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一种可诱导的丙烷单加氧酶负责红球菌属菌株RHA1对N-亚硝基二甲胺的降解。

An inducible propane monooxygenase is responsible for N-nitrosodimethylamine degradation by Rhodococcus sp. strain RHA1.

作者信息

Sharp Jonathan O, Sales Christopher M, LeBlanc Justin C, Liu Jie, Wood Thomas K, Eltis Lindsay D, Mohn William W, Alvarez-Cohen Lisa

机构信息

Department of Civil and Environmental Engineering, University of California, Berkeley, California 94720-1710, USA.

出版信息

Appl Environ Microbiol. 2007 Nov;73(21):6930-8. doi: 10.1128/AEM.01697-07. Epub 2007 Sep 14.

DOI:10.1128/AEM.01697-07
PMID:17873074
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2074979/
Abstract

Rhodococci are common soil heterotrophs that possess diverse functional enzymatic activities with economic and ecological significance. In this study, the correlation between gene expression and biological removal of the water contaminant N-nitrosodimethylamine (NDMA) is explored. NDMA is a hydrophilic, potent carcinogen that has gained recent notoriety due to its environmental persistence and emergence as a widespread micropollutant in the subsurface environment. In this study, we demonstrate that Rhodococcus sp. strain RHA1 can constitutively degrade NDMA and that activity toward this compound is enhanced by approximately 500-fold after growth on propane. Transcriptomic analysis of RHA1 and reverse transcriptase quantitative PCR assays demonstrate that growth on propane elicits the upregulation of gene clusters associated with (i) the oxidation of propane and (ii) the oxidation of substituted benzenes. Deletion mutagenesis of prmA, the gene encoding the large hydroxylase component of propane monooxygenase, abolished both growth on propane and removal of NDMA. These results demonstrate that propane monooxygenase is responsible for NDMA degradation by RHA1 and explain the enhanced cometabolic degradation of NDMA in the presence of propane.

摘要

红球菌是常见的土壤异养菌,具有多种具有经济和生态意义的功能性酶活性。在本研究中,探索了基因表达与水污染物N-亚硝基二甲胺(NDMA)生物去除之间的相关性。NDMA是一种亲水性强致癌物,由于其在环境中的持久性以及在地下环境中作为广泛存在的微污染物出现,最近受到了广泛关注。在本研究中,我们证明红球菌属菌株RHA1可以组成性地降解NDMA,并且在丙烷上生长后,对该化合物的活性提高了约500倍。对RHA1的转录组分析和逆转录酶定量PCR分析表明,在丙烷上生长会引发与(i)丙烷氧化和(ii)取代苯氧化相关的基因簇上调。丙烷单加氧酶的大型羟化酶组分编码基因prmA的缺失诱变消除了在丙烷上的生长以及NDMA的去除。这些结果表明丙烷单加氧酶负责RHA1对NDMA的降解,并解释了在丙烷存在下NDMA的共代谢降解增强的原因。

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