The recently proposed Hamiltonian adaptive resolution scheme (H-AdResS) allows the performance of molecular simulations in an open boundary framework. It allows changing, on the fly, the resolution of specific subsets of molecules (usually the solvent), which are free to diffuse between the atomistic region and the coarse-grained reservoir. So far, the method has been successfully applied to pure liquids. Coupling the H-AdResS methodology to hybrid models of proteins, such as the molecular mechanics/coarse-grained (MM/CG) scheme, is a promising approach for rigorous calculations of ligand binding free energies in low-resolution protein models. Toward this goal, here we apply for the first time H-AdResS to two atomistic proteins in dual-reso...
Computer simulations have become a fundamental tool in molecular soft matter research. For example, ...
The adaptive-partitioning (AP) schemes for combined quantum-mechanical/molecular-mechanical (QM/MM) ...
Typical experimental setups for molecular systems must deal with a certain coupling to the external ...
The Adaptive Resolution Scheme (AdResS) is a hybrid scheme that allows to treat a molecular system w...
We propose an open-boundary molecular dynamics method in which an atomistic system is in contact wit...
Adaptive Molecular Resolution approaches in Molecular Dynamics are becoming relevant tools for the a...
We present an adaptive resolution simulation of protein G in multiscale water. We couple atomistic w...
Adaptive molecular resolution approaches in molecular dynamics are becoming relevant tools for the a...
G-protein-coupled receptors (GPCRs) constitute as much as 30% of the overall proteins targeted by FD...
Human G-protein coupled receptors (hGPCRs) are arguably the most pharmaceutically relevant protein s...
Computer simulations have proven to be a powerful tool in soft matter research since they have helpe...
G-protein-coupled receptors (GPCRs) constitute as much as 30% of the overall proteins targeted by FD...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
The adaptive resolution simulation (AdResS) technique couples regions with different molecular resol...
Computer simulations have become a fundamental tool in molecular soft matter research. For example, ...
The adaptive-partitioning (AP) schemes for combined quantum-mechanical/molecular-mechanical (QM/MM) ...
Typical experimental setups for molecular systems must deal with a certain coupling to the external ...
The Adaptive Resolution Scheme (AdResS) is a hybrid scheme that allows to treat a molecular system w...
We propose an open-boundary molecular dynamics method in which an atomistic system is in contact wit...
Adaptive Molecular Resolution approaches in Molecular Dynamics are becoming relevant tools for the a...
We present an adaptive resolution simulation of protein G in multiscale water. We couple atomistic w...
Adaptive molecular resolution approaches in molecular dynamics are becoming relevant tools for the a...
G-protein-coupled receptors (GPCRs) constitute as much as 30% of the overall proteins targeted by FD...
Human G-protein coupled receptors (hGPCRs) are arguably the most pharmaceutically relevant protein s...
Computer simulations have proven to be a powerful tool in soft matter research since they have helpe...
G-protein-coupled receptors (GPCRs) constitute as much as 30% of the overall proteins targeted by FD...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
The adaptive resolution simulation (AdResS) technique couples regions with different molecular resol...
Computer simulations have become a fundamental tool in molecular soft matter research. For example, ...
The adaptive-partitioning (AP) schemes for combined quantum-mechanical/molecular-mechanical (QM/MM) ...
Typical experimental setups for molecular systems must deal with a certain coupling to the external ...