Photoenzymes are light-powered biocatalysts that typically rely on the excitation of cofactors or unnatural amino acids for their catalytic activities1,2. A notable natural example is the fatty acid photodecarboxylase (FAP), which uses light energy to convert aliphatic carboxylic acids to achiral hydrocarbons3. Here, we report a way to design a non-natural photodecarboxylase based on the excitation of enzyme-bound catalytic intermediates, instead of relying on cofactor excitation4. Iminium ions5, transiently generated from enals within the active site of an engineered class I aldolase6, can absorb violet light and function as single-electron oxidants. Activation of chiral carboxylic acids, followed by decarboxylation, generates two radicals that undergo stereospecific cross-coupling, yielding products with two stereocenters. Using the appropriate enantiopure chiral substrate, the desired diastereoisomeric product is selectively obtained with complete enantiocontrol. This finding underscores the active site's ability to transfer stereochemical information from the chiral radical precursor into the product, effectively addressing the longstanding problem of rapid racemization of chiral radicals. The resulting ‘memory of chirality’ scenario7 is a rarity in enantioselective radical chemistry.
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Tseliou, V., Kqiku, L., Berger, M. et al. Stereospecific radical coupling with a non-natural photodecarboxylase. Nature (2024). https://doi.org/10.1038/s41586-024-08004-9
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DOI: https://doi.org/10.1038/s41586-024-08004-9
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