Search results for "RNA Polymerase I"

showing 10 items of 81 documents

Corrigendum to “External conditions inversely change the RNA polymerase II elongation rate and density in yeast” [Biochim. Biophys. Acta 1829/11 (201…

2017

BiochemistrybiologyStructural BiologyChemistryGeneticsBiophysicsbiology.proteinRNA polymerase IIElongationMolecular BiologyBiochemistryYeastBiochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms
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Regulon-Specific Control of Transcription Elongation across the Yeast Genome

2009

Transcription elongation by RNA polymerase II was often considered an invariant non-regulated process. However, genome-wide studies have shown that transcriptional pausing during elongation is a frequent phenomenon in tightly-regulated metazoan genes. Using a combination of ChIP-on-chip and genomic run-on approaches, we found that the proportion of transcriptionally active RNA polymerase II (active versus total) present throughout the yeast genome is characteristic of some functional gene classes, like those related to ribosomes and mitochondria. This proportion also responds to regulatory stimuli mediated by protein kinase A and, in relation to cytosolic ribosomal-protein genes, it is medi…

Cancer ResearchSaccharomyces cerevisiae Proteinslcsh:QH426-470Transcription GeneticComputational Biology/Transcriptional RegulationRNA polymerase IISaccharomyces cerevisiaeRegulonGenètica molecularSaccharomycesTranscripció genèticaTranscription (biology)GeneticsTranscriptional regulationMolecular BiologyRNA polymerase II holoenzymeGeneGenetics (clinical)Ecology Evolution Behavior and SystematicsGeneticsbiologyGenetics and Genomics/Functional GenomicsMolecular Biology/Transcription ElongationHigh Mobility Group ProteinsGenetics and Genomics/Gene ExpressionElongation factorDNA-Binding Proteinslcsh:GeneticsTAF4biology.proteinRNARNA Polymerase IITranscription factor II DGenome FungalTranscriptional Elongation FactorsBiochemistry/Transcription and TranslationResearch Article
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Cell volume homeostatically controls the rDNA repeat copy number and rRNA synthesis rate in yeast

2021

[Abstract] The adjustment of transcription and translation rates to the changing needs of cells is of utmost importance for their fitness and survival. We have previously shown that the global transcription rate for RNA polymerase II in budding yeast Saccharomyces cerevisiae is regulated in relation to cell volume. Total mRNA concentration is constant with cell volume since global RNApol II-dependent nascent transcription rate (nTR) also keeps constant but mRNA stability increases with cell size. In this paper, we focus on the case of rRNA and RNA polymerase I. Contrarily to that found for RNA pol II, we detected that RNA polymerase I nTR increases proportionally to genome copies and cell s…

Cancer ResearchTranscription GeneticCellGene ExpressionRNA polymerase IIYeast and Fungal ModelsProtein SynthesisQH426-470HaploidyBiochemistryPolymerasesSirtuin 2Transcription (biology)RNA Polymerase IHomeostasisCell Cycle and Cell DivisionGenetics (clinical)Silent Information Regulator Proteins Saccharomyces cerevisiaebiologyTranscriptional ControlEukaryotaChemical SynthesisGenomicsCell biologyNucleic acidsmedicine.anatomical_structureExperimental Organism SystemsRibosomal RNARNA polymeraseCell ProcessesRNA Polymerase IIResearch ArticleCell biologyCellular structures and organellesSaccharomyces cerevisiae ProteinsBiosynthetic TechniquesSaccharomyces cerevisiaeSaccharomyces cerevisiaeResearch and Analysis MethodsDNA RibosomalSaccharomycesModel OrganismsCyclinsDNA-binding proteinsmedicineRNA polymerase IGeneticsGene RegulationNon-coding RNAMolecular BiologyEcology Evolution Behavior and SystematicsCell SizeMessenger RNACèl·lules eucariotesOrganismsFungiRNABiology and Life SciencesProteinsGenes rRNARibosomal RNAModels Theoreticalbiology.organism_classificationYeastGenòmicabiology.proteinAnimal StudiesRNARibosomes
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Termination of transcription in an ‘in vitro’ system is dependent on a polyadenylation sequence

1991

Using HeLa cell nuclear extract as a source of the different transcription and polyadenylation factors and reverse transcription to analyze the levels of RNA 5' and 3' to the cleavage-polyadenylation site, an in vitro assay has been established to study polyadenylation coupled to transcription directed by different adenovirus promoters. The levels of transcription 5' and 3' to the cleavage site in the L3 polyadenylation region are practically the same as described previously, however, the level of transcription 3' to the cleavage site in the SV40 early polyadenylation region decreases immediately after the cleavage site indicating a termination of the transcription.

Cell ExtractsTranscription GeneticPolyadenylationMolecular Sequence DataRNA polymerase IISimian virus 40BiologyCleavage (embryo)AdenoviridaeTranscription (biology)GeneticsRNA MessengerPromoter Regions GeneticBase SequenceRNARNA-Directed DNA PolymerasePromoterMolecular biologyReverse transcriptasebiology.proteinRNA Polymerase IIChromosome DeletionPoly ACytokinesisHeLa CellsPlasmidsNucleic Acids Research
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DNA-replication complex from cells infected with herpes virus.

2005

Herpes simplex virus (HSV) DNA synthesis is initiated in an intact cell system by a 36-residue ribonucleotide stretch [W.E.G. Müller, R.K. Zahn, J. Arendes, and D. Falke (1979) Virology, 98, 200-210]. In the present study a nucleoplasmic fraction was isolated from rabbit kidney cells infected with HSV (type 1), which catalyzes DNA synthesis. By means of specific assays, containing single-stranded deoxyribopolymers, it was elucidated that the replication complex contains both an RNA-synthesizing and a DNA-synthesizing enzyme. These enzymes were characterized as host cell RNA polymerase II and HSV-induced DNA polymerase. The RNA polymerase II synthesizes an RNA initiator with an average chain…

Cell NucleusDNA ReplicationCytoplasmDNA clampbiologyDNA polymeraseDNA polymerase IIDNA replicationDNA-Directed DNA PolymeraseKidneyBiochemistryMolecular biologyDNA polymerase deltaKineticsSolubilityDNA Viralbiology.proteinAnimalsSimplexvirusPrimaseRNA Polymerase IIRabbitsDNA polymerase IPolymeraseEuropean journal of biochemistry
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Chromatin dynamics of the developmentally regulated P. lividus neural alpha tubulin gene

2011

Over 40 years ago, Allfrey and colleagues (1964) suggested that two histone modifications, namely acetylation and methylation, might regulate RNA synthesis. Nowadays it is universally accepted that activation of gene expression strictly depends on enzymatic mechanisms able to dynamically modify chromatin structure. Here, using techniques including DNaseI hypersensitive site analysis, chomatin immunoprecipitation and quantitative PCR analysis, we have analyzed the dynamics of histone post-translation modifications involved in developmentally/spatially controlled activation of the sea urchin PlTalpha2 tubulin gene. We have demonstrated that only when the PlTalpha2 core promoter chromatin is a…

Chromatin ImmunoprecipitationEmbryologyRNA polymerase IISettore BIO/11 - Biologia MolecolareMethylationNervous SystemHistone DeacetylasesHistonesTubulinGene expressionAnimalsParacentrotus lividus chromatin modification epigenetic reprogramming nervous systemPromoter Regions GeneticHistone AcetyltransferasesEpigenomicsHistone DemethylasesbiologyGene Expression Regulation DevelopmentalAcetylationPromoterHistone-Lysine N-MethyltransferaseMolecular biologyChromatinChromatinCell biologyHistoneAcetylationHistone MethyltransferasesParacentrotusbiology.proteinRNA Polymerase IIProtein Processing Post-TranslationalHypersensitive siteDevelopmental Biology
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Dissection of the elements of osmotic stress response transcription factor Hot1 involved in the interaction with MAPK Hog1 and in the activation of t…

2013

Abstract The response to hyperosmotic stress is mediated by the HOG pathway. The MAP kinase Hog1 activates several transcription factors, regulates chromatin-modifying enzymes and, through its interaction with RNA polymerase II, it directs this enzyme to osmotic stress-controlled genes. For such targeting, this kinase requires the interaction with transcription factors Hot1 and Sko1. However, phosphorylation of these proteins by Hog1 is not required for their functionality. In this study, we aim to identify the Hot1 elements involved in Hog1-binding and in the activation of transcription. Two-hybrid experiments demonstrated that the Hot1 sequence between amino acids 340 and 534 and the CD e…

Chromatin ImmunoprecipitationSaccharomyces cerevisiae ProteinsTranscription GeneticResponse elementBiophysicsRNA polymerase IIE-boxSaccharomyces cerevisiaeReal-Time Polymerase Chain ReactionResponse ElementsBiochemistryOsmoregulationStructural BiologyGene Expression Regulation FungalGeneticsImmunoprecipitationRNA MessengerPhosphorylationPromoter Regions GeneticMolecular BiologyTranscription factorRNA polymerase II holoenzymeGeneral transcription factorbiologyReverse Transcriptase Polymerase Chain ReactionChromatinBiochemistrybiology.proteinTranscription factor II DMitogen-Activated Protein KinasesTranscription factor II BProtein BindingTranscription FactorsBiochimica et biophysica acta
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Epigenetic Transcriptional Regulation of the Growth Arrest-Specific gene 1 (Gas1) in Hepatic Cell Proliferation at Mononucleosomal Resolution

2011

Background Gas1 (growth arrest-specific 1) gene is known to inhibit cell proliferation in a variety of models, but its possible implication in regulating quiescence in adult tissues has not been examined to date. The knowledge of how Gas1 is regulated in quiescence may contribute to understand the deregulation occurring in neoplastic diseases. Methodology/Principal Findings Gas1 expression has been studied in quiescent murine liver and during the naturally synchronized cell proliferation after partial hepatectomy. Chromatin immunoprecipitation at nucleosomal resolution (Nuc-ChIP) has been used to carry out the study preserving the in vivo conditions. Transcription has been assessed at real …

Chromatin ImmunoprecipitationTranscription GeneticGene Expressionlcsh:MedicineCell Cycle ProteinsRNA polymerase IIBiologyGPI-Linked ProteinsMethylationHistone DeacetylasesChromatin remodelingEpigenesis GeneticS PhaseHistonesMiceMolecular Cell BiologyTranscriptional regulationAnimalsHepatectomyEpigeneticsPromoter Regions Geneticlcsh:ScienceBiologyCell ProliferationHistone AcetyltransferasesRegulation of gene expressionMultidisciplinaryReverse Transcriptase Polymerase Chain ReactionGene Expression Profilinglcsh:RG1 PhaseAcetylationHistone ModificationImmunohistochemistryMolecular biologyChromatinNucleosomesChromatinHistoneGene Expression RegulationLiverbiology.proteinlcsh:QTranscription Initiation SiteChromatin immunoprecipitationProtein BindingResearch ArticlePLoS ONE
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Collagen-induced differential expression of an RNA polymerase subunit by breast cancer cells

2005

It was previously reported that the stroma of ductal infiltrating carcinoma (DIC) of the human breast contains considerable amount of an embryo-foetal collagen type, OF/LB (onco-foetal/laminin-binding), and that adhesion of 8701-BC DIC cells onto OF/LB collagen substrates selectively promotes cell growth, motility, production of extracellular lytic enzymes and invasion "in vitro" if compared with other collagen species. To detect possible transcriptional differences for regulatory proteins following OF/LB collagen-cell interactions, we submitted RNA preparations from 8701-BC cells grown on collagen type I, IV and OF/LB to "differential display"-PCR in the presence of degenerate C(2)H(2) zin…

Collagen Type IVProtein subunitBreast NeoplasmsBiologyPolymerase Chain ReactionBiochemistryCollagen Type Ichemistry.chemical_compoundBreast cancerRNA polymeraseRNA Ribosomal 18STumor Cells CulturedExtracellularHumansSettore BIO/06 - Anatomia Comparata E CitologiaGeneCell growthRNACell DifferentiationGeneral MedicineMolecular biologyUp-RegulationEnzyme ActivationGene Expression Regulation NeoplasticProtein SubunitschemistryCell cultureRNA polymeraseFemaleLamininRNA Polymerase IICollagenCell cultureGlyceraldehyde-3-Phosphate Dehydrogenase (Phosphorylating)Tyrosine kinase
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The role of cell interactions in the control of RNA synthesis.

1967

CytoplasmChemistryCellular differentiation5.8S ribosomal RNACellRNAPhosphorus IsotopesCell DifferentiationRNA integrity numberNon-coding RNABiochemistry Genetics and Molecular Biology (miscellaneous)RNA polymerase IIICell biologymedicine.anatomical_structureRNA editingmedicineCentrifugation Density GradientAnimalsRNAUltracentrifugationEchinodermataBiochimica et biophysica acta
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