Multidimensional1H and15N NMR investigation of glutamine-binding protein ofEscherichia coli

Summary Specific and uniform¹⁵N labelings along with site-directed mutagenesis of glutamine-binding protein have been utilized to obtain assignments of the His¹⁵⁶, Trp³² and Trp.²²⁰ residues. These assignments have been made not only to further study the importance of these 3 amino acid residues in protein-ligand and protein-protein interactions associated with the active transport ofl-glutamine across the cytoplasmic membrane ofEscherichia coli, but also to serve as the starting points in the sequence-specific backbone assignment. The assignment of H₂ of His¹⁵⁶ refines the earlier, model where this particular proton formas an intermolecular hydrogen bond to the -carbonyl ofl-glutamine, while assignments of both Trp³² and Trp²²⁰ show the variation in local structures which ensure the specificity in ligand binding and protein-protein interaction. Using 3D NOESY-HMQC NMR, amide connectivities can be traced along 8–9 amino acid residues at a time. This paper illustrates the usefulness of combining¹⁵N isotopic labeling and multinuclear, multidimensional NMR techniques for a structural investigation of a protein with a molecular weight of 25 000.