Biodegradation of Synthetic Effluent Containing CI Direct Red 28 (Congo Red) by Lentinus sp. Laccase Leads to Low Ecotoxicity

Current Biotechnology Pub Date : 2020-11-16 DOI:10.2174/2211550109999200720162021

G. Coelho, K. K. S. Silva, Dayse Pereira Dias Silva, Julya Karolyne Neres Costa Soares, Nara Ballaminut, Douglas Vieira Thomaz

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引用次数: 2

Abstract

Azo dyes are widely used recalcitrant chemicals and may promote environmental hazards. Amongst the known azo dyes is CI Direct Red 28 (C32H22N6Na2O6S2) aka Congo Red (CR), which is a known mutagen and carcinogen. In this regard, this work aimed at the biodegradation of a CR-containing synthetic effluent, and the evaluation of the ecotoxicity of post-treatment residues. Lentinus sp. Laccase (Lac)-mediated bioremediation of CR was optimized upon added concentrations of sucrose and CuSO4, moreover a standard ecotoxicity assay was performed. Results showed that the addition of 5% sucrose and 2 mM CuSO4 increased CR degradation, with Lac activity at 48 h of 30.2 U mL-1, and at 72 h of 31.9 U mL-1. Moreover, the ecotoxicity assay showcased that CR degradation by Lentinus sp. Lac seemingly generated low ecotoxic byproducts. Given that CR bioremediation byproducts were known to exhibit high toxicity, our results shed light on the use of Lentinus sp. catalytic arsenal to promote proper remediation of azo dyepolluted effluents.

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香菇漆酶降解含CI直红28(刚果红)的合成出水具有较低的生态毒性

偶氮染料是一种广泛使用的顽固性化学物质，可能对环境造成危害。在已知的偶氮染料中，CI直接红28 (C32H22N6Na2O6S2)又名刚果红(CR)，是一种已知的诱变剂和致癌物。在这方面，本工作旨在生物降解含铬合成废水，并评价处理后残留物的生态毒性。在添加蔗糖和CuSO4浓度的条件下，优化了Laccase (Lac)介导的CR生物修复，并进行了标准的生态毒性试验。结果表明，添加5%蔗糖和2 mM CuSO4提高了CR的降解，Lac活性在48 h为30.2 U mL-1, 72 h为31.9 U mL-1。此外，生态毒性试验表明，Lentinus sp. Lac降解CR产生的副产物毒性较低。鉴于已知CR生物修复副产物具有高毒性，我们的研究结果揭示了使用香氛属的催化库来促进偶氮染料污染废水的适当修复。

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Current Biotechnology

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