Topology of class A G protein-coupled receptors: insights gained from crystal structures of rhodopsins, adrenergic and adenosine receptors
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NMR solution structure of human cannabinoid receptor-1 helix 7/8 peptide: Candidate electrostatic interactions and microdomain formationNovel Structural Approaches to Study GPCR RegulationStructural and functional relationships between photoreceptor tetraspanins and other superfamily membersInvited review: GPCR structural characterization: Using fragments as building blocks to determine a complete structure.Structure and function of serotonin G protein-coupled receptors.Visualizing water molecules in transmembrane proteins using radiolytic labeling methods.Hydrophobicity profiles in G protein-coupled receptor transmembrane helical domains.Transmembrane domains of attraction on the TSH receptor.Bihelix: Towards de novo structure prediction of an ensemble of G-protein coupled receptor conformations.Characterizing and predicting the functional and conformational diversity of seven-transmembrane proteins.Membrane cholesterol access into a G-protein-coupled receptor.Using ligand-based virtual screening to allosterically stabilize the activated state of a GPCR.Phagocytosis of retinal rod and cone photoreceptors.The kinetics of antibody binding to Plasmodium falciparum VAR2CSA PfEMP1 antigen and modelling of PfEMP1 antigen packing on the membrane knobs.Palmitoylation stabilizes unliganded rod opsin.Reproducible and sustained regulation of Gαs signalling using a metazoan opsin as an optogenetic toolThe luteinizing hormone receptor: insights into structure-function relationships and hormone-receptor-mediated changes in gene expression in ovarian cancer cells.Recent progress in the structure determination of GPCRs, a membrane protein family with high potential as pharmaceutical targets.Adenosine A2A receptor is involved in cell surface expression of A2B receptor.Conservation of molecular interactions stabilizing bovine and mouse rhodopsin.Recognition in the face of diversity: interactions of heterotrimeric G proteins and G protein-coupled receptor (GPCR) kinases with activated GPCRsSuccessful prediction of the intra- and extracellular loops of four G-protein-coupled receptorsG protein-coupled receptors--recent advancesConformational selection and equilibrium governs the ability of retinals to bind opsin.Progress in elucidating the structural and dynamic character of G Protein-Coupled Receptor oligomers for use in drug discovery.The significance of G protein-coupled receptor crystallography for drug discovery.Heterologous expression of functional G-protein-coupled receptors in Caenorhabditis elegansFunctions of DPLIY motif and helix 8 of human melanocortin-3 receptor.From atomic structures to neuronal functions of g protein-coupled receptorsMass spectrometry-based GPCR proteomics: comprehensive characterization of the human cannabinoid 1 receptor.Phospholipids are needed for the proper formation, stability, and function of the photoactivated rhodopsin-transducin complex.X-ray structural information of GPCRs in drug design: what are the limitations and where do we go?Structural mechanisms of constitutive activation in the C5a receptors with mutations in the extracellular loops: molecular modeling study.Microscopic binding of M5 muscarinic acetylcholine receptor with antagonists by homology modeling, molecular docking, and molecular dynamics simulationCross-pharmacology analysis of G protein-coupled receptorsLipid protein interactions couple protonation to conformation in a conserved cytosolic domain of G protein-coupled receptors.Simplified modeling approach suggests structural mechanisms for constitutive activation of the C5a receptor.Modeling the possible conformations of the extracellular loops in G-protein-coupled receptors.Retinal release from opsin in molecular dynamics simulations.Homology model and docking studies on porcine β₂ adrenoceptor: description of two binding sites.
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Topology of class A G protein-coupled receptors: insights gained from crystal structures of rhodopsins, adrenergic and adenosine receptors
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 22 October 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Topology of class A G protein- ...... nergic and adenosine receptors
@en
Topology of class A G protein- ...... ergic and adenosine receptors.
@nl
type
label
Topology of class A G protein- ...... nergic and adenosine receptors
@en
Topology of class A G protein- ...... ergic and adenosine receptors.
@nl
prefLabel
Topology of class A G protein- ...... nergic and adenosine receptors
@en
Topology of class A G protein- ...... ergic and adenosine receptors.
@nl
P2860
P921
P356
P1476
Topology of class A G protein- ...... nergic and adenosine receptors
@en
P2093
Debarshi Mustafi
P2860
P356
10.1124/MOL.108.051938
P577
2008-10-22T00:00:00Z