| Literature DB >> 32142178 |
Dzmitry Padhorny1,2, Kathryn A Porter3, Mikhail Ignatov1,2, Andrey Alekseenko1,2,4, Dmitri Beglov3,5, Sergei Kotelnikov1,2,6, Ryota Ashizawa1,2, Israel Desta3, Nawsad Alam7, Zhuyezi Sun3, Emiliano Brini2, Ken Dill2,8,9, Ora Schueler-Furman7, Sandor Vajda3,10, Dima Kozakov1,2.
Abstract
Targets in the protein docking experiment CAPRI (Critical Assessment of Predicted Interactions) generally present new challenges and contribute to new developments in methodology. In rounds 38 to 45 of CAPRI, most targets could be effectively predicted using template-based methods. However, the server ClusPro required structures rather than sequences as input, and hence we had to generate and dock homology models. The available templates also provided distance restraints that were directly used as input to the server. We show here that such an approach has some advantages. Free docking with template-based restraints using ClusPro reproduced some interfaces suggested by weak or ambiguous templates while not reproducing others, resulting in correct server predicted models. More recently we developed the fully automated ClusPro TBM server that performs template-based modeling and thus can use sequences rather than structures of component proteins as input. The performance of the server, freely available for noncommercial use at https://tbm.cluspro.org, is demonstrated by predicting the protein-protein targets of rounds 38 to 45 of CAPRI.Entities:
Keywords: ambiguous templates; docking server; homology modeling; protein-peptide complexes; protein-protein complexes; template selection
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Year: 2020 PMID: 32142178 PMCID: PMC7874234 DOI: 10.1002/prot.25887
Source DB: PubMed Journal: Proteins ISSN: 0887-3585