The adaptive resolution scheme (AdResS) is a multiscale molecular dynamics simulation approach that can concurrently couple atomistic (AT) and coarse-grained (CG) resolution regions, i.e., the molecules can freely adapt their resolution according to their current position in the system. Coupling to supramolecular CG models, where several molecules are represented as a single CG bead, is challenging, but it provides higher computational gains and connection to the established MARTINI CG force field. Difficulties that arise from such coupling have been so far bypassed with bundled AT water models, where additional harmonic bonds between oxygen atoms within a given supramolecular water bundle are introduced. While these models simplify the sup...
We present a dual-resolution model of a deoxyribonucleic acid (DNA) molecule in a bathing solution, ...
Simulation of the dynamics of a protein in aqueous solution using an atomic model for both the prote...
Multiscale simulations methods, such as adaptive resolution scheme, are becoming increasingly popula...
The adaptive resolution scheme (AdResS) is a multiscale molecular dynamics simulation approach that ...
The adaptive resolution scheme (AdResS) is a multiscale molecular dynamics simulation approach that ...
To perform computationally efficient concurrent multiscale simulations of biological macromolecules ...
We present an adaptive resolution simulation of protein G in multiscale water. We couple atomistic w...
In this contribution, we review recent developments and applications of a dynamic clustering algorit...
We present a multiresolution simulation scheme for the solvent environment where four atomistic wate...
In adaptive resolution simulations, molecular fluids are modeled employing different levels of resol...
We present adaptive resolution dynamics simulations of aqueous and apolar solvents coarse-grained mo...
We present adaptive resolution molecular dynamics simulations of aqueous and apolar solvents using c...
Atomistic molecular dynamics simulations of proteins in aqueous solution are still limited to the mu...
We present a dual-resolution model of a deoxyribonucleic acid (DNA) molecule in a bathing solution, ...
Simulation of the dynamics of a protein in aqueous solution using an atomic model for both the prote...
Multiscale simulations methods, such as adaptive resolution scheme, are becoming increasingly popula...
The adaptive resolution scheme (AdResS) is a multiscale molecular dynamics simulation approach that ...
The adaptive resolution scheme (AdResS) is a multiscale molecular dynamics simulation approach that ...
To perform computationally efficient concurrent multiscale simulations of biological macromolecules ...
We present an adaptive resolution simulation of protein G in multiscale water. We couple atomistic w...
In this contribution, we review recent developments and applications of a dynamic clustering algorit...
We present a multiresolution simulation scheme for the solvent environment where four atomistic wate...
In adaptive resolution simulations, molecular fluids are modeled employing different levels of resol...
We present adaptive resolution dynamics simulations of aqueous and apolar solvents coarse-grained mo...
We present adaptive resolution molecular dynamics simulations of aqueous and apolar solvents using c...
Atomistic molecular dynamics simulations of proteins in aqueous solution are still limited to the mu...
We present a dual-resolution model of a deoxyribonucleic acid (DNA) molecule in a bathing solution, ...
Simulation of the dynamics of a protein in aqueous solution using an atomic model for both the prote...
Multiscale simulations methods, such as adaptive resolution scheme, are becoming increasingly popula...