Program | Website | Reference |
B-AceP tool | http://www4g.biotec.or.th/FeptideDB/ligand_docking.php | Panyayai T., Ngamphiw C., Tongsima S., Mhuantong W., Limsripraphan W., Choowongkomon K., Sawatdichaikul O., FeptideDB: A web application for new bioactive peptides from food protein. Heliyon, 2019, 5, e02076. |
CB-Dock | http://clab.labshare.cn/cb-dock/php/ | Liu Y., Grimm M., Dai W., Hou M., Xiao Z.-X., Cao Y., CB-Dock: a web server for cavity detection-guided protein–ligand blind docking. Acta Pharmacologica Sinica, 2020, 41, 138–144. |
ClusPro | https://cluspro.org/login.php?redir=/home.php | Kozakov D., Hall D. R., Xia B., Porter K. A., Padhorny D., Yueh C., Beglov D., Vajda S., The ClusPro web server for protein-protein docking. Nature Protocols, 2017, 12, 255-278. |
COVID-19 Docking Server | https://ncov.schanglab.org.cn/index.php | Kong R., Yang G. B., Xue R., Liu M., Wang F., Hu J. P., Guo X. Q., Chang S., COVID-19 Docking Server: An interactive server for docking small molecules, peptides and antibodies against potential targets of COVID-19. Bioinformatics, 2020, 36, 5109–5111. |
DockThor | https://www.dockthor.lncc.br/v2/ | Santos K. B., Guedes I. A., Karl A. L. M., Dardenne L. E., Highly flexible ligand docking: benchmarking of the DockThor program on the LEADS-PEP protein–peptide data set. Journal of Chemical Information and Modeling, 2020, 60, 667-683. |
EDock | https://zhanggroup.org//EDock/ | Zhang W., E. W., Yin M., Zhang Y., EDock: blind protein–ligand docking by replica‑exchange Monte Carlo simulation. Journal of Cheminformatics, 2020, 12, Article No 37. |
GalaxyPEPDOCK | http://galaxy.seoklab.org/cgi-bin/submit.cgi?type=PEPDOCK | Lee H., Heo L., Lee M. S., Seok C., GalaxyPepDock: A protein-peptide docking tool based on interaction similarity and energy optimization. Nucleic Acids Research, 2015, 43, W431-W435. |
HawkDock | http://cadd.zju.edu.cn/hawkdock/ | Weng G. Q., Wang E. C., Wang Z., Liu H., Li D., Zhu F., Hou T. J., HawkDock: a web server to predict and analyze the structures of protein-protein complexes based on computational docking and MM/GBSA. Nucleic Acids Research, 2019, 47, W322-W330. |
HPEPDOCK | http://huanglab.phys.hust.edu.cn/hpepdock/ | Zhou P., Jin B., Li H., Huang S-Y., HPEPDOCK: a web server for blind peptide-protein docking based on a hierarchical algorithm. Nucleic Acids Research, 2018, 46, W443-W450. |
PIPER-FlexPepDock | http://piperfpd.furmanlab.cs.huji.ac.il/ | Alam N., Goldstein O., Xia B., Porter K., Kozakov D., Schueler-Furman O., High-resolution global peptide-protein docking using fragments-based PIPER-FlexPepDock. PLoS Computational Biology, 2017, 13, Article No e1005905. |
ProteinsPlus | https://proteins.plus/ | Schöning-Stierand K., Diedrich K., Fährrolfes R., Flachsenberg F., Meyder A., Nittinger E., Steinegger R., Rarey M., ProteinsPlus: interactive analysis of protein–ligand binding interfaces. Nucleic Acids Research, 2020, 48, W48–W53. |
SwissDock | http://www.swissdock.ch/ | Grosdidier A., Zoete V., Michielin O., SwissDock, a protein-small molecule docking web service based on EADock DSS. Nucleic Acids Research, 2011, 39, W270-W277. |
UNRES server | http://unres-server.chem.ug.edu.pl/login/?next=/ | Krupa P., Karczyńska A. S., Mozolewska M. A., Liwo A., Czaplewski C., UNRES-Dock—protein–protein and peptide–protein docking by coarse-grained replica-exchange MD simulations. Bioinformatics, 2021, 37, 1613–1615. |
Webina | https://durrantlab.pitt.edu/webina/ | Kochnev Y., Hellemann E., Cassidy K. C., Durrant J. D., Webina: an open-source library and web app that runs AutoDock Vina entirely in the web browser. Bioinformatics, 2020, 36, 4513–4515. |