Shifting hydrogen bonds may produce flexible transmembrane helices.
about
Type IV pilin proteins: versatile molecular modulesObserving cellulose biosynthesis and membrane translocation in crystalloMapping membrane protein backbone dynamics: a comparison of site-directed spin labeling with NMR 15N-relaxation measurements.Helix kinks are equally prevalent in soluble and membrane proteins.MP:PD--a data base of internal packing densities, internal packing defects and internal waters of helical membrane proteins.Data on diverse roles of helix perturbations in membrane proteinsCaution is required in interpretation of mutations in the voltage sensing domain of voltage gated channels as evidence for gating mechanismsElectrostatic interactions and hydrogen bond dynamics in chloride pumping by halorhodopsin.Personalized biochemistry and biophysics.Mapping conformational heterogeneity of mitochondrial nucleotide transporter in uninhibited states.Comparative sequence analysis suggests a conserved gating mechanism for TRP channels.Prediction, refinement, and persistency of transmembrane helix dimers in lipid bilayers using implicit and explicit solvent/lipid representations: microsecond molecular dynamics simulations of ErbB1/B2 and EphA1.Mechanism of intermediate filament recognition by plakin repeat domains revealed by envoplakin targeting of vimentin.FGFR3 transmembrane domain interactions persist in the presence of its extracellular domain.Free backbone carbonyls mediate rhodopsin activationSequential steps in the assembly of the multimeric outer membrane secretin PulDStructural basis for KCNE3 modulation of potassium recycling in epitheliaThe safety dance: biophysics of membrane protein folding and misfolding in a cellular contextReversible folding of human peripheral myelin protein 22, a tetraspan membrane protein.The influenza virus neuraminidase protein transmembrane and head domains have coevolved.Structural differences between thermophilic and mesophilic membrane proteins.Computational prediction of kink properties of helices in membrane proteins.Structural changes in the mitochondrial Tim23 channel are coupled to the proton-motive force.Structural biology. Membrane protein twists and turns.Backbone Hydrogen Bond Strengths Can Vary Widely in Transmembrane Helices.Statistical analyses and computational prediction of helical kinks in membrane proteins.Comparing side chain packing in soluble proteins, protein-protein interfaces, and transmembrane proteins.Dynamics of the Plasma Membrane Proton Pump.
P2860
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P2860
Shifting hydrogen bonds may produce flexible transmembrane helices.
description
2012 nî lūn-bûn
@nan
2012 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Shifting hydrogen bonds may produce flexible transmembrane helices
@nl
Shifting hydrogen bonds may produce flexible transmembrane helices.
@ast
Shifting hydrogen bonds may produce flexible transmembrane helices.
@en
type
label
Shifting hydrogen bonds may produce flexible transmembrane helices
@nl
Shifting hydrogen bonds may produce flexible transmembrane helices.
@ast
Shifting hydrogen bonds may produce flexible transmembrane helices.
@en
prefLabel
Shifting hydrogen bonds may produce flexible transmembrane helices
@nl
Shifting hydrogen bonds may produce flexible transmembrane helices.
@ast
Shifting hydrogen bonds may produce flexible transmembrane helices.
@en
P2860
P3181
P356
P1476
Shifting hydrogen bonds may produce flexible transmembrane helices
@en
P2093
James U Bowie
P2860
P304
P3181
P356
10.1073/PNAS.1201298109
P407
P50
P577
2012-05-07T00:00:00Z