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  • Title: The reductive half-reaction of xanthine oxidase. The involvement of prototropic equilibria in the course of the catalytic sequence.
    Author: Kim JH, Ryan MG, Knaut H, Hille R.
    Journal: J Biol Chem; 1996 Mar 22; 271(12):6771-80. PubMed ID: 8636099.
    Abstract:
    The pH dependence and solvent isotope sensitivity of three discrete steps in the reductive half-reaction of xanthine oxidase have been investigated. The pH dependence of both kcat/Km from steady-state experiments and kred/Kdfrom rapid reaction experiments with xanthine as substrate indicate that enzyme reacts preferentially with the neutral form of substrate and that an ionizable group in the active site having a pKa of approximately 6.6 must be unprotonated for reaction to take place. The solvent kinetic isotope effect on kred/Kd is 2.4, once a uniform shift on going to D2O of approximately 1 unit for both pKa values is taken into account. The pH dependence of the formation and decay of Ered-P formed in the course the reaction of xanthine oxidase with lumazine has also been examined. Formation of this complex exhibits bell-shaped pH dependence, with pKa values of 6.5 and 7.8, consistent with the results obtained with xanthine. Decay of the Ered-P complex is base-catalyzed with a pKa > 11 and exhibits a small solvent kinetic isotope effect of 1.7 at pH/D 8.5. By contrast, the catalytic intermediate giving rise to the "very rapid" EPR signal that is transiently observed in the course of the reaction of enzyme with the substrate 2-hydroxy-6-methylpurine is found to undergo acid-catalyzed breakdown with an associated pKa < 6. Formation and decay of this species exhibit solvent kinetic isotope effects of 2.0 and 3.5 at pH 10. The results are discussed in the context of a specific reaction mechanism for the reductive half-reaction of xanthine oxidase, in which discrete ionizations associated with the molybdenum center of the active site play critical roles in determining the magnitude of the rate constants by which the Mo(IV)-P and Mo(V)-P intermediates form and decay.
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