scholarly article | Q13442814 |
P356 | DOI | 10.1074/JBC.M407159200 |
P698 | PubMed publication ID | 15254041 |
P2093 | author name string | Joseph C Reese | |
Zhengjian Zhang | |||
P2860 | cites work | Exploring the metabolic and genetic control of gene expression on a genomic scale | Q27860705 |
Ssn6-Tup1 interacts with class I histone deacetylases required for repression | Q27930677 | ||
NORF5/HUG1 is a component of the MEC1-mediated checkpoint response to DNA damage and replication arrest in Saccharomyces cerevisiae | Q27930735 | ||
Tup1p represses Mcm1p transcriptional activation and chromatin remodeling of an a-cell-specific gene | Q27931501 | ||
Microarray deacetylation maps determine genome-wide functions for yeast histone deacetylases | Q27931861 | ||
Tup1-Ssn6 interacts with multiple class I histone deacetylases in vivo. | Q27932778 | ||
Med9/Cse2 and Gal11 modules are required for transcriptional repression of distinct group of genes | Q27933388 | ||
Ssn6-Tup1 is a general repressor of transcription in yeast | Q27933537 | ||
Srb7p is a physical and physiological target of Tup1p | Q27933607 | ||
Sfl1 functions via the co-repressor Ssn6-Tup1 and the cAMP-dependent protein kinase Tpk2. | Q27933716 | ||
Roles of transcription factor Mot3 and chromatin in repression of the hypoxic gene ANB1 in yeast | Q27934299 | ||
Hrs1/Med3 is a Cyc8-Tup1 corepressor target in the RNA polymerase II holoenzyme. | Q27934566 | ||
The DNA replication and damage checkpoint pathways induce transcription by inhibition of the Crt1 repressor | Q27935222 | ||
Mapping DNA interaction sites of chromosomal proteins using immunoprecipitation and polymerase chain reaction. | Q52570974 | ||
Functional dissection of the yeast Cyc8–Tupl transcriptional co-repressor complex | Q59056491 | ||
TUP1 utilizes histone H3/H2B-specific HDA1 deacetylase to repress gene activity in yeast | Q27935699 | ||
Ssn6-Tup1 requires the ISW2 complex to position nucleosomes in Saccharomyces cerevisiae | Q27936035 | ||
A complex composed of tup1 and ssn6 represses transcription in vitro | Q27937273 | ||
Nuclear proteins Nut1p and Nut2p cooperate to negatively regulate a Swi4p-dependent lacZ reporter gene in Saccharomyces cerevisiae | Q27937460 | ||
Interaction of a transcriptional repressor with the RNA polymerase II holoenzyme plays a crucial role in repression | Q27938465 | ||
SWI/SNF-dependent chromatin remodeling of RNR3 requires TAF(II)s and the general transcription machinery | Q27939335 | ||
The MAPK Hog1 recruits Rpd3 histone deacetylase to activate osmoresponsive genes. | Q27939566 | ||
Recruitment of Tup1-Ssn6 by yeast hypoxic genes and chromatin-independent exclusion of TATA binding protein | Q27939733 | ||
Repression domain of the yeast global repressor Tup1 interacts directly with histones H3 and H4. | Q27939965 | ||
Designer deletion strains derived from Saccharomyces cerevisiae S288C: a useful set of strains and plasmids for PCR-mediated gene disruption and other applications | Q28131600 | ||
Amino termini of histones H3 and H4 are required for a1-alpha2 repression in yeast | Q28776775 | ||
Binding of TBP to promoters in vivo is stimulated by activators and requires Pol II holoenzyme | Q29614681 | ||
Facilitated binding of TATA-binding protein to nucleosomal DNA | Q29620441 | ||
Global and specific transcriptional repression by the histone H3 amino terminus in yeast | Q30452353 | ||
Turning genes off by Ssn6-Tup1: a conserved system of transcriptional repression in eukaryotes | Q33953233 | ||
Interplay of yeast global transcriptional regulators Ssn6p-Tup1p and Swi-Snf and their effect on chromatin structure | Q34250253 | ||
Targeted recruitment of Rpd3 histone deacetylase represses transcription by inhibiting recruitment of Swi/Snf, SAGA, and TATA binding protein | Q34324720 | ||
The organized chromatin domain of the repressed yeast a cell-specific gene STE6 contains two molecules of the corepressor Tup1p per nucleosome | Q34662269 | ||
Derepression of DNA damage-regulated genes requires yeast TAF(II)s | Q34730910 | ||
Regulation of TATA-binding protein binding by the SAGA complex and the Nhp6 high-mobility group protein. | Q34740357 | ||
Characterization of the imitation switch subfamily of ATP-dependent chromatin-remodeling factors in Saccharomyces cerevisiae | Q35192123 | ||
Accessibility of alpha 2-repressed promoters to the activator Gal4. | Q36560132 | ||
Nucleosomal location of the STE6 TATA box and Mat alpha 2p-mediated repression | Q36654886 | ||
Widespread collaboration of Isw2 and Sin3-Rpd3 chromatin remodeling complexes in transcriptional repression | Q38297257 | ||
Assays for nucleosome positioning in yeast | Q38323694 | ||
Architectural transcription factors and the SAGA complex function in parallel pathways to activate transcription | Q39451621 | ||
Antagonistic remodelling by Swi-Snf and Tup1-Ssn6 of an extensive chromatin region forms the background for FLO1 gene regulation | Q39645785 | ||
Histone-dependent association of Tup1-Ssn6 with repressed genes in vivo | Q39673781 | ||
Genetics of transcriptional regulation in yeast: connections to the RNA polymerase II CTD. | Q41689326 | ||
Mutations causing high basal level transcription that is independent of transcriptional activators but dependent on chromosomal position in Saccharomyces cerevisiae | Q42480704 | ||
Cell type-specific chromatin organization of the region that governs directionality of yeast mating type switching | Q42625082 | ||
Yeast histone H4 N-terminal sequence is required for promoter activation in vivo | Q45268200 | ||
Transcriptional repression directed by the yeast alpha 2 protein in vitro | Q46051755 | ||
The WD repeats of Tup1 interact with the homeo domain protein alpha 2. | Q46052105 | ||
Requirement of Hos2 histone deacetylase for gene activity in yeast | Q46070318 | ||
Transcription activation in cells lacking TAFIIS. | Q48060189 | ||
The global transcriptional regulators, SSN6 and TUP1, play distinct roles in the establishment of a repressive chromatin structure. | Q52216137 | ||
Ssn6-Tup1 regulates RNR3 by positioning nucleosomes and affecting the chromatin structure at the upstream repression sequence. | Q52543433 | ||
P433 | issue | 38 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell biology | Q7141 |
Saccharomyces cerevisiae | Q719725 | ||
Histone deacetylase RPD3 YNL330C | Q27548560 | ||
P304 | page(s) | 39240-50 | |
P577 | publication date | 2004-09-17 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Redundant mechanisms are used by Ssn6-Tup1 in repressing chromosomal gene transcription in Saccharomyces cerevisiae | |
P478 | volume | 279 |
Q37233395 | A novel mechanism of antagonism between ATP-dependent chromatin remodeling complexes regulates RNR3 expression |
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Q41836841 | Antagonistic Gcn5-Hda1 interactions revealed by mutations to the Anaphase Promoting Complex in yeast |
Q41656040 | Antagonistic controls of chromatin and mRNA start site selection by Tup family corepressors and the CCAAT-binding factor |
Q37869191 | Choosing the right lifestyle: adhesion and development in Saccharomyces cerevisiae |
Q58005695 | Chromatin Remodeling and Nucleosome Positioning |
Q37825834 | Chromatin and epigenetic regulation of the telomerase reverse transcriptase gene |
Q33724483 | Class II histone deacetylases: from sequence to function, regulation, and clinical implication |
Q33770590 | Combinatorial repression of the hypoxic genes of Saccharomyces cerevisiae by DNA binding proteins Rox1 and Mot3. |
Q27930603 | Components of the ESCRT pathway, DFG16, and YGR122w are required for Rim101 to act as a corepressor with Nrg1 at the negative regulatory element of the DIT1 gene of Saccharomyces cerevisiae. |
Q33963951 | Corepressor-directed preacetylation of histone H3 in promoter chromatin primes rapid transcriptional switching of cell-type-specific genes in yeast |
Q36023854 | DNA sequence- and conformation-directed positioning of nucleosomes by chromatin-remodeling complexes |
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Q27935980 | Direct role for the Rpd3 complex in transcriptional induction of the anaerobic DAN/TIR genes in yeast |
Q43125554 | Dissection of coactivator requirement at RNR3 reveals unexpected contributions from TFIID and SAGA. |
Q33689817 | Distinct and temporal roles of nucleosomal remodeling and histone deacetylation in the repression of the hTERT gene |
Q40929079 | Effect of sequence-directed nucleosome disruption on cell-type-specific repression by alpha2/Mcm1 in the yeast genome |
Q35829053 | Exposing the core promoter is sufficient to activate transcription and alter coactivator requirement at RNR3. |
Q36076499 | Function and regulation in MAPK signaling pathways: lessons learned from the yeast Saccharomyces cerevisiae |
Q47142510 | Functional analysis of the global repressor Tup1 for maltose metabolism in Saccharomyces cerevisiae: different roles of the functional domains. |
Q33841340 | Genome-wide analysis of the functions of a conserved surface on the corepressor Tup1 |
Q42074010 | Global roles of Ssn6 in Tup1- and Nrg1-dependent gene regulation in the fungal pathogen, Candida albicans |
Q39770001 | Hexokinase 2 Is an Intracellular Glucose Sensor of Yeast Cells That Maintains the Structure and Activity of Mig1 Protein Repressor Complex. |
Q89393346 | Histone Chaperone Asf1 Is Required for the Establishment of Repressive Chromatin in Schizosaccharomyces pombe fbp1 Gene Repression |
Q27932545 | Histone deacetylases RPD3 and HOS2 regulate the transcriptional activation of DNA damage-inducible genes |
Q35447589 | Histone modifications influence mediator interactions with chromatin |
Q42952012 | Individual subunits of the Ssn6-Tup11/12 corepressor are selectively required for repression of different target genes. |
Q35844930 | Modulation of Ubc4p/Ubc5p-mediated stress responses by the RING-finger-dependent ubiquitin-protein ligase Not4p in Saccharomyces cerevisiae |
Q27936066 | Molecular genetic analysis of the yeast repressor Rfx1/Crt1 reveals a novel two-step regulatory mechanism |
Q41093596 | NoRC-dependent nucleosome positioning silences rRNA genes |
Q47651189 | Recruitment and delivery of the fission yeast Rst2 transcription factor via a local genome structure counteracts repression by Tup1-family corepressors. |
Q90640167 | Recruitment of an Activated Gene to the Yeast Nuclear Pore Complex Requires Sumoylation |
Q42289702 | Sas3 and Ada2(Gcn5)-dependent histone H3 acetylation is required for transcription elongation at the de-repressed FLO1 gene. |
Q41442189 | Sequence-targeted nucleosome sliding in vivo by a hybrid Chd1 chromatin remodeler |
Q36580589 | Stabilization of the promoter nucleosomes in nucleosome-free regions by the yeast Cyc8-Tup1 corepressor. |
Q26999229 | Sumoylation and transcription regulation at nuclear pores |
Q28307813 | Suppression of Mediator is regulated by Cdk8-dependent Grr1 turnover of the Med3 coactivator |
Q27939639 | Synergy among differentially regulated repressors of the ribonucleotide diphosphate reductase genes of Saccharomyces cerevisiae |
Q35624743 | The Cyc8-Tup1 complex inhibits transcription primarily by masking the activation domain of the recruiting protein |
Q27936207 | The Tup1 corepressor directs Htz1 deposition at a specific promoter nucleosome marking the GAL1 gene for rapid activation |
Q27932048 | The WTM genes in budding yeast amplify expression of the stress-inducible gene RNR3. |
Q40792982 | The specificity and topology of chromatin interaction pathways in yeast |
Q41845747 | The yeast Cyc8-Tup1 complex cooperates with Hda1p and Rpd3p histone deacetylases to robustly repress transcription of the subtelomeric FLO1 gene. |
Q42021677 | Transcriptional regulation by Asf1: new mechanistic insights from studies of the DNA damage response to replication stress |
Q36579338 | Transcriptional repression by Tup1-Ssn6. |
Q35468491 | Tup1 stabilizes promoter nucleosome positioning and occupancy at transcriptionally plastic genes |
Q42161000 | Tup1-Ssn6 and Swi-Snf remodelling activities influence long-range chromatin organization upstream of the yeast SUC2 gene |
Q40935545 | WD40 domain divergence is important for functional differences between the fission yeast Tup11 and Tup12 co-repressor proteins |
Q36717860 | Yeast Rap1 contributes to genomic integrity by activating DNA damage repair genes |
Q34042795 | Yeast recombination enhancer is stimulated by transcription activation |
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