枯草芽孢杆菌 BI377对偶氮染料活性红 120 的脱色及降解机制研究。

Mechanistic investigation of decolorization and degradation of reactive red 120 by Bacillus lentus BI377.

机构信息

Department of Chemistry, University of Pune, Ganeshkhind, Pune 411 007, Maharashtra, India.

出版信息

Bioresour Technol. 2011 Jan;102(2):758-64. doi: 10.1016/j.biortech.2010.08.094. Epub 2010 Sep 22.

DOI:10.1016/j.biortech.2010.08.094

PMID:20864334

Abstract

Bacillus lentus BI377, isolated from textile effluent-contaminated soil, was able to degrade 97% and 92% of Reactive Red 120 dye when 1200 and 1500 mg/l, respectively, of dye was added to nutrient broth (NB) at 35 °C within 12 h. UV-vis spectroscopy, GC-MS, FTIR and 1H NMR revealed the formation of catechol which may be further utilized by the bacterium via the TCA cycle, leading to complete mineralization. Structural analysis of metabolites in conjunction with enzyme activity studies confirmed the involvement of azoreductase, cytochrome P450 monooxygenase and other antioxidant enzymes. Decreases in total organic carbon and in biological and chemical oxygen demand suggest formation of low molecular weight metabolites that could be completely mineralized. These results suggest the potential use of B. lentus BI377 towards online treatment of textile dye effluents by using an appropriate bioreactor over a wide range of pH. This study opens-up a dependable and proficient way to use industrially viable non-pathogenic strains for biotransformation of carcinogenic dyes to ecofriendly compounds.

摘要

从纺织废水污染的土壤中分离出的迟缓芽孢杆菌 BI377，在 35°C 下，分别向营养肉汤（NB）中添加 1200 和 1500mg/L 的染料，可在 12 小时内将活性红 120 染料降解 97%和 92%。UV-vis 光谱、GC-MS、FTIR 和 1H NMR 表明儿茶酚的形成，该物质可能通过 TCA 循环进一步被细菌利用，从而导致完全矿化。代谢产物的结构分析结合酶活性研究证实了偶氮还原酶、细胞色素 P450 单加氧酶和其他抗氧化酶的参与。总有机碳和生物需氧量及化学需氧量的降低表明形成了可完全矿化的低分子量代谢物。这些结果表明，在较宽的 pH 范围内，使用适当的生物反应器，迟缓芽孢杆菌 BI377 有潜力用于在线处理纺织染料废水。这项研究为使用工业上可行的非致病性菌株将致癌染料生物转化为环保化合物开辟了一条可靠且高效的途径。

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Mechanistic investigation of decolorization and degradation of reactive red 120 by Bacillus lentus BI377.枯草芽孢杆菌 BI377对偶氮染料活性红 120 的脱色及降解机制研究。

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枯草芽孢杆菌 BI377对偶氮染料活性红 120 的脱色及降解机制研究。

Mechanistic investigation of decolorization and degradation of reactive red 120 by Bacillus lentus BI377.

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