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• W2052091241 abstract "Structural studies of active states of the visual pigment rhodopsin, a G protein-coupled receptor, have previously been limited to apoprotein or opsin forms that do not contain the agonist all-trans-retinal. Two groups now report structures that reveal more details of the transformations involved in rhodopsin activation. Choe et al. solve the X-ray crystal structure of the metarhodopsin II intermediate of the photoreceptor rhodopsin, and Standfuss et al. determine the structure of a constitutively active mutant of rhodopsin bound to a peptide derived from the C-terminus of the G protein transducin. This study solves the X-ray crystal structure of a constitutively active mutant of rhodopsin, a G-protein-coupled receptor, bound to a peptide derived from the C-terminus of the G protein transducin. Comparison of this structure with the structure of ground-state rhodopsin suggests how translocation of the retinal β-ionone ring leads to a rotational tilt of transmembrane helix 6, the critical conformational change that occurs upon activation. G-protein-coupled receptors (GPCRs) comprise the largest family of membrane proteins in the human genome and mediate cellular responses to an extensive array of hormones, neurotransmitters and sensory stimuli. Although some crystal structures have been determined for GPCRs, most are for modified forms, showing little basal activity, and are bound to inverse agonists or antagonists. Consequently, these structures correspond to receptors in their inactive states. The visual pigment rhodopsin is the only GPCR for which structures exist that are thought to be in the active state1,2. However, these structures are for the apoprotein, or opsin, form that does not contain the agonist all-trans retinal. Here we present a crystal structure at a resolution of 3 Å for the constitutively active rhodopsin mutant Glu 113 Gln3,4,5 in complex with a peptide derived from the carboxy terminus of the α-subunit of the G protein transducin. The protein is in an active conformation that retains retinal in the binding pocket after photoactivation. Comparison with the structure of ground-state rhodopsin6 suggests how translocation of the retinal β-ionone ring leads to a rotation of transmembrane helix 6, which is the critical conformational change on activation7. A key feature of this conformational change is a reorganization of water-mediated hydrogen-bond networks between the retinal-binding pocket and three of the most conserved GPCR sequence motifs. We thus show how an agonist ligand can activate its GPCR." @default.
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• W2052091241 date "2011-03-01" @default.
• W2052091241 modified "2023-10-01" @default.
• W2052091241 title "The structural basis of agonist-induced activation in constitutively active rhodopsin" @default.
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• W2052091241 doi "https://doi.org/10.1038/nature09795" @default.
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