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Biochemistry

Oxidation-reduction of general acyl-CoA dehydrogenase by the butyryl-CoA/crotonyl-CoA couple. A new investigation of the rapid reaction kinetics.


PMID 3219356

Abstract

Pig kidney general acyl-CoA dehydrogenase (GAD) can be reduced by butyryl-CoA to form reduced enzyme and crotonyl-CoA. This reaction is reversible. Stopped-flow, kinetic investigations on GAD have been made, using the following reaction pairs: oxidized GAD/butyryl-CoA, oxidized GAD/crotonyl-CoA, oxidized GAD/alpha,beta-dideuteriobutyryl-CoA, reduced GAD/butyryl-CoA, and reduced GAD/crotonyl-CoA (in 50 mM potassium phosphate buffer, pH 7.6 at 4 degrees C). Reduction of GAD by butyryl-CoA is triphasic. The slowest phase is 100-fold slower than the preceding phase and appears to represent a secondary process not directly related to the primary reduction events. The first two fast phases are responsible for reduction of GAD. Reduction proceeds via a reduced enzyme/crotonyl-CoA charge-transfer complex. alpha, beta-Dideuteriobutyryl-CoA elicits a major deuterium isotope effect (15-fold) on the reduction reaction. Oxidation of GAD by crotonyl-CoA is biphasic. Oxidation proceeds via the same reduced enzyme/crotonyl-CoA charge-transfer complex seen during reduction. The oxidation reaction ends in a mixture composed largely of oxidized GAD species. From the data, we constructed a mechanism for the reduction/oxidation of GAD by butyryl-CoA/crotonyl-CoA. This mechanism was then used to simulate all of the observed kinetic time course data, using a single set of kinetic parameters. A close correspondence between the observed and simulated data was obtained.

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C25H37Li3N7O17P3S