Modifications of RNA polymerase II are pivotal in regulating gene expression states.
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Radiation-induced alterations in histone modification patterns and their potential impact on short-term radiation effectsPhylogenomic analyses of nuclear genes reveal the evolutionary relationships within the BEP clade and the evidence of positive selection in PoaceaeGene-specific requirement of RNA polymerase II CTD phosphorylationGenome-wide RNA polymerase II profiles and RNA accumulation reveal kinetics of transcription and associated epigenetic changes during diurnal cyclesAID targeting is dependent on RNA polymerase II pausing.CpG islands and the regulation of transcriptionA downstream CpG island controls transcript initiation and elongation and the methylation state of the imprinted Airn macro ncRNA promoterSTAT6-mediated displacement of polycomb by trithorax complex establishes long-term maintenance of GATA3 expression in T helper type 2 cellsUTX mediates demethylation of H3K27me3 at muscle-specific genes during myogenesisThe methyltransferase SMYD3 mediates the recruitment of transcriptional cofactors at the myostatin and c-Met genes and regulates skeletal muscle atrophyA co-localization model of paired ChIP-seq data using a large ENCODE data set enables comparison of multiple samples.Rad26, the transcription-coupled repair factor in yeast, is required for removal of stalled RNA polymerase-II following UV irradiationLandscape of histone modifications in a sponge reveals the origin of animal cis-regulatory complexity.DNA methylation of the first exon is tightly linked to transcriptional silencingRing1B and Suv39h1 delineate distinct chromatin states at bivalent genes during early mouse lineage commitmentPolycomb repressive complex 2 in embryonic stem cells: an overview.Generation of bivalent chromatin domains during cell fate decisionsGene regulation by the act of long non-coding RNA transcriptionGenome-wide mapping of Sox6 binding sites in skeletal muscle reveals both direct and indirect regulation of muscle terminal differentiation by Sox6.Double-strand break-induced transcriptional silencing is associated with loss of tri-methylation at H3K4.The classification of mRNA expression levels by the phosphorylation state of RNAPII CTD based on a combined genome-wide approach.Proteomic analysis of mitotic RNA polymerase II reveals novel interactors and association with proteins dysfunctional in disease.PAFc, a key player in MLL-rearranged leukemogenesis.Transcriptional complexity and roles of Fra-1/AP-1 at the uPA/Plau locus in aggressive breast cancer.Characteristic bimodal profiles of RNA polymerase II at thousands of active mammalian promotersNuclear RNA sequencing of the mouse erythroid cell transcriptomeEpigenomic reorganization of the clustered Hox genes in embryonic stem cells induced by retinoic acidInterferon antagonist NSs of La Crosse virus triggers a DNA damage response-like degradation of transcribing RNA polymerase II.RNAP-II molecules participate in the anchoring of the ORC to rDNA replication origins.p68/DdX5 supports β-catenin & RNAP II during androgen receptor mediated transcription in prostate cancer.Repeat expansion affects both transcription initiation and elongation in friedreich ataxia cellsEpigenetic control of a VDR-governed feed-forward loop that regulates p21(waf1/cip1) expression and function in non-malignant prostate cells.Mass spectrometry and biochemical analysis of RNA polymerase II: targeting by protein phosphatase-1.Depletion of REF/Aly alters gene expression and reduces RNA polymerase II occupancy.Ligand-dependent dynamics of retinoic acid receptor binding during early neurogenesisPNUTS/PP1 regulates RNAPII-mediated gene expression and is necessary for developmental growth.Genome-wide chromatin occupancy analysis reveals a role for ASH2 in transcriptional pausing.DNA methylation and chromatin organization in insects: insights from the Ant Camponotus floridanus.Cdc14b regulates mammalian RNA polymerase II and represses cell cycle transcription.Son maintains accurate splicing for a subset of human pre-mRNAs.
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Modifications of RNA polymerase II are pivotal in regulating gene expression states.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 16 October 2009
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Modifications of RNA polymerase II are pivotal in regulating gene expression states.
@en
Modifications of RNA polymerase II are pivotal in regulating gene expression states.
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type
label
Modifications of RNA polymerase II are pivotal in regulating gene expression states.
@en
Modifications of RNA polymerase II are pivotal in regulating gene expression states.
@nl
prefLabel
Modifications of RNA polymerase II are pivotal in regulating gene expression states.
@en
Modifications of RNA polymerase II are pivotal in regulating gene expression states.
@nl
P2860
P356
P1433
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Modifications of RNA polymerase II are pivotal in regulating gene expression states.
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P2860
P304
P356
10.1038/EMBOR.2009.221
P577
2009-10-16T00:00:00Z