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CSB
2004
IEEE
2004
IEEE
High-Throughput 3D Structural Homology Detection via NMR Resonance Assignment
One goal of the structural genomics initiative is the identification of new protein folds. Sequence-based structural homology prediction methods are an important means for prioritizing unknown proteins for structure determination. However, an important challenge remains: two highly dissimilar sequences can have similar folds -- how can we detect this rapidly, in the context of structural genomics? High-throughput NMR experiments, coupled with novel algorithms for data analysis, can address this challenge. We report an automated procedure, called HD, for detecting 3D structural homologies from sparse, unassigned protein NMR data. Our method identifies 3D models in a protein structural database whose geometries best fit the unassigned experimental NMR data. HD does not use, and is thus not limited by sequence homology. The method can also be used to confirm or refute structural predictions made by other techniques such as protein threading or homology modelling. The algorithm runs in O(...
Real-time TrafficBioinformatics | CSB 2004 | Protein | Protein Folds | Structural |
| Added | 20 Aug 2010 |
| Updated | 20 Aug 2010 |
| Type | Conference |
| Year | 2004 |
| Where | CSB |
| Authors | Christopher James Langmead, Bruce Randall Donald |
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