Yeast Carbon Catabolite Repression
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TLDR
It is possible in certain cases to propose a partial model of the way in which the different elements involved in catabolite repression may be integrated, and preliminary evidence suggests that Snf1 is in a dephosphorylated state under these conditions.Abstract:
Glucose and related sugars repress the transcription of genes encoding enzymes required for the utilization of alternative carbon sources; some of these genes are also repressed by other sugars such as galactose, and the process is known as catabolite repression. The different sugars produce signals which modify the conformation of certain proteins that, in turn, directly or through a regulatory cascade affect the expression of the genes subject to catabolite repression. These genes are not all controlled by a single set of regulatory proteins, but there are different circuits of repression for different groups of genes. However, the protein kinase Snf1/Cat1 is shared by the various circuits and is therefore a central element in the regulatory process. Snf1 is not operative in the presence of glucose, and preliminary evidence suggests that Snf1 is in a dephosphorylated state under these conditions. However, the enzymes that phosphorylate and dephosphorylate Snf1 have not been identified, and it is not known how the presence of glucose may affect their activity. What has been established is that Snf1 remains active in mutants lacking either the proteins Grr1/Cat80 or Hxk2 or the Glc7 complex, which functions as a protein phosphatase. One of the main roles of Snf1 is to relieve repression by the Mig1 complex, but it is also required for the operation of transcription factors such as Adr1 and possibly other factors that are still unidentified. Although our knowledge of catabolite repression is still very incomplete, it is possible in certain cases to propose a partial model of the way in which the different elements involved in catabolite repression may be integrated.read more
Citations
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Journal ArticleDOI
Phenotypic characterization of glucose repression mutants of Saccharomyces cerevisiae using experiments with 13C-labelled glucose.
Vijayendran Raghevendran,Andreas Karoly Gombert,Bjarke Christensen,Peter Kötter,Jens Nielsen +4 more
TL;DR: Principal components analysis of the summed fractional labelling data show that deleting the genes HXK2 and GRR1 results in similar phenotype at the fluxome level, with a partial alleviation of glucose repression on the respiratory metabolism.
Journal ArticleDOI
Cat8p, the activator of gluconeogenic genes in Saccharomyces cerevisiae, regulates carbon source-dependent expression of NADP-dependent cytosolic isocitrate dehydrogenase (Idp2p) and lactate permease (Jen1p).
N. Bojunga,K D Entian +1 more
TL;DR: The results presented in this study support a model in which Cat8p-dependent gene activation is not restricted to gluconeogenesis, but targets a wide variety of genes which are strongly derepressed under non-fermentative growth conditions.
Journal ArticleDOI
Hexokinase regulates kinetics of glucose transport and expression of genes encoding hexose transporters in Saccharomyces cerevisiae.
Thomas Petit,Thomas Petit,Jasper A. Diderich,Arthur L. Kruckeberg,Carlos Gancedo,Karel van Dam +5 more
TL;DR: Glucose transport kinetics and mRNA levels of different glucose transporters were determined in Saccharomyces cerevisiae strains expressing different sugar kinases during exponential growth on glucose, revealing that the high-affinity component is mostly due to HXT7; however, a previously unidentified very-high-Affinity component appeared to be due to other factors.
Journal ArticleDOI
Mitochondrial proline catabolism activates Ras1/cAMP/PKA-induced filamentation in Candida albicans.
Fitz Gerald S. Silao,Meliza Ward,Kicki Ryman,Axel Wallstrom,Björn Brindefalk,Klas I. Udekwu,Per O. Ljungdahl +6 more
TL;DR: It is shown that the morphogenic amino acids arginine, ornithine and proline are internalized and metabolized in mitochondria via a PUT1- and PUT2-dependent pathway that results in enhanced ATP production, indicating that mitochondrial-generated ATP, not CO2, is the primary morphogenic signal derived fromArginine metabolism.
Book ChapterDOI
From feast to famine; adaptation to nutrient availability in yeast
TL;DR: The study of signal transduction in microorganisms has become a major research topic in molecular and cellular biology and is now being acknowledged as a major importance for food, feed, and nutritional R&D.
References
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Journal ArticleDOI
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Journal ArticleDOI
Characterization of the AMP-activated Protein Kinase Kinase from Rat Liver and Identification of Threonine 172 as the Major Site at Which It Phosphorylates AMP-activated Protein Kinase
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