Cdc25 is not the signal receiver for glucose induced cAMP response in S. cerevisiae

Doron Goldberg; Marisa Segal; Alexander Levitzki

doi:10.1016/0014-5793(94)01273-3

Cdc25 is not the signal receiver for glucose induced cAMP response in S. cerevisiae

Doron Goldberg
, Marisa Segal
, Alexander Levitzki^*

^*Corresponding author for this work

Alexander Silberman Institute of Life Sciences

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

The Ras/cAMP pathway in the yeast S. cerevisiae couples the cell cycle of this unicellular organism to the availability of nutrients. Glucose derepressed S. cerevisiae cells respond to glucose addition by an intracellular rise in cAMP. In the prevailing model, yeast Ras plays a similar role to that of heterotrimeric G-proteins coupled to cell surface receptors. A crucial element of this model is that the exchanger, Cdc25 is activated by glucose. Such activation would result in a glucose-dependent rise in GTP-bound Ras concentration. We here show, in contrast to this view, that Cdc25 cannot be the receiver of the glucose signal. We suggest that the Ras-GTP/cyclase complex is the molecular element directly receiving the signal while Cdc25-dependent exchange constitutes a prerequisite for complex formation.

Original language	English
Pages (from-to)	249-254
Number of pages	6
Journal	FEBS Letters
Volume	356
Issue number	2-3
DOIs	https://doi.org/10.1016/0014-5793(94)01273-3
State	Published - 19 Dec 1994

Keywords

Adenylyl cyclase
Cdc25
Cyclic adenosine monophosphate
Glucose response
Ras
S. cerevisiae

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10.1016/0014-5793(94)01273-3

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title = "Cdc25 is not the signal receiver for glucose induced cAMP response in S. cerevisiae",

abstract = "The Ras/cAMP pathway in the yeast S. cerevisiae couples the cell cycle of this unicellular organism to the availability of nutrients. Glucose derepressed S. cerevisiae cells respond to glucose addition by an intracellular rise in cAMP. In the prevailing model, yeast Ras plays a similar role to that of heterotrimeric G-proteins coupled to cell surface receptors. A crucial element of this model is that the exchanger, Cdc25 is activated by glucose. Such activation would result in a glucose-dependent rise in GTP-bound Ras concentration. We here show, in contrast to this view, that Cdc25 cannot be the receiver of the glucose signal. We suggest that the Ras-GTP/cyclase complex is the molecular element directly receiving the signal while Cdc25-dependent exchange constitutes a prerequisite for complex formation.",

keywords = "Adenylyl cyclase, Cdc25, Cyclic adenosine monophosphate, Glucose response, Ras, S. cerevisiae",

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T1 - Cdc25 is not the signal receiver for glucose induced cAMP response in S. cerevisiae

AU - Goldberg, Doron

AU - Segal, Marisa

AU - Levitzki, Alexander

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N2 - The Ras/cAMP pathway in the yeast S. cerevisiae couples the cell cycle of this unicellular organism to the availability of nutrients. Glucose derepressed S. cerevisiae cells respond to glucose addition by an intracellular rise in cAMP. In the prevailing model, yeast Ras plays a similar role to that of heterotrimeric G-proteins coupled to cell surface receptors. A crucial element of this model is that the exchanger, Cdc25 is activated by glucose. Such activation would result in a glucose-dependent rise in GTP-bound Ras concentration. We here show, in contrast to this view, that Cdc25 cannot be the receiver of the glucose signal. We suggest that the Ras-GTP/cyclase complex is the molecular element directly receiving the signal while Cdc25-dependent exchange constitutes a prerequisite for complex formation.

AB - The Ras/cAMP pathway in the yeast S. cerevisiae couples the cell cycle of this unicellular organism to the availability of nutrients. Glucose derepressed S. cerevisiae cells respond to glucose addition by an intracellular rise in cAMP. In the prevailing model, yeast Ras plays a similar role to that of heterotrimeric G-proteins coupled to cell surface receptors. A crucial element of this model is that the exchanger, Cdc25 is activated by glucose. Such activation would result in a glucose-dependent rise in GTP-bound Ras concentration. We here show, in contrast to this view, that Cdc25 cannot be the receiver of the glucose signal. We suggest that the Ras-GTP/cyclase complex is the molecular element directly receiving the signal while Cdc25-dependent exchange constitutes a prerequisite for complex formation.

KW - Adenylyl cyclase

KW - Cdc25

KW - Cyclic adenosine monophosphate

KW - Glucose response

KW - Ras

KW - S. cerevisiae

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ER -

Cdc25 is not the signal receiver for glucose induced cAMP response in S. cerevisiae

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Keywords

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