Add to ORKGABSTRACT Changes in the viscoelastic properties of glycerol monooleate bilayers resulting from the incorporation of cholesterol into the membranes have been measured. The interface tension increases with the cholesterol concentration, reaching saturation for a 4.2:1 mole ratio of cholesterol:lipid in the film-forming solution. Incorporation of cholesterol in the membrane causes the appearance of a large intrinsic viscosity; this also increases with the sterol content of the membrane. Molecular models of lipid-sterol interactions and packing are considered to explain both the observed changes in membrane properties and similarities with comparable lipid systems
We have employed four lipids in the present study, of which two are cationic and two bear phosphatid...
Thesis (Ph.D.)--University of Washington, 2015-12Cell membranes feature complex intermolecular inter...
ABSTRACT: Adding small fractions of cholesterol decreases the interfacial viscosity of dipalmitoylph...
Langmuir monolayers containing different amounts of cholesterol and cholesteryl stearate were studie...
Under hypercholesterolemic conditions, exposure of cells to lipoproteins results in a subtle membran...
The effects of cholesterol on membrane bending modulus KC, membrane thickness DHH, the partial and a...
AbstractLanosterol is the biosynthetic precursor of cholesterol and ergosterol, sterols that predomi...
The effect of cholesterol on the interfacial elastic packing interactions of various molecular speci...
Cholesterol is one of the most abundant components in biological membranes. In this paper we apply a...
AbstractThe ability of sterols other than cholesterol (CHOL) to support membrane functions in membra...
Cholesterol is one of the most abundant components in biological membranes. In this paper we apply a...
Cholesterol molecules were put into a computer-modeled hydrated bilayer of dimyristoyl phosphatidyl ...
AbstractWe examine, using an analytical mean-field model, the distribution of cholesterol in a lipid...
1. 1.|The force-area characteristics of monolayers of saturated and unsaturated phospholipids have b...
The effect of cholesterol on the interfacial elastic packing interactions of various molecular speci...
We have employed four lipids in the present study, of which two are cationic and two bear phosphatid...
Thesis (Ph.D.)--University of Washington, 2015-12Cell membranes feature complex intermolecular inter...
ABSTRACT: Adding small fractions of cholesterol decreases the interfacial viscosity of dipalmitoylph...
Langmuir monolayers containing different amounts of cholesterol and cholesteryl stearate were studie...
Under hypercholesterolemic conditions, exposure of cells to lipoproteins results in a subtle membran...
The effects of cholesterol on membrane bending modulus KC, membrane thickness DHH, the partial and a...
AbstractLanosterol is the biosynthetic precursor of cholesterol and ergosterol, sterols that predomi...
The effect of cholesterol on the interfacial elastic packing interactions of various molecular speci...
Cholesterol is one of the most abundant components in biological membranes. In this paper we apply a...
AbstractThe ability of sterols other than cholesterol (CHOL) to support membrane functions in membra...
Cholesterol is one of the most abundant components in biological membranes. In this paper we apply a...
Cholesterol molecules were put into a computer-modeled hydrated bilayer of dimyristoyl phosphatidyl ...
AbstractWe examine, using an analytical mean-field model, the distribution of cholesterol in a lipid...
1. 1.|The force-area characteristics of monolayers of saturated and unsaturated phospholipids have b...
The effect of cholesterol on the interfacial elastic packing interactions of various molecular speci...
We have employed four lipids in the present study, of which two are cationic and two bear phosphatid...
Thesis (Ph.D.)--University of Washington, 2015-12Cell membranes feature complex intermolecular inter...
ABSTRACT: Adding small fractions of cholesterol decreases the interfacial viscosity of dipalmitoylph...