应用 (13)C 稳定同位素示踪技术鉴定地下水中 RDX 降解微生物。

Application of (13)C-stable isotope probing to identify RDX-degrading microorganisms in groundwater.

机构信息

Zachry Department of Civil Engineering, 3136 TAMU, 205G WERC, Texas A&M University, College Station, TX 77843-3136, USA.

出版信息

Environ Pollut. 2013 Jul;178:350-60. doi: 10.1016/j.envpol.2013.03.033. Epub 2013 Apr 18.

DOI:10.1016/j.envpol.2013.03.033

PMID:23603473

Abstract

We employed stable isotope probing (SIP) with (13)C-labeled hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX) to identify active microorganisms responsible for RDX biodegradation in groundwater microcosms. Sixteen different 16S rRNA gene sequences were derived from microcosms receiving (13)C-labeled RDX, suggesting the presence of microorganisms able to incorporate carbon from RDX or its breakdown products. The clones, residing in Bacteroidia, Clostridia, α-, β- and δ-Proteobacteria, and Spirochaetes, were different from previously described RDX degraders. A parallel set of microcosms was amended with cheese whey and RDX to evaluate the influence of this co-substrate on the RDX-degrading microbial community. Cheese whey stimulated RDX biotransformation, altered the types of RDX-degrading bacteria, and decreased microbial community diversity. Results of this study suggest that RDX-degrading microorganisms in groundwater are more phylogenetically diverse than what has been inferred from studies with RDX-degrading isolates.

摘要

我们采用稳定同位素探测 (SIP) 技术，使用 (13)C 标记的六氢-1,3,5-三硝基-1,3,5-三嗪 (RDX)，以确定参与地下水微宇宙中 RDX 生物降解的活性微生物。从接受 (13)C 标记 RDX 的微宇宙中获得了 16 个不同的 16S rRNA 基因序列，这表明存在能够从 RDX 或其降解产物中摄取碳的微生物。这些克隆菌存在于拟杆菌门、梭菌门、α-、β-和 δ-变形菌门以及螺旋体门中，与先前描述的 RDX 降解菌不同。一组平行的微宇宙中添加了奶酪乳清和 RDX，以评估这种共底物对 RDX 降解微生物群落的影响。奶酪乳清刺激了 RDX 的生物转化，改变了 RDX 降解菌的类型，并降低了微生物群落的多样性。这项研究的结果表明，地下水中的 RDX 降解微生物在系统发育上比从 RDX 降解分离株研究中推断的更为多样化。

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应用 (13)C 稳定同位素示踪技术鉴定地下水中 RDX 降解微生物。

Application of (13)C-stable isotope probing to identify RDX-degrading microorganisms in groundwater.

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