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Metabolism and Enzymology

4-Methyleneglutamine Amidohydrolase from Peanut Leaves ¹

Preparation, Catalytic Properties, and Immunological Responses of a Highly Purified Form of the Enzyme

Department of Biological Chemistry, The University of Michigan, Ann Arbor, Michigan 48109-0606

4-Methyleneglutamine amidohydrolase has been extracted and purified over 1000-fold from 14-day-old peanut (Arachis hypogaea) leaves by modification of methods described previously. The purified enzyme shows two bands of activity and three to four bands of protein after electrophoresis on nondenaturing gels. Each of the active bands is readily eluted from gel slices and migrates to its original position on subsequent electrophoresis. Although they are electrophoretically distinct, the two forms of the enzyme are immunologically identical by Ouchterlony double-diffusion techniques and have similar catalytic properties. Activity toward glutamine that has a threefold lower V_max and a four-fold higher K_m value copurifies with MeGln aminohydrolase activity. 4-Methyleneglutamine and 4-methyleneglutamic acid inhibit the hydrolysis of glutamine while glutamine inhibits 4-methyleneglutamine hydrolysis, further indicating the identity of the activity toward both substrates. Amidohydrolase activity is stimulated up to threefold by preincubation with either ionic or non-ionic detergents (0.1%) and also by added proteins (0.5% bovine serum albumin or whole rabbit serum); it is inhibited 50% by 1 millimolar borate or the glutamine analog, albizziin (10 millimolar). Rabbit antiserum to the purified peanut enzyme cross-reacts with one or more proteins in extracts of some plants but not others; in no instance, however, was 4-methyleneglutamine amidohydrolase activity detected in other species. Overall, the results support the hypothesis that 4-methyleneglutamine supplies N, via its hydrolysis by the amidohydrolase, to the growing shoots of peanut plants, whereas glutamine hydrolysis is prevented by the prepon-derance of the preferred substrate. Some results also suggest that this amidohydrolase activity may be regulated by metabolites and/or by association with other cellular components.