We have applied the computer simulation method of molecular dynamics (MD) to a realistic representation of a lipid bilayer, which serves as a model for a biological membrane. The bilayer consists of 2×16 decanoate molecules and is periodic in two dimensions. Interactions include Lennard‐Jones, dihedral, and bond angle potentials while bond lengths are constrained. Head groups are confined near the bilayer surfaces by harmonic forces representing their interaction with the water layer. After equilibration, a simulation extending over 80 ps at 300 K was carried out for a head group surface area of 25 Å2. Experimental order parameters are perfectly reproduced. A highly interesting cooperative tilt of the molecules, persisting over several tens...
A novel combined approach of molecular dynamics (MD) and Monte Carlo simulations is developed to cal...
PhDThe fundamental structure of all biological membranes is the lipid bilayer. At- tributed to the m...
Molecular dynamics (MD) calculation of the fluid phase lauryl alcohol-laurate bilayer has been execu...
We have applied the computer simulation method of molecular dynamics (MD) to a realistic representat...
In this paper we report on the molecular dynamics simulation of a fluid phase hydrated dimyristoylph...
We present the results of molecular dynamics (MD) simulations of a phospholipid membrane in water, i...
Molecular dynamics simulations of 500 ps were performed on a system consisting of a bilayer of 64 mo...
In this paper we present the results of a large-scale numerical investigation of structural properti...
A molecular dynamics simulation of a sodium–decanoate/decanol/water system is reported. The system i...
Methodological issues in molecular dynamics (MD) simulations, such as the treatment of long-range el...
Computer simulations of lipid bilayers and biological membranes using molecular mechanics calculatio...
AbstractThis report addresses the following problems associated with the generation of computer mode...
ABSTRACT This report addresses the following problems associated with the generation of computer mod...
A novel combined approach of molecular dynamics (MD) and Monte Carlo simulations is developed to cal...
PhDThe fundamental structure of all biological membranes is the lipid bilayer. At- tributed to the m...
Molecular dynamics (MD) calculation of the fluid phase lauryl alcohol-laurate bilayer has been execu...
We have applied the computer simulation method of molecular dynamics (MD) to a realistic representat...
In this paper we report on the molecular dynamics simulation of a fluid phase hydrated dimyristoylph...
We present the results of molecular dynamics (MD) simulations of a phospholipid membrane in water, i...
Molecular dynamics simulations of 500 ps were performed on a system consisting of a bilayer of 64 mo...
In this paper we present the results of a large-scale numerical investigation of structural properti...
A molecular dynamics simulation of a sodium–decanoate/decanol/water system is reported. The system i...
Methodological issues in molecular dynamics (MD) simulations, such as the treatment of long-range el...
Computer simulations of lipid bilayers and biological membranes using molecular mechanics calculatio...
AbstractThis report addresses the following problems associated with the generation of computer mode...
ABSTRACT This report addresses the following problems associated with the generation of computer mod...
A novel combined approach of molecular dynamics (MD) and Monte Carlo simulations is developed to cal...
PhDThe fundamental structure of all biological membranes is the lipid bilayer. At- tributed to the m...
Molecular dynamics (MD) calculation of the fluid phase lauryl alcohol-laurate bilayer has been execu...