We present an improved version of the ABSINTH implicit solvation model and force field paradigm (termed ABSINTH-C) by incorporating a grid-based term that bootstraps against experimentally derived and computationally optimized conformational statistics for blocked amino acids. These statistics provide high-resolution descriptions of the intrinsic backbone dihedral angle preferences for all 20 amino acids. The original ABSINTH model generates Ramachandran plots that are too shallow in terms of the basin structures and too permissive in terms of dihedral angle preferences. We bootstrap against the reference optimized landscapes and incorporate CMAP-like residue-specific terms that help us reproduce the intrinsic dihedral angle preferences of ...
The core task in computational drug discovery is to accurately predict binding free energies in rece...
The core task in computational drug discovery is to accurately predict binding free energies in rece...
While most force field efforts in biomolecular simulation have focused on the parametrization of the...
We present an improved version of the ABSINTH implicit solvation model and force field paradigm (ter...
Experimentally derived, amino acid specific backbone dihedral angle distributions are invaluable for...
The local conformational (phi, chi, chi) preferences of amino acid residues remain an active researc...
The local conformational (phi, chi, chi) preferences of amino acid residues remain an active researc...
ABSTRACT The ff94 force field that is commonly associated with the Amber simulation package is one o...
Chuan Tian presented his work on Amber ff19SB force field at the Chodera lab at MSKCC on Sep 12, 201...
The applicability of molecular dynamics simulations for studies of protein folding or intrinsically ...
While the quality of the current CHARMM22/CMAP additive force field for proteins has been demonstrat...
Force fields, such as Amber's ff12SB, can be fairly accurate models of the physical forces in protei...
Statistical analysis of coil regions in protein structures has been used to obtain the local backbon...
Statistical analysis of coil regions in protein structures has been used to obtain the local backbon...
We introduce PMF*, a novel Potential of Mean Force (PMF) for the Ramachandran Φ/Ψ-dihedral plot of t...
The core task in computational drug discovery is to accurately predict binding free energies in rece...
The core task in computational drug discovery is to accurately predict binding free energies in rece...
While most force field efforts in biomolecular simulation have focused on the parametrization of the...
We present an improved version of the ABSINTH implicit solvation model and force field paradigm (ter...
Experimentally derived, amino acid specific backbone dihedral angle distributions are invaluable for...
The local conformational (phi, chi, chi) preferences of amino acid residues remain an active researc...
The local conformational (phi, chi, chi) preferences of amino acid residues remain an active researc...
ABSTRACT The ff94 force field that is commonly associated with the Amber simulation package is one o...
Chuan Tian presented his work on Amber ff19SB force field at the Chodera lab at MSKCC on Sep 12, 201...
The applicability of molecular dynamics simulations for studies of protein folding or intrinsically ...
While the quality of the current CHARMM22/CMAP additive force field for proteins has been demonstrat...
Force fields, such as Amber's ff12SB, can be fairly accurate models of the physical forces in protei...
Statistical analysis of coil regions in protein structures has been used to obtain the local backbon...
Statistical analysis of coil regions in protein structures has been used to obtain the local backbon...
We introduce PMF*, a novel Potential of Mean Force (PMF) for the Ramachandran Φ/Ψ-dihedral plot of t...
The core task in computational drug discovery is to accurately predict binding free energies in rece...
The core task in computational drug discovery is to accurately predict binding free energies in rece...
While most force field efforts in biomolecular simulation have focused on the parametrization of the...