Here we report studies on biologically important intermembrane repulsion forces using molecular dynamics (MD) simulations and experimental (osmotic stress) investigations of repulsion forces between 1-palmitoyl-2-oleyl-sn-glycero-3-phosphocholine bilayers. We show that the repulsion between tension-free membranes can be determined from MD simulations by either (i) simulating membrane stacks under different hydration conditions (unrestrained setup) and monitoring the change in the area per lipid upon dehydration or (ii) simulating two single punctured membranes immersed in a water reservoir and controlling the center-of-mass distance between the bilayers using an external potential (umbrella sampling setup). Despite the coarse-grained nature...
AbstractMembranes' response to lateral tension, and eventual rupture, remains poorly understood. In ...
Membranes' response to lateral tension, and eventual rupture, remains poorly understood. In this stu...
ABSTRACT: Biomembrane interfaces create regions of slowed water dynamics in their vicinity. When two...
Here we report studies on biologically important intermembrane repulsion forces using molecular dyna...
Here we report studies on biologically important intermembrane repulsion forces using molecular dyna...
The grand canonical Monte Carlo technique is used to simulate the pressure-distance dependence for s...
Hydration repulsion dominates the interaction between polar surfaces in water at nanometer separatio...
The grand canonical Monte Carlo technique is used to calculate the water-mediated pressure between t...
The knowledge of forces operating between phospholipid bilayer membranes in water and aqueous soluti...
Hydrophilic pores are formed in peptide free lipid bilayers under mechanical stress. It has been pro...
Hydrophilic pores are formed in peptide free lipid bilayers under mechanical stress. It has been pro...
AbstractHydrophilic pores are formed in peptide free lipid bilayers under mechanical stress. It has ...
The influence of the co-solutes TMAO, urea, and NaCl on the hydration repulsion between lipid membra...
ABSTRACT Hydrophilic pores are formed in peptide free lipid bilayers under mechanical stress. It has...
Hydration repulsion acts between all sufficiently polar surfaces in water at small separations and p...
AbstractMembranes' response to lateral tension, and eventual rupture, remains poorly understood. In ...
Membranes' response to lateral tension, and eventual rupture, remains poorly understood. In this stu...
ABSTRACT: Biomembrane interfaces create regions of slowed water dynamics in their vicinity. When two...
Here we report studies on biologically important intermembrane repulsion forces using molecular dyna...
Here we report studies on biologically important intermembrane repulsion forces using molecular dyna...
The grand canonical Monte Carlo technique is used to simulate the pressure-distance dependence for s...
Hydration repulsion dominates the interaction between polar surfaces in water at nanometer separatio...
The grand canonical Monte Carlo technique is used to calculate the water-mediated pressure between t...
The knowledge of forces operating between phospholipid bilayer membranes in water and aqueous soluti...
Hydrophilic pores are formed in peptide free lipid bilayers under mechanical stress. It has been pro...
Hydrophilic pores are formed in peptide free lipid bilayers under mechanical stress. It has been pro...
AbstractHydrophilic pores are formed in peptide free lipid bilayers under mechanical stress. It has ...
The influence of the co-solutes TMAO, urea, and NaCl on the hydration repulsion between lipid membra...
ABSTRACT Hydrophilic pores are formed in peptide free lipid bilayers under mechanical stress. It has...
Hydration repulsion acts between all sufficiently polar surfaces in water at small separations and p...
AbstractMembranes' response to lateral tension, and eventual rupture, remains poorly understood. In ...
Membranes' response to lateral tension, and eventual rupture, remains poorly understood. In this stu...
ABSTRACT: Biomembrane interfaces create regions of slowed water dynamics in their vicinity. When two...