Solvent-Free Photobiocatalytic Hydroxylation of Cyclohexane

Markus Hobisch; Morten Martinus Cornelis Harald van Schie; Jinhyun Kim; Kasper Røjkjær Andersen; Miguel Alcalde; Robert Kourist; Chan Beum Park; Frank Hollmann; Selin Kara

doi:10.1002/cctc.202000512

Solvent-Free Photobiocatalytic Hydroxylation of Cyclohexane

Markus Hobisch, Morten Martinus Cornelis Harald van Schie, Jinhyun Kim, Kasper Røjkjær Andersen, Miguel Alcalde, Robert Kourist, Chan Beum Park, Frank Hollmann, Selin Kara^*

^*Corresponding author for this work

Institute of Molecular Biotechnology (6550)

Research output: Contribution to journal › Article › peer-review

Abstract

The use of neat reaction media, that is the avoidance of additional solvents, is the simplest and the most efficient approach to follow in biocatalysis. Here, we show that unspecific peroxygenase from Agrocybe aegerita (AaeUPO) can hydroxylate the neat model substrate cyclohexane. H₂O₂ was photocatalytically generated in situ by nitrogen-doped carbon nanodots (N−CNDs) and UV LED illumination. AaeUPO entrapment in alginate beads increased enzyme stability and facilitated the reaction in neat cyclohexane. N−CNDs absorption in beads containing AaeUPO created a 2-in-1 heterogeneous photobiocatalyst that was active for up to seven days under reaction conditions and produced cyclohexanol, 2.5 mM. To increase productivity, the bead size and the photocatalyst-to-enzyme ratio have been identified as promising targets for optimisation.

Original language	English
Pages (from-to)	4009-4013
Number of pages	5
Journal	ChemCatChem
Volume	12
Issue number	16
DOIs	https://doi.org/10.1002/cctc.202000512
Publication status	Published - 20 Aug 2020

Keywords

carbon nanodots
hydroxylation
non-conventional media
organic media
Photobiocatalysis

ASJC Scopus subject areas

Catalysis
Physical and Theoretical Chemistry
Organic Chemistry
Inorganic Chemistry

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10.1002/cctc.202000512Licence: CC BY-NC-ND 4.0

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title = "Solvent-Free Photobiocatalytic Hydroxylation of Cyclohexane",

abstract = "The use of neat reaction media, that is the avoidance of additional solvents, is the simplest and the most efficient approach to follow in biocatalysis. Here, we show that unspecific peroxygenase from Agrocybe aegerita (AaeUPO) can hydroxylate the neat model substrate cyclohexane. H2O2 was photocatalytically generated in situ by nitrogen-doped carbon nanodots (N−CNDs) and UV LED illumination. AaeUPO entrapment in alginate beads increased enzyme stability and facilitated the reaction in neat cyclohexane. N−CNDs absorption in beads containing AaeUPO created a 2-in-1 heterogeneous photobiocatalyst that was active for up to seven days under reaction conditions and produced cyclohexanol, 2.5 mM. To increase productivity, the bead size and the photocatalyst-to-enzyme ratio have been identified as promising targets for optimisation.",

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doi = "10.1002/cctc.202000512",

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AU - Hobisch, Markus

AU - van Schie, Morten Martinus Cornelis Harald

AU - Kim, Jinhyun

AU - Røjkjær Andersen, Kasper

AU - Alcalde, Miguel

AU - Kourist, Robert

AU - Park, Chan Beum

AU - Hollmann, Frank

AU - Kara, Selin

PY - 2020/8/20

Y1 - 2020/8/20

N2 - The use of neat reaction media, that is the avoidance of additional solvents, is the simplest and the most efficient approach to follow in biocatalysis. Here, we show that unspecific peroxygenase from Agrocybe aegerita (AaeUPO) can hydroxylate the neat model substrate cyclohexane. H2O2 was photocatalytically generated in situ by nitrogen-doped carbon nanodots (N−CNDs) and UV LED illumination. AaeUPO entrapment in alginate beads increased enzyme stability and facilitated the reaction in neat cyclohexane. N−CNDs absorption in beads containing AaeUPO created a 2-in-1 heterogeneous photobiocatalyst that was active for up to seven days under reaction conditions and produced cyclohexanol, 2.5 mM. To increase productivity, the bead size and the photocatalyst-to-enzyme ratio have been identified as promising targets for optimisation.

AB - The use of neat reaction media, that is the avoidance of additional solvents, is the simplest and the most efficient approach to follow in biocatalysis. Here, we show that unspecific peroxygenase from Agrocybe aegerita (AaeUPO) can hydroxylate the neat model substrate cyclohexane. H2O2 was photocatalytically generated in situ by nitrogen-doped carbon nanodots (N−CNDs) and UV LED illumination. AaeUPO entrapment in alginate beads increased enzyme stability and facilitated the reaction in neat cyclohexane. N−CNDs absorption in beads containing AaeUPO created a 2-in-1 heterogeneous photobiocatalyst that was active for up to seven days under reaction conditions and produced cyclohexanol, 2.5 mM. To increase productivity, the bead size and the photocatalyst-to-enzyme ratio have been identified as promising targets for optimisation.

KW - carbon nanodots

KW - hydroxylation

KW - non-conventional media

KW - organic media

KW - Photobiocatalysis

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M3 - Article

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JO - ChemCatChem

JF - ChemCatChem

IS - 16

ER -

Solvent-Free Photobiocatalytic Hydroxylation of Cyclohexane

Abstract

Keywords

ASJC Scopus subject areas

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