Abiotic reduction of ketones with silanes catalysed by carbonic anhydrase through an enzymatic zinc
Author: ["Pengfei Ji","Jeeyoung Park","Yang Gu","Douglas S. Clark","John F. Hartwig"]
Publication: Nature Chemistry
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Abstract
Enzymatic reactions through mononuclear metal hydrides are unknown in nature, despite the prevalence of such intermediates in the reactions of synthetic transition-metal catalysts. If metalloenzymes could react through abiotic intermediates like these, then the scope of enzyme-catalysed reactions would expand. Here we show that zinc-containing carbonic anhydrase enzymes catalyse hydride transfers from silanes to ketones with high enantioselectivity. We report mechanistic data providing strong evidence that the process involves a mononuclear zinc hydride. This work shows that abiotic silanes can act as reducing equivalents in an enzyme-catalysed process and that monomeric hydrides of electropositive metals, which are typically unstable in protic environments, can be catalytic intermediates in enzymatic processes. Overall, this work bridges a gap between the types of transformation in molecular catalysis and biocatalysis. Enzymatic reactions involving mononuclear metal hydrides are unknown in nature, despite the prevalence of such intermediates in synthetic transition-metal catalysed reactions. Now, it has been shown that zinc-containing carbonic anhydrase enzymes can catalyse hydride transfers from silanes to ketones with high enantioselectivity and there is evidence to support the intermediacy of a mononuclear zinc hydride.
Cite this article
Ji, P., Park, J., Gu, Y. et al. Abiotic reduction of ketones with silanes catalysed by carbonic anhydrase through an enzymatic zinc hydride. Nat. Chem. (2021). https://doi.org/10.1038/s41557-020-00633-7
