利用 Comamonas sp. VS-MH2 对合成染料混合物进行体外降解研究及其在模拟微宇宙中的效能评估

In vitro studies on degradation of synthetic dye mixture by Comamonas sp. VS-MH2 and evaluation of its efficacy using simulated microcosm.

机构信息

Department of Microbiology, P.D. Patel Institute of Applied Sciences, Charotar University of Science & Technology, Changa, 388 421 Gujarat, India.

出版信息

Bioresour Technol. 2011 Nov;102(22):10391-400. doi: 10.1016/j.biortech.2011.09.039. Epub 2011 Sep 21.

DOI:10.1016/j.biortech.2011.09.039

PMID:21996479

Abstract

Reactive azo dyes are considered as one of the most detrimental pollutants from industrial effluents and therefore their biodegradation is receiving constant scientific consideration. A bacterial isolate VS-MH2, originating from dye contaminated sites of Gujarat, India, was exploited for its ability to degrade a synthetic dye mixture (SDM) (comprising of four azo reactive dyes) under static conditions. The identification of the isolate by 16S rRNA gene sequencing revealed it to be Comamonas sp. The biodegradation of the SDM was analyzed by UV-vis spectroscopy, IR spectroscopy and GC-MS analysis. The isolate showed high metabolic activity towards SDM and degraded it completely (100 mg L(-1)) within 30 h at pH 7 and 35 °C. Simulated microcosm studies in the presence and absence of indigenous microflora confirmed the ability of Comamonas sp. VS-MH2 for dye degradation and to colonize the soil. This is the first investigation reporting the degradation of SDM by Comamonas sp. under simulated soil microcosms.

摘要

反应性偶氮染料被认为是工业废水中最具危害性的污染物之一，因此它们的生物降解一直受到科学界的关注。从印度古吉拉特邦染料污染场地分离得到的细菌 VS-MH2 菌株，具有在静态条件下降解合成染料混合物（SDM）（由四种偶氮反应性染料组成）的能力，因此被利用。通过 16S rRNA 基因测序对该分离物进行鉴定，结果表明它是 Comamonas sp.。通过紫外-可见光谱、红外光谱和 GC-MS 分析对 SDM 的生物降解进行了分析。该分离物对 SDM 表现出很高的代谢活性，在 pH 7 和 35°C 下，30 小时内可完全降解（100mg/L）。在存在和不存在土著微生物的模拟微宇宙研究中，证实了 Comamonas sp. VS-MH2 具有染料降解和在土壤中定殖的能力。这是首次报道 Comamonas sp. 在模拟土壤微宇宙中降解 SDM 的研究。

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利用 Comamonas sp. VS-MH2 对合成染料混合物进行体外降解研究及其在模拟微宇宙中的效能评估

In vitro studies on degradation of synthetic dye mixture by Comamonas sp. VS-MH2 and evaluation of its efficacy using simulated microcosm.

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