Phosphoglycerate mutase. Kinetics and effects of salts on the mutase and bisphosphoglycerate phosphatase activities of the enzyme from chicken breast muscle.

The steady state kinetics and effects of salts on chicken breast phosphoglycerate mutase have been examined. The enzyme can catalyze three phosphoryl transfer reactions: mutase, bisphosphoglycerate phosphatase, and bisphosphoglycerate synthase. The mutase rate was measured in the favorable direction (Keq = glycerate-3-P/glycerate-2-P approximately equal to 12) using [2T]glycerate-2-P as substrate. The bisphosphoglycerate phosphatase activity was studied in the presence of the activator, glycolate-2-P. The latter is an analog of the glycerate-P's and appears to act as an abortive mutase substrate. The kinetic pattern obtained with both activities is that of a ping-pong mechanism with inhibition by the second substrate occurring at a lower concentration than the Km value for that substrate. The kinetic parameters for the mutase determined in 50 mM N-[tris(hydroxymethyl)methyl-2-amino]ethanesulfonate (TES)/sodium buffer containing 0.1 M KCl, pH 7.5, 25 degrees C are: Km glycerate-2,3-P2, 0.069 micron; Km glycerate-2-P, 14 micron; Km glycerate-3-P approximately 200 micron; Ki glycerate-2-P, 4 micron. The kinetic parameters for the phosphatase reaction in 50 mM triethanolamine/Cl- buffer, pH 7.5, 25 degrees C are: Km glycerate-2,3-P2, 0.065 micron:Km glycolate-2P, 479 micron; Ki glycolate-2-P, 135 micron. The enzyme is sensitive to changes in the ionic environment. Increasing salt concentrations activate the phosphatase in the presence of glycolate-2-P by decreasing the apparent Km of glycerate-2,3-P2. The effects are due to the anionic component and Cl- greater than acetate greater than TES. The same salts are competitive inhibitors with respect to glycolate-2-P. With high levels of KCl that produce a 30-fold decrease in the apparent maximal velocity due to competition with glycolate-2-P, the Km of glycerate-2,3-P2 remains low. These observations lead us to postulate that each monophosphoglycerate substrate has a separate site on the enzyme and that glycerate-2,3-P2 can bind to either site. The binding of anions to one site of the nonphosphorylated enzyme allows an increase in the on and off rates of glycerate-2,3-P2 at the alternate site. Salts inhibit the mutase reaction. The Km of glycerate-2,3-P2 is increased as is that of glycerate-2-P. The effect on the Km of glycerate-2,3-P2 is attributed to an increase in the off rate/on rate ratio for glycerate-2,3-P2. The bisphosphoglycerate synthase reaction is shown to require added glycerate-3-P. The equilibrium between enzyme and glycerate-1,3-P2 is favorable (Kdiss less than or equal 7 X 10(-8) M) and suggests that in the absence of a separate synthase this reaction may have functional significance.