Local peptide movement in the photoreaction intermediate of rhodopsin. - Wikidata - wikimedia - TriplyDB

Local peptide movement in the photoreaction intermediate of rhodopsin.

Local peptide movement in the photoreaction intermediate of rhodopsin.

http://www.wikidata.org/entity/Q35021777

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Crystal structure of a photoactivated deprotonated intermediate of rhodopsin Diversity and modularity of G protein-coupled receptor structures New insights for drug design from the X-ray crystallographic structures of G-protein-coupled receptors Constitutively active rhodopsin and retinal disease The structural basis of agonist-induced activation in constitutively active rhodopsin Stabilized G protein binding site in the structure of constitutively active metarhodopsin-II Retinal conformation governs pKa of protonated Schiff base in rhodopsin activation Molecular dynamics simulations reveal specific interactions of post-translational palmitoyl modifications with rhodopsin in membranes.Activation of G protein-coupled receptors: beyond two-state models and tertiary conformational changes.Chemistry and biology of the initial steps in vision: the Friedenwald lecture.Structural waters define a functional channel mediating activation of the GPCR, rhodopsin.Showcasing modern molecular dynamics simulations of membrane proteins through G protein-coupled receptors.Molecular simulations and solid-state NMR investigate dynamical structure in rhodopsin activation.G-protein-coupled receptor structure, ligand binding and activation as studied by solid-state NMR spectroscopy.Structure-function of the G protein-coupled receptor superfamily.Retinal ligand mobility explains internal hydration and reconciles active rhodopsin structures Internal hydration increases during activation of the G-protein-coupled receptor rhodopsin.Ligand-binding pocket shape differences between sphingosine 1-phosphate (S1P) receptors S1P1 and S1P3 determine efficiency of chemical probe identification by ultrahigh-throughput screening.Rhodopsin and the others: a historical perspective on structural studies of G protein-coupled receptors.Normal mode analysis of biomolecular structures: functional mechanisms of membrane proteins.Increasingly accurate dynamic molecular models of G-protein coupled receptor oligomers: Panacea or Pandora's box for novel drug discovery?Retinal conformation and dynamics in activation of rhodopsin illuminated by solid-state H NMR spectroscopy.Sequential rearrangement of interhelical networks upon rhodopsin activation in membranes: the Meta II(a) conformational substate.Putative active states of a prototypic g-protein-coupled receptor from biased molecular dynamics.Complexes between photoactivated rhodopsin and transducin: progress and questions.Modern homology modeling of G-protein coupled receptors: which structural template to use?Structure and function of G protein-coupled receptors using NMR spectroscopy.Comparative analysis of the heptahelical transmembrane bundles of G protein-coupled receptors.Action of molecular switches in GPCRs--theoretical and experimental studies.Conservation of molecular interactions stabilizing bovine and mouse rhodopsin.Modelling time-resolved two-dimensional electronic spectroscopy of the primary photoisomerization event in rhodopsin.Synergy within structural biology of single crystal optical spectroscopy and X-ray crystallography.Energy landscapes as a tool to integrate GPCR structure, dynamics, and function.Location of the retinal chromophore in the activated state of rhodopsin*.Low-Temperature Trapping of Photointermediates of the Rhodopsin E181Q Mutant.Solid-state 2H NMR relaxation illuminates functional dynamics of retinal cofactor in membrane activation of rhodopsin Progress in elucidating the structural and dynamic character of G Protein-Coupled Receptor oligomers for use in drug discovery.Time-resolved WAXS reveals accelerated conformational changes in iodoretinal-substituted proteorhodopsin.The significance of G protein-coupled receptor crystallography for drug discovery.Crystallographic Study of the LUMI Intermediate of Squid Rhodopsin.

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P2860

Local peptide movement in the photoreaction intermediate of rhodopsin.

http://www.wikidata.org/entity/Q35021777

description

2006 nî lūn-bûn

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2006 թուականի Օգոստոսին հրատարակուած գիտական յօդուած

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2006 թվականի օգոստոսին հրատարակված գիտական հոդված

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2006年の論文

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2006年論文

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2006年論文

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2006年論文

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2006年論文

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2006年論文

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2006年论文

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Local peptide movement in the photoreaction intermediate of rhodopsin.

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Local peptide movement in the photoreaction intermediate of rhodopsin.

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Local peptide movement in the photoreaction intermediate of rhodopsin.

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Local peptide movement in the photoreaction intermediate of rhodopsin.

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Local peptide movement in the photoreaction intermediate of rhodopsin.

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PNAS.0601765103

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Proceedings of the National Academy of Sciences of the United States of America

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Local peptide movement in the photoreaction intermediate of rhodopsin.

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Hitoshi Nakamichi

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Tetsuji Okada

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P2860

Crystallography & NMR System: A New Software Suite for Macromolecular Structure Determination

Structural changes in a cryo-cooled protein crystal owing to radiation damage

Crystal structure of rhodopsin: A G protein-coupled receptor

Functional role of internal water molecules in rhodopsin revealed by X-ray crystallography.

Deformation of helix C in the low temperature L-intermediate of bacteriorhodopsin

Raster3D Version 2.0. A program for photorealistic molecular graphics

SWISS-MODEL and the Swiss-PdbViewer: an environment for comparative protein modeling

Molecular mechanisms of ligand binding, signaling, and regulation within the superfamily of G-protein-coupled receptors: molecular modeling and mutagenesis approaches to receptor structure and function.

Chromophore structure in lumirhodopsin and metarhodopsin I by time-resolved resonance Raman microchip spectroscopy.

Detecting and overcoming crystal twinning

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