Mitochondrial d-{beta}-Hydroxybutyrate Dehydrogenase. IV. KINETIC ANALYSIS OF REACTION MECHANISM

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Mitochondrial d- ${beta}$ -Hydroxybutyrate Dehydrogenase

IV. KINETIC ANALYSIS OF REACTION MECHANISM

N. C. Nielsen ¹, W. L. Zahler ¹, and Sidney Fleischer ¹

From the ¹ From the Department of Molecular Biology, Vanderbilt University, Nashville, Tennessee 37235

A kinetic analysis of the reaction mechanism of d- ${beta}$ -hydroxybutyratedehydrogenase, a lipid-requiring enzyme from mitochondria, wasmade for both the membrane-bound enzyme in submitochondrialparticles and for a purified soluble preparation. The resultsare consistent with an Ordered Bi Bi mechanism (nomenclatureof Cleland) where NAD is the first substrate to add to the enzymeand NADH is the last product to leave. The mechanism is thesame whether or not the enzyme is bound to the membrane. Thedissociation constants for NADH and NAD of the soluble enzymereactivated with mitochondrial phospholipid are the same asthat for the membrane-bound enzyme. Replacing mitochondrialphospholipid with purified lecithin when reactivating the solubleenzyme results in tighter binding of these nucleotides to theenzyme. These studies (a) indicate that the enzyme is not appreciablyaltered by release from the membrane and by the purificationprocedure, (b) that the lipid environment of the enzyme in themembrane more closely approximates that of mitochondrial phospholipidthan lecithin alone, and (c) provide insight into how phospholipidcan modulate important parameters of enzymic catalysis.

Submitted on August 31, 1972

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