| Abstract: | Addition of 1 mM Mn2+ to all solutions in the final chromatographic step used to purify L-threonine dehydrogenase (L-threonine:NAD+ oxidoreductase, EC 1.1.1.103) from extracts of Escherichia coli K-12 routinely provides 30-40 mg of pure enzyme per 100 g wet weight of cells with specific activity = 20-30 units/mg. Enzyme dialyzed exhaustively against buffers containing Chelex-100 resin has a specific activity = 8 units/mg and contains 0.003 or 0.02 mol of Mn2+/mol of enzyme as determined by radiolabeling studies with 54Mn2+ or by atomic absorption spectroscopy, respectively. Dehydrogenase activity is completely abolished by low concentrations of either Hg2+ or Ag+; of a large spectrum of other metal ions tested, only Mn2+ and Cd2+ have an activating effect. Activation of threonine dehydrogenase by Mn2+ is thiol-dependent and is saturable with an activation Kd = 9.0 microM and a Vmax = 105 units/mg. Stoichiometry of Mn2+ binding was found to be 0.86 mol of Mn2+/mol of enzyme subunit with a dissociation constant (Kd) = 8.5 microM. Mn2+ appears to interact directly with threonine dehydrogenase; gel filtration studies with the dehydrogenase plus 54Mn2+ in the presence of either NAD+, NADH, L-threonine, or combinations thereof show that only Mn2+ coelutes with the enzyme whereas all other ligands elute in the salt front and the stoichiometry of the dehydrogenase-Mn2+ interaction is not affected in any instance. A theoretical curve fit to data for the pH-activity profile of Mn2+-saturated enzyme has a pKa = 7.95 for one proton ionization. The data establish L-threonine dehydrogenase of E. coli to be a metal ion activated enzyme. |
