Selective Oxyfunctionalisation Reactions Driven by Sulfite Oxidase-Catalysed In Situ Generation of H2O2

Morten M.C.H. van Schie; Alexander T. Kaczmarek; Florian Tieves; Patricia Gomez de Santos; Caroline E. Paul; Isabel W.C.E. Arends; Miguel Alcalde; Günter Schwarz; Frank Hollmann

doi:10.1002/cctc.201902297

Selective Oxyfunctionalisation Reactions Driven by Sulfite Oxidase-Catalysed In Situ Generation of H₂O₂

Morten M.C.H. van Schie^*, Alexander T. Kaczmarek, Florian Tieves, Patricia Gomez de Santos, Caroline E. Paul, Isabel W.C.E. Arends, Miguel Alcalde, Günter Schwarz, Frank Hollmann

^*Corresponding author for this work

BT/Biocatalysis

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Abstract

H₂O₂ can be accepted by several peroxygenases as a clean oxidant, able to supply both the necessary electrons and oxygen atom at the same time. The biocatalysts, in turn, are able to catalyse an array of interesting oxygen insertion reactions at enantio- and regio-selectivities hard to attain with classical chemical methods. The sensitivity of most peroxygenases towards H₂O₂, however, requires this oxidant to be generated in situ. Here, we suggest the application of (modified) sulfite oxidases to couple the oxidation of sulfites to the reduction of oxygen. This enables us to use calcium sulfite, an industrial waste product from scrubbing flue gases, as an electron donor to reduce oxygen. This will supply the required peroxide in a controlled manner and enables us to perform these challenging reactions at the expense of simple salts.

Original language	English
Pages (from-to)	3186-3189
Journal	ChemCatChem
Volume	12
Issue number	12
DOIs	https://doi.org/10.1002/cctc.201902297
Publication status	Published - 2020

Keywords

Biocatalysis
Hydrogen peroxide
Oxyfunctionalisation
Peroxygenase
Sulfite oxidase

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10.1002/cctc.201902297

Schie_et_al-2020-ChemCatChemFinal published version, 994 KBLicence: CC BY

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title = "Selective Oxyfunctionalisation Reactions Driven by Sulfite Oxidase-Catalysed In Situ Generation of H2O2",

abstract = "H2O2 can be accepted by several peroxygenases as a clean oxidant, able to supply both the necessary electrons and oxygen atom at the same time. The biocatalysts, in turn, are able to catalyse an array of interesting oxygen insertion reactions at enantio- and regio-selectivities hard to attain with classical chemical methods. The sensitivity of most peroxygenases towards H2O2, however, requires this oxidant to be generated in situ. Here, we suggest the application of (modified) sulfite oxidases to couple the oxidation of sulfites to the reduction of oxygen. This enables us to use calcium sulfite, an industrial waste product from scrubbing flue gases, as an electron donor to reduce oxygen. This will supply the required peroxide in a controlled manner and enables us to perform these challenging reactions at the expense of simple salts.",

keywords = "Biocatalysis, Hydrogen peroxide, Oxyfunctionalisation, Peroxygenase, Sulfite oxidase",

author = "{van Schie}, {Morten M.C.H.} and Kaczmarek, {Alexander T.} and Florian Tieves and {Gomez de Santos}, Patricia and Paul, {Caroline E.} and Arends, {Isabel W.C.E.} and Miguel Alcalde and G{\"u}nter Schwarz and Frank Hollmann",

year = "2020",

doi = "10.1002/cctc.201902297",

language = "English",

volume = "12",

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T1 - Selective Oxyfunctionalisation Reactions Driven by Sulfite Oxidase-Catalysed In Situ Generation of H2O2

AU - van Schie, Morten M.C.H.

AU - Kaczmarek, Alexander T.

AU - Tieves, Florian

AU - Gomez de Santos, Patricia

AU - Paul, Caroline E.

AU - Arends, Isabel W.C.E.

AU - Alcalde, Miguel

AU - Schwarz, Günter

AU - Hollmann, Frank

PY - 2020

Y1 - 2020

N2 - H2O2 can be accepted by several peroxygenases as a clean oxidant, able to supply both the necessary electrons and oxygen atom at the same time. The biocatalysts, in turn, are able to catalyse an array of interesting oxygen insertion reactions at enantio- and regio-selectivities hard to attain with classical chemical methods. The sensitivity of most peroxygenases towards H2O2, however, requires this oxidant to be generated in situ. Here, we suggest the application of (modified) sulfite oxidases to couple the oxidation of sulfites to the reduction of oxygen. This enables us to use calcium sulfite, an industrial waste product from scrubbing flue gases, as an electron donor to reduce oxygen. This will supply the required peroxide in a controlled manner and enables us to perform these challenging reactions at the expense of simple salts.

AB - H2O2 can be accepted by several peroxygenases as a clean oxidant, able to supply both the necessary electrons and oxygen atom at the same time. The biocatalysts, in turn, are able to catalyse an array of interesting oxygen insertion reactions at enantio- and regio-selectivities hard to attain with classical chemical methods. The sensitivity of most peroxygenases towards H2O2, however, requires this oxidant to be generated in situ. Here, we suggest the application of (modified) sulfite oxidases to couple the oxidation of sulfites to the reduction of oxygen. This enables us to use calcium sulfite, an industrial waste product from scrubbing flue gases, as an electron donor to reduce oxygen. This will supply the required peroxide in a controlled manner and enables us to perform these challenging reactions at the expense of simple salts.

KW - Biocatalysis

KW - Hydrogen peroxide

KW - Oxyfunctionalisation

KW - Peroxygenase

KW - Sulfite oxidase

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U2 - 10.1002/cctc.201902297

DO - 10.1002/cctc.201902297

M3 - Article

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SN - 1867-3880

VL - 12

SP - 3186

EP - 3189

JO - ChemCatChem

JF - ChemCatChem

IS - 12

ER -

Selective Oxyfunctionalisation Reactions Driven by Sulfite Oxidase-Catalysed In Situ Generation of H₂O₂

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Keywords

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