EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human beta-globin genes are expressed in a developmental stage-specific manner in erythroid cells. Gene-proximal cis-regulatory DNA elements and interacting proteins restrict the expression of the genes to the embryonic, fetal, or adult stage of erythropoiesis. In addition, the relative order of the genes with respect to the locus control region contributes to the temporal regulation of the genes. We have previously shown that transcription factors TFII-I and USF interact with the beta-globin promoter in erythroid cells. Herein we demonstrate that reducing the activity of USF decreased beta-globin gene expression, while diminishing TFII-I activity increased beta-globin gene expression in erythroid cell lines. Furthermore, a reduction of USF activity resulted in a significant decrease in acetylated H3, RNA polymerase II, and cofactor recruitment to the locus control region and to the adult beta-globin gene. The data suggest that TFII-I and USF regulate chromatin structure accessibility and recruitment of transcription complexes in the beta-globin gene locus and play important roles in restricting beta-globin gene expression to the adult stage of erythropoiesis.
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PMID:Antagonistic regulation of beta-globin gene expression by helix-loop-helix proteins USF and TFII-I. 1694 25

The establishment of epigenetic marks, such as methylation on histone tails, is mechanistically linked to RNA polymerase II within active genes. To explore the interplay between these modifications in transcribed noncoding as well as coding sequences, we analyzed epigenetic modification and chromatin structure at high resolution across 300 kb of human chromosome 11, including the beta-globin locus which is extensively transcribed in intergenic regions. Monomethylated H3K4, K9, and K36 were broadly distributed, while hypermethylated forms appeared to different extents across the region in a manner reflecting transcriptional activity. The trimethylation of H3K4 and H3K9 correlated within the most highly transcribed sequences. The H3K36me3 mark was more broadly detected in transcribed coding and noncoding sequences, suggesting that K36me3 is a stable mark on sequences transcribed at any level. Most epigenetic and chromatin structural features did not undergo transitions at the presumed borders of the globin domain where the insulator factor CTCF interacts, raising questions about the function of the borders.
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PMID:Distinctive signatures of histone methylation in transcribed coding and noncoding human beta-globin sequences. 1715 30

CTCF is a transcription factor with highly versatile functions ranging from gene activation and repression to the regulation of insulator function and imprinting. Although many of these functions rely on CTCF-DNA interactions, it is an emerging realization that CTCF-dependent molecular processes involve CTCF interactions with other proteins. In this study, we report the association of a subpopulation of CTCF with the RNA polymerase II (Pol II) protein complex. We identified the largest subunit of Pol II (LS Pol II) as a protein significantly colocalizing with CTCF in the nucleus and specifically interacting with CTCF in vivo and in vitro. The role of CTCF as a link between DNA and LS Pol II has been reinforced by the observation that the association of LS Pol II with CTCF target sites in vivo depends on intact CTCF binding sequences. "Serial" chromatin immunoprecipitation (ChIP) analysis revealed that both CTCF and LS Pol II were present at the beta-globin insulator in proliferating HD3 cells but not in differentiated globin synthesizing HD3 cells. Further, a single wild-type CTCF target site (N-Myc-CTCF), but not the mutant site deficient for CTCF binding, was sufficient to activate the transcription from the promoterless reporter gene in stably transfected cells. Finally, a ChIP-on-ChIP hybridization assay using microarrays of a library of CTCF target sites revealed that many intergenic CTCF target sequences interacted with both CTCF and LS Pol II. We discuss the possible implications of our observations with respect to plausible mechanisms of transcriptional regulation via a CTCF-mediated direct link of LS Pol II to the DNA.
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PMID:CTCF interacts with and recruits the largest subunit of RNA polymerase II to CTCF target sites genome-wide. 1721 Jun 45

Histone acetyltransferases are associated with the elongating RNA polymerase II (Pol II) complex, supporting the idea that histone acetylation and transcription are intertwined mechanistically in gene coding sequences. Here, we studied the establishment and function of histone acetylation and transcription in noncoding sequences by using a model locus linking the beta-globin HS2 enhancer and the embryonic epsilon-globin gene in chromatin. An intact HS2 enhancer that recruits RNA Pol II is required for intergenic transcription and histone H3 acetylation and K4 methylation between the enhancer and target gene. RNA Pol II recruitment to the target gene TATA box is not required for the intergenic transcription or intergenic histone modifications, strongly implying that they are properties conferred by the enhancer. However, Pol II recruitment at HS2, intergenic transcription, and intergenic histone modification are not sufficient for transcription or modification of the target gene: these changes require initiation at the TATA box of the gene. The results suggest that intergenic and genic transcription complexes are independent and possibly differ from one another.
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PMID:Beta-globin intergenic transcription and histone acetylation dependent on an enhancer. 1728 48

RNA export factor (REF) is a component of the exon junction complex (EJC) that is deposited on mRNA in a splicing-dependent manner, and targets spliced mRNA for export. In this study, analysis of the RNA-binding protein complexes revealed that REF associates with beta-globin mRNA at the region other than the EJC deposition site. Comparison between RNA polymerase II and T7 transcription and further analysis showed that the deposition of REF apart from the EJC is dependent on the 5' cap structure, but not splicing. Excess amounts of m(7)GpppG cap analog reduced REF binding to intronless mRNA, and a co-immunoprecipitation experiment revealed that REF interacts with the cap-binding protein CBP20. The export of Cy3-labeled intronless beta-globin mRNA from nuclei of HeLa cells was enhanced by co-injection of CBP20 and REF. Thus, REF recruited by CBP20 may play a stimulatory role to export the capped intronless mRNAs.
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PMID:The interaction between cap-binding complex and RNA export factor is required for intronless mRNA export. 1736 67

GATA factors orchestrate hematopoiesis via multistep transcriptional mechanisms, but the interrelationships and importance of individual steps are poorly understood. Using complementation analysis with GATA-1-null cells and mice containing a hypomorphic allele of the chromatin remodeler BRG1, we dissected the pathway from GATA-1 binding to cofactor recruitment, chromatin loop formation, and transcriptional activation. Analysis of GATA-1-mediated activation of the beta-globin locus, in which GATA-1 assembles dispersed complexes at the promoters and the distal locus control region (LCR), revealed molecular intermediates, including GATA-1-independent and GATA-1-containing LCR subcomplexes, both defective in promoting loop formation. An additional intermediate consisted of an apparently normal LCR complex and a promoter complex with reduced levels of total RNA polymerase II (Pol II) and Pol II phosphorylated at serine 5 of the carboxy-terminal domain. Reduced BRG1 activity solely compromised Pol II and serine 5-phosphorylated Pol II occupancy at the promoter, phenocopying the LCR-deleted mouse. These studies defined a hierarchical order of GATA-1-triggered events at a complex locus and establish a novel mechanism of long-range gene regulation.
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PMID:Dissecting molecular steps in chromatin domain activation during hematopoietic differentiation. 1743 35

Histone deacetylase (HDAC) inhibitors are one of promising drugs to induce fetal hemoglobin (HbF) for treatment of sickle cell disease (SCD) and beta-thalassemia. The HDAC inhibitor apicidin was recently reported as a powerful inducer of HbF via a mechanism involving p38 signaling. In this study, we further investigated the signaling effects on the transcriptional activation of gamma-globin gene. First, we compared histone 3 (H3) acetylation patterns of approximately 70kb beta-globin loci in K562 erythroid versus HeLa cells upon apicidin treatment by chromatin immunoprecipitation assays. The results showed that the level of H3 acetylation was globally increased from the LCR to the promoter of gamma-globin gene in K562 cells, but not in non-erythroid, HeLa cells. Inhibition of p38 signaling blocks the effects of apicidin-induced gamma-globin expression and H3 acetylation. In parallel, we assessed the recruitment of transcriptional complex to beta-globin locus following apicidin treatment. The binding of GATA-1, Sp1 and RNA polymerase II (pol II) were observed to increase over several regulatory regions of beta-globin locus. Inhibitor study revealed that p38 pathway was not involved in their recruitments by apicidin. Collectively, our results provide a molecular basis to elucidate the underlying mechanisms involving p38 signaling pathway in the inducement of gamma-globin transcriptional expression by apicidin.
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PMID:Mechanisms of human gamma-globin transcriptional induction by apicidin involves p38 signaling to chromatin. 1791 Aug 85

A relationship exists between nuclear architecture and gene activity and it has been proposed that the activity of ongoing RNA polymerase II transcription determines genome organization in the mammalian cell nucleus. Recently developed 3C and 4C technology allowed us to test the importance of transcription for nuclear architecture. We demonstrate that upon transcription inhibition binding of RNA polymerase II to gene regulatory elements is severely reduced. However, contacts between regulatory DNA elements and genes in the beta-globin locus are unaffected and the locus still interacts with the same genomic regions elsewhere on the chromosome. This is a general phenomenon since the great majority of intra- and interchromosomal interactions with the ubiquitously expressed Rad23a gene are also not affected. Our data demonstrate that without transcription the organization and modification of nucleosomes at active loci and the local binding of specific trans-acting factors is unaltered. We propose that these parameters, more than transcription or RNA polymerase II binding, determine the maintenance of long-range DNA interactions.
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PMID:Maintenance of long-range DNA interactions after inhibition of ongoing RNA polymerase II transcription. 1828 8

Evidences indicate that locus control region (LCR) of beta-globin spatially closes to the downstream active gene promoter to mediate the transcriptional activation by looping. DNA binding proteins may play an important role in the looping formation. NF-E2 is one of the key transcription factors in beta-globin gene transcriptional activation. To shed light on whether NF-E2 is involved in this process, DS19MafKsiRNA cell pools were established by specifically knocked down the expression of MafK/NF-E2 p18, one subunit of NF-E2 heterodimer. In the above cell pools, it was observed that the occupancy efficiency of NF-E2 on beta-globin gene locus and the expression level of beta-globin genes were decreased. H3 acetylation, H3-K4 methylation and the deposition of RNA polymerase II, but not the recruitment of GATA-1, were also found reduced at the beta-globin gene cluster. Chromosome Conformation Capture (3C) assay showed that the cross-linking frequency between the main NF-E2 binding site HS2 and downstream structural genes was reduced compared to the normal cell. This result demonstrated that MafK/NF-E2 p18 recruitment was involved in the physical proximity of LCR and active beta-globin genes upon beta-globin gene transcriptional activation.
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PMID:MafK/NF-E2 p18 is required for beta-globin genes activation by mediating the proximity of LCR and active beta-globin genes in MEL cell line. 1830 12

Hemoglobin (Hb) serves as the main oxygen transporter in erythrocytes, but it is also expressed in nonhematopoietic organs, where it serves an unknown function. In this study, microarray and proteomic analyses demonstrated Hb expression in the kidney. Rat kidneys were perfused extensively with saline, and glomeruli were isolated by several techniques (sieving, manual dissection, and laser capture-microdissection). Reverse transcriptase-PCR revealed glomerular alpha- and beta-globin expression, and immunoblotting demonstrated expression of the protein. In situ hybridization studies showed expression of the globin subunits in the mesangium, and immunostaining confirmed this localization of Hb. Furthermore, globin mRNA expression was detected in primary cultures of rat mesangial cells but not in cultured glomerular endothelial or epithelial cells. For investigation of Hb function in mesangial cells, the SV40-MES13 murine mesangial cell line was transfected with a vector expressing alpha- and beta-globins; this overexpression reduced production of hydrogen peroxide-induced intracellular radical oxygen species and enhanced cell viability against oxidative stress. In summary, Hb is expressed by rat mesangial cells, and its potential functions may include antioxidative defense.
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PMID:Hemoglobin is expressed by mesangial cells and reduces oxidant stress. 1861 70

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