Author(s)

Nadia Trabelsi, Béatrice Langlois d'Estaintot, Gilles Sigaud, Bernard Gallois, Jean Chaudière

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Chimie et Biologie des Membranes et des Nanoobjets UMR CNRS 5248, Allée Geoffroy de Saint Hilaire, Université Bordeaux 1, 33600 Pessac Cedex, France.

Dihydroflavonol 4-reductase (DFR), a member of the short-chain dehydrogenase family, catalyzes the last common step in the biosynthesis of flavan-3-ols and condensed tannins. Initial rates of DFR were measured by monitoring the 340-nm absorbance decrease resulting from the joint consumption of dihydroquercetin (DHQ) and NADPH, as a function of pH, temperature and ionic strength. At pH 6.5 and 30^o C, substrate inhibition was observed above 30 µM DHQ. At lower/non-inhibitory DHQ concentrations, NADP⁺ behaves as a competitive inhibitor with respect to NADPH and as a mixed inhibitor with respect to DHQ, which supports a sequential ordered mechanism, with NADPH binding first and NADP⁺ released last. Binding-equilib-rium data obtained by means of the chromatographic method of Hummel and Dreyer at pH 7.5 and by isothermal calorimetric titration at pH 6.5 led to the conclusion that ligands of the apoenzyme included NADPH, NADP⁺ and DHQ. The mechanism which best accounts for substrate inhibition at pH 6.5 in the absence of product involves the formation of a binary non-productive E.DHQ complex. Thus, a productive ternary complex cannot be formed when DHQ binds first. This mechanism of inhibition may prevent the accumulation of unstable leucoanthocyanidins within cells.

Substrate Inhibition; Steady-State Kinetics; Hummel and Dreyer Technique; Isothermal titration Calorimetry; Non-Productive Enzyme Substrate Complex

Trabelsi, N. , d'Estaintot, B. , Sigaud, G. , Gallois, B. and Chaudière, J. (2011) Kinetic and binding equilibrium studies of dihydroflavonol 4-reductase from Vitis vinifera and its unusually strong substrate inhibition. Journal of Biophysical Chemistry, 2, 332-344. doi: 10.4236/jbpc.2011.23038.