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The Hsp70 homolog Ssb is essential for glucose sensing via the SNF1 kinase network

Authors :
Albert Sickmann
Ulrike von Plehwe
Marco Chiabudini
Astrid Petersen
Dietmar Pfeifer
Sabine Rospert
Uta Berndt
Edith Fitzke
Charlotte Conz
Source :
Genesdevelopment. 23(17)
Publication Year :
2009

Abstract

Yeast senses the availability of external energy sources via multiple interconnected signaling networks. One of the central components is SNF1, the homolog of mammalian AMP-activated protein kinase, which in yeast is essential for the expression of glucose-repressed genes. When glucose is available hyperphosphorylated SNF1 is rendered inactive by the type 1 protein phosphatase Glc7. Dephosphorylation requires Reg1, which physically targets Glc7 to SNF1. Here we show that the chaperone Ssb is required to keep SNF1 in the nonphosphorylated state in the presence of glucose. Using a proteome approach we found that the Δssb1Δssb2 strain displays alterations in protein expression and suffers from phenotypic characteristics reminiscent of glucose repression mutants. Microarray analysis revealed a correlation between deregulation on the protein and on the transcript level. Supporting studies uncovered that SSB1 was an effective multicopy suppressor of severe growth defects caused by the Δreg1 mutation. Suppression of Δreg1 by high levels of Ssb was coupled to a reduction of Snf1 hyperphosphorylation back to the wild-type phosphorylation level. The data are consistent with a model in which Ssb is crucial for efficient regulation within the SNF1 signaling network, thereby allowing an appropriate response to changing glucose levels.

Details

ISSN :
15495477
Volume :
23
Issue :
17
Database :
OpenAIRE
Journal :
Genesdevelopment
Accession number :
edsair.doi.dedup.....453e79a2b7ef573721b59f0f590028b7