Removal of dye pollution by an oxidase derived from mutagenesis of the Deuteromycete Myrothecium with high potential in industrial applications

Removal of dye pollution by an oxidase derived from mutagenesis of the Deuteromycete Myrothecium with high potential in industrial applications

It is estimated that over 700,000 tons of synthetic dyes are produced annually, 15% of which are emitted as effluents. These highly stable dyes enter the world water ecosystems and stay in the environment, and eventually cause adverse impacts to the environment. Current wastewater treatment methods,...

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Veröffentlicht in:Environmental pollution (1987) 2022-10, Vol.310, p.119726-119726, Article 119726
Hauptverfasser: Gou, Zechang, Hopla, Gabriel Akwakwa, Yao, Mingyue, Cui, Bintao, Su, Yingjie, Rinklebe, Jörg, Sun, Chunyu, Chen, Guang, Ma, Nyuk Ling, Sun, Yang
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Hazardous dye
Mutagenesis
Myrothecium verrucaria G-1
Oxidase
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container_end_page 119726
container_issue
container_start_page 119726
container_title Environmental pollution (1987)
container_volume 310
creator Gou, Zechang
Hopla, Gabriel Akwakwa
Yao, Mingyue
Cui, Bintao
Su, Yingjie
Rinklebe, Jörg
Sun, Chunyu
Chen, Guang
Ma, Nyuk Ling
Sun, Yang
description It is estimated that over 700,000 tons of synthetic dyes are produced annually, 15% of which are emitted as effluents. These highly stable dyes enter the world water ecosystems and stay in the environment, and eventually cause adverse impacts to the environment. Current wastewater treatment methods, such as filtration, coagulation, and chemical oxidation, have sideeffects, including toxic residue formation, membrane fouling, bioaccumulation, and secondary pollutant formation. Given the issues mentioned, it is necessary to study how to improve the degradation of synthetic dye with a cost-effective and ecofriendly approach. Natural oxidation provides a greener option. Recently, Deuteromycetes fungus Myrothecium verrucaria G-1 (M. verrucaria G-1) has shown great potential in producing high level of dye oxidase. This study aims to generate a dye oxidase hyperproducer, 3H6 from M. verrucaria G-1 by using atmospheric and room temperature plasma (ARTP) coupled with ultraviolet (UV) irradiation. This method increases oxidase production by nearly 106.15%. After a simple precipitation and dialysis, this mutant oxidase increases by 1.97-fold in a specific activity with dye degradation rates at 70% for Mmethylene blue (MB) and 85% for Congo red (CR). It is found that the genetic stability of 3H6 remains active for ten generations. The size of oxidase is 65 kDa, and optimum temperature for reaction is 30 °C with 4.5 pH. This study presents that the first combined mutagenesis approach by ARPT-UV on fungus species generates an impressive increment of acid dye oxidases production. As such, this method presents a cost-effective alternative to mitigate hazardous dye pollution.
doi_str_mv 10.1016/j.envpol.2022.119726
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subjects Hazardous dye
Mutagenesis
Myrothecium verrucaria G-1
Oxidase
title Removal of dye pollution by an oxidase derived from mutagenesis of the Deuteromycete Myrothecium with high potential in industrial applications
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