This set of simulations contains 2us of Ago2-RNA complex in Amber ff14SB + OL3, ff19SB + OL3 and Desmond OPLS4 force fields. The polarizable force field AMOEBA has two simulation sets of 10*10ns and 2*100ns. The trajectories have been wrapped in the periodic box, centered around the protein atoms and the water molecules have been stripped out to conserve space using cpptraj. The trajectories are presented in Gromacs xtc-format which can be opened with the corresponding pdb file in multiple software tools such as VMD, PyMol or CaverAnalyst. The simulations are based on the crystal structure PDB ID 4W5O, where the missing loops were modeled using the Schrödinger Suite and missing nucleotides added manually
Development of the AMOEBA (atomic multipole optimized energetics for biomolecular simulation) force ...
International audienceSteered Molecular Dynamic (SMD) is a powerful technique able to accelerate rar...
Small molecules are ubiquitous in protein, DNA, and RNA systems of interest. Affinity prediction and...
10*100ns simulations of Ago2-RNA complex in the AMOEBA force field. The simulations were conducted u...
*S Supporting Information ABSTRACT: The accelerated molecular dynamics (aMD) method has recently bee...
MD simulation trajectories of RIG-I variant in complex with RNA. 10*100ns in AMOEBA (a single file f...
The accelerated molecular dynamics (aMD) method has recently been shown to enhance the sampling of b...
MD simulations of Cas12j-RNA complex in different force fields. AMOEBA 10*100ns (in a single file), ...
Mentor: Jay Ponder From the Washington University Undergraduate Research Digest: WUURD, Volume 8, Is...
Simulation data for the Sec61/TRAP/ribosome complex embedded in an ER membrane mimic. Simulations ar...
Molecular dynamics (MD) simulations studies have been performed on the aqueous solvation of the dipe...
Molecular force fields have been approaching a generational transition over the past several years, ...
Steered molecular dynamic (SMD) is a powerful technique able to accelerate rare event sampling in Mo...
AbstractWe present extensive all-atom Molecular Dynamics (MD) simulation data of the twenty encoded ...
Input and output data for the molecular dynamics simulations of the FH5–7/ApoE2 complex. Initial str...
Development of the AMOEBA (atomic multipole optimized energetics for biomolecular simulation) force ...
International audienceSteered Molecular Dynamic (SMD) is a powerful technique able to accelerate rar...
Small molecules are ubiquitous in protein, DNA, and RNA systems of interest. Affinity prediction and...
10*100ns simulations of Ago2-RNA complex in the AMOEBA force field. The simulations were conducted u...
*S Supporting Information ABSTRACT: The accelerated molecular dynamics (aMD) method has recently bee...
MD simulation trajectories of RIG-I variant in complex with RNA. 10*100ns in AMOEBA (a single file f...
The accelerated molecular dynamics (aMD) method has recently been shown to enhance the sampling of b...
MD simulations of Cas12j-RNA complex in different force fields. AMOEBA 10*100ns (in a single file), ...
Mentor: Jay Ponder From the Washington University Undergraduate Research Digest: WUURD, Volume 8, Is...
Simulation data for the Sec61/TRAP/ribosome complex embedded in an ER membrane mimic. Simulations ar...
Molecular dynamics (MD) simulations studies have been performed on the aqueous solvation of the dipe...
Molecular force fields have been approaching a generational transition over the past several years, ...
Steered molecular dynamic (SMD) is a powerful technique able to accelerate rare event sampling in Mo...
AbstractWe present extensive all-atom Molecular Dynamics (MD) simulation data of the twenty encoded ...
Input and output data for the molecular dynamics simulations of the FH5–7/ApoE2 complex. Initial str...
Development of the AMOEBA (atomic multipole optimized energetics for biomolecular simulation) force ...
International audienceSteered Molecular Dynamic (SMD) is a powerful technique able to accelerate rar...
Small molecules are ubiquitous in protein, DNA, and RNA systems of interest. Affinity prediction and...