A 70-Amino Acid Zinc-Binding Polypeptide from the Regulatory Chain of Aspartate Transcarbamoylase Forms a Stable Complex with the Catalytic Subunit Leading to Markedly Altered Enzyme Activity

In an effort to clarify effects of specific protein-protein interactions on the properties of the dodecameric enzyme aspartate transcarbamoylase (carbamoyl-phosphate:L-aspartate carbamoyltransferase, EC 2.1.3.2), we initiated studies of a simpler complex containing an intact catalytic trimer and three copies of a fragment from the regulatory chain. The partial regulatory chain was expressed as a soluble 9-kDa zinc-binding polypeptide comprising 11 amino acids encoded by the polylinker of pUC18 fused to the amino terminus of residues 84-153 of the regulatory chain; this polypeptide includes the zinc domain detected in crystallographic studies of the holoenzyme. In contrast to intact regulatory chains, the zinc-binding polypeptide is monomeric in solution because it lacks the second domain responsible for dimer formation and assembly of the dodecameric holoenzyme. The isolated 9-kDa protein forms a tight, zinc-dependent complex with catalytic trimer, as shown by the large shift in electrophoretic mobility of the trimer in nondenaturing polyacrylamide gels. Enzyme assays of the complex showed a hyperbolic dependence of initial velocity on aspartate concentration with Vmaxand Kmfor aspartate ≈50% lower than the values for free catalytic subunit. A mutant catalytic subunit containing the Lys-164 → Glu substitution exhibited a striking increase in enzyme activity at low aspartate concentrations upon interaction with the zinc domain because of a large reduction in Kmupon complex formation. These changes in functional properties indicate that the complex of the zinc domain and catalytic trimer is an analog of the high-affinity R ("relaxed") state of aspartate transcarbamoylase, as proposed previously for a transiently formed assembly intermediate composed of one catalytic and three regulatory subunits. Conformational changes at the active sites, resulting from binding the zinc-containing polypeptide chains, were detected by difference spectroscopy with trinitrophenylated catalytic trimers. Isolation of the zinc domain of aspartate transcarbamoylase provides a model protein for study of oligomer assembly, communication between dissimilar polypeptides, and metal-binding motifs in proteins.