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Published October 25, 2002 | public
Journal Article Metadata-only

Transcriptional Regulatory Networks in Saccharomyces cerevisiae

Lee, Tong Ihn
Rinaldi, Nicola J.
Robert, François
Odom, Duncan T.
Bar-Joseph, Ziv
Gerber, Georg K.
Hannett, Nancy M.
Harbison, Christopher T.
Thompson, Craig M.
Simon, Itamar
Zeitlinger, Julia
Jennings, Ezra G.
Murray, Heather L.
Gordon, D. Benjamin
Ren, Bing ORCID icon
Wyrick, John J.
Tagne, Jean Bosco
Volkert, Thomas L.
Fraenkel, Ernest
Gifford, David K.
Young, Richard A.

Abstract

We have determined how most of the transcriptional regulators encoded in the eukaryote Saccharomyces cerevisiaeassociate with genes across the genome in living cells. Just as maps of metabolic networks describe the potential pathways that may be used by a cell to accomplish metabolic processes, this network of regulator-gene interactions describes potential pathways yeast cells can use to regulate global gene expression programs. We use this information to identify network motifs, the simplest units of network architecture, and demonstrate that an automated process can use motifs to assemble a transcriptional regulatory network structure. Our results reveal that eukaryotic cellular functions are highly connected through networks of transcriptional regulators that regulate other transcriptional regulators.

Additional Information

© 2002 American Association for the Advancement of Science. 14 June 2002; accepted 16 August 2002. We thank J. Terragni, D. Pokholok, J. Lange, and E. Kanin for experimental support; J. Liang for assistance with the supporting Web site; and R. DeShaies, T. Ideker, and T. Jaakkola for helpful discussions. Supported by fellowships from the National Cancer Institute of Canada (F.R.), the Human Frontier Science Program (J.Z.), the Sloan/U.S. Department of Energy Program for Computational Molecular Biology (D.T.O.), the Program in Mathematics and Molecular Biology at Florida State University and Burroughs Wellcome Fund Interfaces Program (Z.B.-J.), and the Helen Hay Whitney Foundation (B.R.). Supported by grants from NIH and Corning Inc.

Additional details

Identifiers Related works Funding Dates
Created:
August 19, 2023
Modified:
October 18, 2023