WS 型贪铜菌对二苯醚的分子降解机制的特性研究。

Characterization of the molecular degradation mechanism of diphenyl ethers by Cupriavidus sp. WS.

机构信息

Institute of Microbiology, College of Life Sciences, Zhejiang University, Hangzhou, 310058, Zhejiang, People's Republic of China.

Hangzhou Center for Disease Control and Prevention, Hangzhou, 310021, Zhejiang, People's Republic of China.

出版信息

Environ Sci Pollut Res Int. 2015 Nov;22(21):16914-26. doi: 10.1007/s11356-015-4854-3. Epub 2015 Jun 25.

DOI:10.1007/s11356-015-4854-3

PMID:26109219

Abstract

Commonly used flame retardants, such as polybrominated diphenyl ethers, are extremely persistent in the environment, causing serious environmental risks. Certain strains of bacteria are able to degrade several low brominated congeners of PBDEs aerobically. However, the aerobic degradation pathway is not yet well understood, particularly at the genetic level. In this study, we isolated Cupriavidus sp. WS from the environment that could degrade diphenyl ether (DE), 4-bromodiphenyl ether, and 4,4'-bromodiphenyl ether. DE was completely degraded in 6 days without any detectable end-product. Using transposon mutagenesis, several DE degradation-deficient mutants were obtained. Knocking out bphA1, bphA2, and bphA3 eliminated the ability of the Cupriavidus sp. WS bacterium to degrade DE, indicating that the bph genes play a crucial role in DE degradation by this strain. The specific roles of bphA, bphB, and bphC were identified by systematically expressing these genes in Escherichia coli. The dihydrodiol product of BphA was dehydrogenated into 2,3-dihydroxydiphenyl ether by BphB. 2,3-Dihydroxydiphenyl ether was then decomposed into phenol and 2-pyrone-6-carboxylic acid by BphC. Thus, BphA, BphB, and BphC act sequentially in the aerobic degradation of DE, 4-bromodiphenyl ether, and 4,4'-dibromodiphenyl ether by the Cupriavidus sp. WS bacterium.

摘要

常用的阻燃剂，如多溴二苯醚，在环境中极为持久，造成严重的环境风险。某些细菌菌株能够有氧降解几种低溴代多溴二苯醚同系物。然而，有氧降解途径尚不完全清楚，尤其是在遗传水平上。在这项研究中，我们从环境中分离出了能够降解二苯醚（DE）、4-溴二苯醚和 4,4'-二溴二苯醚的铜绿假单胞菌 WS。在没有任何可检测到的终产物的情况下，DE 在 6 天内完全降解。通过转座子诱变，获得了几个 DE 降解缺陷突变体。敲除 bphA1、bphA2 和 bphA3 消除了 Cupriavidus sp. WS 细菌降解 DE 的能力，表明 bph 基因在该菌株降解 DE 中起关键作用。通过在大肠杆菌中系统表达这些基因，确定了 bphA、bphB 和 bphC 的具体作用。BphA 的二氢二醇产物被 BphB 脱氢为 2,3-二羟基二苯醚。2,3-二羟基二苯醚然后被 BphC 分解为苯酚和 2-吡喃-6-羧酸。因此，BphA、BphB 和 BphC 在 Cupriavidus sp. WS 细菌有氧降解 DE、4-溴二苯醚和 4,4'-二溴二苯醚中依次发挥作用。

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WS 型贪铜菌对二苯醚的分子降解机制的特性研究。

Characterization of the molecular degradation mechanism of diphenyl ethers by Cupriavidus sp. WS.

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