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Metabolism and Enzymology

Effect of pH on the Kinetic Parameters of NADP-Malic Enzyme from a C₄Flaveria (Asteraceae) Species ¹

Department of Biological Sciences, Texas Tech University, Lubbock, Texas 79409

We have used the pH variation in the kinetic parameters with respect to malate of NADP-malic enzyme purified from the C₄ species, Flaveria trinervia, to compare the pK values of its functional groups with those for the pigeon liver NADP-malic enzyme (MI Schimerlik, WW Cleland [1977] Biochemistry 16: 576-583) and the plant NAD-malic enzyme (KO Willeford, RT Wedding [1987] Plant Physiol 84: 1084-1087). Like the other enzymes, the C₄ enzyme has a group with a pK of about 6.0 (6.6 for the C₄ enzyme), as indicated from plots of the log V_max/K_m (V_max = maximum rate of catalysis) versus pH, which must lose a proton for malate binding and subsequent catalysis. The optimum ionization for the C₄ enzyme-NADP-Mg²⁺ complex occurs at pH 7.1 to 7.5. From pH 7.5 to 8.4, the K_m increases, but V_max remains constant. The log V_max/K_m plot in this pH range indicates a group with a pK of about 7.7. The other malic enzymes exhibit a similar pK. Above pH 8.4, deprotonation leads to a marked increase in K_m and a decrease in V_max for the C₄ enzyme. As in the case of the animal enzyme, the log V_max/K_m plot for the C₄ enzyme appears to approach a slope of two. The curve suggests an average pK of 8.4 for the groups involved, while the animal enzyme exhibits an average pK of 9.0. The NAD-malic enzyme does not exhibit any pK values at these high pK values. We hypothesize that the putative groups with the high pK values may be at least partially responsible for the ability of the C₄ NADP-malic enzyme to maintain high activity at pH 8.0 in illuminated chloroplasts.