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Enzyme Activity by Design: An Artificial Rhodium Hydroformylase for Linear Aldehydes.


ABSTRACT: Artificial metalloenzymes (ArMs) are hybrid catalysts that offer a unique opportunity to combine the superior performance of natural protein structures with the unnatural reactivity of transition-metal catalytic centers. Therefore, they provide the prospect of highly selective and active catalytic chemical conversions for which natural enzymes are unavailable. Herein, we show how by rationally combining robust site-specific phosphine bioconjugation methods and a lipid-binding protein (SCP-2L), an artificial rhodium hydroformylase was developed that displays remarkable activities and selectivities for the biphasic production of long-chain linear aldehydes under benign aqueous conditions. Overall, this study demonstrates that judiciously chosen protein-binding scaffolds can be adapted to obtain metalloenzymes that provide the reactivity of the introduced metal center combined with specifically intended product selectivity.

SUBMITTER: Jarvis AG 

PROVIDER: S-EPMC5659135 | biostudies-literature | 2017 Oct

REPOSITORIES: biostudies-literature

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Enzyme Activity by Design: An Artificial Rhodium Hydroformylase for Linear Aldehydes.

Jarvis Amanda G AG   Obrecht Lorenz L   Deuss Peter J PJ   Laan Wouter W   Gibson Emma K EK   Wells Peter P PP   Kamer Paul C J PCJ  

Angewandte Chemie (International ed. in English) 20170913 44


Artificial metalloenzymes (ArMs) are hybrid catalysts that offer a unique opportunity to combine the superior performance of natural protein structures with the unnatural reactivity of transition-metal catalytic centers. Therefore, they provide the prospect of highly selective and active catalytic chemical conversions for which natural enzymes are unavailable. Herein, we show how by rationally combining robust site-specific phosphine bioconjugation methods and a lipid-binding protein (SCP-2L), a  ...[more]

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