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42 results on '"Olivier, Gadal"'

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1. RNA polymerase I mutant affects ribosomal RNA processing and ribosomal DNA stability

2. The dual life of disordered lysine-rich domains of snoRNPs in rRNA modification and nucleolar compaction

3. Coupling Between Production of Ribosomal RNA and Maturation: Just at the Beginning

4. Non-Coding, RNAPII-Dependent Transcription at the Promoters of rRNA Genes Regulates Their Chromatin State in S. cerevisiae

5. Excessive rDNA Transcription Drives the Disruption in Nuclear Homeostasis during Entry into Senescence in Budding Yeast

6. Genetic analyses led to the discovery of a super-active mutant of the RNA polymerase I.

7. A ribosome assembly stress response regulates transcription to maintain proteome homeostasis

8. Non-Coding, RNAPII-Dependent Transcription at the Promoters of rRNA Genes Regulates Their Chromatin State in S. cerevisiae

9. Nuclear envelope expansion in budding yeast is independent of cell growth and does not determine nuclear volume

10. Regulation of Cohesin-Mediated Chromosome Folding by Eco1 and Other Partners

11. A major role for Eco1 in regulating cohesin-mediated mitotic chromosome folding

12. Quantification of the dynamic behaviour of ribosomal DNA genes and nucleolus during yeast Saccharomyces cerevisiae cell cycle

13. Rouse model with transient intramolecular contacts on a timescale of seconds recapitulates folding and fluctuation of yeast chromosomes

14. Genetic analyses led to the discovery of a super-active mutant of the RNA polymerase I

15. High resolution microscopy reveals the nuclear shape of budding yeast during cell cycle and in various biological states

16. Decoding the principles underlying the frequency of association with nucleoli for RNA polymerase III–transcribed genes in budding yeast

17. Nucleolar stress causes the entry into replicative senescence in budding yeast

18. Capturing Chromosome Structural Properties From Their Spatial and Temporal Fluctuations

19. Principles of chromatin organization in yeast: relevance of polymer models to describe nuclear organization and dynamics

20. RNA polymerase I mutant affects ribosomal RNA processing and ribosomal DNA stability.

21. Meeting report from the first European OddPols meeting: Toulouse 2018.

22. The conserved RNA-binding protein Seb1 promotes cotranscriptional ribosomal RNA processing by controlling RNA polymerase I progression.

25. Association of snR190 snoRNA chaperone with early pre-60S particles is regulated by the RNA helicase Dbp7 in yeast.

26. Non-Coding, RNAPII-Dependent Transcription at the Promoters of rRNA Genes Regulates Their Chromatin State in S. cerevisiae.

27. Impact of DNA methylation on 3D genome structure

29. Genetic analyses led to the discovery of a super-active mutant of the RNA polymerase I.

31. From dynamic chromatin architecture to DNA damage repair and back.

32. High resolution microscopy reveals the nuclear shape of budding yeast during cell cycle and in various biological states.

33. Studying Coxiella burnetii Type IV Substrates in the Yeast Saccharomyces cerevisiae: Focus on Subcellular Localization and Protein Aggregation.

34. Lipid Droplets Are a Physiological Nucleoporin Reservoir.

35. Quantitative analysis of chromatin dynamics and nuclear geometry in living yeast cells

36. The path of pre-ribosomes through the nuclear pore complex revealed by electron tomography.

39. University of Toulouse Researchers Have Published New Data on DNA-Directed DNA Polymerase (RNA polymerase I mutant affects ribosomal RNA processing and ribosomal DNA stability)

40. Epigenetics and Systems Biology

41. Reports Outline Biochemistry Study Findings from University of Sao Paulo (Nucleolar localization of the yeast RNA exosome subunit Rrp44 hints at early pre-rRNA processing as its main function)

42. Research Reports on Molecular Bioscience from National Center for Scientific Research (CNRS) Provide New Insights (Coupling Between Production of Ribosomal RNA and Maturation: Just at the Beginning)

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