Dimerization and ligand binding affect the structure network of A(2A) adenosine receptor.
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Computational approaches for modeling GPCR dimerizationCommunication over the network of binary switches regulates the activation of A2A adenosine receptorNetwork and atomistic simulations unveil the structural determinants of mutations linked to retinal diseases.Mass spectrometry-based proteomics of human cannabinoid receptor 2: covalent cysteine 6.47(257)-ligand interaction affording megagonist receptor activation.Paths of long-range communication in the E2 enzymes of family 3: a molecular dynamics investigation.Angiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesia.Programmable nanoscaffolds that control ligand display to a G-protein-coupled receptor in membranes to allow dissection of multivalent effects.Communication routes in ARID domains between distal residues in helix 5 and the DNA-binding loops.The significance of G protein-coupled receptor crystallography for drug discovery.Structural characterization of triple transmembrane domain containing fragments of a yeast G protein-coupled receptor in an organic : aqueous environment by solution-state NMR spectroscopyCritical role of the first transmembrane domain of Cx26 in regulating oligomerization and functionComputational approaches to detect allosteric pathways in transmembrane molecular machines.Moonlighting adenosine deaminase: a target protein for drug development.Structure and function of G protein-coupled receptor oligomers: implications for drug discovery.Signaling within Allosteric Machines: Signal Transmission Pathways Inside G Protein-Coupled Receptors.Protein-Protein Interface and Disease: Perspective from Biomolecular Networks.An Ensemble-Based Protocol for the Computational Prediction of Helix-Helix Interactions in G Protein-Coupled Receptors using Coarse-Grained Molecular DynamicsMulti-Component Protein - Protein Docking Based Protocol with External Scoring for Modeling Dimers of G Protein-Coupled Receptors.Modeling Complexes of Transmembrane Proteins: Systematic Analysis of ProteinProtein Docking Tools.Adenosine A2a receptors form distinct oligomers in protein detergent complexes.Light on the structural communication in Ras GTPases.Functional Consequences of GPCR Heterodimerization: GPCRs as Allosteric Modulators.Investigating Small-Molecule Ligand Binding to G Protein-Coupled Receptors with Biased or Unbiased Molecular Dynamics Simulations.
P2860
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P2860
Dimerization and ligand binding affect the structure network of A(2A) adenosine receptor.
description
article científic
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article scientifique
@fr
articolo scientifico
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artigo científico
@pt
bilimsel makale
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scientific article published on 14 August 2010
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Dimerization and ligand binding affect the structure network of A
@nl
Dimerization and ligand binding affect the structure network of A(2A) adenosine receptor.
@en
type
label
Dimerization and ligand binding affect the structure network of A
@nl
Dimerization and ligand binding affect the structure network of A(2A) adenosine receptor.
@en
prefLabel
Dimerization and ligand binding affect the structure network of A
@nl
Dimerization and ligand binding affect the structure network of A(2A) adenosine receptor.
@en
P1476
Dimerization and ligand binding affect the structure network of A(2A) adenosine receptor.
@en
P2093
Angelo Felline
Francesca Fanelli
P304
P356
10.1016/J.BBAMEM.2010.08.006
P407
P577
2010-08-14T00:00:00Z