Julia Ilyina scite author profile

Julia Ilyina

3Publications

1Citation Statement Received

0Citation Statements Given

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Affiliations

Petersburg Nuclear Physics Institute, University of Stuttgart

Publications

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Sit4 Phosphatase Is Functionally Linked to the Ubiquitin-Proteasome System

Singer¹,

Haefner²,

Hoffmann

et al. 2003

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Using a synthetic lethality screen we found that the Sit4 phosphatase is functionally linked to the ubiquitin-proteasome system. Yeast cells harboring sit4 mutations and an impaired proteasome (due to pre1-1 pre4-1 mutations) exhibited defective growth on minimal medium. Nearly identical synthetic effects were found when sit4 mutations were combined with defects of the Rad6/Ubc2- and Cdc34/Ubc3-dependent ubiquitination pathways. Under synthetic lethal conditions, sit4 pre or sit4 ubc mutants formed strongly enlarged unbudded cells with a DNA content of 1N, indicating a defect in the maintenance of cell integrity during starvation-induced G1 arrest. Sit4-related synthetic effects could be cured by high osmotic pressure or by the addition of certain amino acids to the growth medium. These results suggest a concerted function of the Sit4 phosphatase and the ubiquitin-proteasome system in osmoregulation and in the sensing of nutrients. Further analysis showed that Sit4 is not a target of proteasome-dependent protein degradation. We could also show that Sit4 does not contribute to regulation of proteasome activity. These data suggest that both Sit4 phosphatase and the proteasome act on a common target protein.

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Epigenetic regulation of Drosophila nonautonomous p-element transpositions at different temperatures of development

Ilyina

Kotlovanova

Konev

et al. 2009

Ecological genetics

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In a system of Drosophila P-element activation at 25 °С and 18 °С we observed the increase of the gene conversion frequency among the offspring of parents containing nonautonomous P-elements and a chromosome with rad201<sup>G1</sup> mutation in genome. The similar increase of conversion events in this system was shown in the experiments with mutation mei41D5. In both cases inheritance of the increased gene conversion frequency had an epigenetic character, since increased conversion was observed also among the offspring not carrying mutations rad201<sup>G1</sup> or mei41D5.

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Functions of the proteasome in cell cycle and apoptosis

Hilt¹,

Velten²,

Ligr³

et al. 2002

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Julia Ilyina

Sit4 Phosphatase Is Functionally Linked to the Ubiquitin-Proteasome System

Epigenetic regulation of Drosophila nonautonomous p-element transpositions at different temperatures of development

Functions of the proteasome in cell cycle and apoptosis

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