Protein interaction mapping: A<i>Drosophila</i>case study

Étienne Formstecher(Hybrigenics (France)), Sandra Aresta(Hybrigenics (France)), Vincent Collura(Hybrigenics (France)), Alexandre Hamburger(Hybrigenics (France)), Alain Meil(Hybrigenics (France)), Alexandra Trehin(Hybrigenics (France)), Céline Reverdy(Hybrigenics (France)), Virginie M.S. Betin(Hybrigenics (France)), Sophie Maire(Hybrigenics (France)), Christine Brun(Institut de Biologie du Développement Marseille), Bernard Jacq(Institut de Biologie du Développement Marseille), Monique Arpin(Biologie cellulaire et Cancer), Yohanns Bellaı̈che(Biologie cellulaire et Cancer), Savério Bellusci(Biologie cellulaire et Cancer), Philippe Benaroch(Inserm), Michel Bornens(Biologie cellulaire et Cancer), R. Chanet(Centre National de la Recherche Scientifique), Philippe Chavrier(Biologie cellulaire et Cancer), Olivier Delattre(Inserm), Valérie Doye(Biologie cellulaire et Cancer), Richard G. Fehon(Duke University), Gérard Faye(Centre National de la Recherche Scientifique), Thierry Galli(Inserm), Jean‐Antoine Girault(Inserm), Bruno Goud(Biologie cellulaire et Cancer), Jean de Gunzburg(Inserm), Ludger Johannes(Biologie cellulaire et Cancer), Marie-Pierre Junier(Inserm), Vincent Mirouse(Inserm), Ashim Mukherjee(Harvard University), D. Papadopoulo(Centre National de la Recherche Scientifique), Franck Perez(Biologie cellulaire et Cancer), Anne Plessis(Centre National de la Recherche Scientifique), Carine Rossé(Inserm), Simon Saule(Centre National de la Recherche Scientifique), Dominique Stoppa‐Lyonnet(Institut Curie), Alain Vincent(Centre National de la Recherche Scientifique), Michael White(Southwestern Medical Center), Pierre Legrain(Commissariat à l'Énergie Atomique et aux Énergies Alternatives), Jérôme Wojcik(Hybrigenics (France)), Jacques Camonis(Inserm), Laurent Daviet(Hybrigenics (France))
Genome Research
February 14, 2005
10.1101/gr.2659105
Cited by 574Open Access
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Abstract

The Drosophila (fruit fly) model system has been instrumental in our current understanding of human biology, development, and diseases. Here, we used a high-throughput yeast two-hybrid (Y2H)-based technology to screen 102 bait proteins from Drosophila melanogaster, most of them orthologous to human cancer-related and/or signaling proteins, against high-complexity fly cDNA libraries. More than 2300 protein-protein interactions (PPI) were identified, of which 710 are of high confidence. The computation of a reliability score for each protein-protein interaction and the systematic identification of the interacting domain combined with a prediction of structural/functional motifs allow the elaboration of known complexes and the identification of new ones. The full data set can be visualized using a graphical Web interface, the PIMRider (http://pim.hybrigenics.com), and is also accessible in the PSI standard Molecular Interaction data format. Our fly Protein Interaction Map (PIM) is surprisingly different from the one recently proposed by Giot et al. with little overlap between the two data sets. Analysis of the differences in data sets and methods suggests alternative strategies to enhance the accuracy and comprehensiveness of the post-genomic generation of broad-scale protein interaction maps.

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