Search results for "Histone methylation"

showing 10 items of 36 documents

Gcn5p is involved in the acetylation of histone H3 in nucleosomes.

1997

Abstract Enzymatic extracts from a gcn5 mutant and wild-type strains of Saccharomyces cerevisiae were chromatographically fractionated and the histone acetyltransferase activities compared. When free histones were used as substrate, extracts from wild-type cells showed two peaks of activity on histone H3 but extracts from gcn5 mutant cells showed only one. With nucleosomes as substrate, the histone acetyltransferase activities present in extracts from the gcn5 mutant strain were not able to modify H3 whereas wild-type cell extracts acetylated intensely this histone. The activity that acetylated nucleosome-bound H3 behaved as a 170-kDa complex. We suggest that Gcn5p represents a catalytic su…

ErythrocytesSaccharomyces cerevisiae ProteinsBiophysicsSaccharomyces cerevisiaeBiochemistryFungal ProteinsHistonesHistone H3Histone H1Structural BiologyHistone H2AHistone methylationGeneticsHistone codeAnimalsHistone octamerMolecular BiologyHistone AcetyltransferasesHistone acetyltransferase GCN5biologyAcetylationCell BiologyHistone acetyltransferaseChromatinNucleosomesDNA-Binding ProteinsMolecular WeightBiochemistryNucleosomeHistone methyltransferasebiology.proteinChickensProtein KinasesFEBS letters
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Epigenetic modifiers are necessary but not sufficient for reprogramming non-myelinating cells into myelin gene-expressing cells.

2010

Background Modifications on specific histone residues and DNA methylation play an essential role in lineage choice and cellular reprogramming. We have previously shown that histone modifications or combinatorial codes of transcription factors (TFs) are critical for the differentiation of multipotential progenitors into myelinating oligodendrocytes. In this study we asked whether combining global manipulation of DNA methylation and histone acetylation together with the expression of oligodendrocyte- specific TFs, was sufficient to switch the identity of fibroblasts into myelin gene-expressing cells. Methodology/Principal Findings Transfection of six oligodendrocyte-specific TFs (Olig1, Olig2…

Gene Expressionlcsh:MedicineBiologyCell LineEpigenesis GeneticHistones03 medical and health sciencesMice0302 clinical medicineHistone H1Histone methylationHistone H2ANeuroscience/Neuronal Signaling MechanismsHistone codeAnimalsCell Lineagelcsh:ScienceCells Cultured030304 developmental biologyEpigenomics0303 health sciencesMultidisciplinaryNeuroscience/Neuronal and Glial Cell BiologyMultipotent Stem Cellslcsh:RAcetylationCell DifferentiationDNA MethylationFibroblastsMolecular biologyChromatinChromatinRatsOligodendrogliaHomeobox Protein Nkx-2.2Histone methyltransferaseNIH 3T3 Cellslcsh:QNeuroscience/Neurobiology of Disease and RegenerationChromatin immunoprecipitation030217 neurology & neurosurgeryMyelin ProteinsResearch ArticleNeuroscienceTranscription FactorsPLoS ONE
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A Gene-Specific Requirement for FACT during Transcription Is Related to the Chromatin Organization of the Transcribed Region

2006

The FACT complex stimulates transcription elongation on nucleosomal templates. In vivo experiments also involve FACT in the reassembly of nucleosomes traversed by RNA polymerase II. Since several features of chromatin organization vary throughout the genome, we wondered whether FACT is equally required for all genes. We show in this study that the in vivo depletion of Spt16, one of the subunits of Saccharomyces cerevisiae FACT, strongly affects transcription of three genes, GAL1, PHO5, and Kluyveromyces lactis LAC4, which exhibit positioned nucleosomes at their transcribed regions. In contrast, showing a random nucleosome structure, YAT1 and Escherichia coli lacZ are only mildly influenced …

GeneticsChromatin ImmunoprecipitationSaccharomyces cerevisiae ProteinsTranscription GeneticbiologyHigh Mobility Group ProteinsRNA polymerase IIPromoterArticlesSaccharomyces cerevisiaeCell BiologyFACT complexChromatinChromatin remodelingChromatinDNA-Binding ProteinsHistone methylationProtein FACTEscherichia colibiology.proteinTranscriptional Elongation FactorsTranscription factor II DMolecular BiologyRNA polymerase II holoenzymePlasmidsMolecular and Cellular Biology
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Deciphering the histone code to build the genome structure

2017

Histones are punctuated with small chemical modifications that alter their interaction with DNA. One attractive hypothesis stipulates that certain combinations of these histone modifications may function, alone or together, as a part of a predictive histone code to provide ground rules for chromatin folding. We consider four features that relate histone modifications to chromatin folding: charge neutralisation, molecular specificity, robustness and evolvability. Next, we present evidence for the association among different histone modifications at various levels of chromatin organisation and show how these relationships relate to function such as transcription, replication and cell division…

GeneticsHistone-modifying enzymesHistonebiologyHistone H1Histone methylationbiology.proteinHistone codeRobustness (evolution)Computational biologyChromatin remodelingChromatin
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Linker histone H1 is essential for Drosophila development, the establishment of pericentric heterochromatin, and a normal polytene chromosome structu…

2009

We generated mutant alleles of Drosophila melanogaster in which expression of the linker histone H1 can be down-regulated over a wide range by RNAi. When the H1 protein level is reduced to ∼20% of the level in wild-type larvae, lethality occurs in the late larval – pupal stages of development. Here we show that H1 has an important function in gene regulation within or near heterochromatin. It is a strong dominant suppressor of position effect variegation (PEV). Similar to other suppressors of PEV, H1 is simultaneously involved in both the repression of euchromatic genes brought to the vicinity of pericentric heterochromatin and the activation of heterochromatic genes that depend on their pe…

GeneticsPolytene chromosomeEuchromatinHeterochromatinfungiCentromereGene Expression Regulation DevelopmentalPosition-effect variegationBiologyChromatidsChromosomesChromosomal Position EffectsHistonesDrosophila melanogasterHeterochromatinHistone methylationGeneticsConstitutive heterochromatinAnimalsDrosophila ProteinsHeterochromatin protein 1RNA InterferencePericentric heterochromatinDevelopmental BiologyResearch Paper
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Gene expression during early embryogenesis of sea urchin: The histone and homeobox genes

1997

Transcriptional regulators are thought to play a key role in cell fate determination and territorial specification in sea urchin. Our goals are to clone transcription factors for studying embryonic development. One approach has been to use promoter binding and gene transfer technology to investigate the mechanisms of transcriptional activation and repression of the early H2A histone gene. By this analysis we identified a transcriptional activator, the MBF-1, that binds to the modulator element of the H2A gene and enhances the activity of the H2A promoter. However, the enhancer activity of the modulator and its interaction with MBF-1 also occurs at the gastrula stage when the early histone g…

GeneticsRegulation of gene expressionSettore MED/07 - Microbiologia E Microbiologia Clinicaanimal structuresPaired-like homeobox geneSettore BIO/11 - Biologia MolecolareSea urchin embryosBiologyHistoneembryonic structuresGene expressionHistone H2AHistone methylationSettore BIO/03 - Botanica Ambientale E Applicatabiology.proteinSpatial expressionNucleosomeAnimal Science and ZoologyEnhancerTranscription factorH2A histone geneDevelopmental BiologyEnhancer binding factor
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Methyl-CpG-binding proteins

2000

CpG methylation, the most common epigenetic modification of vertebrate genomes, is primarily associated with transcriptional repression. MeCP2, MBD1, MBD2, MBD3 and MBD4 constitute a family of vertebrate proteins that share the methyl-CpG-binding domain (MBD). The MBD, consisting of about 70 residues, possesses a unique alpha/beta-sandwich structure with characteristic loops, and is able to bind single methylated CpG pairs as a monomer. All MBDs except MBD4, an endonuclease that forms a complex with the DNA mismatch-repair protein MLH1, form complexes with histone deacetylase. It has been established that MeCP2, MBD1 and MBD2 are involved in histone deacetylase-dependent repression and it i…

GeneticsTranscription GeneticChromosomal Proteins Non-HistoneMethyl-CpG-Binding Protein 2Molecular Sequence DataDNADNA MethylationBiologyBiochemistryProtein Structure TertiaryMethyl-CpG-binding domainDNA-Binding ProteinsRepressor ProteinsEpigenetics of physical exerciseHistone methyltransferaseDNA methylationHistone methylationHistone H2AAnimalsHumansHistone codeCpG IslandsAmino Acid SequenceGene SilencingCancer epigeneticsEuropean Journal of Biochemistry
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Histone Code and Higher-Order Chromatin Folding: A Hypothesis

2016

AbstractHistone modifications alone or in combination are thought to modulate chromatin structure and function; a concept termed histone code. By combining evidence from several studies, we investigated if the histone code can play a role in higher-order folding of chromatin. Firstly using genomic data, we analyzed associations between histone modifications at the nucleosome level. We could dissect the composition of individual nucleosomes into five predicted clusters of histone modifications. Secondly, by assembling the raw reads of histone modifications at various length scales, we noticed that the histone mark relationships that exist at nucleosome level tend to be maintained at the high…

GenomicsSolenoid (DNA)Computational biologyChromatin remodelingArticleepigenetic regulationchemistry.chemical_compoundHistone H1super-resolution microscopyHistone methylationHistone H2ANucleosomeHistone codemeiosishistone modificationHistone octamerEpigeneticsGeneticsbiologynucleosomeFolding (DSP implementation)ChromatinHistonechemistrychromatin foldinghistone codebiology.proteinDNAchromatin organizationGenomics and computational biology
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Gene silencing induced by oxidative DNA base damage: association with local decrease of histone H4 acetylation in the promoter region

2010

Oxidized DNA bases, particularly 7,8-dihydro-8-oxoguanine (8-oxoG), are endogenously generated in cells, being a cause of carcinogenic mutations and possibly interfering with gene expression. We found that expression of an oxidatively damaged plasmid DNA is impaired after delivery into human host cells not only due to decreased retention in the transfected cells, but also due to selective silencing of the damaged reporter gene. To test whether the gene silencing was associated with a specific change of the chromatin structure, we determined the levels of histone modifications related to transcriptional activation (acetylated histones H3 and H4) or repression (methylated K9 and K27 of the hi…

GuanineGreen Fluorescent ProteinsGene ExpressionGene Regulation Chromatin and EpigeneticsBiologySAP30Hydroxamic AcidsTransfectionHistonesHistone H4Histone H3Histone H1Histone H2AHistone methylationGeneticsHumansHistone codeGene SilencingRNA MessengerTransgenesPromoter Regions GeneticAcetylationMolecular biologyChromatinHistone Deacetylase InhibitorsHistone methyltransferaseOxidation-ReductionDNA DamageHeLa CellsPlasmidsNucleic Acids Research
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Histone H3 Lysine 4 Mono-methylation does not Require Ubiquitination of Histone H2B

2005

The yeast Set1-complex catalyzes histone H3 lysine 4 (H3K4) methylation. Using N-terminal Edman sequencing, we determined that 50% of H3K4 is methylated and consists of roughly equal amounts of mono, di and tri-methylated H3K4. We further show that loss of either Paf1 of the Paf1 elongation complex, or ubiquitination of histone H2B, has only a modest effect on bulk histone mono-methylation at H3K4. Despite the fact that Set1 recruitment decreases in paf1delta cells, loss of Paf1 results in an increase of H3K4 mono-methylation at the 5' coding region of active genes, suggesting a Paf1-independent targeting of Set1. In contrast to Paf1 inactivation, deleting RTF1 affects H3K4 mono-methylation…

Histone H3 Lysine 4UbiquitinLysineSaccharomyces cerevisiaeBiologyMethylationenvironment and public healthMolecular biologyCell biologyHistonesHistone H1Structural BiologyHistone methyltransferaseHistone H2AHistone methylationHistone H2BHistone codeHistone octamerMolecular BiologyJournal of Molecular Biology
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