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Current Protein & Peptide Science

Editor-in-Chief

ISSN (Print): 1389-2037
ISSN (Online): 1875-5550

Proteins: Sequence to Structure and Function – Current Status

Author(s): Sandhya R. Shenoy and B. Jayaram

Volume 11, Issue 7, 2010

Page: [498 - 514] Pages: 17

DOI: 10.2174/138920310794109094

Price: $65

Abstract

In an era that has been dominated by Structural Biology for the last 30-40 years, a dramatic change of focus towards sequence analysis has spurred the advent of the genome projects and the resultant diverging sequence/structure deficit. The central challenge of Computational Structural Biology is therefore to rationalize the mass of sequence information into biochemical and biophysical knowledge and to decipher the structural, functional and evolutionary clues encoded in the language of biological sequences. In investigating the meaning of sequences, two distinct analytical themes have emerged: in the first approach, pattern recognition techniques are used to detect similarity between sequences and hence to infer related structures and functions; in the second ab initio prediction methods are used to deduce 3D structure, and ultimately to infer function, directly from the linear sequence. In this article, we attempt to provide a critical assessment of what one may and may not expect from the biological sequences and to identify major issues yet to be resolved. The presentation is organized under several subtitles like protein sequences, pattern recognition techniques, protein tertiary structure prediction, membrane protein bioinformatics, human proteome, protein-protein interactions, metabolic networks, potential drug targets based on simple sequence properties, disordered proteins, the sequence-structure relationship and chemical logic of protein sequences.

Keywords: Sequence, structure, function, proteins, membrane, bioinformatics, prediction, metabolism, drug targets, disordered, pattern recognition techniques, ab initio prediction, human proteome, protein-protein interactions, metabolic net-works, flexibility, protein clustering, PROTEIN TERTIARY STRUCTURE PREDICTION, Topology Prediction Methods, 3D Predictions, glutamine-rich, proline-rich, acidic activation domains, Distributed Annotation System (DAS), protein folding


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