Molecular code for transmembrane-helix recognition by the Sec61 translocon.
about
Mechanisms of CFTR Folding at the Endoplasmic ReticulumTMTC1 and TMTC2 are novel endoplasmic reticulum tetratricopeptide repeat-containing adapter proteins involved in calcium homeostasisNogo-B receptor is necessary for cellular dolichol biosynthesis and protein N-glycosylationAnisotropic solvent model of the lipid bilayer. 2. Energetics of insertion of small molecules, peptides, and proteins in membranesFunctionality of the voltage-gated proton channel truncated in S4Defining the blanks--pharmacochaperoning of SLC6 transporters and ABC transportersTransmembrane helix dimerization: beyond the search for sequence motifsComputational modeling of membrane proteinsAssembly of the MHC I peptide-loading complex determined by a conserved ionic lock-switch.The ER-Membrane Transport System Is Critical for Intercellular Trafficking of the NSm Movement Protein and Tomato Spotted Wilt TospovirusAn Integrated Framework Advancing Membrane Protein Modeling and DesignFRET-assisted determination of CLN3 membrane topologySidekick for Membrane Simulations: Automated Ensemble Molecular Dynamics Simulations of Transmembrane Helices.Functional Analysis of the Transmembrane Domain in Paramyxovirus F Protein-Mediated Membrane FusionLateral opening of a translocon upon entry of protein suggests the mechanism of insertion into membranesCrystal structure and functional mechanism of a human antimicrobial membrane channelStructures of the Sec61 complex engaged in nascent peptide translocation or membrane insertionVisualization of a polytopic membrane protein during SecY-mediated membrane insertionRecessive hyperekplexia mutations of the glycine receptor alpha1 subunit affect cell surface integration and stabilityTransmembrane topology and signal peptide prediction using dynamic bayesian networksComputational comparative study of tuberculosis proteomes using a model learned from signal peptide structuresStructural model of FeoB, the iron transporter from Pseudomonas aeruginosa, predicts a cysteine lined, GTP-gated poreSignal peptide-binding drug as a selective inhibitor of co-translational protein translocationStructural and Functional Characterization of the Bacterial Type III Secretion Export ApparatusOST4 is a subunit of the mammalian oligosaccharyltransferase required for efficient N-glycosylationMembrane protein orientation and refinement using a knowledge-based statistical potential.A sequence-based computational model for the prediction of the solvent accessible surface area for α-helix and β-barrel transmembrane residues.Efficient molecular mechanics simulations of the folding, orientation, and assembly of peptides in lipid bilayers using an implicit atomic solvation model.Predicting weakly stable regions, oligomerization state, and protein-protein interfaces in transmembrane domains of outer membrane proteins.Structure and mechanism of beta-hairpin antimicrobial peptides in lipid bilayers from solid-state NMR spectroscopy.A unified hydrophobicity scale for multispan membrane proteins.Effects of arginine density on the membrane-bound structure of a cationic antimicrobial peptide from solid-state NMR.Why is the biological hydrophobicity scale more accurate than earlier experimental hydrophobicity scales?Changed membrane integration and catalytic site conformation are two mechanisms behind the increased Aβ42/Aβ40 ratio by presenilin 1 familial Alzheimer-linked mutations.Outer Membrane Protein Folding and Topology from a Computational Transfer Free Energy Scale.Membrane depth-dependent energetic contribution of the tryptophan side chain to the stability of integral membrane proteins.Polar residues and their positional context dictate the transmembrane domain interactions of influenza A neuraminidases.High-resolution optical tweezers for single-molecule manipulation.A TSPO-related protein localizes to the early secretory pathway in Arabidopsis, but is targeted to mitochondria when expressed in yeast.Accommodation of a central arginine in a transmembrane peptide by changing the placement of anchor residues.
P2860
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P2860
Molecular code for transmembrane-helix recognition by the Sec61 translocon.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Molecular code for transmembrane-helix recognition by the Sec61 translocon.
@en
Molecular code for transmembrane-helix recognition by the Sec61 translocon.
@nl
type
label
Molecular code for transmembrane-helix recognition by the Sec61 translocon.
@en
Molecular code for transmembrane-helix recognition by the Sec61 translocon.
@nl
prefLabel
Molecular code for transmembrane-helix recognition by the Sec61 translocon.
@en
Molecular code for transmembrane-helix recognition by the Sec61 translocon.
@nl
P2093
P356
P1433
P1476
Molecular code for transmembrane-helix recognition by the Sec61 translocon.
@en
P2093
Andreas Bernsel
IngMarie Nilsson
Mirjam Lerch-Bader
Nadja M Meindl-Beinker
Stephen H White
Tara Hessa
P2888
P304
P356
10.1038/NATURE06387
P407
P577
2007-12-01T00:00:00Z
P5875
P6179
1014934210