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- Title
Proteome survey reveals modularity of the yeast cell machinery.
- Authors
Gavin, Anne-Claude; Aloy, Patrick; Grandi, Paola; Krause, Roland; Boesche, Markus; Marzioch, Martina; Rau, Christina; Jensen, Lars Juhl; Bastuck, Sonja; Dümpelfeld, Birgit; Edelmann, Angela; Heurtier, Marie-Anne; Hoffman, Verena; Hoefert, Christian; Klein, Karin; Hudak, Manuela; Michon, Anne-Marie; Schelder, Malgorzata; Schirle, Markus; Remor, Marita; Rudi, Tatjana; Hooper, Sean; Bauer, Andreas; Bouwmeester, Tewis; Casari, Georg; Drewes, Gerard; Neubauer, Gitte; Rick, Jens M; Kuster, Bernhard; Bork, Peer; Russell, Robert B; Superti-Furga, Giulio
- Abstract
Protein complexes are key molecular entities that integrate multiple gene products to perform cellular functions. Here we report the first genome-wide screen for complexes in an organism, budding yeast, using affinity purification and mass spectrometry. Through systematic tagging of open reading frames (ORFs), the majority of complexes were purified several times, suggesting screen saturation. The richness of the data set enabled a de novo characterization of the composition and organization of the cellular machinery. The ensemble of cellular proteins partitions into 491 complexes, of which 257 are novel, that differentially combine with additional attachment proteins or protein modules to enable a diversification of potential functions. Support for this modular organization of the proteome comes from integration with available data on expression, localization, function, evolutionary conservation, protein structure and binary interactions. This study provides the largest collection of physically determined eukaryotic cellular machines so far and a platform for biological data integration and modelling.
- Publication
Nature, 2006, Vol 440, Issue 7084, p631
- ISSN
1476-4687
- Publication type
Journal Article
- DOI
10.1038/nature04532