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Repeated two-hybrid screening detects transient protein-protein interactions

Item Type:Article
Title:Repeated two-hybrid screening detects transient protein-protein interactions
Creators Name:Vinayagam, A. and Stelzl, U. and Wanker, E.E.
Abstract:Yeast two-hybrid (Y2H) screening is a powerful method to detect protein-protein interactions (PPI) at the genomic-scale. A recently proposed framework for binary interactome mapping recommends the repeated screening approach to improve the quality of PPI data. Such repeated screening reveals Y2H interactions ranging from highly sampled to singleton interactions. The quality and the biological significance of interactions from distinguished sampling classes remain unknown. In order to systematically characterize such interactions, we have chosen a dataset of 1,262 interactions that were screened repeatedly four-times. The interactions were classified as highly sampled, weakly sampled, and singleton interactions. We assessed the quality of interactions in different sampling classes using features such as protein structural properties, conservation in yeast and presence of known domain-domain interactions that are previously associated with false positive rates. Our analysis reveals that the quality of singleton interactions is comparable to that of highly sampled interactions. Interestingly, singletons encompass a higher fraction of known domain-domain interactions than highly sampled ones. Furthermore, we observed that the singleton interactions are transient in nature, while the highly sampled interactions are predominantly part of stable complexes. Hence, the repeated Y2H screening method is ideal for detecting transient PPIs that are crucial in cellular signaling pathways.
Keywords:Protein-Protein Interaction Network, Repeated Y2H Screening, Y2H Sampling, Transient Interactions
Source:Theoretical Chemistry Accounts
ISSN:1432-881X
Publisher:Springer (Germany)
Volume:125
Number:3-6
Page Range:613-619
Date:March 2010
Official Publication:https://doi.org/10.1007/s00214-009-0651-8

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