2r0n
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Revision as of 06:41, 24 April 2008
The effect of a Glu370Asp mutation in Glutaryl-CoA Dehydrogenase on Proton Transfer to the Dienolate Intermediate
Overview
We have determined steady-state rate constants and net rate constants for the chemical steps in the catalytic pathway catalyzed by the E370D mutant of glutaryl-CoA dehydrogenase and compared them with those of the wild-type dehydrogenase. We sought rationales for changes in these rate constants in the structure of the mutant cocrystallized with the alternate substrate, 4-nitrobutyric acid. Substitution of aspartate for E370, the catalytic base, results in a 24% decrease in the rate constant for proton abstraction at C-2 of 3-thiaglutaryl-CoA as the distance between C-2 of the ligand and the closest carboxyl oxygen at residue 370 increases from 2.9 A to 3.1 A. The net rate constant for flavin reduction due to hydride transfer from C-3 of the natural substrate, which includes proton abstraction at C-2, to N5 of the flavin decreases by 81% due to the mutation, although the distance increases only by 0.7 A. The intensities of charge-transfer bands associated with the enolate of 3-thiaglutaryl-CoA, the reductive half-reaction (reduced flavin with oxidized form of substrate), and the dienolate following decarboxylation are considerably diminished. Structural investigation suggests that the increased distance and the change in angle of the S-C1(=O)-C2 plane of the substrate with the isoalloxazine substantially alter rates of the reductive and oxidative half-reactions. This change in active site geometry also changes the position of protonation of the four carbon dienolate intermediate to produce kinetically favorable product, vinylacetyl-CoA, which is further isomerized to the thermodynamically stable normal product, crotonyl-CoA.
About this Structure
2R0N is a Single protein structure of sequence from Homo sapiens. Full crystallographic information is available from OCA.
Reference
The effect of a Glu370Asp mutation in glutaryl-CoA dehydrogenase on proton transfer to the dienolate intermediate., Rao KS, Fu Z, Albro M, Narayanan B, Baddam S, Lee HJ, Kim JJ, Frerman FE, Biochemistry. 2007 Dec 18;46(50):14468-77. Epub 2007 Nov 17. PMID:18020372 Page seeded by OCA on Thu Apr 24 09:41:55 2008
Categories: Glutaryl-CoA dehydrogenase | Homo sapiens | Single protein | Albro, M. | Baddam, S. | Frerman, F E. | Fu, Z. | Kim, J J. | Lee, H J. | Narayanan, B. | Rao, K S. | Alternative splicing | Disease mutation | Fad | Flavoprotein | Glutaryl-coa dehydrogenase | Isomerase | Mitochondrion | Oxidoreductase | Polymorphism | Transit peptide
