Olga Khorosjutina scite author profile

In Saccharomyces cerevisiae Mediator, a subgroup of proteins (Srb8, Srb9, Srb10, and Srb11) form a module, which is involved in negative regulation of transcription. Homologues of Srb10 and Srb11 are found in some mammalian Mediator preparations, whereas no clear homologues have been reported for Srb8 and Srb9. Here, we identify a TRAP240͞ARC250 homologue in Schizosaccharomyces pombe and demonstrate that this protein, spTrap240, is stably associated with a larger form of Mediator, which also contains conserved homologues of Srb8, Srb10, and Srb11. We find that spTrap240 and Sch. pombe Srb8 (spSrb8) regulate the same distinct subset of genes and have indistinguishable phenotypic characteristics. Importantly, Mediator containing the spSrb8͞spTrap240͞spSrb10͞spSrb11 subunits is isolated only in free form, devoid of RNA polymerase II. In contrast, Mediator lacking this module associates with the polymerase. Our findings provide experimental evidence for recent suggestions that TRAP230͞ARC240 and TRAP240͞ARC250 may indeed be the Srb8 and Srb9 homologues of mammalian Mediator. Apparently Srb8͞ TRAP230͞ARC240, Srb9͞TRAP240͞ARC250, Srb10, and Srb11 constitute a conserved Mediator submodule, which is involved in negative regulation of transcription in all eukaryotes.Schizosaccharomyces pombe ͉ RNA polymerase II ͉ transcription ͉ repression

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A genome-wide role for CHD remodelling factors and Nap1 in nucleosome disassembly

Walfridsson

Khorosjutina

Matikainen

et al. 2007

EMBO J

102

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Chromatin remodelling factors and histone chaperones were previously shown to cooperatively affect nucleosome assembly and disassembly processes in vitro. Here, we show that Schizosaccharomyces pombe CHD remodellers, the Hrp1 and Hrp3 paralogs physically interact with the histone chaperone Nap1. Genome-wide analysis of Hrp1, Hrp3 and Nap1 occupancy, combined with nucleosome density measurements revealed that the CHD factors and Nap1 colocalized in particular to promoter regions where they remove nucleosomes near the transcriptional start site. Hrp1 and Hrp3 also regulate nucleosome density in coding regions, where they have redundant roles to stimulate transcription. Previously, DNA replication-dependent and -independent nucleosome disassembly processes have been described. We found that nucleosome density increased in the hrp1 mutant in the absence of DNA replication. Finally, regions where nucleosome density increased in hrp1, hrp3 and nap1 mutants also showed nucleosome density and histone modification changes in HDAC and HAT mutants. Thus, this study revealed an important in vivo role for CHD remodellers and Nap1 in nucleosome disassembly at promoters and coding regions, which are linked to changes in histone acetylation.

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CHD1 remodelers regulate nucleosome spacingin vitroand align nucleosomal arrays over gene coding regions inS. pombe

Pointner

Persson

Prasad

et al. 2012

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Nucleosome positioning governs access to eukaryotic genomes. Many genes show a stereotypic organisation at their 5 0 end: a nucleosome free region just upstream of the transcription start site (TSS) followed by a regular nucleosomal array over the coding region. The determinants for this pattern are unclear, but nucleosome remodelers are likely critical. Here we study the role of remodelers in global nucleosome positioning in S. pombe and the corresponding changes in expression. We find a striking evolutionary shift in remodeler usage between budding and fission yeast. The S. pombe RSC complex does not seem to be involved in nucleosome positioning, despite its prominent role in S. cerevisiae. While S. pombe lacks ISWI-type remodelers, it has two CHD1-type ATPases, Hrp1 and Hrp3. We demonstrate nucleosome spacing activity for Hrp1 and Hrp3 in vitro, and that together they are essential for linking regular genic arrays to most TSSs in vivo. Impaired arrays in the absence of either or both remodelers may lead to increased cryptic antisense transcription, but overall gene expression levels are only mildly affected.

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The Fun30 Chromatin Remodeler Fft3 Controls Nuclear Organization and Chromatin Structure of Insulators and Subtelomeres in Fission Yeast

et al. 2015

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In eukaryotic cells, local chromatin structure and chromatin organization in the nucleus both influence transcriptional regulation. At the local level, the Fun30 chromatin remodeler Fft3 is essential for maintaining proper chromatin structure at centromeres and subtelomeres in fission yeast. Using genome-wide mapping and live cell imaging, we show that this role is linked to controlling nuclear organization of its targets. In fft3∆ cells, subtelomeres lose their association with the LEM domain protein Man1 at the nuclear periphery and move to the interior of the nucleus. Furthermore, genes in these domains are upregulated and active chromatin marks increase. Fft3 is also enriched at retrotransposon-derived long terminal repeat (LTR) elements and at tRNA genes. In cells lacking Fft3, these sites lose their peripheral positioning and show reduced nucleosome occupancy. We propose that Fft3 has a global role in mediating association between specific chromatin domains and the nuclear envelope.

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Mediator Influences Schizosaccharomyces pombe RNA Polymerase II-dependent Transcription in Vitro

Spåhr

Khorosjutina

Baraznenok

et al. 2003

Journal of Biological Chemistry

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The fission yeast Schizosaccharomyces pombe has proved an important model system for cross-species comparative studies of many fundamental processes in the eukaryotic cell, such as cell cycle control and DNA replication. The RNA polymerase II transcription machinery is, however, still relatively poorly understood in S. pombe, partially due to the absence of a reconstituted in vitro transcription system. We have now purified S. pombe RNA polymerase II and its general initiation factors TFIIB, TFIIF, TFIIE, and TFIIH to near homogeneity. These factors enable RNA polymerase II to initiate transcription from the S. pombe alcohol dehydrogenase promoter (adh1p) when combined with Saccharomyces cerevisiae TATA-binding protein. We use our reconstituted system to examine effects of Mediator on basal transcription in vitro. S. pombe Mediator exists in two distinct forms, a free form, which contains the spSrb8, spTrap240, spSrb10, and spSrb11 subunits, and a smaller form, which lacks these four subunits and associates with RNA polymerase II to form a holoenzyme. We find that spSrb8/spTrap240/spSrb10/spSrb11 containing Mediator repress basal transcription, whereas Mediator lacking these subunits has a stimulatory effect on transcription. Our findings thus demonstrate that the spSrb8/spTrap240/spSrb10/spSrb11 subcomplex governs the ability of Mediator to stimulate or repress basal transcription in vitro.

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