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细菌对苯的厌氧降解

Anaerobic benzene degradation by bacteria.

作者信息

Vogt Carsten, Kleinsteuber Sabine, Richnow Hans-Hermann

机构信息

Department of Isotope Biogeochemistry, UFZ - Helmholtz Centre for Environmental Research, Leipzig, Germany.

出版信息

Microb Biotechnol. 2011 Nov;4(6):710-24. doi: 10.1111/j.1751-7915.2011.00260.x. Epub 2011 Mar 30.

DOI:10.1111/j.1751-7915.2011.00260.x
PMID:21450012
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3815408/
Abstract

Benzene is a widespread and toxic contaminant. The fate of benzene in contaminated aquifers seems to be primarily controlled by the abundance of oxygen: benzene is aerobically degraded at high rates by ubiquitous microorganisms, and the oxygen-dependent pathways for its breakdown were elucidated more than 50 years ago. In contrast, benzene was thought to be persistent under anoxic conditions until 25 years ago. Nevertheless, within the last 15 years, several benzene-degrading cultures have been enriched under varying electron acceptor conditions in laboratories around the world, and organisms involved in anaerobic benzene degradation have been identified, indicating that anaerobic benzene degradation is a relevant environmental process. However, only a few benzene degraders have been isolated in pure culture so far, and they all use nitrate as an electron acceptor. In some highly enriched strictly anaerobic cultures, benzene has been described to be mineralized cooperatively by two or more different organisms. Despite great efforts, the biochemical mechanism by which the aromatic ring of benzene is activated in the absence of oxygen is still not fully elucidated; methylation, hydroxylation and carboxylation are discussed as likely reactions. This review summarizes the current knowledge about the 'key players' of anaerobic benzene degradation under different electron acceptor conditions and the possible pathway(s) of anaerobic benzene degradation.

摘要

苯是一种广泛存在的有毒污染物。苯在受污染含水层中的归宿似乎主要受氧含量的控制:苯在有氧条件下会被无处不在的微生物快速好氧降解,其依赖氧的分解途径在50多年前就已阐明。相比之下,直到25年前,苯在缺氧条件下还被认为是持久性的。然而,在过去15年里,世界各地的实验室在不同电子受体条件下富集了几种苯降解培养物,并且已经鉴定出参与厌氧苯降解的生物体,这表明厌氧苯降解是一个相关的环境过程。然而,到目前为止,只有少数苯降解菌被纯培养分离出来,而且它们都以硝酸盐作为电子受体。在一些高度富集的严格厌氧培养物中,已描述苯可由两种或更多不同生物体协同矿化。尽管付出了巨大努力,但在无氧条件下苯的芳香环被激活的生化机制仍未完全阐明;甲基化、羟基化和羧化被认为是可能的反应。本综述总结了目前关于不同电子受体条件下厌氧苯降解的“关键参与者”以及厌氧苯降解可能途径的知识。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87ab/3815408/9b46e66e4976/mbt0004-0710-f2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87ab/3815408/a5ff999cc8c7/mbt0004-0710-f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87ab/3815408/9b46e66e4976/mbt0004-0710-f2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87ab/3815408/a5ff999cc8c7/mbt0004-0710-f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87ab/3815408/9b46e66e4976/mbt0004-0710-f2.jpg

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