Affiliation:
1. Genome Center University of California Davis California USA
2. Institute of Systems, Molecular and Integrative Biology University of Liverpool Liverpool England UK
Abstract
AbstractProcessing of CASP15 targets into evaluation units (EUs) and assigning them to evolutionary‐based prediction classes is presented in this study. The targets were first split into structural domains based on compactness and similarity to other proteins. Models were then evaluated against these domains and their combinations. The domains were joined into larger EUs if predictors’ performance on the combined units was similar to that on individual domains. Alternatively, if most predictors performed better on the individual domains, then they were retained as EUs. As a result, 112 evaluation units were created from 77 tertiary structure prediction targets. The EUs were assigned to four prediction classes roughly corresponding to target difficulty categories in previous CASPs: TBM (template‐based modeling, easy or hard), FM (free modeling), and the TBM/FM overlap category. More than a third of CASP15 EUs were attributed to the historically most challenging FM class, where homology or structural analogy to proteins of known fold cannot be detected.
Funder
Biotechnology and Biological Sciences Research Council
National Institute of General Medical Sciences
Subject
Molecular Biology,Biochemistry,Structural Biology
Cited by
3 articles.
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