一株新分离的芽孢杆菌 GZB 对双酚 A 的生物降解和解毒：动力学、机制和雌激素转化。

Biodegradation and detoxification of bisphenol A with one newly-isolated strain Bacillus sp. GZB: kinetics, mechanism and estrogenic transition.

机构信息

The State Key Laboratory of Organic Geochemistry and Guangdong Key Laboratory of Environmental Protection and Resources Utilization, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640, China.

出版信息

Bioresour Technol. 2012 Jun;114:224-30. doi: 10.1016/j.biortech.2012.03.067. Epub 2012 Mar 29.

DOI:10.1016/j.biortech.2012.03.067

PMID:22507902

Abstract

A facultative anaerobic bacterial strain, Bacillus sp. GZB, was isolated and identified to effectively degrade bisphenol A (BPA) under anaerobic and aerobic conditions. Under anaerobic condition, Fe(3+) can be used as an electron acceptor for Bacillus sp. GZB, while 5 mg L(-1) BPA can be fully removed and 51% was mineralized under optimal aerobic conditions. Additionally, seven metabolites were identified by GC-MS, four of which were doubly confirmed by authentic standards (two synthesized) and three of four initial degradation intermediates were also quantified during BPA aerobic degradation. The evolution of 1-(4-hydroxyphenyl)ethanone showed a similar tendency with estrogenic activity changing during BPA biodegradation course, indicating its potential estrogenicity. The estrogenicity temporary increase first and decline ultimately during BPA degradation revealing the GZB can effectively detoxify BPA as well as its estrogenic intermediates. This was the first study to report a facultative anaerobic strain can degrade BPA with or without of oxygen.

摘要

一株兼性厌氧细菌菌株，芽孢杆菌 GZB，被分离并鉴定为在厌氧和好氧条件下有效降解双酚 A（BPA）。在厌氧条件下，Fe(3+)可以作为芽孢杆菌 GZB 的电子受体，而在最佳好氧条件下，5mg/L(-1)的 BPA 可以被完全去除，51%被矿化。此外，通过 GC-MS 鉴定出了 7 种代谢产物，其中 4 种通过标准品（2 种合成）双重确认，在 BPA 好氧降解过程中还定量了 4 种初始降解中间产物中的 3 种。1-(4-羟基苯基)乙酮的演变与 BPA 生物降解过程中雌激素活性的变化趋势相似，表明其具有潜在的雌激素活性。BPA 降解过程中雌激素活性先增加后下降，表明 GZB 可以有效地解毒 BPA 及其雌激素中间产物。这是首次报道一株兼性厌氧菌株可以在有氧或无氧条件下降解 BPA。

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一株新分离的芽孢杆菌 GZB 对双酚 A 的生物降解和解毒：动力学、机制和雌激素转化。

Biodegradation and detoxification of bisphenol A with one newly-isolated strain Bacillus sp. GZB: kinetics, mechanism and estrogenic transition.

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