Models created with molecular dynamics simulations are used to compare the organization and dynamics of cholesterol (Chol) molecules in three different environments: (1) a hydrated pure Chol bilayer that models the Chol bilayer domain, which is a pure Chol domain embedded in the bulk membrane; (2) a 2-palmitoyl-3-oleoyl-d-glycerol-1-phosphorylcholine bilayer saturated with cholesterol (POPC-Chol50) that models the bulk membrane; (3) a Chol crystal. The computer model of the hydrated pure Chol bilayer is stable on the microsecond time scale. Some structural characteristics of Chol molecules in the Chol bilayer are similar to those in the POPC-Chol50 bilayer (e.g., tilt of Chol rings and chains), while others are similar to those in Chol crys...
ABSTRACT The effects of cholesterol (Chol) on phospholipid bilayers include ordering of the fatty ac...
Cholesterol trafficking, which is an essential function in mammalian cells, is intimately connected ...
Phospholipids are essential building blocks of biological membranes. Despite a vast amount of very a...
The relative stability of cholesterol in cellular membranes and the thermodynamics of fluctuations f...
Cholesterol molecules were put into a computer-modeled hydrated bilayer of dimyristoyl phosphatidyl ...
AbstractA molecular dynamics (MD) simulation of a fully hydrated, liquid-crystalline dimyristoylphos...
AbstractDetailed atomistic computer simulations are now widely used to study biological membranes, i...
Cholesterol is an essential component of all animal cell membranes and plays an important role in ma...
ABSTRACT A molecular dynamics (MD) simulation of a fully hydrated, liquid-crystalline dimyristoylpho...
AbstractWe report a 1.4-ns constant-pressure molecular dynamics simulation of cholesterol at 12.5 mo...
ABSTRACT A 15-ns molecular dynamics (MD) simulation of the fully hydrated dimyristoylphosphatidylcho...
By using molecular dynamics simulation technique we studied the changes occurring in membranes const...
AbstractA 15-ns molecular dynamics simulation of the fully hydrated liquid–crystalline dimyristoylph...
AbstractTo investigate the microscopic interactions between cholesterol and lipids in biological mem...
AbstractA 15-ns molecular dynamics (MD) simulation of the fully hydrated dimyristoylphosphatidylchol...
ABSTRACT The effects of cholesterol (Chol) on phospholipid bilayers include ordering of the fatty ac...
Cholesterol trafficking, which is an essential function in mammalian cells, is intimately connected ...
Phospholipids are essential building blocks of biological membranes. Despite a vast amount of very a...
The relative stability of cholesterol in cellular membranes and the thermodynamics of fluctuations f...
Cholesterol molecules were put into a computer-modeled hydrated bilayer of dimyristoyl phosphatidyl ...
AbstractA molecular dynamics (MD) simulation of a fully hydrated, liquid-crystalline dimyristoylphos...
AbstractDetailed atomistic computer simulations are now widely used to study biological membranes, i...
Cholesterol is an essential component of all animal cell membranes and plays an important role in ma...
ABSTRACT A molecular dynamics (MD) simulation of a fully hydrated, liquid-crystalline dimyristoylpho...
AbstractWe report a 1.4-ns constant-pressure molecular dynamics simulation of cholesterol at 12.5 mo...
ABSTRACT A 15-ns molecular dynamics (MD) simulation of the fully hydrated dimyristoylphosphatidylcho...
By using molecular dynamics simulation technique we studied the changes occurring in membranes const...
AbstractA 15-ns molecular dynamics simulation of the fully hydrated liquid–crystalline dimyristoylph...
AbstractTo investigate the microscopic interactions between cholesterol and lipids in biological mem...
AbstractA 15-ns molecular dynamics (MD) simulation of the fully hydrated dimyristoylphosphatidylchol...
ABSTRACT The effects of cholesterol (Chol) on phospholipid bilayers include ordering of the fatty ac...
Cholesterol trafficking, which is an essential function in mammalian cells, is intimately connected ...
Phospholipids are essential building blocks of biological membranes. Despite a vast amount of very a...