Redirecting P450 EryK specificity by rational site-directed mutagenesis

The C-12 hydroxylase EryK is a bacterial cytochrome P450, active during one of the final tailoring steps of erythromycin A (ErA) biosynthesis. Its tight substrate specificity, restricted to the metabolic intermediate ErD, leads to the accumulation in the culture broth of a shunt metabolite, ErB, that originates from the competitive action of a methyltranferase on the substrate of EryK. Although the methylation of the mycarosyl moiety represents the only difference between the two metabolites, EryK exhibits very low conversion of ErB in ErA via a parallel pathway. Given its limited antimicrobial activity and its moderate toxicity, contamination by such a byproduct decreases the yield and purity of the antibiotic. In this study, EryK has been redesigned to make it suitable for industrial application. Taking advantage of the three-dimensional structure of the enzyme in complex with ErD, three single active-site mutants of EryK (M86A, H88E, and E89L) have been designed to allow hydroxylation of the nonphysiol...