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RESEARCH PRODUCT

Influence of inorganic pyrophosphate on the kinetics of muscle pyruvate kinase: a simple nonallosteric feedback model.

subject

description

Potassium pyrophosphate was used instead of ATP as a model ligand for magnesium cation for the study of effector influence on the kinetics of pyruvate kinase muscle isozyme M1. The pyruvate kinase activation by low concentration of pyrophosphate and inhibition by high concentration of pyrophosphate was considered to be the result of reversible reactions of magnesium cation with pyrophosphate, ADP, ATP, and PEP. The apparent Km and Vm or in some cases the pseudo-first order reaction rate constant (instead of Km and Vm) of pyruvate kinase at any given pyrophosphate concentration were analysed as a function of concentration of free magnesium cation and its complexes with all ligands present in an assay mixture. The functions of reaction parameters with respect to concentration of magnesium complexes indicate the coexistence in the reaction mixture of simple and mixed complexes of magnesium cation with substrates, pyrophosphate, and an enzyme � /substrate complex. The parameters of the simulated reaction for the proposed interactions fit the measured experimental data. A simple model with nonallosteric feedback has been proposed. According to this model, mutual and simultaneous interactions of reaction products with substrates and with an enzyme result in the coexistence of simple and mixed, labile and inert complexes. # 2002 Elsevier Science Ireland Ltd. All rights reserved.