Microbial cell factories in the degradation of azo-dye and their limiting factors: An insight

Cleaner Water Pub Date : 2024-08-24 DOI:10.1016/j.clwat.2024.100034

Sahiba Khan, Debajit Borah

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Abstract

Azo dyes are the most commonly produced dyes worldwide, characterized by their distinct azo groups (-NN-) in their chemical structure. These dyes are xenobiotic and notably resistant to degradation. Approximately 20 % of all water body contamination is caused exclusively by textile effluents, which are released into the environment either deliberately or accidentally, leading to significant environmental toxicity. While numerous physical and chemical treatment methods are available, they each have their own drawbacks. Therefore, this comprehensive review explores the role of various microbes, including bacteria, bacterial consortia, fungi, algae, and lichens, along with their limiting factors. The review also delves into the role of various microbial enzymes and their encoding genes, as well as the molecular mechanisms involved. This study emphasizes the potential of microbial bioremediation as a cost-effective and eco-friendly tool for treating azo dye-contaminated water, in comparison to other techniques.

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降解偶氮染料的微生物细胞工厂及其限制因素：洞察

偶氮染料是世界上最常见的染料，其化学结构中含有明显的偶氮基团（-NN-）。这些染料具有异生物性，特别耐降解。大约 20% 的水体污染完全是由纺织污水造成的，这些污水被有意或无意地排放到环境中，导致严重的环境毒性。虽然有许多物理和化学处理方法，但它们都有各自的缺点。因此，本综述探讨了各种微生物（包括细菌、细菌联合体、真菌、藻类和地衣）的作用及其限制因素。综述还深入探讨了各种微生物酶及其编码基因的作用，以及相关的分子机制。与其他技术相比，本研究强调了微生物生物修复作为一种处理偶氮染料污染水的具有成本效益和生态友好型工具的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cleaner Water

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