A comparative study of the kinetics of peroxidase-catalyzed oxidation of 3,3',5,5'-tetramethylbenzidine (TMB) in the presence of 2,4-dinitrosoresorcinol (DNR), its polydisulfide derivative [poly(DNRDS)], and resorcinol polydisulfide [poly(RDS)], substances that competitively inhibit the formation of TMB conversion product, was carried out. The inhibition constants, Ki for DNR, poly(DNRDS), and poly(RSD) were determined at 20 degrees C and pH 6.4 to be 110, 13.5, and 0.78 microM, respectively. The stoichiometric coefficients of inhibition were calculated to be 0.38 and 76 for poly(DNRDS) and poly(RDS), respectively. In the pH range 6.4-7.0, the initial rates of the peroxidative oxidation of TMB, and its mixtures with DNR and poly(DNRDS) and the Ki value for poly(RDS) substantially decreased with increasing pH. The kinetic parameters of poly(RDS) (Ki 0.22-0.78 microM and f76) suggest that it is the most efficient inhibitor of peroxidase oxidation of TMB: in micromolar concentrations, it completely stops this process and can be used in EIA.
The inactivation kinetics of glucoso-6-phosphate dehydrogenase (GPDH) and its complexes with glucoso-6-phosphate and NADP+ was characterized in aqueous solutions at 36-47 degrees C under treatment with low frequency (27 kHz, 60 W/cm2) and high frequency ultrasound (880 kHz, 1 W/cm2). To this end, we measured three effective first-order inactivation rate constants: thermal k(in)* , total (thermal and ultrasonic) kin, and ultrasonic kin (US). The values of the constants were found to be higher for the free enzyme than for its complexes GP-DH-GP and GPDH-NADP+ at all temperatures, which confirms the enzyme stabilization by its substrate and cofactor under both thermal and ultrasonic inactivation. Effective values of the activation energies (Ea) were determined and the preexponential factors of the rate constants and thermodynamic activation parameters of inactivation processes (deltaH*, deltaS*, and deltaG*) were calculated from the temperature dependences of the inactivation rate constants of GPDH and its complexes. The sonication of aqueous solutions of free GPDH and its complexes was accompanied by a reduction of Ea and deltaH* values in comparison with the corresponding values for thermal inactivation. The Ea, deltaH*, and deltaS* inactivation values for GPDH are lower than the corresponding values for its complexes. A linear dependence between the growth of the deltaH* and deltaS* values was observed for all the inactivation processes for free GPDH and its complexes.
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