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 a- and b-globin gene clusters are subject to several levels of regulation. They are expressed exclusively in the erythroid cells, only during defined periods of development and in a perfectly tuned way, assuring, at any stage of ontogeny, a correct balance in the availability of a- and b-globin chains for hemoglobin assembling. Such a tight control is dependent on regulatory regions of DNA located either in proximity or at great distances from the globin genes in a region characterized by the presence of several DNAse I hypersensitive sites and known as the Locus Control Region. All these sequences exert stimulatory, inhibitory or more complex activities by interacting with transcription factors that bridge these regions of DNA to the RNA polymerase machinery. Many of these factors have now been cloned and the corresponding mouse genes inactivated, shading new light on the metabolic pathways they control. It is increasingly recognized that such factors are organized into hierarchies according to the number of genes and circuits they regulate. Some genes such as GATA-1 and 2 are master regulators that act on large numbers of genes at early stage of differentiation whereas others, like EKLF, stand on the lowest step and control only single or limited number of genes at late stages of differentiation. We will review recent data gathered from expression studies in cell cultures, in transgenic or K.O. murine models as well as from a clinical settings. We will also discuss the development of novel theories on the regulation of the a- and b-globin genes and clusters.
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PMID:Regulation of the globin genes. 1191 23

In Bacillus subtilis, expression of the rocG gene, encoding glutamate dehydrogenase, and the rocABC operon, involved in arginine catabolism, requires SigL (sigma(54))-containing RNA polymerase as well as RocR, a positive regulator of the NtrC/NifA family. The RocR protein was purified and shown to bind specifically to the intergenic region located between rocG and the rocABC operon. DNaseI footprinting experiments were used to define the RocR-binding site as an 8 bp inverted repeat, separated by one base pair, forming an imperfect palindrome which is present twice within the rocG-rocABC intergenic region, acting as both a downstream activating sequence (DAS) and an upstream activating sequence (UAS). Point mutations in either of these two sequences significantly lowered expression of both rocG and rocABC. This bidirectional enhancer element retained partial activity even when moved 9 kb downstream of the rocA promoter. Electron microscopy experiments indicated that an intrinsically curved region is located between the UAS/DAS region and the promoter of the rocABC operon. This curvature could facilitate interaction of RocR with sigma(54)-RNA polymerase at the rocABC promoter.
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PMID:Specificity of the interaction of RocR with the rocG-rocA intergenic region in Bacillus subtilis. 1263 42

The C-terminal domain of the Escherichia coli RNA polymerase (RNAP) alpha subunit (alphaCTD) stimulates transcription initiation by interacting with upstream (UP) element DNA and a variety of transcription activators. Here we identify specific substitutions in region 4.2 of sigma 70 (sigma(70)) and in alphaCTD that decrease transcription initiation from promoters containing some, but not all, UP elements. This decrease in transcription derives from a decrease in the initial equilibrium constant for RNAP binding (K(B)). The open complexes formed by the mutant and wild-type RNAPs differ in DNAse I sensitivity at the junction of the alphaCTD and sigma DNA binding sites, correlating with the differences in transcription. A model of the DNA-alphaCTD-sigma region 4.2 ternary complex, constructed from the previously determined X-ray structures of the Thermus aquaticus sigma region 4.2-DNA complex and the E. coli alphaCTD-DNA complex, indicates that the residues identified by mutation in sigma region 4.2 and in alphaCTD are in very close proximity. Our results strongly suggest that alphaCTD, when bound to an UP element proximal subsite, contacts the RNAP sigma(70) subunit, increasing transcription. Previous data from the literature suggest that this same sigma-alphaCTD interaction also plays a role in transcription factor-mediated activation.
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PMID:An intersubunit contact stimulating transcription initiation by E coli RNA polymerase: interaction of the alpha C-terminal domain and sigma region 4. 1275 30

Transcription of the gene encoding the transcriptional coactivator Oct-binding factor 1 (OBF-1)/OCA-B/Bob.1 is largely restricted to B cells. During B cell development OBF-1 expression shows two peaks, one in immature B cells in the bone marrow and the other in germinal center B cells. Promoter analysis has identified a cAMP response element (CRE)-binding site present in the OBF-1 proximal promoter that is crucial for activity in B cells and for the induction of OBF-1 expression upon stimulation with CD40 ligand/IL-4. Here we address the question of how transcription of the OBF-1 gene is restricted to B cells. Surprisingly, in transient transfection assays the OBF-1 proximal promoter exhibited an equally strong activity in B and non-B cells. In contrast, upstream promoter regions displayed B cell-specific properties, partly overlapping with DNaseI hypersensitive sites identified in this study. In mice, expression of a neomycin resistance gene under the control of a Polyoma enhancer/TK promoter cassette was restricted to B cells when integrated into the OBF-1 locus, but was ubiquitous when integrated into two other loci, Oct-1 or the large subunit of RNA polymerase II.Therefore, lineage commitment of the OBF-1 gene is promoter independent and is achieved by regulating the entire locus in a B cell-specific manner.
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PMID:The OBF-1 gene locus confers B cell-specific transcription by restricting the ubiquitous activity of its promoter. 1451 70

Guanosine tetraphosphate (ppGpp) is a signal of nutritional stress that regulates transcription. An RNA polymerase rudder mutant rpoC (Delta 312-315) is found to suppress ppGpp deficiency phenotypes by restoring both negative and positive activities of promoter fusions in vivo, as if ppGpp were present. Measurements of defects in transcription of the PargT tRNA promoter with mutant RNA polymerase reveal that the mutant enzyme quantitatively mimics the presence of added ppGpp. DNaseI footprints and mobility shifts under RNA polymerization conditions reveal that the promoter-specific transcription defect of the mutant enzyme can be ascribed to the presence of inactive dead-end promoter complexes with features similar to those of a stable closed complex. We propose that formation of such inactive complexes represents an alternative explanation of "stringent RNA polymerase" mutant behavior to those currently published, and it represents a newly discovered mode of action of ppGpp.
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PMID:Conversion of active promoter-RNA polymerase complexes into inactive promoter bound complexes in E. coli by the transcription effector, ppGpp. 1578 Sep 38

The transcription factor Pax5 (BSAP) is required for the expression of a B-cell-specific genetic program and for B-cell differentiation, and also to suppress genes of alternative lineages. The molecular mechanism by which repression of myeloid genes occurs during early B-lineage restriction is unknown and in this study we addressed this question. One of the genes repressed by Pax5 in B cells is the colony-stimulating factor receptor 1 gene (csf1r or c-fms). We examined the changes in chromatin caused by Pax5 activity, and we show that Pax5 is directly recruited to c-fms resulting in the rapid loss of RNA polymerase II binding, followed by loss of transcription factor binding and DNaseI hypersensitivity at all cis-regulatory elements. We also show that Pax5 targets the basal transcription machinery of c-fms by interacting with a binding site within the major transcription start sites. Our results support a model by which Pax5 does not lead to major alterations in chromatin modification, but inhibits transcription by interfering with the action of myeloid transcription factors.
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PMID:The mechanism of repression of the myeloid-specific c-fms gene by Pax5 during B lineage restriction. 1648 19

Many genes residing in gene clusters and expressed in a differentiation or developmental-stage specific manner are regulated by locus control regions (LCRs). These complex genetic regulatory elements are often composed of several DNAse I hypersensitive sites (HS sites) that function together to regulate the expression of several cis-linked genes. Particularly well characterized is the LCR associated with the beta-globin gene locus. The beta-globin LCR consists of five HS sites that are located upstream of the beta-like globin genes. Recent data demonstrate that the LCR is required for the association of the beta-globin gene locus with transcription foci or factories. The observation that RNA polymerase II associates with the LCR in erythroid progenitor or hematopoietic stem cells which do not express the globin genes suggests that the LCR is always in an accessible chromatin configuration during differentiation of erythroid cells. We propose that erythroid specific factors together with ubiquitous proteins mediate a change in chromatin configuration that juxtaposes the globin genes and the LCR. The proximity then facilitates the transfer of activities from the LCR to the globin genes. In this article we will discuss recent observations regarding beta-globin locus activation with a particular emphasis on LCR mediated activation of adult beta-globin gene expression.
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PMID:Locus control region mediated regulation of adult beta-globin gene expression. 1850 Jul 26

The genomic DNA segment encoding the rpoE gene and its flanking region was cloned from Xanthomonas campestris pv. campestris strain 11 (Xc11). The transcriptional start site of rpoE was located at nucleotide G, which is 33 nucleotides preceding the putative translation initiation codon of rpoE, and a extracytoplasmic function sigma factors (sigma(E))-dependent promoter was identified with -35 (5'-GAACTT-3') and -10 (5'-TCTCA-3') consensus sequences. The protein encoded by rpoE gene acted as a sigma (sigma) factor and was sufficient to direct core RNA polymerase to the rpoE promoter and to stimulate initiation of transcription in vitro. The specific binding of the reconstituted Esigma(E) holoenzyme with the Xc11 rpoE promoter was demonstrated by gel retardation assay and DNAse I footprint analysis. This study clearly demonstrated that the rpoE-rseA-mucD genomic organization of X. campestris is similar to that found in Xylella fastidiosa; however, expression of rpoE in X. campestris is autoregulated by its own sigma(E)-dependent promoter.
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PMID:Characterization and transcriptional analysis of an ECF sigma factor from Xanthomonas campestris pv. campestris. 1905 12

DNA replication in metazoans initiates from multiple chromosomal loci called origins. Currently, there are two methods to purify origin-centered nascent strands: lambda exonuclease digestion and anti-bromodeoxyuridine immunoprecipitation. Because both methods have unique strengths and limitations, we purified nascent strands by both methods, hybridized them independently to tiling arrays (1% genome) and compared the data to have an accurate view of genome-wide origin distribution. By this criterion, we identified 150 new origins that were reproducible across the methods. Examination of a subset of these origins by chromatin immunoprecipitation against origin recognition complex (ORC) subunits 2 and 3 showed 93% of initiation peaks to localize at/within 1 kb of ORC binding sites. Correlation of origins with functional elements of the genome revealed origin activity to be significantly enriched around transcription start sites (TSSs). Consistent with proximity to TSSs, we found a third of initiation events to occur at or near the RNA polymerase II binding sites. Interestingly, approximately 50% of the early origin activity was localized within 5 kb of transcription regulatory factor binding region clusters. The chromatin signatures around the origins were enriched in H3K4-(di- and tri)-methylation and H3 acetylation modifications on histones. Affinity of origins for open chromatin was also reiterated by their proximity to DNAse I-hypersensitive sites. Replication initiation peaks were AT rich, and >50% of the origins mapped to evolutionarily conserved regions of the genome. In summary, these findings indicate that replication initiation is influenced by transcription initiation and regulation as well as chromatin structure.
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PMID:Genomic study of replication initiation in human chromosomes reveals the influence of transcription regulation and chromatin structure on origin selection. 1995 11

Scanning the entire genome of E. coli by means of pattern-recognition software PlatProm spotted out more than a thousand of potential start points for antisense transcription. Taking into account possible role of antisense RNAs in the cell regulatory networks, our top-priority interest was focused on the promoter-like sites found within genes of transcription regulators. One of them (hns) encodes a major nucleoid protein affecting expression pattern of many genomic loci. Several potential start points for antisense transcription were found within its coding sequence. Gel-retardation assays, potassium permanganate and DNAse I foot-printings confirmed the ability of the intragenic promoter located approximately 280 bp downstream of ATG to bind RNA polymerase. Primer extension revealed the cDNA of the expected size while Northern blot hybridization assumes the presence of aRNA among cellular RNAs. Relative abundance of antisense RNA and hns-mRNA in vivo exhibited dependence on growth conditions thus assuming existence of regulatory pathways keeping cellular concentration of these two transcripts at the optimal level.
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PMID:[Antisense transcription within the hns locus of Escherichia coli]. 2060 74

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