Laccase-mediated degradation of emerging contaminants: unveiling a sustainable solution

IF 3.5 Q3 ENGINEERING, ENVIRONMENTAL
Pooja Thathola, Elda M. Melchor-Martínez, Priyanka Adhikari, Saúl Antonio Hernández Martínez, Anita Pandey and Roberto Parra-Saldívar
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Abstract

The excessive use of emerging contaminants (ECs) in various applications has led to a global health crisis. ECs are found in groundwater, surface water, soils, and wastewater treatment plants at concentrations ranging from ng L−1 to μg L−1. This review explores the sources of ECs and laccase's role in their degradation. ECs encompass diverse categories with potential implications for human health, animals, and the environment, and their adverse effects are examined. Laccase, a key mediator, can oxidize non-phenolic compounds, broadening its substrate range. The review discusses the intricacies of laccase-mediated degradation and highlights its potential to improve global water resource sustainability. Innovative strategies, like laccase immobilization, are explored for EC removal, benefiting environmental preservation. In summary, the review addresses the issue of excessive EC use, their presence in water sources, and their impact on health, wildlife, and the ecosystem. Laccase offers promise for EC degradation, emphasizing its mechanism and potential for sustainable water resource management. Advanced techniques, including laccase immobilization, further demonstrate the commitment to tackling EC-induced environmental challenges.

Abstract Image

拉克酶介导的新污染物降解:揭示可持续的解决方案
新出现的污染物(ECs)在各种应用中的过度使用已导致全球性的健康危机。在地下水、地表水、土壤和污水处理厂中都发现了ECs,其浓度从纳克/升到微克/升不等。本综述探讨了氨基甲酸乙酯的来源以及漆酶在降解氨基甲酸乙酯中的作用。氨基甲酸乙酯种类繁多,对人类健康、动物和环境都有潜在影响,本文对其不良影响进行了研究。漆酶是一种关键的介质,可以氧化非酚类化合物,从而扩大了其底物范围。综述讨论了漆酶介导降解的复杂性,并强调了漆酶在改善全球水资源可持续性方面的潜力。研究还探讨了去除氨基甲酸乙酯的创新策略,如固定化漆酶,从而有利于环境保护。总之,本综述探讨了过量使用导电率、水源中存在导电率及其对健康、野生动物和生态系统的影响等问题。漆酶为降解氨基甲酸乙酯带来了希望,强调了其在可持续水资源管理方面的机制和潜力。包括固定化漆酶在内的先进技术进一步证明了解决由氨基甲酸乙酯引起的环境挑战的决心。
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