Unique and Redundant Roles for HOG MAPK Pathway Components as Revealed by Whole-Genome Expression Analysis

Sean M. O'Rourke^*, and Ira Herskowitz

Department of Biochemistry and Biophysics, University of California, San Francisco, San Francisco, California 94143-0448

Submitted July 23, 2003; Revised September 30, 2003; Accepted October 1, 2003
Monitoring Editor: Pamela Silver

The Saccharomyces cerevisiae high osmolarity glycerol (HOG)mitogen-activated protein kinase pathway is required for osmoadaptationand contains two branches that activate a mitogen-activatedprotein kinase (Hog1) via a mitogen-activated protein kinasekinase (Pbs2). We have characterized the roles of common pathwaycomponents (Hog1 and Pbs2) and components in the two upstreambranches (Ste11, Sho1, and Ssk1) in response to elevated osmolarityby using whole-genome expression profiling. Several new featuresof the HOG pathway were revealed. First, Hog1 functions duringgene induction and repression, cross talk inhibition, and ingoverning the regulatory period. Second, the phenotypes of pbs2and hog1 mutants are identical, indicating that the sole roleof Pbs2 is to activate Hog1. Third, the existence of genes whoseinduction is dependent on Hog1 and Pbs2 but not on Ste11 andSsk1 suggests that there are additional inputs into Pbs2 underour inducing conditions. Fourth, the two upstream pathway branchesare not redundant: the Sln1-Ssk1 branch has a much more prominentrole than the Sho1-Ste11 branch for activation of Pbs2 by modestosmolarity. Finally, the general stress response pathway andboth branches of the HOG pathway all function at high osmolarity.These studies demonstrate that cells respond to increased osmolarityby using different signal transduction machinery under differentconditions.

Article published online ahead of print. Mol. Biol. Cell 10.1091/mbc.E03-07-0521.Article and publication date are available at www.molbiolcell.org/cgi/doi/10.1091/mbc.E03-07-0521.

Online version of this article contains supplementary material.Online version is available at www.molbiolcell.org.

^* Present address: Institute of Molecular Biology, 1229 Universityof Oregon, Eugene, OR 97403-1229.

Corresponding author. E-mail address: seanor{at}molbio.uoregon.edu.

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