Resistance of active monovalent cation transport to pronase digestion of intact human erythrocytes

Chorismate mutase CM-1, an isozyme that is inhibited by phenylalanine and tyrosine and activated by tryptophan was purified 1200-fold from etiolated mung bean seedlings with a final yield of 18–20%. Loss of activity was rapid in highly purified preparations but was reduced by the addition of bovine serum albumin. Enzyme activity was unaffected by thiol-alkylating agents, reducing agents, EDTA, or divalent cations.The enzyme displayed pH-sensitive, positive homotrophic cooperativity toward chorismate with greatest cooperativity at the pH optimum of the tryptophan-free enzyme (pH 7.2–7.4) and least cooperativity at the pH optimum of the enzyme fully activated with tryptophan (pH 7.0). Activation by tryptophan reduced the K_m for the enzyme, and modified the sigmoid substrate saturation kinetics to a rectangular hyperbola. Feedback inhibition by the end product amino acids phenylalanine and tyrosine was not additive but revealed heterotrophic cooperativity with chorismate. Tyrosine (K_i = 31 μM) was a slightly more effective inhibitor than phenylalanine (K_i = 37 μM) at 1 mm chorismate. Tryptophan at equimolar concentration antagonized the feedback inhibition by phenylalanine and tyrosine. The latter two, however, at higher concentrations reversed the tryptophan activation in a noncompetitive fashion with respect to either tryptophan or chorismate. The enzyme was responsive only to the l-isomers of the amino acids. The results indicate a primary role for chorismate mutase CM-1 from mung bean in the regulation of the synthesis of phenylalanine and tyrosine for protein synthesis.