P450s are heme thiolate enzymes that catalyze the regio- and
stereoselective functionalization of unactivated C-H bonds using molecular
dioxygen and two electrons delivered by the reductase. We have developed hybrid
P450 BM3 heme domains containing a covalently attached Ru(II) photosensitizer in
order to circumvent the dependency on the reductase and perform P450 reactions
upon visible light irradiation. A highly active hybrid enzyme with improved
stability and a modified Ru(II) photosensitizer is able to catalyze the
light-driven hydroxylation of lauric acid with total turnover numbers of 935 and
initial reaction rate of 125 mol product / mol enzyme / min.
We have developed a series of hybrid P450 BM3 enzymes to perform the light-activated hydroxylation of lauric acid. These enzymes contain a Ru(II)-diimine photosensitizer covalently attached to single cysteine residues of mutant P450 BM3 heme domains. The library of hybrid enzymes includes four non-native single cysteine mutants (K97C, Q397C, Q109C and L407C). In addition, mutations around the heme active site, F87A and I401P, were inserted in the Q397C mutant. Two heteroleptic Ru(II) complexes, Ru(bpy)2phenA (1) and Ru(phen)2phenA (2) (bpy=bipyridine, phen=1,10-phenanthroline, and phenA=5-acetamido-1,10-phenanthroline), are used as photosensitizers. Upon visible light irradiation, the hybrid enzymes display various total turnover numbers in the hydroxylation of lauric acid, up to 140 for the L407C-1 mutant, a 16-fold increase compared to the F87A/Q397C-1 mutant. CO binding studies confirm the ability of the photogenerated Ru(I) compound to reduce the fraction of ferric high spin species present in the mutants upon substrate binding.
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