Chemical modification of bovine transducin: probing the GTP-binding site with affinity analogues.

The structure of the GTP-binding site of transducin, a signal-transducing G-protein involved in the visual excitation process, was studied by affinity labeling. Radioactive GTP analogues with reactive groups attached to different moieties of the GTP molecule were obtained and include 8-azido-GTP, P3-(4-azidoanilino)-P1-5'-GTP (AA-GTP), 5'-[p-(fluorosulfonyl)benzoyl]guanosine (FSBG), 3'-O-(3-[N-(4-azido-2-nitrophenyl)amino]propionyl)-GTP (ANPAP-GTP), the 2',3'-dialdehyde derivative of GTP (oGTP), and a bifunctional cross-linking analogue, 8-azido-P3-(4-azidoanilino)-P1-5'-GTP (8-azido-AA-GTP). With the exception of FSBG, all of the analogues were found to bind to transducin specifically and serve as a cofactor to activate the retinal cGMP cascade or act as a competitive inhibitor for the GTPase activity of transducin. The labeling sites of these analogues were localized by tryptic peptide mapping. ANPAP-GTP and oGTP were unable to covalently modify transducin, suggesting that the 2'- and 3'-hydroxy groups on the ribose ring of GTP are not in direct contact with the protein. AA-GTP only labeled the T alpha subunit of transducin and was localized on the 21-kDa tryptic fragment of T alpha. This indicates that the phosphate moiety of the bound GTP is in direct contact with this peptide. On the other hand, 8-azido-GTP labeled both the T alpha and T beta gamma subunits of transducin. The labeling on T alpha was on the 12-kDa tryptic fragment, suggesting that the guanine ring binding site is composed of a different peptide fragment than the phosphate binding region. Treatment with the bifunctional analogue 8-azido-AA-GTP generated the cross-linked products of T alpha and T beta gamma. This observation implies that the guanine ring of the bound GTP on T alpha could be in close proximity with T beta gamma.(ABSTRACT TRUNCATED AT 250 WORDS)