Add to ORKGABSTRACT: We have developed an algorithm to determine membrane structure, area per lipid, and bending rigidity from molecular dynamics simulations of lipid vesicles. Current methods to extract structure from vesicle simulations define densities relative to the global center of mass of the vesicle. This approach ignores the long-wavelength fluctuations (undulations) that develop across the sphere and broaden the underlying structure. Our method establishes a local reference frame by defining a radially undulating reference surface (URS) and thereby removes the broadening effect of the undulations. Using an arc-length low-pass filter, we render the URS by defining the bilayer midplane on an equi-angular θ, ϕ-grid (colatitude, longitude). This...
Lipid molecules form the backbone of biological membranes. Due to their amphiphilic structure, they ...
An important open question in biophysics is to understand how mechanical forces shape membrane-bound...
To understand how lipid architecture determines the lipid bilayer structure and its mechanics, we im...
AbstractThe traditional method for extracting electron density and other transmembrane profiles from...
The bending modulus κ quantifies the elasticity of biological membranes in terms of the free energy ...
The bilayer bending modulus (Kc) is one of the most important physical constants characterizing lipi...
Lipid bilayer membranes are known to form various structures like large sheets or vesicles. When bot...
We present a new computational approach to quantify the area per lipid and the area compressibility ...
The cell membrane is an essential component of living cells and the dynamics of the membrane will pr...
Molecular dynamics simulations files that correspond to the buckling simulations method to calculate...
AbstractThe Gaussian curvature modulus κ¯ of lipid bilayers likely contributes more than 100 kcal/mo...
This thesis introduces a novel protocol to measure two elastic quantities of lipid membranes, the pi...
Abstract Phospholipids are the main components of cell membranes, lipoproteins and other membrane s...
Fluid-phase phospholipid vesicles are abundant in biological cells and play an essential role in cel...
Abstract Studies on the assembly of pure lipid compo-nents allow mechanistic insights toward underst...
Lipid molecules form the backbone of biological membranes. Due to their amphiphilic structure, they ...
An important open question in biophysics is to understand how mechanical forces shape membrane-bound...
To understand how lipid architecture determines the lipid bilayer structure and its mechanics, we im...
AbstractThe traditional method for extracting electron density and other transmembrane profiles from...
The bending modulus κ quantifies the elasticity of biological membranes in terms of the free energy ...
The bilayer bending modulus (Kc) is one of the most important physical constants characterizing lipi...
Lipid bilayer membranes are known to form various structures like large sheets or vesicles. When bot...
We present a new computational approach to quantify the area per lipid and the area compressibility ...
The cell membrane is an essential component of living cells and the dynamics of the membrane will pr...
Molecular dynamics simulations files that correspond to the buckling simulations method to calculate...
AbstractThe Gaussian curvature modulus κ¯ of lipid bilayers likely contributes more than 100 kcal/mo...
This thesis introduces a novel protocol to measure two elastic quantities of lipid membranes, the pi...
Abstract Phospholipids are the main components of cell membranes, lipoproteins and other membrane s...
Fluid-phase phospholipid vesicles are abundant in biological cells and play an essential role in cel...
Abstract Studies on the assembly of pure lipid compo-nents allow mechanistic insights toward underst...
Lipid molecules form the backbone of biological membranes. Due to their amphiphilic structure, they ...
An important open question in biophysics is to understand how mechanical forces shape membrane-bound...
To understand how lipid architecture determines the lipid bilayer structure and its mechanics, we im...