Search results for "Transcription factor II A"

showing 2 items of 2 documents

Defects in the NC2 repressor affect both canonical and non-coding RNA polymerase II transcription initiation in yeast.

2016

BACKGROUND: The formation of the pre-initiation complex in eukaryotic genes is a key step in transcription initiation. The TATA-binding protein (TBP) is a universal component of all pre-initiation complexes for all kinds of RNA polymerase II (RNA pol II) genes, including those with a TATA or a TATA-like element, both those that encode proteins and those that transcribe non-coding RNAs. Mot1 and the negative cofactor 2 (NC2) complex are regulators of TBP, and it has been shown that depletion of these factors in yeast leads to defects in the control of transcription initiation that alter cryptic transcription levels in selected yeast loci. RESULTS: In order to cast light on the molecular func…

0301 basic medicineSaccharomyces cerevisiae ProteinsTranscription GeneticRNA polymerase IISaccharomyces cerevisiaeGenètica molecularNC203 medical and health sciencesSaccharomycesTranscripció genèticaGeneticsTATACryptic transcriptRNA polymerase II holoenzymeGeneticsbiologyGeneral transcription factorTATA-Box Binding ProteinTranscription initiationPhosphoproteinsTATA-Box Binding ProteinYeastRepressor Proteins030104 developmental biologyTATA-likebiology.proteinTranscription factor II FATP-Binding Cassette TransportersRNA Polymerase IITranscription factor II DTranscriptomeTranscription factor II BProteïnesTranscription factor II AResearch ArticleBiotechnologyTranscription Factors
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The Yeast RNA Polymerase II-associated Factor Iwr1p Is Involved in the Basal and Regulated Transcription of Specific Genes

2009

RNA polymerase II (RNA pol II) is a multisubunit enzyme that requires many auxiliary factors for its activity. Over the years, these factors have been identified using both biochemical and genetic approaches. Recently, the systematic characterization of protein complexes by tandem affinity purification and mass spectroscopy has allowed the identification of new components of well established complexes, including the RNA pol II holoenzyme. Using this approach, a novel and highly conserved factor, Iwr1p, that physically interacts with most of the RNA pol II subunits has been described in yeast. Here we show that Iwr1p genetically interacts with components of the basal transcription machinery …

CytoplasmSaccharomyces cerevisiae ProteinsTranscription GeneticActive Transport Cell NucleusRNA polymerase IISaccharomyces cerevisiaeBiologyBiochemistryPhosphatesFungal ProteinsGene Expression Regulation FungalTranscription Chromatin and EpigeneticsPromoter Regions GeneticMolecular BiologyRNA polymerase II holoenzymeGeneticsModels Geneticbeta-FructofuranosidaseGeneral transcription factorCell BiologyCell biologyKineticsGene Expression RegulationMicroscopy FluorescenceMutationbiology.proteinTranscription factor II FRNA Polymerase IITranscription factor II ETranscription factor II DCarrier ProteinsTranscription factor II BTranscription factor II AJournal of Biological Chemistry
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