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)

Transcription initiation by RNA polymerase II is a complex, multistep process that minimally involves transcription complex assembly, open complex formation, and promoter clearance. Hydrolysis of the beta--gamma phosphoanhydride bond of ATP has previously been shown to be required for open complex formation, as well as for the phosphorylation of the carboxy-terminal domain of the largest subunit of RNA polymerase II. The observation that ATP-dependent activation of transcription complexes can be blocked by ATP analogues that contain nonhydrolyzable beta--gamma phosphoanhydride bonds (such as ATPgammaS) was exploited to develop a functional kinetic assay for ATP-activated transcription complexes. Activated complexes on the promoter present in the long terminal repeat of the proviral DNA of mouse mammary tumor virus were defined as those that could productively initiate transcription in the presence of excess ATPgammaS. Activation is dependent on treatment of assembled preinitiation complexes with ATP (or dATP) prior to addition of ATPgammaS. At least 15-35% of the total number of preinitiation complexes present become activated within 2 min in the presence of (d)ATP, and activation appears to be rapidly reversible. The time course of formation of activated complexes in the presence of dATP is characterized by two kinetic phases: a rapid formation followed by a relatively slow decay. Activated complexes were estimated to form with a half-time of less than 1 min.
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PMID:ATP-mediated activation of RNA polymerase II transcription complexes. 969 80

In addition to their role in reverse transcription, the R-region sequences of some retroviruses affect viral transcription. The first 28 nucleotides of the R region within the long terminal repeat (LTR) of the murine type C retrovirus SL3 were predicted to form a stem-loop structure. We tested whether this structure affected the transcriptional activity of the viral LTR. Mutations that altered either side of the stem and thus disrupted base pairing were generated. These decreased the level of expression of a reporter gene under the control of viral LTR sequences about 5-fold in transient expression assays and 10-fold in cells stably transformed with the LTR-reporter plasmids. We also generated a compensatory mutant in which both the ascending and descending sides of the stem were mutated such that the nucleotide sequence was different but the predicted secondary structure was maintained. Most of the activity of the wild-type SL3 element was restored in this mutant. Thus, the stem-loop structure was important for the maximum activity of the SL3 LTR. Primer extension analysis indicated that the stem-loop structure affected the levels of cytoplasmic RNA. Nuclear run-on assays indicated that deletion of the R region had a small effect on transcriptional initiation and no effect on RNA polymerase processivity. Thus, the main effect of the R-region element was on one or more steps that occurred after the template was transcribed by RNA polymerase. This finding implied that the main function of the R-region element involved RNA processing. R-region sequences of human immunodeficiency virus type 1 or mouse mammary tumor virus could not replace the SL3 element. R-region sequences from an avian reticuloendotheliosis virus partially substituted for the SL3 sequences. R-region sequences from Moloney murine leukemia virus or feline leukemia virus did function in place of the SL3 element. Thus, the R region element appears to be a general feature of the mammalian type C genus of retroviruses.
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PMID:The secondary structure of the R region of a murine leukemia virus is important for stimulation of long terminal repeat-driven gene expression. 973 16

The frequency of transcription initiation at specific RNA polymerase II promoters is, in many cases, related to the ability of the promoter to recruit the transcription machinery to a specific site. However, there may also be functional differences in the properties of assembled transcription complexes that are promoter-specific or regulator-dependent and affect their activity. Transcription complexes formed on variants of the adenovirus major late (AdML) promoter were found to differ in several ways. Mutations in the initiator element increased the sarkosyl sensitivity of the rate of elongation and decreased the rate of early steps in initiation as revealed by a sarkosyl challenge assay that exploited the resistance of RNA synthesis to high concentrations of sarkosyl after formation of one or two phospho-diester bonds. Similar, but clearly distinct, effects were also observed after deletion of the binding site for upstream stimulatory factor from the AdML promoter. In contrast, deletion of binding sites for nuclear factor 1 and Oct-1, as well as mutations in the recognition sequence for initiation site binding protein, were without apparent effect on transcription complexes on templates containing the mouse mammary tumor virus promoter.
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PMID:Discrete promoter elements affect specific properties of RNA polymerase II transcription complexes. 1090 29

Oocytes from Xenopus laevis have provided a model system for studying the dynamic changes that occur in chromatin during gene activation. We have reconstituted glucocorticoid receptor (GR) induced transcription from the mouse mammary tumor virus (MMTV) promoter by intranuclear injection of an MMTV-driven reporter and cytoplasmic injection of synthetic mRNA(GR) into Xenopus oocytes. Here we investigate the intranuclear distribution of injected DNA, which is assembled into chromatin. We show that this chromatin is organized as an intranuclear fibrous network. Unliganded GR is located in the cytosol and hormone triggers its nuclear translocation and association with the chromatin fibers. Furthermore, we analyze the intranuclear distribution of other factors involved in transcription from the MMTV promoter. Indirect immunofluorescence microscopy on cryostat-sectioned oocytes revealed that BRG1, which is a subunit of the SWI/SNF chromatin remodeling complex, as well as RNA polymerase II and recombinantly expressed Xenopus nuclear factor 1-B, are all associated with the endogenous chromosomes and the chromatin fibers formed on injected DNA. This association does not depend on specific DNA binding sites and appears to be nonspecific.
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PMID:Glucocorticoid hormone-induced receptor localization to the chromatin fibers formed on injected DNA in Xenopus oocytes. 1130 98

Activation of gene transcription involves chromatin remodeling by coactivator proteins that are recruited by DNA-bound transcription factors. Local modification of chromatin structure at specific gene promoters by ATP-dependent processes and by posttranslational modifications of histone N-terminal tails provides access to RNA polymerase II and its accompanying transcription initiation complex. While the roles of lysine acetylation, serine phosphorylation, and lysine methylation of histones in chromatin remodeling are beginning to emerge, low levels of arginine methylation of histones have only recently been documented, and its physiological role is unknown. The coactivator CARM1 methylates histone H3 at Arg17 and Arg26 in vitro and cooperates synergistically with p160-type coactivators (e.g., GRIP1, SRC-1, ACTR) and coactivators with histone acetyltransferase activity (e.g., p300, CBP) to enhance gene activation by steroid and nuclear hormone receptors (NR) in transient transfection assays. In the current study, CARM1 cooperated with GRIP1 to enhance steroid hormone-dependent activation of stably integrated mouse mammary tumor virus (MMTV) promoters, and this coactivator function required the methyltransferase activity of CARM1. Chromatin immunoprecipitation assays and immunofluorescence studies indicated that CARM1 and the CARM1-methylated form of histone H3 specifically associated with a large tandem array of MMTV promoters in a hormone-dependent manner. Thus, arginine-specific histone methylation by CARM1 is an important part of the transcriptional activation process.
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PMID:Hormone-dependent, CARM1-directed, arginine-specific methylation of histone H3 on a steroid-regulated promoter. 1174 26

The mouse mammary tumor virus (MMTV) promoter contains an element near its transcription initiation site that is recognized by a protein termed initiation site binding protein (ISBP). Spacing between the TATA box and the ISBP site is important for MMTV promoter function, as altered spacing results in heterogeneity in start site selection in vitro and in vivo. The sequence of the ISBP site is related to initiator elements common in many RNA polymerase II promoters. However, binding of partially purified ISBP to several promoters that contain well-characterized initiator elements was not detected; these promoters included binding sites for a number of previously identified initiator-binding proteins. Partially purified ISBP did, however, bind with high affinity to sequences near the initiation sites of the SV40 major late and adenovirus 2 E1B promoters.
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PMID:Initiation site binding protein and the initiator-like promoter element of mouse mammary tumor virus. 1242 27

The antitumor ribonucleoside analogue 1-(3-C-ethynyl-beta-D-ribo-pentofuranosyl)cytosine (ECyd), synthesized in 1995, has strong antitumor activity. In mouse mammary tumor FM3A cells, ECyd was rapidly phosphorylated to ECyd-triphosphate (ECTP) as the final product, strongly inhibiting RNA synthesis. The ultimate metabolite of ECyd, ECTP, is stable in cultured FM3A cells with a half-life of 21 hr; ECyd is on a "closed" metabolic pathway to ECTP. Deaminated ECyd derivatives were minor metabolites in the cells treated with Ecyd; therefore cytidine forms probably were not converted to uridine forms at the nucleoside or nucleotide stage. The characteristics of ECyd may be important for the antitumor activity. RNA polymerase in the nucleus was inhibited competitively by ECTP; the ki value was 21 nM. ECyd induced DNA and 28S ribosomal RNA fragnetations. The cleavage pattern of rRNA resembled in that mediated by RNase L. The results suggested that RNase L related mechanisms might be involved in the antitumor activity of ECyd.
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PMID:Anticancer molecular mechanism of 3'-ethynylcytidine (ECyd). 1283 50

Ectopic protein expression in mammalian cells is a valuable tool to analyze protein functions. Increasingly, inducible promoters are being used for regulated gene expression. Here, we compare expression maxima, induction rates, and "leakiness" of the following promoter systems: (I) two tetracycline-responsive Tet systems (Tet-On, Tet-Off), (II) the glucocorticoid-responsive mouse mammary tumor virus promoter (MMTVprom), (III) the ecdysone-inducible promoter (EcP), and (IV) the T7 promoter/T7 RNA polymerase system (T7P). The systems were analyzed by expressing an enhanced green fluorescent protein (EGFP) luciferase fusion reporter protein in transiently transfected cells. Expression was assessed qualitatively by fluorescence microscopy of the EGFP component and quantitatively by measuring the enzymatic activity of the luciferase component of the fusion protein. Basal expression levels ("leakiness") were ranked Tet-On>Tet-Off>MMTVprom>EcP>T7P. Induction rates were EcP>MMTVprom>T7P>Tet-Off>Tet-On. Expression maxima were ranked. Tet-On>Tet-Off>MMTVprom>EcP>T7P. To increase T7-promoter-mediated expression we inserted an internal ribosomal entry site element into the T7 expression cassette. In presence of T7 RNA polymerase this modified T7 promoter achieved expression levels of 42% of a Rous Sarcoma virus promoter, while keeping basal expression extremely low.
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PMID:Comparative analysis of inducible expression systems in transient transfection studies. 1546 49

1-(3-C-ethynyl-beta-D-ribo-pentofuranosyl)uracil (EUrd) is an antimetabolite that strongly inhibits RNA synthesis and shows a broad antitumor activity in vitro and in vivo. In mouse mammary tumor FM3A cells, EUrd is sequentially phosphorylated to its 5'-triphosphate, EUTP, a major metabolite, and the RNA synthesis is inhibited proportionally to its intracellular accumulation. To study the inhibitory mechanisms of EUrd on RNA synthesis, we have performed the kinetic analysis of EUTP on RNA polymerization using isolated nuclei RNA synthesis was inhibited competitively by EUTP. The inhibition constant, Ki was much lower than the Km value of UTP (Ki value of EUTP, 84 nM; Km value of UTP, 13 microM), indicating that the high affinity of EUTP could contribute to the specific inhibition of RNA synthesis. As a result of RNA synthesis inhibition, EUrd, but not ara-C, induced shrinkage of nucleoli, which are the main sites for RNA synthesis in FM3A cells. Thus, the strong affinity of EUTP to RNA polymerase and specific inhibition of RNA synthesis could contribute to its antitumor effect. EUrd is expected to be a new antitumor drug, possessing a strong inhibitory effect on the synthesis of RNA.
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PMID:Inhibitory mechanisms of 1-(3-C-ethynyl-beta-D-ribopentofuranosyl)uracil (EUrd) on RNA synthesis. 1589 61

A novel common integration site for the mouse mammary tumor virus (MMTV) was identified (designated Int7) in five independently arising mouse mammary tumors. The insertion sites all cluster within a 1-kb region that is 2 to 3 kb 5' of the transcription initiation site of a gene, 2610028F08RIK, whose gene product contains furin-like and thrombospondin-like sequences. Expression of Int7 is normally very low or silent during various stages of mammary gland development, but MMTV integration at this site results in the activation of high steady-state levels of expression of the gene. These five tumors were also found to have two or three additional viral insertions, which in each case occurred flanking a member of either the Wnt and/or FGF gene family. Reverse transcriptase PCR results demonstrated that each of the viral insertions led to elevated expression of the presumed target flanking genes.
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PMID:A new common integration site, Int7, for the mouse mammary tumor virus in mouse mammary tumors identifies a gene whose product has furin-like and thrombospondin-like sequences. 1601 73

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