一株菌株对甲基丁基醚的共代谢生物降解特性

Characterization of co-metabolic biodegradation of methyl -butyl ether by a sp. strain.

作者信息

Li Shanshan, Wang Dan, Du Dan, Qian Keke, Yan Wei

机构信息

Department of Environmental Science & Engineering, Xi'an Jiaotong University Xi'an Shaanxi 710049 China

出版信息

RSC Adv. 2019 Nov 28;9(67):38962-38972. doi: 10.1039/c9ra09507a. eCollection 2019 Nov 27.

DOI:10.1039/c9ra09507a

PMID:35540635

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9076015/

Abstract

Co-metabolic bioremediation is a promising approach for the elimination of methyl -butyl ether (MTBE), which is a common pollutant found worldwide in ground water. In this paper, a bacterial strain able to co-metabolically degrade MTBE was isolated and named as sp. SL3 based on 16S rRNA gene sequencing analysis. Strain SL3 could grow on -alkanes (C-C) accompanied with the co-metabolic degradation of MTBE. The number of carbons present in the -alkane substrate significantly influenced the degradation rate of MTBE and accumulation of -butyl alcohol (TBA), with -octane resulting in a higher MTBE degradation rate ( = 36.7 nmol min mg , = 6.4 mmol L) and lower TBA accumulation rate. A degradation experiment in a fed-batch reactor revealed that the efficiency of MTBE degradation by sp. strain SL3 did not show an obvious decrease after nine rounds of MTBE replenishment ranging from 0.1-0.5 mmol L. The results of this paper reveal the preferable properties of sp. SL3 for the bioremediation of MTBE co-metabolism and leads towards the development of new MTBE elimination technologies.

摘要

共代谢生物修复是一种很有前景的去除甲基叔丁基醚（MTBE）的方法，MTBE是一种在全球地下水层中都能找到的常见污染物。在本文中，通过16S rRNA基因测序分析，分离出了一种能够共代谢降解MTBE的细菌菌株，并命名为sp. SL3。菌株SL3能够在正构烷烃（C - C）上生长，并伴随MTBE的共代谢降解。正构烷烃底物中碳的数量显著影响MTBE的降解速率和叔丁醇（TBA）的积累，其中正辛烷能产生更高的MTBE降解速率（= 36.7 nmol min mg，= 6.4 mmol L）和更低的TBA积累速率。在补料分批反应器中进行的降解实验表明，sp. 菌株SL3对MTBE的降解效率在0.1 - 0.5 mmol L范围内经过9轮MTBE补充后并未出现明显下降。本文的研究结果揭示了sp. SL3在MTBE共代谢生物修复方面的优良特性，并为新型MTBE去除技术的开发提供了方向。

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一株菌株对甲基丁基醚的共代谢生物降解特性

Characterization of co-metabolic biodegradation of methyl -butyl ether by a sp. strain.

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