VARIATIONS IN AROMATIC AMINO ACID DECARBOXYLASE ACTIVITY TOWARDS DOPA AND 5‐HYDROXYTRYPTOPHAN CAUSED BY pH CHANGES AND DENATURATION

—DOPA and 5‐hydroxytryptophan (5‐HTP) are generally supposed to be decarboxylated in mammalian tissues by a single enzyme, the two activities being present in constant ratio through a variety of purification procedures. It has now been shown that the ratio of activity of the liver enzyme towards the two substrates can be altered by mild treatments, such as might be used in solubilization of brain preparations. DOPA decarboxylase activity was preferentially inactivated by sodium dodecyl sulphate treatment, and 5‐HTP decarboxylation by urea. Previous reports that the two substrates show different pH optima but are mutually competitive, have been confirmed. The K m of the enzyme towards 5‐HTP was lowest at pH 7.8 (the optimum pH for decarboxylation of this amino acid), but the variation with pH of the K m towards DOPA was unrelated to the pH optimum for decarboxylation. There appeared to be no relation between the probable ionization state of the substrates and the pH dependence of the enzyme. Studies on the binding characteristics of the enzyme for the two products, dopamine and serotonin, did not show any specific saturable binding. It is proposed that the enzyme has a complex active site, with separate affinity sites for the two substrates, adjacent to a single catalytic site.