Novel Bacillus Consortium for Degradation of 2,4- Dinitrotoluene: A Xenobiotic Compound

M. Smitha, Rajni Singh
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引用次数: 3

Abstract

The xenobiotic compound 2,4-Dinitrotoluene (DNT) is used in the production of explosives (2,4,6-Trinitrotoluene,TNT), polyurethane/dyes, and in smokeless gunpowder. The cleanup of these compounds has gained much attention in the last decades due to hazardous nature of these compounds. Numerous bacterial strains capable of growing on DNT as the sole source of carbon, nitrogen and energy have been isolated by various scientists. Attempts to degrade DNT at high concentrations have never been found successful. The present study was conducted in Amity Institute of Microbial Biotechnology, Amity University between June 2010 and July 2011. About 18 bacterial cultures were isolated from the contaminated sites in the presence of 0.001% (w/v) 2,4-DNT.Isolated strains were further screened on the basis of their tolerance towards 2,4-DNT by growing them in the presence of 0.001% to 0.03% (w/v) 2,4-DNT. Out of 18 strains, eight tolerated varying concentration of 2,4-DNT and were mixed in different permutation & combination for preparation of microbial consortia. The best consortium (No.4 with strains RSE165, RSA32, RSB80 and RSD127) was selected and subjected to molecular characterization. Bacterial strains used in this study were identified as Bacillus subtilis RSE165 (NCBI accession no. JQ887982), Bacillus megaterium RSA32 (KR051485), Bacillus cereus RSB80 (JQ040533) and Bacillus flexus RSD127 (KR051486).The analysis of the 2,4-DNT degradation capabilities of the best four individual strains and their consortium by GC analysis shows that the spectral peak of 2,4-DNT is completely replaced by three small peaks which indicate its utilization and degradation by the bacterial strains as well as by their consortium.
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降解2,4-二硝基甲苯的新型芽孢杆菌联合体:一种异种化合物
异生化合物2,4-二硝基甲苯(DNT)用于生产炸药(2,4,6-三硝基甲苯,TNT)、聚氨酯/染料和无烟火药。由于这些化合物的危险性,近几十年来,这些化合物的清理工作受到了广泛关注。许多细菌菌株能够生长在DNT作为碳,氮和能量的唯一来源已经被不同的科学家分离出来。试图在高浓度下降解DNT从未成功过。本研究于2010年6月至2011年7月在Amity大学Amity微生物生物技术研究所进行。在0.001% (w/v) 2,4- dnt的存在下,从污染部位分离出18株细菌培养物。通过在0.001% ~ 0.03% (w/v)的2,4- dnt中培养,进一步筛选分离菌株对2,4- dnt的耐受性。在18株菌株中,8株对不同浓度的2,4- dnt具有耐受性,并以不同的排列和组合混合以制备微生物菌群。筛选出菌株RSE165、RSA32、RSB80和RSD127的最佳组合No.4,并进行分子表征。本研究所用菌株鉴定为枯草芽孢杆菌RSE165 (NCBI accession no. 165)。JQ887982)、巨芽孢杆菌RSA32 (KR051485)、蜡样芽孢杆菌RSB80 (JQ040533)和弯曲芽孢杆菌RSD127 (KR051486)。通过气相色谱法分析最佳菌株及其菌群对2,4- dnt的降解能力,发现2,4- dnt的光谱峰完全被3个小峰所取代,表明其被菌株及其菌群利用和降解。
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