Search results for "Histone"

showing 10 items of 522 documents

AcetyltransferaseSAS2and sirtuinSIR2,respectively, control flocculation and biofilm formation in wine yeast

2014

Cell-to-cell and cell-to-environment interactions of microorganisms are of substantial relevance for their biotechnological use. In the yeast Saccharomyces cerevisiae, flocculation can be an advantage to clarify final liquid products after fermentation, and biofilm formation may be relevant for the encapsulation of strains of interest. The adhesion properties of wine yeast strains can be modified by the genetic manipulation of transcriptional regulatory proteins, such as histone deacetylases, and acetylases. Sirtuin SIR2 is essential for the formation of mat structures, a kind of biofilm that requires the expression of cell-wall protein FLO11 as its deletion reduces FLO11 expression, and ad…

Saccharomyces cerevisiae ProteinsSaccharomyces cerevisiaeWineSaccharomyces cerevisiaeApplied Microbiology and BiotechnologyMicrobiologySirtuin 2Gene Expression Regulation FungalAllelesSilent Information Regulator Proteins Saccharomyces cerevisiaeHistone AcetyltransferasesWinebiologyBiofilmFlocculationfood and beveragesGeneral Medicinebiology.organism_classificationYeastYeast in winemakingPhenotypeBiochemistryBiofilmsAcetyltransferaseFermentationSirtuinbiology.proteinFermentationGene DeletionFEMS Yeast Research
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A short-range gradient of histone H3 acetylation and Tup1p redistribution at the promoter of the Saccharomyces cerevisiae SUC2 gene.

2003

Chromatin immunoprecipitation assays are used to map H3 and H4 acetylation over the promoter nucleosomes and the coding region of the Saccharomyces cerevisiae SUC2 gene, under repressed and derepressed conditions, using wild type and mutant strains. In wild type cells, a high level of H3 acetylation at the distal end of the promoter drops sharply toward the proximal nucleosome that covers the TATA box, a gradient that become even steeper on derepression. In contrast, substantial H4 acetylation shows no such gradient and extends into the coding region. Overall levels of both H3 and H4 acetylation rise on derepression. Mutation of GCN5 or SNF2 lead to substantially reduced SUC2 expression; in…

Saccharomyces cerevisiae ProteinsTATA boxMutantGene ExpressionSaccharomyces cerevisiaeBiologyBiochemistryPolymerase Chain ReactionHistonesNucleosomeRNA MessengerHistone H3 acetylationDNA FungalPromoter Regions GeneticMolecular BiologyDerepressionHistone AcetyltransferasesAdenosine Triphosphatasesbeta-FructofuranosidaseWild typeChromosome MappingNuclear ProteinsCell BiologyMolecular biologyDNA-Binding ProteinsRepressor ProteinsAcetylationMutagenesisChromatin immunoprecipitationProtein KinasesTranscription FactorsThe Journal of biological chemistry
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Unveiling novel interactions of histone chaperone Asf1 linked to TREX-2 factors Sus1 and Thp1

2014

13 páginas, 7 figuras, 2 yablas

Saccharomyces cerevisiae ProteinsTranscription Genetic(5-10) yAsf1Histone H2B ubiquitinationCell Cycle ProteinsSAGASaccharomyces cerevisiaeBiologyyeastMethylationTREX-2RNA TransportHistonesSus1Histone H3Histone H1Gene Expression Regulation FungalhistonesHistone H2ANucleosomeHistone codeTAP-MS strategyHistone ChaperonesRNA MessengerHistone octamerGeneticsNuclear ProteinsRNA-Binding ProteinsAcetylationCell BiologyYeastCell biologyRibonucleoproteinsHistone methyltransferaseProtein Processing Post-TranslationalMolecular ChaperonesResearch Paper
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Yeast HAT1 and HAT2 deletions have different life-span and transcriptome phenotypes

2005

AbstractHAT-B is a yeast histone acetyltransferase composed of Hat1, Hat2 and Hif1 proteins. We demonstrate that a hat2 mutant or a hat1hat2 double mutant, but not a hat1 mutant, have an extended life-span. Transcriptome analysis shows that the single hat mutants are not very different from wild type. However, the comparison of the hat1 and hat2 transcriptomes shows that they are different. The hat1hat2 double mutant shows a transcriptional phenotype similar to that of the hat1 mutant but strongly enhanced. These results indicate that Hat2p could have additional functions in the cell to those of Hat1p.

Saccharomyces cerevisiae ProteinsTranscription GeneticHAT-BMutantBiophysicsSaccharomyces cerevisiaeBiochemistryTranscriptomeDNA-chipAcetyltransferasesStructural BiologyHat2Life-spanGeneticsImmunoprecipitationSirtuinsMolecular BiologyHistone AcetyltransferasesGeneticsbiologyWild typeCell BiologyHistone acetyltransferaseTelomereHat1PhenotypeYeastPhenotypebiology.proteinHistone deacetylaseHAT1Gene DeletionFEBS Letters
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Hif1 Is a Component of Yeast Histone Acetyltransferase B, a Complex Mainly Localized in the Nucleus

2004

Hat1 is the catalytic subunit of the only type B histone acetyltransferase known (HAT-B). The enzyme specifically acetylates lysine 12, and to a lesser extent lysine 5, of free, non-chromatin-bound histone H4. The complex is usually isolated with cytosolic fractions and is thought to be involved in chromatin assembly. The Saccharomyces cerevisiae HAT-B complex also contains Hat2, a protein stimulating Hat1 catalytic activity. We have now identified by two-hybrid experiments Hif1 as both a Hat1- and a histone H4-interacting protein. These interactions were dependent on HAT2, indicating a mediating role for Hat2. Biochemical fractionation and co-immunoprecipitation assays demonstrated that Hi…

Saccharomyces cerevisiae ProteinsbiologyNuclear ProteinsAcetylationSaccharomyces cerevisiaeCell BiologyHistone acetyltransferaseTelomereBiochemistryDNA-Binding ProteinsHistonesHistone H4HistoneBiochemistryAcetyltransferasesHistone methyltransferaseHistone H2Abiology.proteinHistone codeHypoxia-Inducible Factor 1Histone octamerHAT1Molecular BiologyHistone AcetyltransferasesTranscription FactorsJournal of Biological Chemistry
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DNA damage causes TP53-dependent coupling of self-renewal and senescence pathways in embryonal carcinoma cells.

2013

Recent studies have highlighted an apparently paradoxical link between self-renewal and senescence triggered by DNA damage in certain cell types. In addition, the finding that TP53 can suppress senescence has caused a re-evaluation of its functional role in regulating these outcomes. To investigate these phenomena and their relationship to pluripotency and senescence, we examined the response of the TP53-competent embryonal carcinoma (EC) cell line PA-1 to etoposide-induced DNA damage. Nuclear POU5F1/OCT4A and P21CIP1 were upregulated in the same cells following etoposide-induced G 2M arrest. However, while accumulating in the karyosol, the amount of OCT4A was reduced in the chromatin fract…

SenescenceCyclin-Dependent Kinase Inhibitor p21OCT4A/POU5F1Embryonal Carcinoma Stem CellssenescenceDNA RepairDNA repairDNA damagetumor cellsBiologyProtein Serine-Threonine Kinasesself-renewalHistonesAurora KinasesCell Line TumorReportAutophagyAurora Kinase BHumansTP53PhosphorylationRNA Small InterferingMolecular BiologyMitosisCellular SenescenceCyclin-Dependent Kinase Inhibitor p16EtoposideOvarian NeoplasmsEmbryonal Carcinoma Stem CellsCell BiologyG2-M DNA damage checkpointbeta-GalactosidasepluripotencyAntineoplastic Agents PhytogenicChromatinUp-RegulationG2 Phase Cell Cycle CheckpointsCheckpoint Kinase 2Cancer researchDNA damageFemaleRNA InterferenceRad51 RecombinaseTumor Suppressor Protein p53Cell agingOctamer Transcription Factor-3Developmental BiologyCell cycle (Georgetown, Tex.)
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O101 : Histone variant macroH2A1 orchestrates escape from hepatocyte senescence during ageing and cancer

2015

SenescenceHistonemedicine.anatomical_structureHepatologybiologyAgeingHepatocyteImmunologybiology.proteinCancer researchmedicineCancermedicine.diseaseJournal of Hepatology
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Regulation of the p19(Arf)/p53 pathway by histone acetylation underlies neural stem cell behavior in senescence-prone SAMP8 mice.

2015

Brain aging is associated with increased neurodegeneration and reduced neurogenesis. B1/neural stem cells (B1-NSCs) of the mouse subependymal zone (SEZ) support the ongoing production of olfactory bulb interneurons, but their neurogenic potential is progressively reduced as mice age. Although age-related changes in B1-NSCs may result from increased expression of tumor suppressor proteins, accumulation of DNA damage, metabolic alterations, and microenvironmental or systemic changes, the ultimate causes remain unclear. Senescence-accelerated-prone mice (SAMP8) relative to senescence-accelerated-resistant mice (SAMR1) exhibit signs of hastened senescence and can be used as a model for the stud…

SenescenceMaleAgingHistonesMiceNeural Stem CellsNeurospheremedicineSubependymal zoneAnimalsstem cell nicheCyclin-Dependent Kinase Inhibitor p19Mice KnockoutNeuronsbiologyNeurodegenerationNeurogenesishistone acetyltransferasesBrainAcetylationCell BiologyOriginal Articlesmedicine.diseaseGenes p53Neural stem cellChromatinCell biologyadult neurogenesisOxidative StressHistoneImmunologybiology.proteinProtein Processing Post-TranslationalSAMP8 micehistone deacetylasesAging cell
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Synthetic lethal metabolic targeting of cellular senescence in cancer therapy.

2013

Activated oncogenes and anticancer chemotherapy induce cellular senescence, a terminal growth arrest of viable cells characterized by S-phase entry-blocking histone 3 lysine 9 trimethylation (H3K9me3). Although therapy-induced senescence (TIS) improves long-term outcomes, potentially harmful properties of senescent tumour cells make their quantitative elimination a therapeutic priority. Here we use the Eµ-myc transgenic mouse lymphoma model in which TIS depends on the H3K9 histone methyltransferase Suv39h1 to show the mechanism and therapeutic exploitation of senescence-related metabolic reprogramming in vitro and in vivo. After senescence-inducing chemotherapy, TIS-competent lymphomas but …

SenescenceMaleLymphoma B-CellTransgeneApoptosisMice TransgenicMiceUbiquitinStress PhysiologicalAutophagyAnimalsCaspase 12Cellular SenescenceMultidisciplinarybiologyCaspase 3Endoplasmic reticulumAutophagyEndoplasmic Reticulum StressSurvival RateDisease Models AnimalHistoneGlucoseBiochemistryHistone methyltransferaseProteolysisUnfolded protein responsebiology.proteinCancer researchFemaleNature
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Histone Variant MacroH2A1 Marks Liver Aging and Orchestrates the Escape from Senescence Induced by DNA Hypomethylation in Hepatocellular Carcinoma

2015

The epigenetic basis of age-associated progression of liver diseases towards hepatocellular carcinoma (HCC) is unclear. MacroH2A1 is a variant of histone H2A1, present in the two isoforms, with fundamental roles in cell homeostasis. MacroH2A1 is a marker of senescence associated heterochromatic foci (SAHF) and synergizes with DNA demethylating chemotherapic agent 5-aza-2'-deoxycytidine (5-aza-dC) in silencing tumor suppressor genes in human fibroblasts. We show that protein levels of macroH2A1 isoforms are increased in the livers of old rodents and humans, and in human HCC tissue. Human HCC cells overexpressing macroH2A1 escape a 5-aza-dC-induced senescent phenotype, as determined by cell p…

SenescencebiologyCell growthCell cycleBiochemistryCell biologyHistoneGeneticsbiology.proteinGene silencingEpigeneticsMolecular BiologyGeneBiotechnologyDNA hypomethylation
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