The leucine-to-alanine mutation at residue 201 of D-amino acid aminotransferase provides a unique enzyme which gradually loses its activity while catalyzing the normal transamination; the co-enzyme form is converted from pyridoxal 5'-phosphate to pyridoxamine 5'-phosphate upon the inactivation [Kishimoto,K., Yoshimura,T., Esaki,N., Sugio,S., Manning,J.M. and Soda,K. (1995) J. Biochem., 117, 691-696]. Crystal structures of both co-enzyme forms of the mutant enzyme have been determined at 2.0 A resolution: they are virtually identical, and are quite similar to that of the wild-type enzyme. Significant differences in both forms of the mutant are localized only on the bound co-enzyme, the side chains of Lys145 and Tyr31, and a water molecule sitting on the putative substrate binding site. Detailed comparisons of the structures of the mutant, together with that of the pyridoxamine-5'-phosphate form of the wild-type enzyme, imply that Leu201 would play a crucial role in the transamination reaction by keeping the pyridoxyl ring in the proper location without disturbing its oscillating motion, although the residue seems to not be especially important for the structural integrity of the enzyme.
D-Amino acid aminotransferase is the only aminotransferase that catalyzes the transamination of D-amino acids. We studied the role of the binding site for the alpha-carboxyl group of substrates, which is presumably crucial for the unique stereospecificity of the enzyme. The site-directed mutagenesis of Arg98, which is the putative carboxyl-binding site, as judged on the basis of X-ray crystallographic studies [Sugio, S., Petsko, G.A., Manning, J.M., Soda, K., and Ringe, D. (1995) Biochemistry 34, 9661-9669], by replacement with methionine and lysine, resulted in decreases in the kmax values and increases in the Kd values for both amino donors and amino acceptors. The introduction of another mutation, that of Tyr88, which is located near Arg98 in the spacial structure, by replacement with arginine, in addition to the above Arg98 mutation, resulted in increases in the kmax values but little change in the Kd values. These results suggest that Arg98 constitutes the carboxyl-binding site for the substrate, efficient catalysis by the enzyme being facilitated upon binding. The mutant enzymes are also relieved from inhibition by high concentrations of alpha-ketoglutarate, which is an inherent character of the wild-type enzyme. Therefore, Arg98 is also responsible for the inhibition by alpha-ketoglutarate.
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