Structure prediction for CASP7 targets using extensive all-atom refinement with Rosetta@home.
| Type | Information |
|---|---|
| Nr | 16 (Research article) |
| Authors | Das, Rhiju; Qian, Bin; Raman, Srivatsan; Vernon, Robert; Thompson, James; Bradley, Philip; Khare, Sagar; Tyka, Michael; Bhat, Divya; Chivian, Dylan; Kim, David; Sheffler, William; Malmström, Lars; Wollacott, Andrew; Wang, Chu; Andre, Ingemar; Baker, David |
| Title | Structure prediction for CASP7 targets using extensive all-atom refinement with Rosetta@home. |
| Journal | Proteins (2007) 1 118-128 |
| DOI | 10.1002/prot.21636 |
| Citations | 272 citations (journal impact: 3.42) |
| Abstract | We describe predictions made using the Rosetta structure prediction methodology for both template-based modeling and free modeling categories in the Seventh Critical Assessment of Techniques for Protein Structure Prediction. For the first time aggressive sampling and all-atom refinement could be carried out for the majority of targets an advance enabled by the Rosettahome distributed computing network. Template-based modeling predictions using an iterative refinement algorithm improved over the best existing templates for the majority of proteins with less than 200 residues. Free modeling methods gave near-atomic accuracy predictions for several targets under 100 residues from all secondary structure classes. These results indicate that refinement with an all-atom energy function although computationally expensive is a powerful method for obtaining accurate structure predictions. Proteins 2007. c 2007 Wiley-Liss Inc. |