BioSysBio:abstracts/2007/Emily Jefferson


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=The relationship between domain-domain interaction orientation and sequence similarity= Author(s):  Emily R. Jefferson and Geoffrey J. Barton Affiliations: University of Dundee Contact: email: emily@compbio.dundee.ac.uk Keywords: 'domain-domain interactions' 'three dimensional structure' 'sequence identity' 'interaction orientation'

Background/Introduction
In general proteins of similar sequence have a similar structure. We investigate whether a similar correlation exists between sequence identity and domain-domain interaction similarity. Understanding this relationship is important to the study of many aspects of protein-protein interactions, for example, the prediction of interaction information based on homology to complexes observed in structural data. Here the relationship between sequence identity and interaction similarity is investigated with the inclusion of all interactions within a structure and with redundancy filtering based upon normalisation by the pairwise SCOP SCOP family classification of the interacting domains.

Results
The probability that a pair of interactions were observed at the same orientation was determined and plotted against their % sequence identity. The results were normalised by the frequency of the pairwise SCOP SCOP family classification. There is a positive correlation between the probability of the same orientation between a pair of interactions and their % sequence identity (Fig 1).



Fig 1: The probability that a pair of interactions are interacting at the same orientation against % sequence identity..

Materials/Methods
Domain-domain interactions were employed rather than protein-protein interactions as domains can be considered to be the fundamental functional and structural unit of proteins. SCOP SCOP was chosen as the domain classification system. The domain-domain interactions where again obtained from SNAPPI-DB (Structures, iNterfaces and Alignments of Protein-Protein Interactions – DataBase) [5]. The problem of interactions due to crystal packing artefacts was reduced by use of biological units, as predicted by PQS PQS. Domain-domain interaction orientation was determined using an implementation of the iRMSD method described in Aloy et al Aloy. The sequence identity is the lowest sequence identity between each of the pairs of domains. For example, if comparing an domain-domain interaction A-B and with an interaction A'-B' then if the sequence identity was 100% between A and A' and the sequence identity was 30% between B and B' then the overall sequence identity for the pair of interactions would be 30%. The sequence identity between two domains was obtained from the STAMP STAMP alignment output.

Conclusion
Even at high sequence identities domain-domain interactions have appox. 20% probability of interacting at a different orientation.