A Protein Interaction Map of <i>Drosophila melanogaster</i>

Loïc Giot; Joel S. Bader; Cory Brouwer; Arunima Chaudhuri; Baizeng Kuang; Y. Li; Yameng Hao; Clara Ooi; Bailey Godwin; E. Vitols; Govindan Vijayadamodar; Pascale Pochart; H. Machineni; Michael J. Welsh; Yong Kong; B. Zerhusen; Rachel D. Malcolm; Z. Varrone; Andrew J. Collis; M. Minto; Shane C. Burgess; L. Patrice McDaniel; Eric E. Stimpson; Frank Spriggs; Jessica F. Williams; K. Neurath; N. Ioime; Michelle Agee; Edward Z. Voss; Krystyna Furtak; R. Renzulli; N. Aanensen; S. Carrolla; E. Bickelhaupt; Y. Lazovatsky; A. DaSilva; Jiancheng Zhong; Clement A. Stanyon; Russell L. Finley; Kevin P. White; Michael Braverman; Thomas Jarvie; Stephen J. Gold; Martin Leach; James Knight; Richard A. Shimkets; Michael P. McKenna; John Chant; Jonathan M. Rothberg

doi:10.1126/science.1090289

A Protein Interaction Map of <i>Drosophila melanogaster</i>

Loïc Giot(Wayne State University), Joel S. Bader(Wayne State University), Cory Brouwer(Wayne State University), Arunima Chaudhuri(Wayne State University), Baizeng Kuang(Wayne State University), Y. Li(Wayne State University), Yameng Hao(Wayne State University), Clara Ooi(Wayne State University), Bailey Godwin(Wayne State University), E. Vitols(Wayne State University), Govindan Vijayadamodar(Wayne State University), Pascale Pochart(Wayne State University), H. Machineni(Wayne State University), Michael J. Welsh(Wayne State University), Yong Kong(Wayne State University), B. Zerhusen(Wayne State University), Rachel D. Malcolm(Wayne State University), Z. Varrone(Wayne State University), Andrew J. Collis(Wayne State University), M. Minto(Wayne State University), Shane C. Burgess(Wayne State University), L. Patrice McDaniel(Wayne State University), Eric E. Stimpson(Wayne State University), Frank Spriggs(Wayne State University), Jessica F. Williams(Wayne State University), K. Neurath(Wayne State University), N. Ioime(Wayne State University), Michelle Agee(Wayne State University), Edward Z. Voss(Wayne State University), Krystyna Furtak(Wayne State University), R. Renzulli(Wayne State University), N. Aanensen(Wayne State University), S. Carrolla(Wayne State University), E. Bickelhaupt(Wayne State University), Y. Lazovatsky(Wayne State University), A. DaSilva(Wayne State University), Jiancheng Zhong(Wayne State University), Clement A. Stanyon(Wayne State University), Russell L. Finley(Wayne State University), Kevin P. White(Wayne State University), Michael Braverman(Wayne State University), Thomas Jarvie(Wayne State University), Stephen J. Gold(Wayne State University), Martin Leach(Wayne State University), James Knight(Wayne State University), Richard A. Shimkets(Wayne State University), Michael P. McKenna(Wayne State University), John Chant(Wayne State University), Jonathan M. Rothberg(Wayne State University)

Science

November 10, 2003

10.1126/science.1090289

Cited by 2,275

Abstract

Drosophila melanogaster is a proven model system for many aspects of human biology. Here we present a two-hybrid-based protein-interaction map of the fly proteome. A total of 10,623 predicted transcripts were isolated and screened against standard and normalized complementary DNA libraries to produce a draft map of 7048 proteins and 20,405 interactions. A computational method of rating two-hybrid interaction confidence was developed to refine this draft map to a higher confidence map of 4679 proteins and 4780 interactions. Statistical modeling of the network showed two levels of organization: a short-range organization, presumably corresponding to multiprotein complexes, and a more global organization, presumably corresponding to intercomplex connections. The network recapitulated known pathways, extended pathways, and uncovered previously unknown pathway components. This map serves as a starting point for a systems biology modeling of multicellular organisms, including humans.

Related Papers

No related papers found

Powered by citation graph analysis