Authors
Haiyuan Yu, Pascal Braun, Muhammed A Yıldırım, Irma Lemmens, Kavitha Venkatesan, Julie Sahalie, Tomoko Hirozane-Kishikawa, Fana Gebreab, Na Li, Nicolas Simonis, Tong Hao, Jean-François Rual, Amélie Dricot, Alexei Vazquez, Ryan R Murray, Christophe Simon, Leah Tardivo, Stanley Tam, Nenad Svrzikapa, Changyu Fan, Anne-Sophie De Smet, Adriana Motyl, Michael E Hudson, Juyong Park, Xiaofeng Xin, Michael E Cusick, Troy Moore, Charlie Boone, Michael Snyder, Frederick P Roth, Albert-László Barabási, Jan Tavernier, David E Hill, Marc Vidal
Publication date
2008/10/3
Journal
Science
Volume
322
Issue
5898
Pages
104-110
Publisher
American Association for the Advancement of Science
Description
Current yeast interactome network maps contain several hundred molecular complexes with limited and somewhat controversial representation of direct binary interactions. We carried out a comparative quality assessment of current yeast interactome data sets, demonstrating that high-throughput yeast two-hybrid (Y2H) screening provides high-quality binary interaction information. Because a large fraction of the yeast binary interactome remains to be mapped, we developed an empirically controlled mapping framework to produce a “second-generation” high-quality, high-throughput Y2H data set covering ∼20% of all yeast binary interactions. Both Y2H and affinity purification followed by mass spectrometry (AP/MS) data are of equally high quality but of a fundamentally different and complementary nature, resulting in networks with different topological and biological properties. Compared to co-complex interactome …
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Scholar articles
H Yu, P Braun, MA Yıldırım, I Lemmens, K Venkatesan… - Science, 2008