Copper-induced Production of Laccases for Lignin Depolymerisation and Micropollutant Degradation by Laccase-mediator Systems

FH-HES (Universities of Applied Sciences)

Authors

  • Laurianne Pillet Department of Chemistry, Biochemistry and Pharmaceutical Sciences, University of Bern, Freiestrasse 3, CH-3012 Bern
  • Remy Dufresne Institute of Life Technologies, University of Applied Sciences Western Switzerland, Rue de l'Industrie 23, CH-1950 Sion
  • Simon Crelier Institute of Life Technologies, University of Applied Sciences Western Switzerland, Rue de l'Industrie 23, CH-1950 Sion

DOI:

https://doi.org/10.2533/chimia.2021.1058

Keywords:

Laccase mediators, Lignin depolymerisation, Micropollutant degradation

Abstract

Contaminants deriving from human activities represent a constantly growing threat to our environment and have a direct impact on plant and animal health. To alleviate this ecological imbalance, biocatalysis offers a green and sustainable alternative to conventional chemical processes. Due to their broad specificity, laccases are enzymes possessing excellent potential for synthetic biotransformations in various fields as well as for the degradation of organic contaminants. Herein, we produced laccases in submerged cultures of P. ostreatus and T. versicolor in three different media. The fungi/medium combination leading to the highest enzymatic activity was malt extract (2%) + yeast extract (3%) + glucose (0.8%). Laccase production was further increased by supplementing this medium with different concentrations of Cu2+, which also provided a better understanding of the induction effect. Additionally, we disclose preliminary results on the interaction of laccases with mediators (ABTS and violuric acid - VA) for two main applications: lignin depolymerisation with guaiacylglycerol-?-guaiacyl ether (GBG) as lignin model and micropollutant degradation with Remazol Brilliant Blue (RBB) as enzymatic bioremediation model. Promising results were achieved using VA to increase depolymerization of GBG dimer and to enhance RBB decolorisation.

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Published

2021-12-29

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