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RECOMB
2001
Springer
2001
Springer
Predicting the beta-helix fold from protein sequence data
A method is presented that uses b-strand interactions to predict the parallel right-handed b-helix super-secondary structural motif in protein sequences. A program called BetaWrap implements this method and is shown to score known b-helices above non-b-helices in the Protein Data Bank in cross-validation. It is demonstrated that BetaWrap learns each of the seven known SCOP b-helix families, when trained primarily on b-structures that are not b-helices, together with structural features of known b-helices from outside the family. BetaWrap also predicts many bacterial proteins of unknown structure to be b-helices; in particular, these proteins serve as virulence factors, adhesins, and toxins in bacterial pathogenesis and include cell surface proteins from Chlamydia and the intestinal bacterium Helicobacter pylori. The computational method used here may generalize to other b-structures for which strand topology and pro les of residue accessibility are well conserved. Key words: parallel ...
Real-time TrafficComputational Biology | Intestinal Bacterium Helicobacter | RECOMB 2001 | Right-handed Beta Helix | SCOP B-helix Families |
Related Content
| Added | 03 Dec 2009 |
| Updated | 03 Dec 2009 |
| Type | Conference |
| Year | 2001 |
| Where | RECOMB |
| Authors | Phil Bradley, Lenore Cowen, Matthew Menke, Jonathan King, Bonnie Berger |
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