| scholarly article | Q13442814 |
| P819 | ADS bibcode | 1999PNAS...96.6835B |
| P356 | DOI | 10.1073/PNAS.96.12.6835 |
| P932 | PMC publication ID | 22002 |
| P698 | PubMed publication ID | 10359799 |
| P5875 | ResearchGate publication ID | 12938762 |
| P2093 | author name string | N Kleckner | |
| S M Burgess | |||
| M Ajimura | |||
| P2860 | cites work | Genomic sequencing | Q24594942 |
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| A General Method for Identifying Recessive Diploid-Specific Mutations in Saccharomyces cerevisiae, Its Application to the Isolation of Mutants Blocked at Intermediate Stages of Meiotic Prophase and Characterization of a New Gene SAE2 | Q27931995 | ||
| Identification of functionally related genes that stimulate early meiotic gene expression in yeast. | Q27933381 | ||
| A meiosis-specific protein kinase, Ime2, is required for the correct timing of DNA replication and for spore formation in yeast meiosis | Q27935013 | ||
| NDT80, a meiosis-specific gene required for exit from pachytene in Saccharomyces cerevisiae | Q27935026 | ||
| SIR2 and SIR4 interactions differ in core and extended telomeric heterochromatin in yeast | Q27936734 | ||
| Tetrahymena histone acetyltransferase A: a homolog to yeast Gcn5p linking histone acetylation to gene activation | Q27937778 | ||
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| Targeting, disruption, replacement, and allele rescue: integrative DNA transformation in yeast | Q28131609 | ||
| A mammalian histone deacetylase related to the yeast transcriptional regulator Rpd3p | Q28276243 | ||
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| NDT80 and the meiotic recombination checkpoint regulate expression of middle sporulation-specific genes in Saccharomyces cerevisiae | Q33780201 | ||
| A short chromosomal region with major roles in yeast chromosome III meiotic disjunction, recombination and double strand breaks | Q33960373 | ||
| Histone acetyltransferase activity of yeast Gcn5p is required for the activation of target genes in vivo | Q35192911 | ||
| Initiation of yeast sporulation of partial carbon, nitrogen, or phosphate deprivation | Q36310425 | ||
| Early meiotic transcripts are highly unstable in Saccharomyces cerevisiae | Q36700091 | ||
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| A transcriptional cascade governs entry into meiosis in Saccharomyces cerevisiae | Q36777736 | ||
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| Bipartite structure of an early meiotic upstream activation sequence from Saccharomyces cerevisiae | Q38320449 | ||
| Two distinct yeast transcriptional activators require the function of the GCN5 protein to promote normal levels of transcription | Q38324867 | ||
| Mutations in chromatin components suppress a defect of Gcn5 protein in Saccharomyces cerevisiae | Q39574370 | ||
| Snf1 kinase connects nutritional pathways controlling meiosis in Saccharomyces cerevisiae | Q39575506 | ||
| Role for ADA/GCN5 products in antagonizing chromatin-mediated transcriptional repression | Q40023668 | ||
| Transcriptional coactivators in yeast and beyond | Q40951549 | ||
| Initiation of meiosis and sporulation in Saccharomyces cerevisiae requires a novel protein kinase homologue | Q42633289 | ||
| Recombination at work for meiosis | Q48018607 | ||
| Five additional genes in the pulC-O operon of the gram-negative bacterium Klebsiella oxytoca UNF5023 which are required for pullulanase secretion | Q48262286 | ||
| IME1, a positive regulator gene of meiosis in S. cerevisiae. | Q52491568 | ||
| Mitochondrial growth and DNA synthesis occur in the absence of nuclear DNA replication in fission yeast | Q70238280 | ||
| P433 | issue | 12 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 6835-6840 | |
| P577 | publication date | 1999-06-01 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | GCN5-dependent histone H3 acetylation and RPD3-dependent histone H4 deacetylation have distinct, opposing effects on IME2 transcription, during meiosis and during vegetative growth, in budding yeast | |
| P478 | volume | 96 |
| Q39864578 | Acetylation by GCN5 regulates CDC6 phosphorylation in the S phase of the cell cycle. |
| Q37546830 | Acetylation of the transcriptional repressor Ume6p allows efficient promoter release and timely induction of the meiotic transient transcription program in yeast |
| Q39597515 | Analysis of Groucho-histone interactions suggests mechanistic similarities between Groucho- and Tup1-mediated repression |
| Q37038553 | Chromatin Central: towards the comparative proteome by accurate mapping of the yeast proteomic environment |
| Q34678559 | Chromosomal localization links the SIN3-RPD3 complex to the regulation of chromatin condensation, histone acetylation and gene expression |
| Q38931757 | Diverse Activities of Histone Acylations Connect Metabolism to Chromatin Function |
| Q37656488 | From meiosis to postmeiotic events: homologous recombination is obligatory but flexible |
| Q35917883 | Gcn5p-dependent acetylation induces degradation of the meiotic transcriptional repressor Ume6p |
| Q37468826 | Genome reprogramming during sporulation. |
| Q41233273 | Global position and recruitment of HATs and HDACs in the yeast genome. |
| Q39891491 | Histone H3 Ser10 phosphorylation-independent function of Snf1 and Reg1 proteins rescues a gcn5- mutant in HIS3 expression |
| Q33967569 | Identification of the Sin3-binding site in Ume6 defines a two-step process for conversion of Ume6 from a transcriptional repressor to an activator in yeast |
| Q27934063 | Interplay between chromatin and trans-acting factors on the IME2 promoter upon induction of the gene at the onset of meiosis |
| Q90715572 | K-Ras-ERK1/2 accelerates lung cancer cell development via mediating H3K18ac through the MDM2-GCN5-SIRT7 axis |
| Q39938475 | Limiting replication initiation factors execute the temporal programme of origin firing in budding yeast. |
| Q35783683 | Mechanisms regulating the protein kinases of Saccharomyces cerevisiae |
| Q27937430 | Meiosis-specific destruction of the Ume6p repressor by the Cdc20-directed APC/C |
| Q34508901 | Meiotic, cryptic, and stable unannotated transcripts: noncoding RNAs add to the epigenetic tool box controlling meiotic development |
| Q40442851 | Nuclear localization and histone acetylation: a pathway for chromatin opening and transcriptional activation of the human beta-globin locus |
| Q30445180 | Phosphorylation of histone H4 Ser1 regulates sporulation in yeast and is conserved in fly and mouse spermatogenesis. |
| Q37820140 | Physical and functional HAT/HDAC interplay regulates protein acetylation balance |
| Q37616974 | Roles of histone acetylation and chromatin remodeling factor in a meiotic recombination hotspot. |
| Q33628559 | Snf1p regulates Gcn5p transcriptional activity by antagonizing Spt3p |
| Q24514481 | TIP49b, a regulator of activating transcription factor 2 response to stress and DNA damage |
| Q27939856 | The CLN3/SWI6/CLN2 pathway and SNF1 act sequentially to regulate meiotic initiation in Saccharomyces cerevisiae. |
| Q41614744 | The Histone Acetyltransferase GCN5 Expression Is Elevated and Regulated by c-Myc and E2F1 Transcription Factors in Human Colon Cancer |
| Q48257104 | The Histone Acetyltransferase Gcn5 Positively Regulates T Cell Activation |
| Q51832741 | The Rpd3/HDAC complex is present at the URS1 cis-element with hyperacetylated histone H3. |
| Q26864595 | The Sum1/Ndt80 transcriptional switch and commitment to meiosis in Saccharomyces cerevisiae |
| Q41362570 | The conserved histone deacetylase Rpd3 and the DNA binding regulator Ume6 repress BOI1's meiotic transcript isoform during vegetative growth in Saccharomyces cerevisiae |
| Q27931909 | The histone methylase Set2p and the histone deacetylase Rpd3p repress meiotic recombination at the HIS4 meiotic recombination hotspot in Saccharomyces cerevisiae |
| Q27932186 | The roles of the catalytic and noncatalytic activities of Rpd3L and Rpd3S in the regulation of gene transcription in yeast |
| Q35117856 | Transcriptional regulation of meiosis in budding yeast |
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