Abstract
We propose new empirical scoring potentials and associated alignment procedures for optimally aligning protein sequences to protein structures. The method has two main applications: first, the recognition of a plausible fold for a protein sequence of unknown structure out of a database of representative protein structures and, second, the improvement of sequence alignments by using structural information in order to find a better starting point for homology based modelling. The empirical scoring function is derived from an analysis of a nonredundant database of known structures by converting relative frequencies into pseudoenergies using a normalization according to the inverse Bolzmann law. These-so called contact capacity-potentials turn out to be discriminative enough to detect structural folds in the absence of significant sequence similarity and at the same time simple enough to allow for a very fast optimization in an alignment procedure.
Keywords
Discriminative modelStructural alignmentComputer scienceNormalization (sociology)Loop modelingProtein structurePattern recognition (psychology)Sequence (biology)Protein sequencingSequence alignmentAlgorithmProtein structure predictionInverseFold (higher-order function)Artificial intelligenceProtein function predictionComputational biologyMathematicsPeptide sequenceBiologyProtein functionGeneticsGeometry
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Publication Info
- Year
- 1996
- Type
- article
- Pages
- 53-72
- Citations
- 108
- Access
- Closed
External Links
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Cite This
Nickolai Alexandrov,
Ruth Nussinov,
Ralf Zimmer
(1996).
Fast protein fold recognition via sequence to structure alignment and contact capacity potentials..
PubMed
, 53-72.