Kouhei Takenaka scite author profile

Kouhei Takenaka

3Publications

9Citation Statements Received

103Citation Statements Given

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Shimane University

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Overexpression of the transcription factor Rst2 inSchizosaccharomyces pombeindicates growth defect, mitotic defects, and microtubule disorder

Takenaka

Tanabe

Kawamukai

et al. 2018

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In Schizosaccharomyces pombe, the transcription factor Rst2 regulates ste11 in meiosis and fbp1 in glucogenesis downstream of the cyclic adenosine monophosphate (cAMP)-dependent protein kinase (PKA) pathway. Here, we demonstrate that Rst2 regulates additional cellular events. Overexpressed Rst2 elevated the frequency of oval, bent, branched, septated, and multi-septated cells. Cells showed normal nuclear divisions but exhibited abnormal nuclear organization at low frequency. In oval cells, microtubules were curved but they were rescued by the deletion of mal3. Since growth defect was not rescued by mal3 deletion, we argue that it is regulated independently. Loss of functional Pka1 exaggerated growth defect upon Rst2 overexpression because its downregulation by Pka1 was lost. Overexpression of Rst2 also caused sensitivity to KCl and CaCl. These findings suggest that, in addition to meiosis and glucogenesis, Rst2 is involved in cellular events such as regulation of cell growth, cell morphology, mitosis progression, microtubules structure, nuclear structure, and stress response.

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Tfs1, transcription elongation factor TFIIS, has an impact on chromosome segregation affected by pka1 deletion in Schizosaccharomyces pombe

et al. 2023

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The cAMP-dependent protein kinase (PKA) pathway in Schizosaccharomyces pombe plays an important role in microtubule organization and chromosome segregation. Typically, loss of functional Pka1 induces sensitivity to the microtubule-destabilizing drug thiabendazole (TBZ) and chromosome mis-segregation.To determine the mechanism via which Pka1 is involved in these events, we explored the relevance of transcription factors by creating a double-deletion strain of pka1 and 102 individual genes encoding transcription factors. We found that rst2∆, tfs1∆, mca1∆, and moc3∆ suppressed the TBZ-sensitive phenotype of the pka1∆ strain, among which tfs1∆ was the strongest suppressor. All single mutants (rst2∆, tfs1∆, mca1∆, and moc3∆) showed a TBZ-tolerant phenotype. Tfs1 has two transcriptional domains (TFIIS and Zn nger domains), both of which contributed to the suppression of the pka1∆induced TBZ-sensitive phenotype. pka1∆-induced chromosome mis-segregation was rescued by tfs1∆ in the presence of TBZ. tfs1 overexpression induced the TBZ-sensitive phenotype and a high frequency of chromosome mis-segregation, suggesting that the amount of Tfs1 must be strictly controlled. However, Tfs1-expression levels did not differ between the wild-type and pka1∆ strains, and the Tfs1-GFP protein was localized to the nucleus and cytoplasm in both strains, which excludes the direct regulation of expression and localization of Tfs1 by Pka1. Growth inhibition by TBZ in pka1∆ strains was notably rescued by double deletion of rst2 and tfs1 rather than single deletion of rst2 or tfs1, indicating that Rst2 and Tfs1 contribute independently to counteract TBZ toxicity. Our ndings highlight Tfs1 as a key transcription factor for proper chromosome segregation.

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Tfs1, transcription elongation factor TFIIS, has an impact on chromosome segregation affected by pka1 deletion in Schizosaccharomyces pombe

Takenaka

Nishioka

Nishida

et al. 2023

Preprint

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The cAMP-dependent protein kinase (PKA) pathway in Schizosaccharomyces pombe plays an important role in microtubule organization and chromosome segregation. Typically, loss of functional Pka1 induces sensitivity to the microtubule-destabilizing drug thiabendazole (TBZ) and chromosome mis-segregation. To determine the mechanism via which Pka1 is involved in these events, we explored the relevance of transcription factors by creating a double-deletion strain of pka1 and 102 individual genes encoding transcription factors. We found that rst2∆, tfs1∆, mca1∆, and moc3∆ suppressed the TBZ-sensitive phenotype of the pka1∆ strain, among which tfs1∆ was the strongest suppressor. All single mutants (rst2∆, tfs1∆, mca1∆, and moc3∆) showed a TBZ-tolerant phenotype. Tfs1 has two transcriptional domains (TFIIS and Zn finger domains), both of which contributed to the suppression of the pka1∆-induced TBZ-sensitive phenotype. pka1∆-induced chromosome mis-segregation was rescued by tfs1∆ in the presence of TBZ. tfs1 overexpression induced the TBZ-sensitive phenotype and a high frequency of chromosome mis-segregation, suggesting that the amount of Tfs1 must be strictly controlled. However, Tfs1-expression levels did not differ between the wild-type and pka1∆ strains, and the Tfs1-GFP protein was localized to the nucleus and cytoplasm in both strains, which excludes the direct regulation of expression and localization of Tfs1 by Pka1. Growth inhibition by TBZ in pka1∆ strains was notably rescued by double deletion of rst2 and tfs1 rather than single deletion of rst2 or tfs1, indicating that Rst2 and Tfs1 contribute independently to counteract TBZ toxicity. Our findings highlight Tfs1 as a key transcription factor for proper chromosome segregation.

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Kouhei Takenaka

Overexpression of the transcription factor Rst2 inSchizosaccharomyces pombeindicates growth defect, mitotic defects, and microtubule disorder

Tfs1, transcription elongation factor TFIIS, has an impact on chromosome segregation affected by pka1 deletion in Schizosaccharomyces pombe

Tfs1, transcription elongation factor TFIIS, has an impact on chromosome segregation affected by pka1 deletion in Schizosaccharomyces pombe

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