Publication date: Jan 26, 2021
Folding of villin miniprotein was studied by parallel tempering metadynamics driven by machine learning. To obtain a training set for machine learning, we generated a large series of structures of the protein by the de novo protein structure prediction package Rosetta. A neural network was trained to approximate the Rosetta score. Parallel tempering metadynamics driven by this approximated Rosetta score successfully predicted the native structure and the free energy surface of the studied system. These files make it possible to rerun all simulations. The directory METAD contains input files for metadynamics (no folding events observed). The directory PT-METAD contains input files for parallel tempering metadynamics. All simulations were done using Gromacs 2016.4, Anncolvar 0.8, Plumed 2.4 and OpenMPI 4.0.0.
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File name | Size | Description |
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README.txt
MD5md5:a5a2c25ea5769ab01abe23c5dfe0f43b
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2.0 KiB | README.txt file |
rosetta_mtd.zip
MD5md5:f96d138d373a26f181b7ba90882af253
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12.5 MiB | Input files needed to reproduce simulations using Gromacs 2016.4, Anncolvar 0.8, Plumed 2.4 and OpenMPI 4.0.0. |
2021.22 (version v3) | Jan 26, 2021 | DOI10.24435/materialscloud:j9-0n |
2021.19 (version v2) [This version] | Jan 26, 2021 | DOI10.24435/materialscloud:je-7c |
2021.16 (version v1) | Jan 25, 2021 | DOI10.24435/materialscloud:f5-fe |