V. V. Voronkova scite author profile

In Saccharomyces cerevisiae, the protein phosphatase type 1 (PP1)-binding protein Reg1 is required to maintain complete repression of ADH2 expression during growth on glucose. Surprisingly, however, mutant forms of the yeast PP1 homologue Glc7, which are unable to repress expression of another glucose-regulated gene, SUC2, fully repressed ADH2. Constitutive ADH2 expression in reg1 mutant cells did require Snf1 protein kinase activity like constitutive SUC2 expression and was inhibited by unregulated cyclic AMP-dependent protein kinase activity like ADH2 expression in derepressed cells. To further elucidate the functional role of Reg1 in repressing ADH2 expression, deletions scanning the entire length of the protein were analyzed. Only the central region of the protein containing the putative PP1-binding sequence RHIHF was found to be indispensable for repression. Introduction of the I466M F468A substitutions into this sequence rendered Reg1 almost nonfunctional. Deletion of the central region or the double substitution prevented Reg1 from significantly interacting with Glc7 in two-hybrid analyses. Previous experimental evidence had indicated that Reg1 might target Glc7 to nuclear substrates such as the Snf1 kinase complex. Subcellular localization of a fully functional Reg1-green fluorescent protein fusion, however, indicated that Reg1 is cytoplasmic and excluded from the nucleus independently of the carbon source. When the level of Adr1 was modestly elevated, ADH2 expression was no longer fully repressed in glc7 mutant cells, providing the first direct evidence that Glc7 can repress ADH2 expression. These results suggest that the Reg1-Glc7 phosphatase is a cytoplasmic component of the machinery responsible for returning Snf1 kinase activity to its basal level and reestablishing glucose repression. This implies that the activated form of the Snf1 kinase complex must cycle between the nucleus and the cytoplasm.

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Snf1-Dependent and Snf1-Independent Pathways of Constitutive ADH2 Expression in Saccharomyces cerevisiae

Voronkova

Kacherovsky

Tachibana

et al. 2006

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The transcription factor Adr1 directly activates the expression of genes encoding enzymes in numerous pathways that are upregulated after the exhaustion of glucose in the yeast Saccharomyces cerevisiae. ADH2, encoding the alcohol dehydrogenase isozyme required for ethanol oxidation, is a highly glucoserepressed, Adr1-dependent gene. Using a genetic screen we isolated .100 mutants in 12 complementation groups that exhibit ADR1-dependent constitutive ADH2 expression on glucose. Temperature-sensitive alleles are present among the new constitutive mutants, indicating that essential genes play a role in ADH2 repression. Among the genes we cloned is MOT1, encoding a repressor that inhibits TBP binding to the promoter, thus linking glucose repression with TBP access to chromatin. Two genes encoding proteins involved in vacuolar function, FAB1 and VPS35, and CDC10, encoding a nonessential septin, were also uncovered in the search, suggesting that vacuolar function and the cytoskeleton have previously unknown roles in regulating gene expression. Constitutive activation of ADH2 expression by Adr1 is SNF1-dependent in a strain with a defective MOT1 gene, whereas deletion of SNF1 did not affect constitutive ADH2 expression in the mutants affecting vacuolar or septin function. Thus, the mutant search revealed previously unknown Snf1-dependent and -independent pathways of ADH2 expression.

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Complete structural analysis of fatty acid mixtures by thin-layer chromatography

Bergel'son

Dyatlovitskaya

Voronkova

1964

Journal of Chromatography A

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Thermal and Photochemical Decomposition of Herbicide Derivatives of N-Carbamoyl-N-Arylhydroxylamines

Chekareva

Voronkova

Baskakov

et al. 1979

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Unsaturated acids and macrocyclic lactones

et al. 1962

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Thin-layer chromatography of isomeric monounsaturated fatty acids

1963

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ChemInform Abstract: THERMISCHE ZERS. VON N‐METHYLCARBAMOYL‐N‐PHENYL‐HYDROXYLAMIN

Voronkova¹,

Baskakov²,

Chekareva³

et al. 1972

Chemischer Informationsdienst

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Peculiarities of anesthesia of maxillary incisors in case of periapical inflammation

Kuzin¹,

Voronkova²,

Stafeeva³

2015

Ross. stomatol.

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V. V. Voronkova

Functional Analysis of the Yeast Glc7-Binding Protein Reg1 Identifies a Protein Phosphatase Type 1-Binding Motif as Essential for Repression of ADH2 Expression

Snf1-Dependent and Snf1-Independent Pathways of Constitutive ADH2 Expression in Saccharomyces cerevisiae

Complete structural analysis of fatty acid mixtures by thin-layer chromatography

Thermal and Photochemical Decomposition of Herbicide Derivatives of N-Carbamoyl-N-Arylhydroxylamines

Unsaturated acids and macrocyclic lactones

Thin-layer chromatography of isomeric monounsaturated fatty acids

ChemInform Abstract: THERMISCHE ZERS. VON N‐METHYLCARBAMOYL‐N‐PHENYL‐HYDROXYLAMIN

Peculiarities of anesthesia of maxillary incisors in case of periapical inflammation

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