Reduced Fragment Diversity for Alpha and Alpha-Beta Protein Structure Prediction using Rosetta

Title:Reduced Fragment Diversity for Alpha and Alpha-Beta Protein Structure Prediction using Rosetta

Volume: 24 Issue: 3

Author(s): Jad Abbass and Jean-Christophe Nebel

Affiliation:

Keywords: Rosetta, ab initio protein structure prediction, fragment-based protein structure prediction, CATH, protein structural class, 9-mers, 3-mers.

Abstract: Protein structure prediction is considered a main challenge in computational biology. The biannual international competition, Critical Assessment of protein Structure Prediction (CASP), has shown in its eleventh experiment that free modelling target predictions are still beyond reliable accuracy, therefore, much effort should be made to improve ab initio methods. Arguably, Rosetta is considered as the most competitive method when it comes to targets with no homologues. Relying on fragments of length 9 and 3 from known structures, Rosetta creates putative structures by assembling candidate fragments. Generally, the structure with the lowest energy score, also known as first model, is chosen to be the “predicted one”.

Cite this article as:

Abbass Jad and Nebel Jean-Christophe, Reduced Fragment Diversity for Alpha and Alpha-Beta Protein Structure Prediction using Rosetta, Protein & Peptide Letters 2017; 24 (3) . https://dx.doi.org/10.2174/0929866523666161216124019