Electrostatic binding of proteins to membranes. Theoretical predictions and experimental results with charybdotoxin and phospholipid vesicles
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The role of hydrophobic interactions in positioning of peripheral proteins in membranesPhysicochemical properties of cells and their effects on intrinsically disordered proteins (IDPs)Interactions of cholesterol with lipid bilayers: the preferred configuration and fluctuationsMolecular dynamics study of peptide-bilayer adsorption.Implicit solvent model studies of the interactions of the influenza hemagglutinin fusion peptide with lipid bilayers.Continuum solvent model studies of the interactions of an anticonvulsant drug with a lipid bilayer.OPM database and PPM web server: resources for positioning of proteins in membranesRas plasma membrane signalling platformsLocation of the myristoylated alanine-rich C-kinase substrate (MARCKS) effector domain in negatively charged phospholipid bicelles.Continuum solvent model calculations of alamethicin-membrane interactions: thermodynamic aspects.The calcium binding loops of the cytosolic phospholipase A2 C2 domain specify targeting to Golgi and ER in live cellsTyrosine Hydroxylase Binding to Phospholipid Membranes Prompts Its Amyloid Aggregation and Compromises Bilayer Integrity.Beta-sheet pore-forming peptides selected from a rational combinatorial library: mechanism of pore formation in lipid vesicles and activity in biological membranes.Biochemical characterization of rous sarcoma virus MA protein interaction with membranes.Membrane lysis by the antibacterial peptides cecropins B1 and B3: A spin-label electron spin resonance study on phospholipid bilayersElectrostatic properties of membranes containing acidic lipids and adsorbed basic peptides: theory and experimentA computational model for the electrostatic sequestration of PI(4,5)P2 by membrane-adsorbed basic peptides.Prediction of charge-induced molecular alignment of biomolecules dissolved in dilute liquid-crystalline phases.Fluorescence correlation spectroscopy studies of Peptide and protein binding to phospholipid vesicles.Molecular modeling of the membrane targeting of phospholipase C pleckstrin homology domains.Tarantula toxins use common surfaces for interacting with Kv and ASIC ion channels.Poisson-Boltzmann calculations of nonspecific salt effects on protein-protein binding free energies.Electrostatic interactions drive membrane association of the human immunodeficiency virus type 1 Gag MA domainRegulation of membrane-shape transitions induced by I-BAR domains.Effect of phosphatidylserine on unitary conductance and Ba2+ block of the BK Ca2+-activated K+ channel: re-examination of the surface charge hypothesis.A marine snail neurotoxin shares with scorpion toxins a convergent mechanism of blockade on the pore of voltage-gated K channels.Assembly and trafficking of heterotrimeric G proteinsLipid-binding activity of intrinsically unstructured cytoplasmic domains of multichain immune recognition receptor signaling subunitsMolecular dynamics simulations of PIP2 and PIP3 in lipid bilayers: determination of ring orientation, and the effects of surface roughness on a Poisson-Boltzmann description.EGFR juxtamembrane domain, membranes, and calmodulin: kinetics of their interaction.Implications of salivary protein binding to commensal and pathogenic bacteria.Thermodynamics and mechanics of membrane curvature generation and sensing by proteins and lipidsLipid domains in HIV-1 assembly.The HIV-1 nucleocapsid protein recruits negatively charged lipids to ensure its optimal binding to lipid membranesMethod for measuring the unbinding energy of strongly-bound membrane-associated proteins.A comparison of the membrane binding properties of C1B domains of PKCgamma, PKCdelta, and PKCepsilon.Association entropy in adsorption processes.Lipid demixing and protein-protein interactions in the adsorption of charged proteins on mixed membranes.Segregation of photosystems in thylakoid membranes as a critical phenomenon.Increased concentration of polyvalent phospholipids in the adsorption domain of a charged protein.
P2860
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P2860
Electrostatic binding of proteins to membranes. Theoretical predictions and experimental results with charybdotoxin and phospholipid vesicles
description
1997 nî lūn-bûn
@nan
1997 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@ast
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@en
Electrostatic binding of prote ...... oxin and phospholipid vesicles
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Electrostatic binding of prote ...... oxin and phospholipid vesicles
@nl
type
label
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@ast
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@en
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@en-gb
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@nl
prefLabel
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@ast
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@en
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@en-gb
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@nl
P2093
P2860
P1433
P1476
Electrostatic binding of prote ...... oxin and phospholipid vesicles
@en
P2093
P2860
P304
P356
10.1016/S0006-3495(97)78203-1
P407
P50
P577
1997-10-01T00:00:00Z