Abstract
AbstractFluorinated cyclopropanes are highly desired pharmacophores in drug discovery owing to the rigid nature of the cyclopropane ring and the beneficial effects of C−F bonds on the pharmacokinetic properties, cell permeability, and metabolic stability of drug molecules. Herein a biocatalytic strategy for the stereoselective synthesis of mono‐fluorinated and gem‐difluoro cyclopropanes is reported though the use of engineered myoglobin‐based catalysts. In particular, this system allows for a broad range of gem‐difluoro alkenes to be cyclopropanated in the presence of diazoacetonitrile with excellent diastereo and enantiocontrol (up to 99 : 1 d.r. and 99 % e.e.), thereby enabling a transformation not currently accessible with chemocatalytic methods. The synthetic utility of the present approach is further exemplified through the gram‐scale synthesis of a key gem‐difluorinated cyclopropane intermediate useful for the preparation of fluorinated bioactive molecules.
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