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Literature DB >> 1628831

Signal transduction in Saccharomyces cerevisiae requires tyrosine and threonine phosphorylation of FUS3 and KSS1.

Abstract

The FUS3 and KSS1 kinases are components of the pheromone-dependent signal transduction pathway in yeast. We show that FUS3 and KSS1 become rapidly phosphorylated after pheromone treatment. Similar to mammalian MAP kinases, this modification occurs at two amino acids of FUS3, threonine-180 and tyrosine-182. A mutation introduced at either position results in complete loss of function in vivo. Amino acid substitutions that destroy catalytic activity of the kinase do not prevent phosphorylation of the mutant products, a result that excludes an autocatalytic activation pathway. The modification of FUS3 is dependent on kinases encoded by the STE11 and STE7 genes. Furthermore, a hyperactive allele of STE11 causes increased phosphorylation of FUS3 in the absence of pheromone stimulation. Thus, either STE7 or STE11 could be the kinase responsible for the phosphorylation of FUS3.

Entities: Chemical Gene Species

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Year: 1992 PMID： 1628831 DOI： 10.1101/gad.6.7.1280

Source DB: PubMed Journal: Genes Dev ISSN： 0890-9369 Impact factor: 11.361

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Cited

109 in total

1. Characterization of Fus3 localization: active Fus3 localizes in complexes of varying size and specific activity.

Authors: K Y Choi; J E Kranz; S K Mahanty; K S Park; E A Elion
Journal: Mol Biol Cell Date: 1999-05 Impact factor: 4.138

2. Specificity of MAP kinase signaling in yeast differentiation involves transient versus sustained MAPK activation.

Authors: W Sabbagh; L J Flatauer; A J Bardwell; L Bardwell
Journal: Mol Cell Date: 2001-09 Impact factor: 17.970

3. Relative dependence of different outputs of the Saccharomyces cerevisiae pheromone response pathway on the MAP kinase Fus3p.

Authors: F W Farley; B Satterberg; E J Goldsmith; E A Elion
Journal: Genetics Date: 1999-04 Impact factor: 4.562

4. Effect of the pheromone-responsive G(alpha) and phosphatase proteins of Saccharomyces cerevisiae on the subcellular localization of the Fus3 mitogen-activated protein kinase.

Authors: Ernest Blackwell; Izabel M Halatek; Hye-Jin N Kim; Alexis T Ellicott; Andrey A Obukhov; David E Stone
Journal: Mol Cell Biol Date: 2003-02 Impact factor: 4.272

5. Differential input by Ste5 scaffold and Msg5 phosphatase route a MAPK cascade to multiple outcomes.

Authors: Jessica Andersson; David M Simpson; Maosong Qi; Yunmei Wang; Elaine A Elion
Journal: EMBO J Date: 2004-06-10 Impact factor: 11.598

Review 6. MAPK machinery in plants: recognition and response to different stresses through multiple signal transduction pathways.

Authors: Gohar Taj; Payal Agarwal; Murray Grant; Anil Kumar
Journal: Plant Signal Behav Date: 2010-11-01

Review 10. Surface signaling in pathogenesis.

Authors: P E Kolattukudy; L M Rogers; D Li; C S Hwang; M A Flaishman
Journal: Proc Natl Acad Sci U S A Date: 1995-05-09 Impact factor: 11.205