Search results for "RNA polymerase II"

showing 10 items of 76 documents

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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The Conserved Foot Domain of RNA Pol II Associates with Proteins Involved in Transcriptional Initiation and/or Early Elongation

2011

RNA polymerase (pol) II establishes many protein-protein interactions with transcriptional regulators to coordinate different steps of transcription. Although some of these interactions have been well described, little is known about the existence of RNA pol II regions involved in contact with transcriptional regulators. We hypothesize that conserved regions on the surface of RNA pol II contact transcriptional regulators. We identified such an RNA pol II conserved region that includes the majority of the >foot> domain and identified interactions of this region with Mvp1, a protein required for sorting proteins to the vacuole, and Spo14, a phospholipase D. Deletion of MVP1 and SPO14 affects …

GeneticsGuanylyltransferaseChromatin ImmunoprecipitationSequence Homology Amino AcidTranscription GeneticMolecular Sequence DataRNA polymerase IISaccharomyces cerevisiaeInvestigationsBiologyReal-Time Polymerase Chain Reactionchemistry.chemical_compoundchemistryTranscription (biology)Capping enzymeRNA polymeraseGeneticsTranscriptional regulationbiology.proteinAmino Acid SequenceRNA Polymerase IITranscription factor II DGeneConserved SequenceGenetics
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What do you mean by transcription rate?

2013

mRNA synthesis in all organisms is performed by RNA polymerases, which work as nanomachines on DNA templates. The rate at which their product is made is an important parameter in gene expression. Transcription rate encompasses two related, yet different, concepts: the nascent transcription rate, which measures the in situ mRNA production by RNA polymerase, and the rate of synthesis of mature mRNA, which measures the contribution of transcription to the mRNA concentration. Both parameters are useful for molecular biologists, but they are not interchangeable and they are expressed in different units. It is important to distinguish when and where each one should be used. We propose that for fu…

GeneticsTranscription GeneticGeneral transcription factorPromoterE-boxRNA polymerase IIBiologyGeneral Biochemistry Genetics and Molecular BiologyCell biologychemistry.chemical_compoundTerminator (genetics)chemistryYeastsRNA polymerasebiology.proteinRNA MessengerTranscription factor II DTranscriptomeRNA polymerase II holoenzymeBioEssays
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Eukaryotic mRNA decay: methodologies, pathways, and links to other stages of gene expression.

2012

mRNA concentration depends on the balance between transcription and degradation rates. On both sides of the equilibrium, synthesis and degradation show, however, interesting differences that have conditioned the evolution of gene regulatory mechanisms. Here, we discuss recent genome-wide methods for determining mRNA half-lives in eukaryotes. We also review pre- and posttranscriptional regulons that coordinate the fate of functionally related mRNAs by using protein- or RNA-based trans factors. Some of these factors can regulate both transcription and decay rates, thereby maintaining proper mRNA homeostasis during eukaryotic cell life.

GeneticsUntranslated regionMessenger RNARNA StabilityEukaryotic transcriptionRNA-binding proteinRNA polymerase IIGenomicsBiologyCell biologyGene Expression RegulationStructural BiologyProtein BiosynthesisGene expressionP-bodiesbiology.proteinAnimalsHumansMolecular BiologyTranscription factorSignal TransductionJournal of molecular biology
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Arthropod 7SK RNA

2008

The 7SK small nuclear RNA (snRNA) is a key player in the regulation of polymerase (pol) II transcription. The 7SK RNA was long believed to be specific to vertebrates where it is highly conserved. Homologs in basal deuterostomes and a few lophotrochozoan species were only recently reported. On longer timescales, 7SK evolves rapidly with only few conserved sequence and structure motifs. Previous attempts to identify the Drosophila homolog thus have remained unsuccessful despite considerable efforts. Here we report on the discovery of arthropod 7SK RNAs using a novel search strategy based on pol III promoters, as well as the subsequent verification of its expression. Our results demonstrate th…

GeneticsbiologyComputational BiologyGene Expression7SK Small Nuclear RNAPrp24RNA polymerase IINon-coding RNARNA polymerase IIIConserved sequenceDrosophila melanogasterEvolutionary biologyRNA Small NuclearSequence Homology Nucleic AcidDatabases GeneticGeneticsbiology.proteinAnimalsNucleic Acid ConformationsnRNPArthropodsMolecular BiologyEcology Evolution Behavior and SystematicsSmall nuclear RNAMolecular Biology and Evolution
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Transcription of heat shock gene loci versus non-heat shock loci in Chironomus polytene chromosomes: evidence for heat-induced formation of novel put…

1995

The heat shock response of Chironomus polytene chromosomes was reexamined. The in vivo effects of heat shock on chromosomal [3H]uridine labeling, RNA polymerase II distribution and ribonucleoprotein (RNP) formation were investigated. One primary result is a clarification of the number and location of chromosomal sites strongly induced by treatment at 37 degrees C for 60 min. In total, seven major heat shock loci were identified by transcription autoradiography in Chironomus tentans: I-20A, II-16B, II-10C, II-4B, II-1C, III-12B, and IV-5C. Secondly, combining immunofluorescence with transcription autoradiography, I find RNA polymerase II occurring after heat shock at multiple chromosomal sit…

Hot TemperatureTranscription GeneticGenes InsectRNA polymerase IIBiologyChironomidaeChromosomesTranscription (biology)GeneticsTranscriptional regulationAnimalsHeat shockUridineHeat-Shock ProteinsGenetics (clinical)RibonucleoproteinHSPA14RNAMolecular biologyCell biologyHeat shock factorMicroscopy ElectronGene Expression RegulationRibonucleoproteinsbiology.proteinAutoradiographyRNA Polymerase IIChromosoma
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Redefining the MED13L syndrome

2015

Congenital cardiac and neurodevelopmental deficits have been recently linked to the mediator complex subunit 13-like protein MED13L, a subunit of the CDK8-associated mediator complex that functions in transcriptional regulation through DNA-binding transcription factors and RNA polymerase II. Heterozygous MED13L variants cause transposition of the great arteries and intellectual disability (ID). Here, we report eight patients with predominantly novel MED13L variants who lack such complex congenital heart malformations. Rather, they depict a syndromic form of ID characterized by facial dysmorphism, ID, speech impairment, motor developmental delay with muscular hypotonia and behavioral difficu…

MaleAdolescentHeart malformationTransposition of Great VesselsRNA polymerase IIBioinformaticsArticleMediatorIntellectual DisabilityIntellectual disabilityGeneticsmedicineTranscriptional regulationHumansAbnormalities MultipleChildTranscription factorGenetics (clinical)GeneticsScience & TechnologyMediator ComplexbiologyMuscular hypotoniaSyndromemedicine.diseasePhenotypeChild PreschoolMutationbiology.proteinMuscle HypotoniaFemaleNeurocognitiveEuropean Journal of Human Genetics
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Glutamate cysteine ligase up-regulation fails in necrotizing pancreatitis

2007

Glutathione depletion is a key factor in the development of acute pancreatitis. Our aim was to study the regulation of glutamate cysteine ligase, the rate-limiting enzyme in glutathione synthesis, in edematous or necrotizing pancreatitis in rats. Glutathione levels were kept low in necrotizing pancreatitis for several hours, with no increase in protein or mRNA levels of glutamate cysteine ligase subunits, despite binding of RNA polymerase II to their promoters and coding regions. The survival signal pathway mediated by ERK and c-MYC was activated, and c-MYC was recruited to the promoters. The failure in gene up-regulation seems to be due to a marked increase in cytosolic ribonuclease activi…

MaleTaurocholic AcidMAPK/ERK pathwayRNase PGlutamate-Cysteine LigaseRNA StabilityRNA polymerase IIBiochemistryGene Expression Regulation Enzymologicchemistry.chemical_compoundRibonucleasesTranscription (biology)Physiology (medical)medicineAnimalsEdemaRNA MessengerRibonucleaseRats WistarbiologyPancreatitis Acute NecrotizingNF-κBGlutathionemedicine.diseaseGlutathioneMolecular biologyRatsUp-RegulationPancreatitischemistrybiology.proteinPancreatitisRNA Polymerase IICeruletideTranscription FactorsFree Radical Biology and Medicine
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RNAPol-ChIP: a novel application of chromatin immunoprecipitation to the analysis of real-time gene transcription.

2004

We describe a procedure, RNAPol-ChIP, to measure actual transcriptional rate. It consists of the detection, by chromatin immunoprecipitation (ChIP), of RNA polymerase II within the coding region of genes. To do this, the DNA immunoprecipitated with polymerase antibodies is analysed by PCR, using an amplicon well within the coding region of the desired genes to avoid interferences with polymerase paused at the promoter. To validate RNAPol-ChIP, we compare our results to those obtained by classical methods in several genes induced during either liver regeneration or acute pancreatitis. When short half-life mRNA genes are studied (e.g. c-fos and egr1), RNAPol-ChIP gives results similar to thos…

MaleTranscription GeneticRNA polymerase IIPolymerase Chain ReactionTranscription (biology)GeneticsCoding regionAnimalsRNA MessengerRats WistarGenePolymeraseNAR Methods OnlinebiologyGenes fosAmpliconMolecular biologyPrecipitin TestsChromatinCell biologyChromatinLiver RegenerationRatsKineticsLiverPancreatitisAcute Diseasebiology.proteinRNA Polymerase IIChromatin immunoprecipitationNucleic acids research
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Cell volume homeostatically controls the rDNA repeat copy number and rRNA synthesis rate in yeast

2019

AbstractThe adjustment of transcription and translation rates to variable needs is of utmost importance for the fitness and survival of living cells. We have previously shown that the global transcription rate for RNA polymerase II is regulated differently in cells presenting symmetrical or asymmetrical cell division. The budding yeast Saccharomyces cerevisiae adopts a particular strategy to avoid that the smaller daughter cells increase their total mRNA concentration with every generation. The global mRNA synthesis rate lowers with a growing cell volume, but global mRNA stability increases. In this paper, we address what the solution is to the same theoretical problem for the RNA polymeras…

Messenger RNACell divisionTranscription (biology)Saccharomyces cerevisiaeRNA polymerase Ibiology.proteinRNA polymerase IIBiologyRibosomal RNAbiology.organism_classificationGeneCell biology
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