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Ether Oxidation by an Evolved Fungal Heme-Peroxygenase: Insights into Substrate Recognition and Reactivity
Ether Oxidation by an Evolved Fungal Heme-Peroxygenase: Insights into Substrate Recognition and Reactivity
by Ramirez-Ramirez, Joaquin , Ayala, Marcela , Mireles, Raul , Alcalde, Miguel
in Biodegradation / Catalase / Environmental conditions / Enzyme kinetics / Ethanol / ether oxidation / Ethers / fungal peroxygenase / Heme / Hydrogen peroxide / Oxidation / Pollutants / Potassium / Suicide / suicide inactivation / xenobiotic transformation
2021
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Ether Oxidation by an Evolved Fungal Heme-Peroxygenase: Insights into Substrate Recognition and Reactivity
by Ramirez-Ramirez, Joaquin , Ayala, Marcela , Mireles, Raul , Alcalde, Miguel
in Biodegradation / Catalase / Environmental conditions / Enzyme kinetics / Ethanol / ether oxidation / Ethers / fungal peroxygenase / Heme / Hydrogen peroxide / Oxidation / Pollutants / Potassium / Suicide / suicide inactivation / xenobiotic transformation
2021
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Ether Oxidation by an Evolved Fungal Heme-Peroxygenase: Insights into Substrate Recognition and Reactivity
Ether Oxidation by an Evolved Fungal Heme-Peroxygenase: Insights into Substrate Recognition and Reactivity
by Ramirez-Ramirez, Joaquin , Ayala, Marcela , Mireles, Raul , Alcalde, Miguel
in Biodegradation / Catalase / Environmental conditions / Enzyme kinetics / Ethanol / ether oxidation / Ethers / fungal peroxygenase / Heme / Hydrogen peroxide / Oxidation / Pollutants / Potassium / Suicide / suicide inactivation / xenobiotic transformation
2021

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Ether Oxidation by an Evolved Fungal Heme-Peroxygenase: Insights into Substrate Recognition and Reactivity
Ether Oxidation by an Evolved Fungal Heme-Peroxygenase: Insights into Substrate Recognition and Reactivity
Journal Article

Ether Oxidation by an Evolved Fungal Heme-Peroxygenase: Insights into Substrate Recognition and Reactivity

Ramirez-Ramirez, Joaquin,
Ayala, Marcela,
Mireles, Raul,
Alcalde, Miguel
2021
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Overview
Ethers can be found in the environment as structural, active or even pollutant molecules, although their degradation is not efficient under environmental conditions. Fungal unspecific heme-peroxygenases (UPO were reported to degrade low-molecular-weight ethers through an H2O2-dependent oxidative cleavage mechanism. Here, we report the oxidation of a series of structurally related aromatic ethers, catalyzed by a laboratory-evolved UPO (PaDa-I) aimed at elucidating the factors influencing this unusual biochemical reaction. Although some of the studied ethers were substrates of the enzyme, they were not efficiently transformed and, as a consequence, secondary reactions (such as the dismutation of H2O2 through catalase-like activity and suicide enzyme inactivation) became significant, affecting the oxidation efficiency. The set of reactions that compete during UPO-catalyzed ether oxidation were identified and quantified, in order to find favorable conditions that promote ether oxidation over the secondary reactions.
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Publisher
MDPI AG,MDPI
Subject

Biodegradation

/ Catalase

/ Environmental conditions

/ Enzyme kinetics

/ Ethanol

/ ether oxidation

/ Ethers

/ fungal peroxygenase

/ Heme

/ Hydrogen peroxide

/ Oxidation

/ Pollutants

/ Potassium

/ Suicide

/ suicide inactivation

/ xenobiotic transformation

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