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CATHEDRAL: A Fast and Effective Algorithm to Predict Folds and Domain Boundaries from Multidomain Protein Structures

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  • Oliver C Redfern
  • Andrew Harrison
  • Tim Dallman
  • Frances M G Pearl
  • Christine A Orengo

Abstract

We present CATHEDRAL, an iterative protocol for determining the location of previously observed protein folds in novel multidomain protein structures. CATHEDRAL builds on the features of a fast secondary-structure–based method (using graph theory) to locate known folds within a multidomain context and a residue-based, double-dynamic programming algorithm, which is used to align members of the target fold groups against the query protein structure to identify the closest relative and assign domain boundaries. To increase the fidelity of the assignments, a support vector machine is used to provide an optimal scoring scheme. Once a domain is verified, it is excised, and the search protocol is repeated in an iterative fashion until all recognisable domains have been identified. We have performed an initial benchmark of CATHEDRAL against other publicly available structure comparison methods using a consensus dataset of domains derived from the CATH and SCOP domain classifications. CATHEDRAL shows superior performance in fold recognition and alignment accuracy when compared with many equivalent methods. If a novel multidomain structure contains a known fold, CATHEDRAL will locate it in 90% of cases, with

Suggested Citation

  • Oliver C Redfern & Andrew Harrison & Tim Dallman & Frances M G Pearl & Christine A Orengo, 2007. "CATHEDRAL: A Fast and Effective Algorithm to Predict Folds and Domain Boundaries from Multidomain Protein Structures," PLOS Computational Biology, Public Library of Science, vol. 3(11), pages 1-15, November.
    • Handle: RePEc:plo:pcbi00:0030232
    DOI: 10.1371/journal.pcbi.0030232
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