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鉴定参与降解三氯生及其非氯化同系物的废水中细菌。

Identification of wastewater bacteria involved in the degradation of triclocarban and its non-chlorinated congener.

机构信息

Johns Hopkins University, Department of Environmental Health Sciences, Baltimore, MD 21205, United States.

出版信息

J Hazard Mater. 2010 Nov 15;183(1-3):766-72. doi: 10.1016/j.jhazmat.2010.07.092. Epub 2010 Jul 30.

DOI:10.1016/j.jhazmat.2010.07.092
PMID:20727675
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2939305/
Abstract

Triclocarban (TCC) is an antimicrobial additive of personal care products that is only partially degraded during wastewater treatment. Bacteria responsible for its transformation are unknown. We obtained wastewater bacteria capable of using as the sole carbon source TCC or its non-chlorinated analog, carbanilide (NCC). Enrichments established using activated sludge amended with TCC and NCC, respectively, were maintained for 1 year through successive transfers. Enrichments displayed exponential growth after 2 weeks, reaching stationary phase after 1 month. The NCC enrichment was shown to accumulate aniline. Denaturing gradient gel electrophoresis of amplified 16S rRNA genes indicated markedly reduced community richness compared to the inoculum and a single, prominent taxonomic unit emerged in both chlorinated and non-chlorinated carbanilide enrichment cultures. Cloned 16S rRNA genes showed both enrichments were dominated by a single genotype related to uncharacterized organisms within the Alcaligenaceae. Of ∼30 sequences from each enrichment, no other organisms were detected in the TCC enrichment while, a small, flanking community of alpha proteobacteria was detected in the NCC enrichment. Study results demonstrate that growth of wastewater bacteria on TCC and its lower chlorinated analog can be linked to bacteria within the family Alcaligenaceae. These organisms are promising agents for the bioremediation of hazardous phenylurea pollutants.

摘要

三氯卡班(TCC)是个人护理产品中的一种抗菌添加剂,在废水处理过程中仅部分降解。负责其转化的细菌尚不清楚。我们获得了能够将 TCC 或其非氯化类似物、邻苯二甲酰胺(NCC)用作唯一碳源的废水细菌。分别使用添加 TCC 和 NCC 的活性污泥建立的富集物通过连续传代在 1 年内得到维持。富集物在 2 周后呈指数增长,1 个月后达到稳定期。NCC 富集物被证明会积累苯胺。扩增 16S rRNA 基因的变性梯度凝胶电泳表明,与接种物相比,群落丰富度明显降低,并且在氯化和非氯化邻苯二甲酰胺富集培养物中都出现了一个单一的、突出的分类单元。从每个富集物中克隆的 16S rRNA 基因表明,两种富集物均由单一基因型主导,该基因型与 Alcaligenaceae 中的未鉴定生物有关。在 TCC 富集物中未检测到其他任何生物,而在 NCC 富集物中检测到一小部分α变形菌的侧群。研究结果表明,废水细菌在 TCC 及其低氯化类似物上的生长可归因于 Alcaligenaceae 家族内的细菌。这些生物体是生物修复有害苯基脲污染物的有前途的剂。

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