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^ ::: | ::: | ::: | Webserver | (([[https://academic.oup.com/nar/article/45/W1/W325/3744539 | TRAPP webserver: predicting protein binding site flexibility and detecting transient binding pockets]])) | [[https://trapp3.h-its.org|Run TRAPP analysis, old version]] | | ^ ::: | ::: | ::: | Webserver | (([[https://academic.oup.com/nar/article/45/W1/W325/3744539 | TRAPP webserver: predicting protein binding site flexibility and detecting transient binding pockets]])) | [[https://trapp3.h-its.org|Run TRAPP analysis, old version]] | | ||
^ L-RIP / RIPLig | Two non-equilibrium MD approaches \\ for the identification of \\ slow conformational changes of a \\ protein binding site | Protein structure | Standalone also \\ used within TRAPP | (([[https://pubs.acs.org/doi/abs/10.1021/acs.jctc.6b00101|Perturbation Approaches for Exploring Protein Binding Site Flexibility to Predict Transient Binding Pockets]])) | [[http://mcm.h-its.org/lrip-riplig|L-RIP and RIPlig]] | | ^ L-RIP / RIPLig | Two non-equilibrium MD approaches \\ for the identification of \\ slow conformational changes of a \\ protein binding site | Protein structure | Standalone also \\ used within TRAPP | (([[https://pubs.acs.org/doi/abs/10.1021/acs.jctc.6b00101|Perturbation Approaches for Exploring Protein Binding Site Flexibility to Predict Transient Binding Pockets]])) | [[http://mcm.h-its.org/lrip-riplig|L-RIP and RIPlig]] | | ||
- | ^ RASPD | Fast protein-ligand binding free energy prediction \\ using simplified physicochemical features | [[https://github.com/HITS-MCM/RASPDplus | GitHub ]] | Standalone Software | (([[https://www.frontiersin.org/articles/10.3389/fmolb.2020.601065/full|Holderbach, Stefan, et al. "RASPD+: Fast protein-ligand binding free energy prediction using simplified physicochemical features.]])) | | + | ^ RASPD | Fast protein-ligand binding free energy prediction using simplified physicochemical features | Structures, \\ Ligands | Standalone Software | (([[https://www.frontiersin.org/articles/10.3389/fmolb.2020.601065/full|RASPD+: Fast protein-ligand binding free energy prediction using simplified physicochemical features.]])) | [[https://github.com/HITS-MCM/RASPDplus | GitHub ]] | |
^ KBbox | KBbox: a Toolbox of \\ Computational Methods for Studying \\ the Kinetics of Molecular Binding | Search term | Webserver | | [[https://kbbox.h-its.org|Search KBbox]] | | ^ KBbox | KBbox: a Toolbox of \\ Computational Methods for Studying \\ the Kinetics of Molecular Binding | Search term | Webserver | | [[https://kbbox.h-its.org|Search KBbox]] | | ||
^ RAMD / \\ $\tau$RAMD| The Random Acceleration Molecular Dynamics (RAMD) \\ method can be used to carry out molecular dynamics simulations \\ with an additional randomly oriented force applied to a molecule \\ in the system. Originally this was implemented \\ from the MCM group in Amber 8 (not maintained). Recently the \\ Amber group has provided the functionality integrated in Amber 20 \\ [[tauRamdDescription|see RAMD additional information]] | NAMD simulation setup | NAMD Plugin | (([[https://www.ncbi.nlm.nih.gov/pubmed/11061976|How do substrates enter and products exit the buried active site of cytochrome P450cam ? | ^ RAMD / \\ $\tau$RAMD| The Random Acceleration Molecular Dynamics (RAMD) \\ method can be used to carry out molecular dynamics simulations \\ with an additional randomly oriented force applied to a molecule \\ in the system. Originally this was implemented \\ from the MCM group in Amber 8 (not maintained). Recently the \\ Amber group has provided the functionality integrated in Amber 20 \\ [[tauRamdDescription|see RAMD additional information]] | NAMD simulation setup | NAMD Plugin | (([[https://www.ncbi.nlm.nih.gov/pubmed/11061976|How do substrates enter and products exit the buried active site of cytochrome P450cam ? |