Functionally Diverse Peroxygenases by AlphaFold2, Design, and Signal Peptide Shuffling

Münch, Judith; Dietz, Niklas; Barber-Zucker, Shiran; Seifert, Franziska; Matschi, Susanne; Püllmann, Pascal; Fleishman, Sarel J.; Weissenborn, Martin J.

doi:10.1021/acscatal.4c00883

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Cited by 4 publications

References 69 publications

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Improving the Thermal Stability of GH11 Xylanase XynASP through Cord Region Engineering

Li,

Wang,

Hua

et al. 2025

J. Agric. Food Chem.

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Improving the Thermal Stability of GH11 Xylanase XynASP through Cord Region Engineering

Li,

Wang,

Hua

et al. 2025

J. Agric. Food Chem.

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Stereocomplementary Unspecific Peroxygenases for Asymmetric Anti-Markovnikov Wacker-Type Oxidation and Epoxidation of Styrenes

Swoboda,

Duhović,

Kroschel

et al. 2024

ACS Catal.

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The Wacker reaction gives access to carbonyls from olefins and is traditionally relying on metals, mostly palladium. Here, unspecific peroxygenases (UPOs) are spotlighted as palladium-free biocatalysts for asymmetric anti-Markovnikov Wacker-type oxidation of styrenes, moving them beyond their traditional role in C−H oxidation and stereoselective epoxidation. Screening 53 wild-type UPOs for the oxidation of styrene and derivatives revealed examples of high reaction selectivity leading mostly to the epoxide with an epoxide selectivity of up to >99%. For selected UPOs and styrene derivatives, aldehyde formation was found with an aldehyde selectivity of up to 86%. Conversions of up to 89% were reached (preferring epoxidation). Stereocomplementary UPOs were identified for the epoxidation, giving access to the (R)-and (S)-epoxides with ee values of up to 94%. Also, for the anti-Markovnikov Wacker-type oxidation of α-methylstyrene, stereocomplementary enzymes were identified, leading to an excess of either the (R)-or (S)-enantiomer of 2-phenylpropanal. Most interestingly, it was found that the absolute configuration of the aldehyde formed does not necessarily correlate with the absolute configuration of the epoxide; thus, aldehyde and epoxide may have the same or the opposite absolute configurations.

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Mapping Selective Oxidations of Unspecific Peroxygenases

Homann,

Püllmann,

Weissenborn

2024

Preprint

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Several unspecific peroxygenases (UPOs) have been identified that perform a broad range of selective oxyfunctionalizations and hence represent a pivotal addition to the biocatalysis ‘toolbox’. To make these ‘oxidation tools’ broadly applicable it is crucial to provide a detailed ‘user manual’ for their substrate preference, chemo- and regioselectivity. We therefore selected 16 different substrates with a panel of 15 diverse UPOs and mapped their preferences. Various UPOs proved to be highly selective — discriminating based on either position or chemical properties of the substrate — with up to 99 % chemo- and regioselectivity while achieving turnover numbers (TONs) of a few hundred up to multiple thousands. This map of UPO selectivity shall serve as a starting point for new chemoenzymatic routes and starting points for protein engineering endeavors..

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Functionally Diverse Peroxygenases by AlphaFold2, Design, and Signal Peptide Shuffling

Cited by 4 publications

References 69 publications

Improving the Thermal Stability of GH11 Xylanase XynASP through Cord Region Engineering

Improving the Thermal Stability of GH11 Xylanase XynASP through Cord Region Engineering

Stereocomplementary Unspecific Peroxygenases for Asymmetric Anti-Markovnikov Wacker-Type Oxidation and Epoxidation of Styrenes

Mapping Selective Oxidations of Unspecific Peroxygenases

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