Rigidification of neutral lipid bilayers in the presence of salts.
about
The thermodynamics of simple biomembrane mimetic systemsDifferential modulation of membrane structure and fluctuations by plant sterols and cholesterol.Specific ions modulate diffusion dynamics of hydration water on lipid membrane surfacesIon specific effects: decoupling ion-ion and ion-water interactionsDirect imaging of salt effects on lipid bilayer ordering at sub-molecular resolution.Phase coexistence in single-lipid membranes induced by buffering agents.A new method for measuring edge tensions and stability of lipid bilayers: effect of membrane composition.Stochastic fusion simulations and experiments suggest passive and active roles of hemagglutinin during membrane fusion.Focus: Two-dimensional electron-electron double resonance and molecular motions: The challenge of higher frequenciesMolecular Plasticity of the Human Voltage-Dependent Anion Channel Embedded Into a Membrane.Peridynamic Modeling of Ruptures in Biomembranes.Mechanisms by which ambient humidity may affect viruses in aerosols.Molecular dynamics simulations of asymmetric NaCl and KCl solutions separated by phosphatidylcholine bilayers: potential drops and structural changes induced by strong Na+-lipid interactions and finite size effectsMembrane thickening by the antimicrobial peptide PGLa.Highly stable and self-repairing membrane-mimetic 2D nanomaterials assembled from lipid-like peptoidsAdvances in the understanding of nanomaterial-biomembrane interactions and their mathematical and numerical modeling.Room-temperature ionic liquids meet bio-membranes: the state-of-the-art.Membrane Disruption Mechanism of a Prion Peptide (106-126) Investigated by Atomic Force Microscopy, Raman and Electron Paramagnetic Resonance Spectroscopy.Effect of Sodium and Chloride Binding on a Lecithin Bilayer. A Molecular Dynamics Study.High- and low-affinity sites for sodium in δ-OR-Gi1α (Cys (351)-Ile (351)) fusion protein stably expressed in HEK293 cells; functional significance and correlation with biophysical state of plasma membrane.Force spectroscopy reveals the effect of different ions in the nanomechanical behavior of phospholipid model membranes: the case of potassium cation.Improved model of hydrated calcium ion for molecular dynamics simulations using classical biomolecular force fields.Membrane-Accelerated Amyloid-β Aggregation and Formation of Cross-β Sheets.Concentration dependence of NaCl ion distributions around DPPC lipid bilayers.Packing behaviour of two predominant anionic phospholipids of bacterial cytoplasmic membranes.Implication of sphingomyelin/ceramide molar ratio on the biological activity of sphingomyelinase.Stable and unstable lipid domains in ceramide-containing membranesCalcium triggered L alpha-H2 phase transition monitored by combined rapid mixing and time-resolved synchrotron SAXS.Specific binding of chloride ions to lipid vesicles and implications at molecular scale.Losartan's affinity to fluid bilayers modulates lipid-cholesterol interactions.NaCl interactions with phosphatidylcholine bilayers do not alter membrane structure but induce long-range ordering of ions and water.Formation of divalent ion mediated anionic disc bicelle-DNA complexes.Molecular electrometer and binding of cations to phospholipid bilayers.Intrinsic Curvature-Mediated Transbilayer Coupling in Asymmetric Lipid Vesicles.Cations induce shape remodeling of negatively charged phospholipid membranes.Swelling of phospholipid membranes by divalent metal ions depends on the location of the ions in the bilayers.Physico-chemical characteristics of evaporating respiratory fluid droplets.Interaction of partially denatured insulin with a DSPC floating lipid bilayer
P2860
Q30476247-DB84225F-5DDE-4E88-904E-7E3FAC94F3CEQ30489637-C64227A4-746C-46C4-8EA8-E7B1990FC8ACQ30740941-A6409B5C-82EE-4F93-82F9-FBABB2462DFEQ30908625-ADD53D16-49D9-4285-A9CF-8BE656CA4399Q33770609-03B0141D-458C-49EC-8A81-24142FA3B231Q34104299-14E8DECF-1524-42D9-9987-DC6639A71598Q34307007-402900D5-EF99-47A5-82F5-7637168DA895Q35100328-34D9AFD1-A97F-4D00-8576-F22422F390DBQ35646825-E1B73489-EA0C-400D-A10F-11501A38B1B8Q35972109-64955278-7A7F-42D9-AEBA-0E535B6E0402Q36187358-4922FC7B-C8AB-433E-B0CD-E312173568A7Q36277229-6C66579A-4E58-4655-ABB3-0D804C178E68Q36538246-94D842FE-C007-4768-9E8C-A5E32C8EBA6FQ37008171-6BE214AD-C0C6-4F80-8668-B7A2663A7A93Q37096657-F73DF28F-C155-4BD2-B179-8680380BC9D4Q38111404-F8FCD692-6119-4ABC-AD36-28AE6B3D3A56Q38646577-05F3406B-F7BC-4003-A886-277D97800F62Q38811282-837A8CBC-A0FE-4D43-AA10-41680712108FQ38997793-95A8C221-E04B-4603-BBCF-E443136D726CQ39020182-42DB1594-79D5-40A1-85E3-7841029320E3Q40138702-3459A285-218C-4088-8FAD-6436D7FA075BQ41634534-665DF784-A9D7-4264-A08D-9F288B7C96F0Q41666582-EA16711F-B0B5-4452-94BB-090C80265D25Q41768900-70BD3691-DDBA-47B3-B6BE-CF116EC33927Q42002380-FD589062-CBF4-4315-ABD7-97EAFC6C7D7DQ42731878-3CE54437-D2FB-47D3-9B3E-19242F582CB3Q42853007-FCD23F50-DC30-401B-8023-8994A407A447Q43148371-29EFC90D-01DE-4E23-B519-6C3955C5EECCQ43244496-EACB2309-BE9E-467F-85AF-39F515BAB471Q44196432-3C357F1F-D805-4A8F-9FC5-1DAA00BBC322Q44419154-45D209CB-E938-4C61-917E-615766EED0E3Q45864789-CB762D8F-CB0C-47A4-A5E3-1E81032DFB01Q47273704-AEDFB674-46FF-4D72-B5FD-EC5917FAF1E4Q50103217-6D0A48FE-F956-4780-9AE6-E0F6144B6010Q50965958-62DAE52D-30EA-4CCD-A3C6-CD64672845AEQ51619206-D9E9E1D4-38A7-4F57-9BCE-6646F443DAD6Q54264650-8DA8000C-2CB5-4556-BCD3-859C3CC471D1Q57761843-5FFCF3C1-CC75-41DB-AE1A-CED514026F58
P2860
Rigidification of neutral lipid bilayers in the presence of salts.
description
2007 nî lūn-bûn
@nan
2007 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Rigidification of neutral lipid bilayers in the presence of salts.
@ast
Rigidification of neutral lipid bilayers in the presence of salts.
@en
Rigidification of neutral lipid bilayers in the presence of salts.
@en-gb
type
label
Rigidification of neutral lipid bilayers in the presence of salts.
@ast
Rigidification of neutral lipid bilayers in the presence of salts.
@en
Rigidification of neutral lipid bilayers in the presence of salts.
@en-gb
prefLabel
Rigidification of neutral lipid bilayers in the presence of salts.
@ast
Rigidification of neutral lipid bilayers in the presence of salts.
@en
Rigidification of neutral lipid bilayers in the presence of salts.
@en-gb
P2093
P2860
P1433
P1476
Rigidification of neutral lipid bilayers in the presence of salts.
@en
P2093
Aden Hodzic
Janez Strancar
Peter Laggner
Sabine Danner
P2860
P304
P356
10.1529/BIOPHYSJ.107.112615
P407
P577
2007-06-22T00:00:00Z