ESSENTIAL ARGININE RESIDUE AT ACTIVE-SITE OF ASPARTATE-TRANSCARBAMYLASE

Reaction of phenylglyoxal with aspartate transcarbamylase [EC 2.1.3.2] and its isolated catalytic subunit results in complete loss of enzymatic activity. This modification reaction is markedly influenced by pH and is partially reversible upon dialysis. Carbamyl phosphate or carbamyl phosphate with succinate partially protect the catalytic subunit and the native enzyme from inactivation by phenylglyoxal. In the native enzyme complete protection from inactivation is afforded by N-(phosphonacetyl)-L-aspartate. The decrease in enzymatic activity correlates with the modification of 6 arginine residues on each aspartate transcarbamylase molecule, i.e., 1 arginine per catalytic site. The essential arginine may be involved in the binding of carbamyl phosphate to the enzyme. Reaction of the single thiol on the catalytic chain with 2-chloromercuri-4-nitrophenol does not prevent subsequent reaction with phenylglyoxal. If N-(phosphonacetyl)-L-aspartate is used to protect the active site, phenylglyoxal also causes the loss of activation by ATP and inhibition by CTP. The rate of loss of heterotropic effects is exactly the same for both nucleotides indicating that the 2 opposite regulatory effects originate at the same location on the enzyme, or are transmitted by the same mechanism between the subunits, or both.