Abstract
Pre-steady state, stopped flow analysis of Escherichia coli D-3-phosphoglycerate dehydrogenase was performed by following the fluorescence of protein tryptophan and the fluorescence resonance energy transfer from protein tryptophan to bound NADH. The results indicate that binding of substrates is ordered, with coenzyme, NADH, binding first. Furthermore, the analysis indicated that there are two sets of sites on the tetrameric enzyme that can be differentiated by their kinetic behavior. NADH binding was consistent with an initial binding event followed by a slow conformational change for each site. The slow conformational change is responsible for the apparent tight binding of NADH to the apoenzyme but is too slow to participate in the catalytic cycle when the enzyme is rapidly turning over. Subsequent binding of the substrate, alpha-ketoglutarate, was characterized by a rapid equilibrium binding event followed by a conformational change for each site. Catalysis in the direction of NAD(+) reduction showed a distinct burst of activity followed by a slow rate of turnover, indicating that the rate-limiting step is after hydride transfer. Catalysis in the direction of NADH oxidation did not display burst kinetics, indicating that the rate-limiting step is at or before the hydride transfer step. The burst data indicated that the rate of NAD(+) reduction (3.8 s(-1)) is similar to the k(cat) of the enzyme (2-3 s(-1)) in that direction. However, analysis of the reaction with deuterated NADH failed to show an effect on the velocity of the reaction with a V(H)/V(D)=1.07+/-0.06. None of the other rates determined by stopped flow analysis could account for the k(cat) of the enzyme in either direction (forward k(cat)=0.01 s(-1), reverse k(cat)=2-3 s(-1)), suggesting that the rate-limiting step in both directions is a conformational change in the enzyme that is not detected optically.
Highlights
D-3-Phosphoglycerate dehydrogenase (PGDH)2 (EC 1.1.1.95) catalyzes the NADH/NADϩ-dependent interconversion of phosphoglyceric acid and hydroxypyruvic acid phosphate [1]
The results indicate that binding of substrates is ordered, with coenzyme, NADH, binding first
The analysis indicated that there are two sets of sites on the tetrameric enzyme that can be differentiated by their kinetic behavior
Summary
D-3-Phosphoglycerate dehydrogenase (PGDH) (EC 1.1.1.95) catalyzes the NADH/NADϩ-dependent interconversion of phosphoglyceric acid and hydroxypyruvic acid phosphate [1]. Transient Kinetic Analysis of PGDH nally reported [11] that purified E. coli PGDH retained between 2 and 3 NADH molecules bound per tetramer that could not be removed by dialysis This observation implies very tight binding of NADH, and it was estimated that the dissociation constant for NADH is ϳ50 nM [11]. To better understand how the activity of the enzyme is regulated, it is important to understand the kinetics of substrate binding and catalysis at a more detailed level than is provided by typical steady state kinetic analysis This is true when determining the effects of mutations, where a greater understanding of the consequence of these mutations on the individual rate constants of the reaction pathway is important. The investigations described here are designed to provide the additional necessary information to better understand the catalytic process of this enzyme
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