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ISMB
2000
2000
Prediction of the Number of Residue Contacts in Proteins
Knowing the number of residue contacts in a protein is crucial for deriving constraints useful in modeling protein folding, protein structure, and/or scoring remote homology searches. Here we use an ensemble of bi-directional recurrent neural network architectures and evolutionary information to improve the state-of-the-art in contact prediction using a large corpus of curated data. The ensemble is used to discriminate between two di erent states of residue contacts, characterized by a contact number higher or lower than the average value of the residue distribution. The ensemble achieves performances ranging from 70.1% to 73.1% depending on the radius adopted to discriminate contacts (6A to 12A). These performances represent gains of 15% to 20% over the base line statistical predictors always assigning an aminoacid to the most numerous state, 3% to 7% better than any previous method. Combination of di erent radius predictors further improves the performance.
Real-time TrafficComputational Biology | Ensemble Achieves Performances | Erent Radius Predictors | ISMB 2000 | Residue Contacts |
| Added | 01 Nov 2010 |
| Updated | 01 Nov 2010 |
| Type | Conference |
| Year | 2000 |
| Where | ISMB |
| Authors | Piero Fariselli, Rita Casadio |
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