Cholesterol molecules were put into a computer-modeled hydrated bilayer of dimyristoyl phosphatidyl choline molecules, and molecular dynamics simulations were run to characterize the effect of this important molecule on membrane structure and dynamics. The effect was judged by observing differences in order parameters, tilt angles, and the fraction of gauche bonds along the hydrocarbon chains between lipids adjacent to cholesterol molecules and comparing them with those further away. It was observed that cholesterol causes an increase in the fraction of trans dihedrals and motional ordering of chains close to the rigid steroid ring system with a decrease in the kink population. The hydrogen-bonding interactions between cholesterol and lipid...
A computer-modeled hydrated bilayer model of the lipid 2,3-dimyristoyl-D-glycero-1-phosphorylcholine...
AbstractAlthough sterols constitute one of the most important molecular species in cells, the reason...
AbstractA 15-ns molecular dynamics (MD) simulation of the fully hydrated dimyristoylphosphatidylchol...
Cholesterol is an essential component of all animal cell membranes and plays an important role in ma...
Molecular dynamics simulation is applied to investigate the bilayer properties of a novel catanionic...
AbstractTo investigate the microscopic interactions between cholesterol and lipids in biological mem...
ABSTRACT A 15-ns molecular dynamics (MD) simulation of the fully hydrated dimyristoylphosphatidylcho...
A computer-modeled hydrated bilayer model of the lipid 2,3-dimyristoyl-D-glycero-1-phosphorylcholine...
AbstractSterol molecules are essential for maintaining the proper structure and function of eukaryot...
AbstractA 15-ns molecular dynamics simulation of the fully hydrated liquid–crystalline dimyristoylph...
Molecular dynamics simulations of a model membrane with inserted cholesterol molecules have been per...
Using the all-atom CHARMM36 force field, we have performed molecular dynamics simulations of the equ...
Without any exaggeration, cholesterol is one of the most important lipid species in eukaryotic cells...
Although sterols constitute one of the most important molecular species in cells, the reasons for th...
AbstractWe report a 1.4-ns constant-pressure molecular dynamics simulation of cholesterol at 12.5 mo...
A computer-modeled hydrated bilayer model of the lipid 2,3-dimyristoyl-D-glycero-1-phosphorylcholine...
AbstractAlthough sterols constitute one of the most important molecular species in cells, the reason...
AbstractA 15-ns molecular dynamics (MD) simulation of the fully hydrated dimyristoylphosphatidylchol...
Cholesterol is an essential component of all animal cell membranes and plays an important role in ma...
Molecular dynamics simulation is applied to investigate the bilayer properties of a novel catanionic...
AbstractTo investigate the microscopic interactions between cholesterol and lipids in biological mem...
ABSTRACT A 15-ns molecular dynamics (MD) simulation of the fully hydrated dimyristoylphosphatidylcho...
A computer-modeled hydrated bilayer model of the lipid 2,3-dimyristoyl-D-glycero-1-phosphorylcholine...
AbstractSterol molecules are essential for maintaining the proper structure and function of eukaryot...
AbstractA 15-ns molecular dynamics simulation of the fully hydrated liquid–crystalline dimyristoylph...
Molecular dynamics simulations of a model membrane with inserted cholesterol molecules have been per...
Using the all-atom CHARMM36 force field, we have performed molecular dynamics simulations of the equ...
Without any exaggeration, cholesterol is one of the most important lipid species in eukaryotic cells...
Although sterols constitute one of the most important molecular species in cells, the reasons for th...
AbstractWe report a 1.4-ns constant-pressure molecular dynamics simulation of cholesterol at 12.5 mo...
A computer-modeled hydrated bilayer model of the lipid 2,3-dimyristoyl-D-glycero-1-phosphorylcholine...
AbstractAlthough sterols constitute one of the most important molecular species in cells, the reason...
AbstractA 15-ns molecular dynamics (MD) simulation of the fully hydrated dimyristoylphosphatidylchol...