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Tup1p-Cyc8p mediates repression of target genes by different molecular mechanisms. Tup1p-Cyc8p can recruit histone deacetylases to genes, which results in deacetylation of histones producing a repressive chromatin structure (6, 23, 24). Tup1p-Cyc8p can also interact with hypoacetylated N-terminal tails of histones H3 (Hht1p and Hht2p) and H4 (Hhf1p and Hhf2p) that have been programmed for repression by the action of histone deacetylases (25, 26, 6). In addition, Tup1p-Cyc8p can interfere directly with the transcriptional machinery by interacting with factors important for the repressive activity of the RNA polymerase II mediator subcomplex (27, 28).

Tup1p-Cyc8p is recruited to target genes by interaction with DNA-bound transcriptional repressors that recognize specific sequences within the target gene promoters. Such repressors include MatAlpha2p, which regulates mating-type-specific genes (29), Mig1p, which regulates glucose-repressed genes (30), Rfx1p, which is involved in DNA repair (31), and Sko1p, which is involved in stress responses (32). This gene-specific role has been complemented by observations that Tup1p might be involved in establishing domains of heterochromatin structure in the subtelomeric regions of chromosomes (33). These \"HAST\" domains contain clusters of Tup1p- and Cyc8p-repressed genes and coincide with regions that are deacetylated by the histone deacetylase Hda1p. Therefore, Tup1p-Cyc8p may establish the formation of heterochromatin in these regions by recruiting Hda1p. HAST domains are distinct from adjacent heterochromatin regions that are established via Tup1p-independent recruitment of the Sir2p histone deacetylase (34).", "date_edited": "2005-06-28"}, "literature_overview": {"primary_count": 165, "additional_count": 195, "review_count": 80, "go_count": 15, "phenotype_count": 16, "disease_count": 0, "interaction_count": 98, "regulation_count": 15, "ptm_count": 13, "funComplement_count": 0, "htp_count": 48, "total_count": 532}, "disease_overview": {"manual_disease_terms": [], "htp_disease_terms": [], "computational_annotation_count": 0, "date_last_reviewed": null}, "ecnumbers": [], "URS_ID": null, "main_strain": "S288C", "genetic_position": 77.0, "regulation_overview": {"regulator_count": 6, "target_count": 469, "paragraph": {"text": "Tup1p acts with its partner Cyc8p (also known as Ssn6p) as a corepressor to regulate the expression of multiple genes under a variety of conditions. Tup1p-Cyc8p does not bind to DNA directly but is recruited to specific promoters by DNA binding proteins such as Alpha2p, Mig1p, and Crt1p. Evidence suggests that Tup1p-Cyc8p represses transcription by masking and inhibiting the transcriptional activation domains of the recruiting proteins. Tup1p interacts directly with histones H3 and H4, and mutation of these histones synergistically compromises Tup1p-Cyc8p-mediated repression. Histone hyperacetylation caused by combined mutations in genes encoding the histone deacetylases Rpd3p, Hos1p, and Hos2p abolishes repression by Tup1p-Cyc8p. Regulatory regions bound by Tup1p assume a distinct chromatin architecture including nucleosome-depleted regions, poorly positioned promoter nucleosomes and a larger number and wider distribution of accessible transcription factor binding sites. The Tup1p-Cyc8p corepressor complex is composed of one Cyc8p and four Tup1p subunits.", "date_edited": "2016-10-15", "references": [{"id": 634168, "display_name": "Varanasi US, et al. (1996)", "citation": "Varanasi US, et al. (1996) The Cyc8 (Ssn6)-Tup1 corepressor complex is composed of one Cyc8 and four Tup1 subunits. Mol Cell Biol 16(12):6707-14", "pubmed_id": 8943325, "link": "/reference/S000044346", "year": 1996, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1128/MCB.16.12.6707"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC231673/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/8943325"}]}, {"id": 590384, "display_name": "Watson AD, et al. (2000)", "citation": "Watson AD, et al. (2000) Ssn6-Tup1 interacts with class I histone deacetylases required for repression. Genes Dev 14(21):2737-44", "pubmed_id": 11069890, "link": "/reference/S000059687", "year": 2000, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1101/gad.829100"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC317033/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/11069890"}]}, {"id": 408128, "display_name": "Wong KH and Struhl K (2011)", "citation": "Wong KH and Struhl K (2011) The Cyc8-Tup1 complex inhibits transcription primarily by masking the activation domain of the recruiting protein. Genes Dev 25(23):2525-39", "pubmed_id": 22156212, "link": "/reference/S000147776", "year": 2011, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1101/gad.179275.111"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3243062/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/22156212"}]}, {"id": 412703, "display_name": "Rizzo JM, et al. (2011)", "citation": "Rizzo JM, et al. (2011) Tup1 stabilizes promoter nucleosome positioning and occupancy at transcriptionally plastic genes. Nucleic Acids Res 39(20):8803-19", "pubmed_id": 21785133, "link": "/reference/S000146190", "year": 2011, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1093/nar/gkr557"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3203618/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/21785133"}]}]}}, "reference_mapping": {"596221": 1, "601554": 2, "603640": 3, "604812": 4, "602925": 5, "648825": 6, "583068": 7, "391174": 8, "2375914": 9, "315141": 10, "2557751": 11, "548194": 12, "637880": 13, "546677": 14, "560405": 15, "631022": 16, "634168": 17, "647746": 18, "556300": 19, "560510": 20, "646251": 21, "642916": 22, "590384": 23, "589503": 24, "546816": 25, "563601": 26, "584898": 27, "584901": 28, "619083": 29, "599862": 30, "647160": 31, "548051": 32, "560693": 33, "533086": 34, "630563": 35, "603565": 36, "613751": 37, "619366": 38, "596094": 39, "507982": 40, "454551": 41, "639571": 42}, "history": [{"category": "Name", "history_type": "LSP", "note": "Name: TUP1", "date_created": "2000-05-19", "references": [{"id": 596221, "display_name": "Wickner RB (1974)", "citation": "Wickner RB (1974) Mutants of Saccharomyces cerevisiae that incorporate deoxythymidine-5'-monophosphate into deoxyribonucleic acid in vivo. J Bacteriol 117(1):252-60", "pubmed_id": 4587606, "link": "/reference/S000057184", "year": 1974, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1128/jb.117.1.252-260.1974"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC246551/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/4587606"}]}]}, {"category": "Name", "history_type": "LSP", "note": "Name: AAR1", "date_created": "2010-02-16", "references": [{"id": 630563, "display_name": "Mukai Y, et al. (1991)", "citation": "Mukai Y, et al. (1991) AAR1/TUP1 protein, with a structure similar to that of the beta subunit of G proteins, is required for a1-alpha 2 and alpha 2 repression in cell type control of Saccharomyces cerevisiae. Mol Cell Biol 11(7):3773-9", "pubmed_id": 1904546, "link": "/reference/S000045566", "year": 1991, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1128/mcb.11.7.3773-3779.1991"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC361147/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/1904546"}]}]}, {"category": "Name", "history_type": "LSP", "note": "Name: AER2", "date_created": "2010-02-16", "references": [{"id": 603565, "display_name": "Zhang M, et al. (1991)", "citation": "Zhang M, et al. (1991) A yeast protein with homology to the beta-subunit of G proteins is involved in control of heme-regulated and catabolite-repressed genes. Gene 97(2):153-61", "pubmed_id": 1900249, "link": "/reference/S000054679", "year": 1991, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1016/0378-1119(91)90047-f"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/1900249"}]}]}, {"category": "Name", "history_type": "LSP", "note": "Name: AMM1", "date_created": "2010-02-16", "references": [{"id": 613751, "display_name": "Thrash-Bingham C and Fangman WL (1989)", "citation": "Thrash-Bingham C and Fangman WL (1989) A yeast mutation that stabilizes a plasmid bearing a mutated ARS1 element. Mol Cell Biol 9(2):809-16", "pubmed_id": 2651904, "link": "/reference/S000051238", "year": 1989, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1128/mcb.9.2.809-816.1989"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC362658/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/2651904"}]}]}, {"category": "Name", "history_type": "LSP", "note": "Name: CRT4", "date_created": "2010-02-16", "references": [{"id": 619366, "display_name": "Zhou Z and Elledge SJ (1992)", "citation": "Zhou Z and Elledge SJ (1992) Isolation of crt mutants constitutive for transcription of the DNA damage inducible gene RNR3 in Saccharomyces cerevisiae. Genetics 131(4):851-66", "pubmed_id": 1516817, "link": "/reference/S000049348", "year": 1992, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1093/genetics/131.4.851"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1205097/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/1516817"}]}]}, {"category": "Name", "history_type": "LSP", "note": "Name: CYC9", "date_created": "2010-02-16", "references": [{"id": 507982, "display_name": "Lemontt JF, et al. (1980)", "citation": "Lemontt JF, et al. (1980) Pleiotropic Mutations at the TUP1 Locus That Affect the Expression of Mating-Type-Dependent Functions in SACCHAROMYCES CEREVISIAE. Genetics 94(4):899-920", "pubmed_id": 17249022, "link": "/reference/S000120589", "year": 1980, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1093/genetics/94.4.899"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1214188/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/17249022"}]}, {"id": 596094, "display_name": "Rothstein RJ and Sherman F (1980)", "citation": "Rothstein RJ and Sherman F (1980) Genes affecting the expression of cytochrome c in yeast: genetic mapping and genetic interactions. Genetics 94(4):871-89", "pubmed_id": 6254831, "link": "/reference/S000057232", "year": 1980, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1093/genetics/94.4.871"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1214186/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/6254831"}]}]}, {"category": "Name", "history_type": "LSP", "note": "Name: FLK1", "date_created": "2010-02-16", "references": [{"id": 454551, "display_name": "Stark HC, et al. (1980)", "citation": "Stark HC, et al. (1980) Pleiotropic properties of a yeast mutant insensitive to catabolite repression. Genetics 94(4):921-8", "pubmed_id": 17249023, "link": "/reference/S000135225", "year": 1980, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1093/genetics/94.4.921"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1214189/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/17249023"}]}]}, {"category": "Name", "history_type": "LSP", "note": "Name: ROX4", "date_created": "2010-02-16", "references": []}, {"category": "Name", "history_type": "LSP", "note": "Name: SFL2", "date_created": "2010-02-16", "references": [{"id": 639571, "display_name": "Fujita A, et al. (1990)", "citation": "Fujita A, et al. (1990) Cloning of the yeast SFL2 gene: its disruption results in pleiotropic phenotypes characteristic for tup1 mutants. Gene 89(1):93-9", "pubmed_id": 2197185, "link": "/reference/S000042529", "year": 1990, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1016/0378-1119(90)90210-i"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/2197185"}]}]}, {"category": "Name", "history_type": "LSP", "note": "Name: UMR7", "date_created": "2010-02-16", "references": [{"id": 507982, "display_name": "Lemontt JF, et al. (1980)", "citation": "Lemontt JF, et al. (1980) Pleiotropic Mutations at the TUP1 Locus That Affect the Expression of Mating-Type-Dependent Functions in SACCHAROMYCES CEREVISIAE. Genetics 94(4):899-920", "pubmed_id": 17249022, "link": "/reference/S000120589", "year": 1980, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1093/genetics/94.4.899"}, {"display_name": "PMC full text", "link": "http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1214188/"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/17249022"}]}]}, {"category": "Mapping", "history_type": "SEQUENCE", "note": "Mapping: Edition 11: amm1 is allelic to tup1, cyc9, flk1, umr7", "date_created": "1992-10-01", "references": [{"id": 598167, "display_name": "Mortimer RK, et al. (1992)", "citation": "Mortimer RK, et al. (1992) Genetic and physical maps of Saccharomyces cerevisiae, Edition 11. Yeast 8(10):817-902", "pubmed_id": 1413997, "link": "/reference/S000056506", "year": 1992, "urls": [{"display_name": "DOI full text", "link": "http://dx.doi.org/10.1002/yea.320081002"}, {"display_name": "PubMed", "link": "http://www.ncbi.nlm.nih.gov/pubmed/1413997"}]}]}], "complexes": [{"format_name": "CPX-1663", "display_name": "CYC8-TUP1 corepressor complex"}]}, tabs: {"id": 1285584, "protein_tab": true, "interaction_tab": true, "summary_tab": true, "go_tab": true, "sequence_section": true, "expression_tab": true, "phenotype_tab": true, "literature_tab": true, "wiki_tab": false, "regulation_tab": true, "sequence_tab": true, "history_tab": true, "homology_tab": true, "disease_tab": false} }; TUP1 | SGD

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TUP1 / YCR084C Overview

Standard Name
TUP1 1
Systematic Name
YCR084C
SGD ID
SGD:S000000680
Aliases
AAR1 35 , AER2 36 , AMM1 37 , CRT4 38 , CYC9 39 40 , FLK1 41 , ROX4 , SFL2 42 , UMR7 40
Feature Type
ORF , Verified
Description
Transcriptional regulator; functions primarily as a transcriptional co-repressor with Cyc8p but can also function as a co-activator, recruiting SWI/SNF and SAGA complexes to promoters; target genes may be uniquely repressed by Tup1p or Cyc8p, subject to redundant repression, or in some cases de-repression of target genes in a tup1 mutant is dependent upon CYC8 and vice versa; establishes a repressive chromatin structure via histone H3/H4 interactions and stabilizing nucleosomes over promoters 2 3 4 5 6 7 8 9 10 11
Name Description
dTMP-UPtake 1
Comparative Info
Sequence Details

Sequence

The S. cerevisiae Reference Genome sequence is derived from laboratory strain S288C. Download DNA or protein sequence, view genomic context and coordinates. Click "Sequence Details" to view all sequence information for this locus, including that for other strains.

Summary
TUP1 is located on the right arm of chromosome III between TRX3 mitochondrial thioredoxin and uncharacterized gene YCR085W; coding sequence is 2142 nucleotides long with 12 SNPs, 6 of which lead to amino acid polymorphisms, and a variable trinucleotide microsatellite

Analyze Sequence

S288C only

BLASTN | BLASTP | Design Primers | Restriction Fragment Map | Restriction Fragment Sizes | Six-Frame Translation

S288C vs. other species

BLASTN vs. fungi | BLASTP at NCBI | BLASTP vs. fungi

S288C vs. other strains

Strain Alignment | Variant Viewer

Protein Details

Protein

Basic sequence-derived (length, molecular weight, isoelectric point) and experimentally-determined (median abundance, median absolute deviation) protein information. Click "Protein Details" for further information about the protein such as half-life, abundance, domains, domains shared with other proteins, protein sequence retrieval for various strains, physico-chemical properties, protein modification sites, and external identifiers for the protein.

Summary
Tup1p is 713 amino acids long, shorter lived, of moderate abundance; contains several WD40 repeats; succinylated on K39, acetylated on 2 lysines, ubiquitinylated on 4 lysines, sumoylated on 8 lysines, phosphorylated on 26 residues
Length (a.a.)
713
Mol. Weight (Da)
78292.5
Isoelectric Point
5.4
Median Abundance (molecules/cell)
9774 +/- 3380
Half-life (hr)
8.6

Alleles

Curated mutant alleles for the specified gene, listed alphabetically. Click on the allele name to open the allele page. Click "SGD search" to view all alleles in search results.

View all TUP1 alleles in SGD search

Gene Ontology Details

Gene Ontology

GO Annotations consist of four mandatory components: a gene product, a term from one of the three Gene Ontology (GO) controlled vocabularies (Molecular Function, Biological Process, and Cellular Component), a reference, and an evidence code. SGD has manually curated and high-throughput GO Annotations, both derived from the literature, as well as computational, or predicted, annotations. Click "Gene Ontology Details" to view all GO information and evidence for this locus as well as biological processes it shares with other genes.

Summary
General transcription repressor that binds histones and is involved in nucleosome positioning; forms repressor complex with Cyc8p

View computational annotations

Molecular Function

Manually Curated

Biological Process

Manually Curated

Cellular Component

Manually Curated

Complex

Macromolecular complex annotations are imported from the Complex Portal. These annotations have been derived from physical molecular interaction evidence extracted from the literature and cross-referenced in the entry, or by curator inference from information on homologs in closely related species or by inference from scientific background.

Phenotype Details

Phenotype

Phenotype annotations for a gene are curated single mutant phenotypes that require an observable (e.g., "cell shape"), a qualifier (e.g., "abnormal"), a mutant type (e.g., null), strain background, and a reference. In addition, annotations are classified as classical genetics or high-throughput (e.g., large scale survey, systematic mutation set). Whenever possible, allele information and additional details are provided. Click "Phenotype Details" to view all phenotype annotations and evidence for this locus as well as phenotypes it shares with other genes.

Summary
Non-essential gene in reference strain S288C; null mutant grows slowly, cannot respire, has decreased fitness, shortened lifespan, and is sensitive to heat, various antibiotics, antimalarial quinine; homozygous diploid null has rounded cells, abnormal budding pattern, cannot sporulate

Classical Genetics

null
dominant negative
reduction of function

Large-scale Survey

null
unspecified
Interaction Details

Interaction

Interaction annotations are curated by BioGRID and include physical or genetic interactions observed between at least two genes. An interaction annotation is composed of the interaction type, name of the interactor, assay type (e.g., Two-Hybrid), annotation type (e.g., manual or high-throughput), and a reference, as well as other experimental details. Click "Interaction Details" to view all interaction annotations and evidence for this locus, including an interaction visualization.

Summary
Tup1p interacts physically with proteins involved in transcription; TUP1 interacts genetically with genes involved in transcription

211 total interactions for 135 unique genes

Physical Interactions

  • Affinity Capture-MS: 38
  • Affinity Capture-RNA: 3
  • Affinity Capture-Western: 29
  • Co-crystal Structure: 1
  • Co-fractionation: 2
  • Co-localization: 2
  • Co-purification: 1
  • PCA: 8
  • Protein-peptide: 1
  • Proximity Label-MS: 2
  • Reconstituted Complex: 40
  • Two-hybrid: 40

Genetic Interactions

  • Dosage Growth Defect: 1
  • Dosage Rescue: 3
  • Phenotypic Enhancement: 5
  • Phenotypic Suppression: 16
  • Positive Genetic: 1
  • Synthetic Growth Defect: 6
  • Synthetic Lethality: 1
  • Synthetic Rescue: 11
Regulation Details

Regulation

The number of putative Regulators (genes that regulate it) and Targets (genes it regulates) for the given locus, based on experimental evidence. This evidence includes data generated through high-throughput techniques. Click "Regulation Details" to view all regulation annotations, shared GO enrichment among regulation Targets, and a regulator/target diagram for the locus.

Summary
Tup1p acts with its partner Cyc8p (also known as Ssn6p) as a corepressor to regulate the expression of multiple genes under a variety of conditions. Tup1p-Cyc8p does not bind to DNA directly but is recruited to specific promoters by DNA binding proteins such as Alpha2p, Mig1p, and Crt1p. Evidence suggests that Tup1p-Cyc8p represses transcription by masking and inhibiting the transcriptional activation domains of the recruiting proteins. Tup1p interacts directly with histones H3 and H4, and mutation of these histones synergistically compromises Tup1p-Cyc8p-mediated repression. Histone hyperacetylation caused by combined mutations in genes encoding the histone deacetylases Rpd3p, Hos1p, and Hos2p abolishes repression by Tup1p-Cyc8p. Regulatory regions bound by Tup1p assume a distinct chromatin architecture including nucleosome-depleted regions, poorly positioned promoter nucleosomes and a larger number and wider distribution of accessible transcription factor binding sites. The Tup1p-Cyc8p corepressor complex is composed of one Cyc8p and four Tup1p subunits.
Regulators
6
Targets
469
Expression Details

Expression

Expression data are derived from records contained in the Gene Expression Omnibus (GEO), and are first log2 transformed and normalized. Referenced datasets may contain one or more condition(s), and as a result there may be a greater number of conditions than datasets represented in a single clickable histogram bar. The histogram division at 0.0 separates the down-regulated (green) conditions and datasets from those that are up-regulated (red). Click "Expression Details" to view all expression annotations and details for this locus, including a visualization of genes that share a similar expression pattern.

Summary Paragraph

A summary of the locus, written by SGD Biocurators following a thorough review of the literature. Links to gene names and curated GO terms are included within the Summary Paragraphs.

Last Updated: 2005-06-28

Literature Details

Literature

All manually curated literature for the specified gene, organized into topics according to their relevance to the gene (Primary Literature, Additional Literature, or Review). Click "Literature Details" to view all literature information for this locus, including shared literature between genes.

Primary
165
Additional
195
Reviews
80

Resources

AlphaFold Protein Structure | Entrez Gene | Entrez RefSeq Protein | FungiDB | Search all NCBI | UniParc | UniProtKB