobically in media which contained (i) atrazine only, (ii) atrazine and glucose, and (iii) atrazine, glucose, and nitrate. To date, this is the first report of a pure bacterial isolate with the ability to cleave the s-triazine ring structure of atrazine. It was also concluded that this bacterium was capable of dealkylation, dechlorination, and deamination in addition to ring cleavage.

摘要

从先前受到除草剂泄漏影响的农业土壤中分离出一种降解阿特拉津的细菌培养物。该微生物能够在有氧条件下利用阿特拉津作为唯一的碳源和氮源。氰尿酸可以替代阿特拉津作为唯一的氮源,这表明该微生物能够进行环裂解。在使用[U-14C-环]阿特拉津的14CO2释放实验中证实了环裂解。14C环的40%至50%矿化为14CO2。在用过的培养基中检测到了[14C]缩二脲和[14C]尿素。细胞对14C的同化作用可忽略不计,这与环碳的完全氧化价态一致。氯离子的释放是化学计量的。阿特拉津降解过程中铵的形成低于化学计量量,这表明由于细胞同化和代谢物氮积累而存在不足。在有过量葡萄糖且以阿特拉津作为唯一氮源的情况下,未检测到游离铵,这表明其被同化为生物量。该微生物能够在含有(i)仅阿特拉津、(ii)阿特拉津和葡萄糖以及(iii)阿特拉津、葡萄糖和硝酸盐的培养基中厌氧降解阿特拉津。迄今为止,这是关于一种具有裂解阿特拉津s-三嗪环结构能力的纯细菌分离物的首次报道。研究还得出结论,除了环裂解外,这种细菌还能够进行脱烷基、脱氯和脱氨反应。

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本文引用的文献

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