The photoactivatable NAD⁺ analogue [³²P]2-azido-NAD⁺ defines intra- and inter-molecular interactions of the C-terminal domain of the G-protein Gα_t

Recently, we reported the synthesis and use of [32P]2-azido-NAD+ as a probe to study the structural organization of G-proteins. Pertussis toxin was used to ‘tether’ [32P]2-azido-ADP-ribose of [32P]2-azido-NAD+ to Cys347 of the alpha subunit of the G-protein Gt. Light activation of the azide moiety covalently cross-linked the domain containing Cys347 at the C-terminus of alpha t with neighbouring intra- and inter-molecular domains of holo-transducin. The radiolabel from [32P]2-azido-ADP-ribose was then transferred to the ‘acceptor’ domain by cleaving the thioglycosidic bond between Cys347 and [32P]2-azido-ADP- ribose with mercuric acetate. ADP-ribosylation followed by photocross-linking of holo-transducin indicated intramolecular interactions of the C-terminal domain with other alpha t domains and intermolecular interactions with holotransducin alpha and gamma subunits. The radiolabelled peptides, which were radiolabelled because of the transfer of the photoactive moiety, were identified by utilizing 2-(2′-nitrophenylsulphenyl)-3-methyl-3′- bromoindolenine (‘BNPS-skatole’) and CNBr. The results indicate that the C-terminus of alpha t interacts with both N-terminal and C-terminal domains within the alpha t molecular. Mapping the interacting sites between cross-linked alpha dimers and alpha trimers indicates that the C-terminal domain of alpha t is involved in the formation of alpha t homopolymers in solution. In addition, our studies place the beta gamma subunit in close proximity to Cys347 of alpha t, as indicated by the transfer of [32P]2-azido-ADP-ribose from Cys347 to the gamma subunit, which was further localized to the C-terminal half of gamma t. The studies presented here identify the C-terminal intra- and inter-molecular interactions of the alpha subunit of holo-transducin.