SSToSS - sequence-structural templates of single-member superfamilies

Chakrabarti, Saikat ; Manohari, Gowri ; Pugalenthi, Ganesan ; Sowdhamini, Ramanathan (2006) SSToSS - sequence-structural templates of single-member superfamilies In Silico Biology, 6 (4). pp. 311-319. ISSN 1386-6338

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Official URL: http://iospress.metapress.com/content/9ynxpwyqu9f2...

Abstract

The presence of sequence homologues and the availability of structural information of proteins enable better understanding of the biological function of a protein family. A majority of entries in protein structural databank are single member superfamilies for which it is hard to derive motifs due to the paucity of structural homologues. Important conserved segments for these superfamilies have been identified and compiled into a database, SSToSS (Sequence Structural Templates of Single member Superfamily). Conserved regions, recognized by permitted amino acid exchanges, are mapped on the structure and various structural features (solvent accessibility, secondary structure content, hydrogen bonding and residue packing) are examined. These conserved segments with high structural feature content are projected as sequence-structural templates for the particular superfamily member. Interactive three-dimensional displays of the templates in three-dimensional structure (in Chime® and RASMOL) are provided for better understanding and visualization. In SSToSS database, we also provide the application of sequence-structural templates in three different areas: multiple-motif based sequence search, multiple sequence alignment and homology modeling. In each case, the inclusion of the sequence-structural templates can give rise to sensitive and accurate results. This enables the inclusion of singletons to provide added value to the recognition of additional members, comparative modeling and in designing experiments.

Item Type:Article
Source:Copyright of this article belongs to IOS Press.
Keywords:Conserved Regions; Motif-based Database Search; Comparative Modeling; Spatial Orientation of Motifs; Superfamily Signatures; Distant Similarity; Protein Structure Prediction
ID Code:61229
Deposited On:15 Sep 2011 03:59
Last Modified:15 Sep 2011 03:59

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