E. coli GMP synthetase (GMPS) catalyzes the conversion of XMP to GMP. Ammonia, generated in the amino-terminal glutamine amidotransferase (GAT) domain, is transferred by an unknown mechanism to the ATP-pyrophosphatase (ATPP) domain, where it attacks a highly reactive adenyl-XMP intermediate, leading to GMP formation. To study the structural requirements for the activity of E. coli GMPS, we used PCR to generate a protein expression construct that contains the ATPP domain as well as the predicted dimerization domain (DD). The ATPP/DD protein is active in solution, utilizing NH (4) (+) as an NH(3) donor. Size-exclusion chromatography demonstrates a dimeric mass for the ATPP/ DD protein, providing the first evidence in solution for the structural organization of the intact GMPS. Kinetic characterization of the ATPP/DD domain protein provides evidence that the presence of the GAT domain can regulate the activity of the ATPP domain.