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1. Methylene Oxidation of Alkyl Sulfates by Cytochrome P450 BM-3 and a Role for Conformational Selection in Substrate Recognition.

Author

Guengerich FP and Fekry MI

Abstract

Cytochrome P450 BM-3 (P450 BM-3 ) is a flavoprotein reductase-heme fusion protein from the bacterium Bacillus megaterium that has been well-characterized in many biophysical aspects. Although the enzyme is known to catalyze the hydroxylation of medium and long-chain fatty acids at high rates, no definitive physiological function has been associated with this process in the organism other than a possible protective role. We found that P450 BM-3 rapidly hydroxylates alkyl sulfates, particularly those with 12-16 carbons (i.e., including dodecyl sulfate) in a similar manner to the fatty acids. The products were characterized as primarily ω -1 hydroxylated alkyl sulfates (plus some ω -2 and ω -3 hydroxylation products), and some further oxidation to dihydroxy and keto derivatives also occurred. Binding of the alkyl sulfates to P450 BM-3 converted the iron from the low-spin to high-spin form in a saturable manner, consistent with the catalytic results. Rates of binding decreased as a function of increasing concentration of dodecyl sulfate or the fatty acid myristate. This pattern is consistent with a binding model involving multiple events and with conformational selection (equilibrium of the unbound enzyme prior to binding) instead of an induced fit mechanism. Neither C-H bond-breaking nor product release was found to be rate-limiting in the oxidation of lauric acid. The conformational selection results rationalize some known crystal structures of P450 BM-3 and can help explain the flexibility of P450 BM-3 and engineered forms in accepting a great variety of substrates., Competing Interests: Conflict of Interest. The authors declare no conflicts of interest.

Published

2020