The structural integrity and substrate binding properties of the two genetically engineered domains of yeast phosphoglycerate kinase were investigated using one- and two-dimensional nuclear magnetic resonance techniques. Both domains were found to fold with regions of native-like structure, with the N-domain showing greater conformational flexibility than the C-domain. The 'basic patch' region of the N-domain is, however, clearly perturbed by removal of the C-domain. This is most likely due to the absence of stabilizing interactions between the C-terminal peptide (including alpha-helices XIII and XIV) and the N-domain. The C-domain is able to bind nucleotide with an affinity only three times less than that of the native protein.