Influences of membrane mimetic environments on membrane protein structures.
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Structure determination of membrane proteins by nuclear magnetic resonance spectroscopyNMR structures of membrane proteins in phospholipid bilayersCrystallographic model validation: from diagnosis to healingPrinciples and properties of ion flow in P2X receptorsBinding of MgtR, a Salmonella Transmembrane Regulatory Peptide, to MgtC, a Mycobacterium tuberculosis Virulence Factor: A Structural StudyX-ray structures define human P2X3 receptor gating cycle and antagonist actionMAS (1)H NMR Probes Freezing Point Depression of Water and Liquid-Gel Phase Transitions in LiposomesThe Influenza M2 Ectodomain Regulates the Conformational Equilibria of the Transmembrane Proton Channel: Insights from Solid-State Nuclear Magnetic ResonanceSolid-State NMR Investigation of the Conformation, Proton Conduction, and Hydration of the Influenza B Virus M2 Transmembrane Proton ChannelComputing structure-based lipid accessibility of membrane proteins with mp_lipid_acc in RosettaMP.Amphipols outperform dodecylmaltoside micelles in stabilizing membrane protein structure in the gas phase.Influence of the lipid membrane environment on structure and activity of the outer membrane protein Ail from Yersinia pestis.How amphipols embed membrane proteins: global solvent accessibility and interaction with a flexible protein terminus.NMR as a tool to investigate the structure, dynamics and function of membrane proteins.Solid state NMR: The essential technology for helical membrane protein structural characterization.Assignment of oriented sample NMR resonances from a three transmembrane helix protein.Membrane protein structural validation by oriented sample solid-state NMR: diacylglycerol kinase.Membrane protein structure from rotational diffusionA practical implicit solvent potential for NMR structure calculation.Lipid nanotechnologies for structural studies of membrane-associated proteinsStructure of CrgA, a cell division structural and regulatory protein from Mycobacterium tuberculosis, in lipid bilayers.In situ structural studies of Anabaena sensory rhodopsin in the E. coli membrane.The development of solid-state NMR of membrane proteins.Understanding single-pass transmembrane receptor signaling from a structural viewpoint-what are we missing?The cystic fibrosis transmembrane conductance regulator (CFTR) and its stabilityModeling the membrane environment has implications for membrane protein structure and function: influenza A M2 protein.Solid state NMR and protein-protein interactions in membranesThe use of amphipols for solution NMR studies of membrane proteins: advantages and constraints as compared to other solubilizing media.Cholesterol enhances surface water diffusion of phospholipid bilayers.Probing Residue-Specific Water-Protein Interactions in Oriented Lipid Membranes via Solid-State NMR Spectroscopy.Probing Hydronium Ion Histidine NH Exchange Rate Constants in the M2 Channel via Indirect Observation of Dipolar-Dephased 15N Signals in Magic-Angle-Spinning NMR.Probing Structural Dynamics and Topology of the KCNE1 Membrane Protein in Lipid Bilayers via Site-Directed Spin Labeling and Electron Paramagnetic Resonance Spectroscopy.High resolution solid-state NMR spectroscopy of the Yersinia pestis outer membrane protein Ail in lipid membranes.Lipid bilayer preparations of membrane proteins for oriented and magic-angle spinning solid-state NMR samples.The rheostat in the membrane: BCL-2 family proteins and apoptosisGeneral rules for the arrangements and gating motions of pore-lining helices in homomeric ion channels.Structural investigation of the transmembrane domain of KCNE1 in proteoliposomesThe X-ray structure of NccX from Cupriavidus metallidurans 31A illustrates potential dangers of detergent solubilization when generating and interpreting crystal structures of membrane proteins.Area per lipid and cholesterol interactions in membranes from separated local-field (13)C NMR spectroscopyEffects of naturally occurring arginine 14 deletion on phospholamban conformational dynamics and membrane interactions
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Influences of membrane mimetic environments on membrane protein structures.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on March 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Influences of membrane mimetic environments on membrane protein structures.
@en
Influences of membrane mimetic environments on membrane protein structures.
@nl
type
label
Influences of membrane mimetic environments on membrane protein structures.
@en
Influences of membrane mimetic environments on membrane protein structures.
@nl
prefLabel
Influences of membrane mimetic environments on membrane protein structures.
@en
Influences of membrane mimetic environments on membrane protein structures.
@nl
P2860
P1476
Influences of membrane mimetic environments on membrane protein structures
@en
P2093
Timothy A Cross
P2860
P304
P356
10.1146/ANNUREV-BIOPHYS-083012-130326
P577
2013-03-01T00:00:00Z