Peroxygenase-catalyzed oxyfunctionalization reactions promoted by the complete oxidation of methanol

Y Ni; E Fernandez Fueyo; AG Baraibar; R Ullrich; Martin Hofrichter; H Yanase; Miguel Alcalde; WJH van Berkel; F Hollmann

doi:10.1002/anie.201507881

Peroxygenase-catalyzed oxyfunctionalization reactions promoted by the complete oxidation of methanol

Y Ni, E Fernandez Fueyo, AG Baraibar, R Ullrich, Martin Hofrichter, H Yanase, Miguel Alcalde, WJH van Berkel, F Hollmann

BT/Biocatalysis

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Abstract

Peroxygenases catalyze a broad range of (stereo)selective oxyfunctionalization reactions. However, to access their full catalytic potential, peroxygenases need a balanced provision of hydrogen peroxide to achieve high catalytic activity while minimizing oxidative inactivation. Herein, we report an enzymatic cascade process that employs methanol as a sacrificial electron donor for the reductive activation of molecular oxygen. Full oxidation of methanol is achieved, generating three equivalents of hydrogen peroxide that can be used completely for the stereoselective hydroxylation of ethylbenzene as a model reaction. Overall we propose and demonstrate an atom‐efficient and easily applicable alternative to established hydrogen peroxide generation methods, which enables the efficient use of peroxygenases for oxyfunctionalization reactions.

Original language	English
Pages (from-to)	798-801
Number of pages	4
Journal	Angewandte Chemie (International Edition)
Volume	55
Issue number	2
DOIs	https://doi.org/10.1002/anie.201507881
Publication status	Published - 2016

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Accepted Author Manuscript. Title differs from the published version (version of record).

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10.1002/anie.201507881

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title = "Peroxygenase-catalyzed oxyfunctionalization reactions promoted by the complete oxidation of methanol",

abstract = "Peroxygenases catalyze a broad range of (stereo)selective oxyfunctionalization reactions. However, to access their full catalytic potential, peroxygenases need a balanced provision of hydrogen peroxide to achieve high catalytic activity while minimizing oxidative inactivation. Herein, we report an enzymatic cascade process that employs methanol as a sacrificial electron donor for the reductive activation of molecular oxygen. Full oxidation of methanol is achieved, generating three equivalents of hydrogen peroxide that can be used completely for the stereoselective hydroxylation of ethylbenzene as a model reaction. Overall we propose and demonstrate an atom‐efficient and easily applicable alternative to established hydrogen peroxide generation methods, which enables the efficient use of peroxygenases for oxyfunctionalization reactions. ",

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AU - Ni, Y

AU - Fernandez Fueyo, E

AU - Baraibar, AG

AU - Ullrich, R

AU - Hofrichter, Martin

AU - Yanase, H

AU - Alcalde, Miguel

AU - van Berkel, WJH

AU - Hollmann, F

N1 - Accepted Author Manuscript. Title differs from the published version (version of record).

PY - 2016

Y1 - 2016

N2 - Peroxygenases catalyze a broad range of (stereo)selective oxyfunctionalization reactions. However, to access their full catalytic potential, peroxygenases need a balanced provision of hydrogen peroxide to achieve high catalytic activity while minimizing oxidative inactivation. Herein, we report an enzymatic cascade process that employs methanol as a sacrificial electron donor for the reductive activation of molecular oxygen. Full oxidation of methanol is achieved, generating three equivalents of hydrogen peroxide that can be used completely for the stereoselective hydroxylation of ethylbenzene as a model reaction. Overall we propose and demonstrate an atom‐efficient and easily applicable alternative to established hydrogen peroxide generation methods, which enables the efficient use of peroxygenases for oxyfunctionalization reactions.

AB - Peroxygenases catalyze a broad range of (stereo)selective oxyfunctionalization reactions. However, to access their full catalytic potential, peroxygenases need a balanced provision of hydrogen peroxide to achieve high catalytic activity while minimizing oxidative inactivation. Herein, we report an enzymatic cascade process that employs methanol as a sacrificial electron donor for the reductive activation of molecular oxygen. Full oxidation of methanol is achieved, generating three equivalents of hydrogen peroxide that can be used completely for the stereoselective hydroxylation of ethylbenzene as a model reaction. Overall we propose and demonstrate an atom‐efficient and easily applicable alternative to established hydrogen peroxide generation methods, which enables the efficient use of peroxygenases for oxyfunctionalization reactions.

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Peroxygenase-catalyzed oxyfunctionalization reactions promoted by the complete oxidation of methanol

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