Deuterium NMR structure of retinal in the ground state of rhodopsin.
about
Bothnia dystrophy is caused by domino-like rearrangements in cellular retinaldehyde-binding protein mutant R234WMolecular dynamics simulations reveal specific interactions of post-translational palmitoyl modifications with rhodopsin in membranes.Unraveling the structure and function of G protein-coupled receptors through NMR spectroscopy.Molecular simulations and solid-state NMR investigate dynamical structure in rhodopsin activation.Membrane protein structure and dynamics from NMR spectroscopy.Structure, initial excited-state relaxation, and energy storage of rhodopsin resolved at the multiconfigurational perturbation theory levelHow a small change in retinal leads to G-protein activation: initial events suggested by molecular dynamics calculations.Retinal conformation and dynamics in activation of rhodopsin illuminated by solid-state H NMR spectroscopy.Structure and function of G protein-coupled receptors using NMR spectroscopy.Anabaena sensory rhodopsin is a light-driven unidirectional rotor.Location of the retinal chromophore in the activated state of rhodopsin*.Solid-state 2H NMR relaxation illuminates functional dynamics of retinal cofactor in membrane activation of rhodopsinCurvature and hydrophobic forces drive oligomerization and modulate activity of rhodopsin in membranes.Mechanism of signal propagation upon retinal isomerization: insights from molecular dynamics simulations of rhodopsin restrained by normal modesSolid-state 2H NMR spectroscopy of retinal proteins in aligned membranes.Real time monitoring of membrane GPCR reconstitution by plasmon waveguide resonance: on the role of lipids.6-s-cis Conformation and polar binding pocket of the retinal chromophore in the photoactivated state of rhodopsinStructural analysis and dynamics of retinal chromophore in dark and meta I states of rhodopsin from 2H NMR of aligned membranes.Retinal dynamics during light activation of rhodopsin revealed by solid-state NMR spectroscopy.Amino acid conservation and interactions in rhodopsin: probing receptor activation by NMR spectroscopy.CONDENSED-MATTER SPECTROSCOPY SPECTRAL METHODS FOR STUDY OF THE G-PROTEIN-COUPLED RECEPTOR RHODOPSIN. II. MAGNETIC RESONANCE METHODS.Retinal Conformation Changes Rhodopsin's Dynamic Ensemble.Dynamic structure of retinylidene ligand of rhodopsin probed by molecular simulationsModel of Abnormal Chromophore-Protein Interaction for Е181К Rhodopsin Mutation: Computer Molecular Dynamics Study
P2860
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P2860
Deuterium NMR structure of retinal in the ground state of rhodopsin.
description
2004 nî lūn-bûn
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2004年の論文
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2004年学术文章
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2004年学术文章
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2004年学术文章
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2004年学术文章
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2004年學術文章
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name
Deuterium NMR structure of retinal in the ground state of rhodopsin.
@en
Deuterium NMR structure of retinal in the ground state of rhodopsin.
@nl
type
label
Deuterium NMR structure of retinal in the ground state of rhodopsin.
@en
Deuterium NMR structure of retinal in the ground state of rhodopsin.
@nl
prefLabel
Deuterium NMR structure of retinal in the ground state of rhodopsin.
@en
Deuterium NMR structure of retinal in the ground state of rhodopsin.
@nl
P2093
P356
P1433
P1476
Deuterium NMR structure of retinal in the ground state of rhodopsin.
@en
P2093
Andrey V Struts
Gilmar F J Salgado
Katsunori Tanaka
Michael F Brown
Naoko Fujioka
P304
12819-12828
P356
10.1021/BI0491191
P407
P577
2004-10-01T00:00:00Z