一株分枝杆菌菌株中的新4-硝基甲苯降解途径。

A new 4-nitrotoluene degradation pathway in a Mycobacterium strain.

作者信息

Spiess T, Desiere F, Fischer P, Spain J C, Knackmuss H J, Lenke H

机构信息

Fraunhofer Institut für Grenzflächen- und Bioverfahrenstechnik, Stuttgart, Germany.

出版信息

Appl Environ Microbiol. 1998 Feb;64(2):446-52. doi: 10.1128/AEM.64.2.446-452.1998.

DOI:10.1128/AEM.64.2.446-452.1998

PMID:9464378

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC106064/

Abstract

Mycobacterium sp. strain HL 4-NT-1, isolated from a mixed soil sample from the Stuttgart area, utilized 4-nitrotoluene as the sole source of nitrogen, carbon, and energy. Under aerobic conditions, resting cells of the Mycobacterium strain metabolized 4-nitrotoluene with concomitant release of small amounts of ammonia; under anaerobic conditions, 4-nitrotoluene was completely converted to 6-amino-m-cresol. 4-Hydroxylaminotoluene was converted to 6-amino-m-cresol by cell extracts and thus could be confirmed as the initial metabolite in the degradative pathway. This enzymatic equivalent to the acid-catalyzed Bamberger rearrangement requires neither cofactors nor oxygen. In the same crucial enzymatic step, the homologous substrate hydroxylaminobenzene was rearranged to 2-aminophenol. Abiotic oxidative dimerization of 6-amino-m-cresol, observed during growth of the Mycobacterium strain, yielded a yellow dihydrophenoxazinone. Another yellow metabolite (lambda max, 385 nm) was tentatively identified as 2-amino-5-methylmuconic semialdehyde, formed from 6-amino-m-cresol by meta ring cleavage.

摘要

从斯图加特地区的混合土壤样本中分离出的分枝杆菌属菌株HL 4-NT-1，以4-硝基甲苯作为唯一的氮、碳和能量来源。在有氧条件下，该分枝杆菌菌株的静息细胞代谢4-硝基甲苯，并伴随释放少量氨；在厌氧条件下，4-硝基甲苯完全转化为6-氨基间甲酚。4-羟基氨基甲苯被细胞提取物转化为6-氨基间甲酚，因此可以确定其为降解途径中的初始代谢产物。这种相当于酸催化的班贝格尔重排的酶促反应既不需要辅因子也不需要氧气。在相同的关键酶促步骤中，同源底物羟基氨基苯重排为2-氨基苯酚。在分枝杆菌菌株生长过程中观察到的6-氨基间甲酚的非生物氧化二聚反应，产生了一种黄色的二氢吩恶嗪酮。另一种黄色代谢产物（最大吸收波长，385 nm）被初步鉴定为2-氨基-5-甲基粘康半醛，它是由6-氨基间甲酚通过间位环裂解形成的。

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