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)

Brome mosaic virus (BMV), a positive-strand RNA virus in the alphavirus-like superfamily, encodes two RNA replication proteins. The 1a protein has putative helicase and RNA-capping domains, whereas 2a contains a polymerase-like domain. Saccharomyces cerevisiae expressing 1a and 2a is capable of replicating a BMV RNA3 template produced by in vivo transcription of a DNA copy of RNA3. Although insufficient for RNA3 replication, the expression of 1a protein alone results in a dramatic and specific stabilization of the RNA3 template in yeast. As one step toward understanding 1a-induced stabilization of RNA3, the interactions involved, and its possible relation to RNA replication, we have identified the cis-acting sequences required for this effect. We find that 1a-induced stabilization is mediated by a 150- to 190-base segment of the RNA3 intergenic region corresponding to a previously identified enhancer of RNA3 replication. Moreover, this segment is sufficient to confer 1a-induced stability on a heterologous beta-globin RNA. Within this intergenic segment, partial deletions that inhibited 1a-induced stabilization in yeast expressing 1a alone resulted in parallel decreases in the levels of negative- and positive-strand RNA3 replication products in yeast expressing 1a and 2a. In particular, a small deletion encompassing a motif corresponding to the box B element of RNA polymerase III promoters dramatically reduced the ability of RNAs to respond to 1a or 1a and 2a. These and other findings suggest that 1a-induced stabilization likely reflects an early template selection step in BMV RNA replication.
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PMID:A brome mosaic virus intergenic RNA3 replication signal functions with viral replication protein 1a to dramatically stabilize RNA in vivo. 1007 7

Increased levels of hemoglobin A(2) (HbA(2)) are present in most beta-thalassemia carriers. The mechanism of this effect is not understood, although the increase may result from transcriptional and posttranscriptional changes. In the present study, we quantitate delta-globin mRNA levels in peripheral-blood-enriched reticulocytes and characterize the variation of delta-mRNA levels in 30 beta-thalassemia heterozygotes who individually carry one of the four common Chinese beta-thalassemia alleles [codons 41/42 (-TTCT); codon 17 (A-->T); IVS-II-654 (C-->T); -28 (A-->G)]. A sensitive and quantitative competitive reverse-transcriptase polymerase chain reaction method was developed and used to assess the absolute amounts of delta-mRNA transcripts in these peripheral erythroid cells. The results showed a large increase in delta-mRNA amounts in all the carriers examined (72.3 +/- 9.0 amol/microg RNA) as compared with those in 12 controls (1.2 +/- 0.2 amol/ microg RNA). There was a direct correlation between the delta-mRNA levels and types of beta-thalassemia alleles; generally, the delta-mRNA levels are higher in heterozygotes for beta(0)-thalassemia mutations than beta(+)-thalassemia mutations. The delta-mRNA levels correlated inversely with hemoglobin and red cell indices but directly with HbA(2) levels in heterozygotes of each of the group of beta-thalassemia mutations. These results suggest that a greater impairment in beta-globin gene expression results in increased transcription of delta-globin gene and in a higher level of HbA(2).
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PMID:The delta-globin RNA transcript level in beta-thalassemia carriers. 1047 80

To date, the normal transcriptional regulation of the human beta-globin gene cluster has been recapitulated most accurately in transgenic mice that carry large yeast artificial chromosome (YAC) or ligated cosmid constructs. However, these large transgenes still exhibit variegated expression levels, perhaps because they tend to rearrange upon integration, or because the cloning vectors remain attached to the globin inserts. To try to circumvent these potential problems, we investigated the transgenic properties of a 100-kb DNA fragment containing the entire human beta-globin cluster propagated in a bacterial artificial chromosome (BAC). We created 9 independent mouse lines, each carrying 1 to 6 copies of the human beta-globin cluster without the attached BAC vector. Five of the lines carry unrearranged copies of the cluster. Reverse-transcriptase polymerase chain reaction (RT-PCR) analysis of adult F(1) mice showed that 2 lines express human beta globin at levels approximately equivalent to the endogenous mouse beta-major genes. One line expresses no human beta globin, while the remaining 6 lines show intermediate expression levels. Complete gamma-->beta-globin gene switching occurs, but is slightly delayed with respect to the endogenous mouse embryonic-->adult switch. Since these data are similar to what has been obtained using globin YACs or ligated cosmids, we conclude that (1) globin transgenes propagated in BACs are no less likely to rearrange than their cosmid or YAC counterparts, and (2) the retention of YAC vector sequences in a transgene probably has no significant impact on globin expression when using constructs of this size.
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PMID:Transgenic analysis of a 100-kb human beta-globin cluster-containing DNA fragment propagated as a bacterial artificial chromosome. 1055 5

In general, the transcriptional competence of a chromatin domain is correlated with increased sensitivity to DNase I cleavage. A recent observation that actively transcribing RNA polymerase II piggybacks a histone acetyltranferase activity [Wittschieben, B., Otero, G., de Bizemont, T., Fellows, J., Erdjument-Bromage, H., Ohba, R., Li, Y., Allis, C. D., Tempst, P. & Svejstrup, J. Q. (1999) Mol. Cell 4, 123-128] implies that the state of histone acetylation, and hence the ability of chromatin to fold, can be altered by a processive mechanism. In this article, it is proposed that tracking-mediated chromatin modification could create and/or maintain an open configuration in a complete chromatin domain including both intra- and extragenic regions. This mechanism suggests a putative functional role for the extragenic transcription observed at the beta-globin and other loci in vertebrate cells.
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PMID:Chromatin modification by DNA tracking. 1057 Jan 24

The nature of nuclear structures that are required to confer transcriptional regulation by distal enhancers is unknown. We show that long-range enhancer-dependent beta-globin transcription is achieved in vitro upon addition of the DNA architectural protein HMG I/Y to affinity-enriched holo RNA polymerase II complexes. In this system, HMG I/Y represses promoter activity in the absence of an associated enhancer and strongly activates transcription in the presence of a distal enhancer. Importantly, nucleosome formation is neither necessary for long-range enhancer regulation in vitro nor sufficient without the addition of HMG I/Y. Thus, the modulation of DNA structure by HMG I/Y is a critical regulator of long-range enhancer function on both DNA and chromatin-assembled genes. Electron microscopic analysis reveals that HMG I/Y binds cooperatively to preferred DNA sites to generate distinct looped structures in the presence or absence of the beta-globin enhancer. The formation of DNA topologies that enable distal enhancers to strongly regulate gene expression is an intrinsic property of HMG I/Y and naked DNA.
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PMID:HMG I/Y regulates long-range enhancer-dependent transcription on DNA and chromatin by changes in DNA topology. 1087 4

Cells from patients with Cockayne syndrome (CS) are hypersensitive to DNA-damaging agents and are unable to restore damage-inhibited RNA synthesis. On the basis of repair kinetics of different types of lesions in transcriptionally active genes, we hypothesized previously that impaired transcription in CS cells is a consequence of defective transcription initiation after DNA damage induction. Here, we investigated the effect of UV irradiation on transcription by using an in vitro transcription system that allowed uncoupling of initiation from elongation events. Nuclear extracts prepared from UV-irradiated or mock-treated normal human and CS cells were assayed for transcription activity on an undamaged beta-globin template. Transcription activity in nuclear extracts closely mimicked kinetics of transcription in intact cells: extracts from normal cells prepared 1 h after UV exposure showed a strongly reduced activity, whereas transcription activity was fully restored in extracts prepared 6 h after treatment. Extracts from CS cells exhibited reduced transcription activity at any time after UV exposure. Reduced transcription activity in extracts coincided with a strong reduction of RNA polymerase II (RNAPII) containing hypophosphorylated C-terminal domain, the form of RNAPII known to be recruited to the initiation complex. These results suggest that inhibition of transcription after UV irradiation is at least partially caused by repression of transcription initiation and not solely by blocked elongation at sites of lesions. Generation of hypophosphorylated RNAPII after DNA damage appears to play a crucial role in restoration of transcription. CS proteins may be required for this process in a yet unknown way.
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PMID:UV-induced inhibition of transcription involves repression of transcription initiation and phosphorylation of RNA polymerase II. 1097 77

The human beta-globin genes are regulated by the locus control region (LCR), an element composed of multiple DNase I-hypersensitive sites (HS sites) located 5' to the genes. Various functional studies indicate that the LCR confers high-level, position-independent, and copy number-dependent expression to linked globin genes in transgenic mice. However, the structural basis for LCR function is unknown. Here we show that LCR HS sites can be reconstituted in an erythroid cell-specific manner on chromatin-assembled LCR templates in vitro. Surprisingly, HS2 and HS3 are also formed with erythroid proteins in the absence of chromatin assembly, indicating that sensitivity to nucleases is not simply a consequence of nucleosome reorganization. The generation of LCR HS sites in the absence of chromatin assembly leads to the formation of S1- and KMnO(4)-sensitive regions in HS2 and HS3. These sites are also sensitive to S1 nuclease in erythroid cells in vivo, suggesting a distorted DNA structure in the LCR core enhancer elements. Finally, we show that RNA polymerase II initiates transcription in the HS2 and HS3 core enhancer regions in vitro. Transcription in both HS2 and HS3 proceeds in a unidirectional manner. Taken together, the data suggest that erythroid proteins interact with the core enhancer elements, distort the DNA structure, and recruit polymerase II transcription complexes. These results further our understanding of the structural basis for LCR function and provide an explanation for why the LCR core regions are so extremely sensitive to nucleases in erythroid cells.
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PMID:Reconstitution of human beta-globin locus control region hypersensitive sites in the absence of chromatin assembly. 1128 43

Histone acetylation precedes activation of many genes. However, the establishment and consequences of long-range acetylation patterns are poorly understood. To define molecular determinants of the developmentally dynamic histone acetylation pattern of the beta-globin locus, we compared acetylation of the locus in MEL and CB3 erythroleukemia cells. CB3 cells lack the beta-globin locus control region (LCR) binding protein p45/NF-E2. We found that p45/NF-E2 was required for histone hyperacetylation at adult beta-globin promoters approximately 50 kilobases downstream of the LCR, but not at the LCR. Surprisingly, RNA polymerase II associated with the LCR in a p45/NF-E2-independent manner, while its recruitment to the promoter required p45/NF-E2. We propose that polymerase accesses the LCR and p45/NF-E2 induces long-range transfer of polymerase to the promoter, resulting in transcriptional activation.
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PMID:Distinct mechanisms control RNA polymerase II recruitment to a tissue-specific locus control region and a downstream promoter. 1154 48

The hematopoietic transcription factor GATA-1 regulates erythropoiesis and beta-globin expression. Although consensus GATA-1 binding sites exist throughout the murine beta-globin locus, we found that GATA-1 discriminates among these sites in vivo. Conditional expression of GATA-1 in GATA-1-null cells recapitulated the occupancy pattern. GATA-1 induced RNA polymerase II (pol II) recruitment to subregions of the locus control region and to the beta-globin promoters. The hematopoietic factor NF-E2 cooperated with GATA-1 to recruit pol II to the promoters. We propose that only when GATA-1 attracts pol II to the locus control region can pol II access the promoter in a NF-E2-dependent manner.
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PMID:Cooperative activities of hematopoietic regulators recruit RNA polymerase II to a tissue-specific chromatin domain. 1219 59

The T7 system dose not require the relocation of a reporter gene to the nucleus for its gene expression in the cytoplasm, but relies on the co-localization of T7 RNA polymerase (T7 RNAP) enzyme and reporter gene DNA that is controlled by the T7 promoter. In the present study, we developed a new T7 system in that gene expression can occur at a higher level than those using conventional systems. Insertion of 5'- and 3'-untranslated regions (UTR) of beta-globin gene into a reporter gene enhanced the reporter gene expression, presumably due to the stability and efficient translation of the mRNA. Instead of the T7 RNAP protein used in conventional methods, moreover, transfection of cells with T7 RNAP mRNA, which has been modified by inserting beta-globin 5'- and 3'-UTR sequences as well as the cap and poly(A) tail structures, further enhanced the reporter gene expression. Thus, this novel T7 system using T7 RNAP mRNA may be powerful for the efficient gene expression of DNA exogenously provided in the cytoplasm.
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PMID:A novel T7 system utilizing mRNA coding for T7 RNA polymerase. 1258 8

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