Streptomyces as a Novel Biotool for Azo Pigments Remediation in Contaminated Scenarios.

Fernando Bautista-Pinzón, Juan Fonseca-Ordoñez, Mayerlen Falla-Obando, Jairo Gonzales-Tuta, Luis Diaz-Barrera
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Abstract

Background: Azo pigments are widely used in the textile and leather industry, and they generate diverse contaminants (mainly in wastewater effluents) that affect biological systems, the rhizosphere community, and the natural activities of certain species.

Methods: This review was performed according to the Systematic Reviews and Meta Analyses (PRISMA) methodology.

Results: In the last decade, the use of Streptomyces species as biological azo-degraders has increased, and these bacteria are mainly isolated from mangroves, dye-contaminated soil, and marine sediments. Azo pigments such as acid orange, indigo carmine, Congo red, and Evans blue are the most studied compounds for degradation, and Streptomyces produces extracellular enzymes such as peroxidase, laccase, and azo reductase. These enzymes cleave the molecule through asymmetric cleavage, followed by oxidative cleavage, desulfonation, deamination, and demethylation. Typically, some lignin-derived and phenolic compounds are used as mediators to improve enzyme activity. The degradation process generates diverse compounds, the majority of which are toxic to human cells and, in some cases, can improve the germination process in some horticulture plants.

Conclusions: Future research should include analytical methods to detect all of the molecules that are generated in degradation processes to determine the involved reactions. Moreover, future studies should delve into consortium studies to improve degradation efficiency and observe the relationship between microorganisms to generate scale-up biotechnological applications in the wastewater treatment industry.

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链霉菌作为一种新型生物工具,用于污染环境中偶氮颜料的修复。
背景:偶氮染料被广泛应用于纺织业和皮革业,它们会产生多种污染物(主要是废水中的污染物),影响生物系统、根瘤菌群落以及某些物种的自然活动:本综述按照系统综述和元分析(PRISMA)方法进行:近十年来,使用链霉菌作为生物偶氮降解剂的情况越来越多,这些细菌主要是从红树林、受染料污染的土壤和海洋沉积物中分离出来的。研究最多的降解偶氮颜料是酸性橙、靛胭脂红、刚果红和埃文斯蓝,链霉菌可产生过氧化物酶、漆酶和偶氮还原酶等胞外酶。这些酶通过不对称裂解、氧化裂解、脱硫、脱氨和去甲基化等过程裂解分子。通常情况下,一些木质素衍生化合物和酚类化合物被用作介质,以提高酶的活性。降解过程会产生多种化合物,其中大部分对人体细胞有毒,在某些情况下还能改善某些园艺植物的发芽过程:未来的研究应包括检测降解过程中产生的所有分子的分析方法,以确定所涉及的反应。此外,未来的研究应深入到联合体研究中,以提高降解效率,并观察微生物之间的关系,从而在废水处理行业中形成规模化的生物技术应用。
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