International audienceAccurate simulation of biomolecular systems requires the consideration of solvation effects. The arrangement and dynamics of water close to a solute are strongly influenced by the solute itself. However, as the solute-solvent distance increases, the water properties tend to those of the bulk liquid. This suggests that bulk regions can be treated at a coarse grained (CG) level, while keeping the atomistic details around the solute. Since water represents about 80% of any biological system, this approach may offer a significant reduction in the computational cost of simulations without compromising atomistic details. We show here that mixing the popular SPC water model with a CG model for solvation (called WatFour) can e...
Water molecules play important roles in all biochemical processes. Therefore, it is of key importanc...
Simulation of the dynamics of a protein in aqueous solution using an atomic model for both the prote...
Atomistic molecular dynamics simulations of proteins in aqueous solution are still limited to the mu...
Accurate simulation of biomolecular systems requires the consideration of solvation effects. The arr...
Dual-resolution approaches for molecular simulations combine the best of two worlds, providing atomi...
We present a new dual-resolution approach for coupling atomistic and coarse-grained models in molecu...
An approach to overcome the limited time and spatial scales in molecular dynamics (MD) simulations i...
Molecular dynamics (MD) is an appropriate method for investigation of biomolecular systems and helps...
Molecular dynamics (MD) is an appropriate method for investigation of biomolecular systems and helps...
Atomistic simulation has become an important tool for studying the structures, dynamics, and functio...
© 2014 American Chemical Society. We present a new dual-resolution approach for coupling atomistic a...
Molecular dynamics (MD) simulations are an important tool for studying various interesting phenomena...
Solvation and hydrophobicity drive many critical processes in nature, playing an important role in t...
Biological processes occur on space and time scales that are often unreachable for fully atomistic s...
In molecular mechanics simulations of biological systems, the solvation water is typically represent...
Water molecules play important roles in all biochemical processes. Therefore, it is of key importanc...
Simulation of the dynamics of a protein in aqueous solution using an atomic model for both the prote...
Atomistic molecular dynamics simulations of proteins in aqueous solution are still limited to the mu...
Accurate simulation of biomolecular systems requires the consideration of solvation effects. The arr...
Dual-resolution approaches for molecular simulations combine the best of two worlds, providing atomi...
We present a new dual-resolution approach for coupling atomistic and coarse-grained models in molecu...
An approach to overcome the limited time and spatial scales in molecular dynamics (MD) simulations i...
Molecular dynamics (MD) is an appropriate method for investigation of biomolecular systems and helps...
Molecular dynamics (MD) is an appropriate method for investigation of biomolecular systems and helps...
Atomistic simulation has become an important tool for studying the structures, dynamics, and functio...
© 2014 American Chemical Society. We present a new dual-resolution approach for coupling atomistic a...
Molecular dynamics (MD) simulations are an important tool for studying various interesting phenomena...
Solvation and hydrophobicity drive many critical processes in nature, playing an important role in t...
Biological processes occur on space and time scales that are often unreachable for fully atomistic s...
In molecular mechanics simulations of biological systems, the solvation water is typically represent...
Water molecules play important roles in all biochemical processes. Therefore, it is of key importanc...
Simulation of the dynamics of a protein in aqueous solution using an atomic model for both the prote...
Atomistic molecular dynamics simulations of proteins in aqueous solution are still limited to the mu...