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Immobilization of Agaricus bisporus Polyphenol Oxidase 4 on mesoporous silica: Towards mimicking key enzymatic processes in peat soils

Claudia Iriarte‐Mesa, Matthias Pretzler, Cornelia von Baeckmann, Hanspeter Kählig, Regina Krachler, Annette Rompel, Freddy Kleitz

2023Journal of Colloid and Interface Science15 citationsDOIOpen Access PDF

Abstract

HYPOTHESIS: The use of immobilized enzyme-type biocatalysts to mimic specific processes in soil can be considered one of the most promising alternatives to overcome the difficulties behind the structural elucidation of riverine humic-derived iron-complexes. Herein, we propose that the immobilization of the functional mushroom tyrosinase, Agaricus bisporus Polyphenol Oxidase 4 (AbPPO4) on mesoporous SBA-15-type silica could contribute to the study of small aquatic humic ligands such as phenols. EXPERIMENTS: The silica support was functionalized with amino-groups in order to investigate the impact of surface charge on the tyrosinase loading efficiency as well as on the catalytic performance of adsorbed AbPPO4. The oxidation of various phenols was catalyzed by the AbPPO4-loaded bioconjugates, yielding high levels of conversion and confirming the retention of enzyme activity after immobilization. The structures of the oxidized products were elucidated by integrating chromatographic and spectroscopic techniques. We also evaluated the stability of the immobilized enzyme over a wide range of pH values, temperatures, storage-times and sequential catalytic cycles. FINDINGS: This is the first report where the latent AbPPO4 is confined within silica mesopores. The improved catalytic performance of the adsorbed AbPPO4 shows the potential use of these silica-based mesoporous biocatalysts for the preparation of a column-type bioreactor for in situ identification of soil samples.

Topics & Concepts

Agaricus bisporusChemistryPolyphenol oxidaseMesoporous materialMesoporous silicaTyrosinaseLaccaseAdsorptionCatalysisPhenolsOrganic chemistryChromatographyMushroomEnzymePeroxidaseFood scienceEnzyme-mediated dye degradationEnzyme Catalysis and ImmobilizationMicrobial metabolism and enzyme function
Immobilization of Agaricus bisporus Polyphenol Oxidase 4 on mesoporous silica: Towards mimicking key enzymatic processes in peat soils | Litcius