An approach to overcome the limited time and spatial scales in molecular dynamics (MD) simulations is to reduce the number of degrees of freedom in the system through coarse-graining. In hybrid atomistic/coarse-grained (AT/CG) simulations, the region of interest (e.g., the solute) is simulated at a higher level of resolution than the surrounding solvent. Recently, we have reparametrized the interactions between the GROMOS 54A7 force field and the GROMOS CG water model to correctly reproduce solvation free energies of side-chain analogues. In this study, a benchmarking of the AT-CG parametrization using a broad set of 22 proteins is conducted. On the basis of the results, the idea of introducing a thin AT water layer around the solute (prote...
Atomistic models provide a detailed representation of molecular systems, but are sometimes inadequat...
Hybrid simulations, in which part of the system is represented at atomic resolution and the remainin...
The interaction between proteins and inorganic surfaces or nanoparticles is important for several as...
Combining fine-grained (FG) all-atom and coarse-grained (CG) systems in a single simulation in a hyb...
Atomistic molecular dynamics simulations of proteins in aqueous solution are still limited to the mu...
Hybrid all-atom (AA) and coarse-grained (CG) simulation has the possibility of overcoming the limita...
International audienceAccurate simulation of biomolecular systems requires the consideration of solv...
Simulation of the dynamics of a protein in aqueous solution using an atomic model for both the prote...
Accurate simulation of biomolecular systems requires the consideration of solvation effects. The arr...
We present a new dual-resolution approach for coupling atomistic and coarse-grained models in molecu...
Hybrid molecular dynamics simulations of atomistic (AA) solutes embedded in coarse-grained (CG) envi...
Hybrid molecular dynamics simulations of atomistic (AA) solutes embedded in coarse-grained (CG) envi...
Dual-resolution approaches for molecular simulations combine the best of two worlds, providing atomi...
Protein modeling with molecular mechanics force fields plays an important role in computational biol...
Hybrid simulations, in which part of the system is represented at atomic resolution and the remainin...
Atomistic models provide a detailed representation of molecular systems, but are sometimes inadequat...
Hybrid simulations, in which part of the system is represented at atomic resolution and the remainin...
The interaction between proteins and inorganic surfaces or nanoparticles is important for several as...
Combining fine-grained (FG) all-atom and coarse-grained (CG) systems in a single simulation in a hyb...
Atomistic molecular dynamics simulations of proteins in aqueous solution are still limited to the mu...
Hybrid all-atom (AA) and coarse-grained (CG) simulation has the possibility of overcoming the limita...
International audienceAccurate simulation of biomolecular systems requires the consideration of solv...
Simulation of the dynamics of a protein in aqueous solution using an atomic model for both the prote...
Accurate simulation of biomolecular systems requires the consideration of solvation effects. The arr...
We present a new dual-resolution approach for coupling atomistic and coarse-grained models in molecu...
Hybrid molecular dynamics simulations of atomistic (AA) solutes embedded in coarse-grained (CG) envi...
Hybrid molecular dynamics simulations of atomistic (AA) solutes embedded in coarse-grained (CG) envi...
Dual-resolution approaches for molecular simulations combine the best of two worlds, providing atomi...
Protein modeling with molecular mechanics force fields plays an important role in computational biol...
Hybrid simulations, in which part of the system is represented at atomic resolution and the remainin...
Atomistic models provide a detailed representation of molecular systems, but are sometimes inadequat...
Hybrid simulations, in which part of the system is represented at atomic resolution and the remainin...
The interaction between proteins and inorganic surfaces or nanoparticles is important for several as...