The Martini coarse-grained force field has been successfully used for simulating a wide range of (bio)molecular systems. Recent progress in our ability to test the model against fully atomistic force fields, however, has revealed some shortcomings. Most notable, phenylalanine and proline were too hydrophobic, and dimers formed by polar residues in apolar solvents did not bind strongly enough. Here, we reparametrize these residues either through reassignment of particle types or by introducing embedded charges. The new parameters are tested with respect to partitioning across a lipid bilayer, membrane binding of Wimley−White peptides, and dimerization free energy in solvents of different polarity. In addition, we improve some of the bonded t...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
Protein modeling with molecular mechanics force fields plays an important role in computational biol...
The Martini coarse-grained force field has been successfully used for simulating a wide range of (bi...
Abstract: Many biologically interesting phenomena occur on a time scale that is too long to be studi...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
We present an improved and extended version of our coarse grained lipid model. The new version, coin...
The Martini force field is a coarse-grained force field suited for molecular dynamics simulations of...
We present an improved and extended version of our coarse grained lipid model. The new version, coin...
We present an improved and extended version of our coarse grained lipid model. The new version, coin...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
Protein modeling with molecular mechanics force fields plays an important role in computational biol...
The Martini coarse-grained force field has been successfully used for simulating a wide range of (bi...
Abstract: Many biologically interesting phenomena occur on a time scale that is too long to be studi...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
We present an improved and extended version of our coarse grained lipid model. The new version, coin...
The Martini force field is a coarse-grained force field suited for molecular dynamics simulations of...
We present an improved and extended version of our coarse grained lipid model. The new version, coin...
We present an improved and extended version of our coarse grained lipid model. The new version, coin...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
The coarse-grained Martini force field is widely used in biomolecular simulations. Here we present t...
Protein modeling with molecular mechanics force fields plays an important role in computational biol...