Solvent and substrate deuterium isotope effects on a transamination reaction catalyzed by pig heart aspartate aminotransferase

Abstract

Transamination of erythro-β-hydroxy- l-aspartate catalyzed by pig heart aspartate aminotransferase (EC 2.6.1.1) was studied with both normal and α-deuterated substrate in H 2O D 2O . The overall transamination reaction, with α-ketoglutarate as amino group acceptor, showed no primary substrate isotope effect. However, one of the elementary reactions between two enzyme-substrate complexes was found to exhibit large primary isotope effects in both the forward and the reverse directions. This same reaction also showed a twofold solvent isotope effect in the reverse direction, but D 2O had only a negligible effect in the forward direction. These data were interpreted to indicate that the substrate α-hydrogen arises from a Bronsted acid with two equivalent hydrogens. Another elementary reaction, which is 100-fold slower, was also studied since it appeared to be one of the principal rate-determining steps in the overall reaction. This step was not affected by substrate deuteration but exhibited large solvent isotope effects in both directions.