Systematic construction of coarse-grained molecular models from detailed atomistic simulations, and even from ab initio simulations is discussed. Atomistic simulations are first performed to extract structural information about the system, which is then used to determine effective potentials for a coarse-grained model of the same system. The statistical-mechanical equations expressing the canonical properties in terms of potential parameters can be inverted and solved numerically according to the iterative Newton scheme. In our previous applications, known as the Inverse Monte Carlo, radial distribution functions were inverted to reconstruct pair potential, while in a more general approach the targets can be other canonical averages. We hav...
We present a new class of coarse-grained (CG) force fields (FFs) for B-DNA with explicit ions suited...
We derive a systematic and general method for parameterizing coarse-grained molecular models consist...
The conversion of coarse-grained to atomistic models is an important step in obtaining insight about...
Systematic construction of coarse-grained molecular models from detailed atomistic simulations, and ...
The enormous number of atoms in biological and macromolecular systems can prohibit the direct applic...
Molecular dynamics (MD) simulations are an important tool for studying various interesting phenomena...
The aim of the task was to investigate lipid self-assembly when using coarse-grain molecular dynamic...
We present a promising coarse-graining strategy for linking micro- and mesoscales of soft matter sys...
Lamellar and hexagonal lipid structures are of particular importance in the biological processes suc...
In this work, we investigate the application of coarse-graining (CG) methods to molecular dynamics (...
Lamellar and hexagonal lipid structures are of particular importance in the biological processes suc...
Within last 20 years, advances in computational power and methodology have made computer simulations...
We report on a new approach for deriving coarse-grained intermolecular forces that retains the frict...
Multiscale techniques bridge what is often mutually excluding in computer models: accuracy and effic...
Molecular dynamics simulations at the atomic scale are a powerful tool to study the structure and dy...
We present a new class of coarse-grained (CG) force fields (FFs) for B-DNA with explicit ions suited...
We derive a systematic and general method for parameterizing coarse-grained molecular models consist...
The conversion of coarse-grained to atomistic models is an important step in obtaining insight about...
Systematic construction of coarse-grained molecular models from detailed atomistic simulations, and ...
The enormous number of atoms in biological and macromolecular systems can prohibit the direct applic...
Molecular dynamics (MD) simulations are an important tool for studying various interesting phenomena...
The aim of the task was to investigate lipid self-assembly when using coarse-grain molecular dynamic...
We present a promising coarse-graining strategy for linking micro- and mesoscales of soft matter sys...
Lamellar and hexagonal lipid structures are of particular importance in the biological processes suc...
In this work, we investigate the application of coarse-graining (CG) methods to molecular dynamics (...
Lamellar and hexagonal lipid structures are of particular importance in the biological processes suc...
Within last 20 years, advances in computational power and methodology have made computer simulations...
We report on a new approach for deriving coarse-grained intermolecular forces that retains the frict...
Multiscale techniques bridge what is often mutually excluding in computer models: accuracy and effic...
Molecular dynamics simulations at the atomic scale are a powerful tool to study the structure and dy...
We present a new class of coarse-grained (CG) force fields (FFs) for B-DNA with explicit ions suited...
We derive a systematic and general method for parameterizing coarse-grained molecular models consist...
The conversion of coarse-grained to atomistic models is an important step in obtaining insight about...