Relative Dependence of Different Outputs of the Saccharomyces cerevisiae Pheromone Response Pathway on the MAP Kinase Fus3p

Relative Dependence of Different Outputs of the Saccharomyces cerevisiae Pheromone Response Pathway on the MAP Kinase Fus3p

Francis W. Farley^a, Brett Satterberg^a, Elizabeth J. Goldsmith^b, and Elaine A. Elion^a
^a Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, Massachusetts 02115
^b Department of Biochemistry, The University of Texas Southwestern Medical Center, Dallas, Texas 75235

Corresponding author: Elaine A. Elion, Harvard Medical School, Department of Biological Chemistry and Molecular Pharmacology, 240 Longwood Ave., Boston, MA 02115., elion{at}bcmp.med.harvard.edu (E-mail)

Communicating editor: E. W. JONES

Fus3p and Kss1p act at the end of a conserved signaling cascadethat mediates numerous cellular responses for mating. To determinethe role of Fus3p in different outputs, we isolated and characterizeda series of partial-function fus3 point mutants for their abilityto phosphorylate a substrate (Ste7p), activate Ste12p, undergoG1 arrest, form shmoos, select partners, mate, and recover.All the mutations lie in residues that are conserved among MAPkinases and are predicted to affect either enzyme activity orbinding to Ste7p or substrates. The data argue that Fus3p regulatesthe various outputs assayed through the phosphorylation of multiplesubstrates. Different levels of Fus3p function are requiredfor individual outputs, with the most function required forshmoo formation, the terminal output. The ability of Fus3p topromote shmoo formation strongly correlates with its abilityto promote G1 arrest, suggesting that the two events are coupled.Fus3p promotes recovery through a mechanism that is distinctfrom its ability to promote G1 arrest and may involve a mechanismthat does not require kinase activity. Moreover, catalyticallyinactive Fus3p inhibits the ability of active Fus3p to activateSte12p and hastens recovery without blocking G1 arrest or shmooformation. These results raise the possibility that in the absenceof sustained activation of Fus3p, catalytically inactive Fus3pblocks further differentiation by restoring mitotic growth.Finally, suppression analysis argues that Kss1p contributesto the overall pheromone response in a wild-type strain, butthat Fus3p is the critical kinase for all of the outputs tested.

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