Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

High affinity sodium- and potassium-coupled L-glutamate transport into presynaptic nerve terminals and fine glial processes removes the neurotransmitter from the synaptic cleft, thereby terminating glutamergic transmission. This report describes that the purified L-glutamate transporter from pig brain is phosphorylated by protein kinase C, predominantly at serine residues. Upon exposure of C6 cells, a cell line of glial origin, to 12-O-tetradecanoylphorbol-13-acetate, about a 2-fold stimulation of L-glutamate transport is observed within 30 min. Concomitantly, the level of phosphorylation increases with similar kinetics. The phorbol ester also stimulates L-glutamate transport in HeLa cells infected with a recombinant vaccinia virus expressing T7 RNA polymerase and transfected with pT7-GLT-1. The latter is a recently cloned rat brain glutamate transporter of glial origin. Mutation of serine 113 to asparagine does not affect the levels of expressed transport but abolishes its stimulation by the phorbol ester. To our knowledge, this is the first direct demonstration of the regulation of a neurotransmitter transporter by phosphorylation.
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PMID:Phosphorylation and modulation of brain glutamate transporters by protein kinase C. 790 7

The sigma N (sigma 54) RNA polymerase holoenzyme has the distinctive property of binding to promoters to form a closed promoter complex, which only isomerizes to the open complex when acted upon by an enhancer binding activator protein. We probed promoter complexes that form between sigma N and its holoenzyme with the conformationally sensitive footprinting reagents ortho-copper phenanthroline, potassium permanganate, and diethylpyrocarbonate. Results from these experiments indicate that the contacts sigma N makes at the -12 promoter element are necessary to promote a local DNA distortion immediately adjacent to this promoter element when the holoenzyme but not sigma N alone binds promoter DNA. Complexes in which this local distortion is not detected are not activatable, and the altered DNA conformation is diminished in the activated complex. We propose that a barrier to open complex formation in the sigma N holoenzyme closed complex is at some step or steps after the initial nucleation of DNA strand separation, which is detected as an altered DNA conformation stably maintained within the closed complex. Thus the activator protein may promote a conformational change in the sigma N holoenzyme to allow propagation of the altered DNA conformation, probably local unwinding, which we propose is necessary for formation of the melted DNA state, characteristic of the open promoter complex.
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PMID:DNA distortion and nucleation of local DNA unwinding within sigma-54 (sigma N) holoenzyme closed promoter complexes. 815 88

Transcription initiation of the gene encoding phosphoenolpyruvate carboxykinase (PEPCK) is stimulated by glucocorticoids and glucagon, via cAMP, and dominantly inhibited by insulin in rat liver and H4IIE cells. Lysolecithin-permeabilized H4IIE cells recover completely and continue to multiply, yet are transiently penetrable by macromolecules. These cells, after various hormonal treatments, were utilized for in situ DNase I protection studies of the PEPCK promoter. Nearly all of the sites of protein interaction observed in vitro are protected in vivo as well as several additional sites. The DNase I protection pattern is the same in cells without or with any of the hormone treatments, suggesting that hormonal modulation of transcription does not involve addition or removal of factors from the hormone response elements of the promoter. We focused on the organization and stability of the transcription initiation complex as well as the dynamic nature of distal promoter factors in their interaction with DNA. The transcription initiation complex was detected, and it appears to be co-existent with a short region of naked single-stranded DNA over the TATA box on the template strand, as determined by potassium permanganate reactivity. This complex is quite stable, even under conditions of much reduced RNA synthesis, which suggests that the complex is not broken down and reformed with each round of initiation by RNA polymerase II. Other factors bind to the PEPCK promoter with half-lives ranging from a few minutes to more than 40 min. The cAMP response element apparently involves transcriptional modulation achieved through modification of a bound factor (presumably cAMP response element-binding protein), whereas the glucocorticoid/insulin-responsive region of the promoter functions through factors which are involved in a rapid exchange, suggesting quite different modes of transcriptional regulation.
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PMID:Dynamic aspects of DNA/protein interactions in the transcriptional initiation complex and the hormone-responsive domains of the phosphoenolpyruvate carboxykinase promoter in vivo. 822 59

Mononucleosomes were labeled with the sulfhydryl-specific fluorescence probe 1,5-IAEDANS (5-(2-((iodoacetyl)amino)ethyl)amino-naphthalene-1-sulfonic acid) by attaching the dye to the single cysteine of H3 through a covalent linkage. The enzyme RNA polymerase II (pol II) utilized the native and the reconstituted fluorescent nucleosomes as templates with greatest efficiency when 0.2 M potassium acetate (AcOK) was used as the supporting salt; 0.2 M NaCl was found to be very much inhibitory. Measurement of polarity of the microenvironment of the dye at its binding site in the nucleosome showed the conformation to be more open in the presence of AcOK, compared to that in 0.1 or 0.2 M NaCl. The binding of pol II to the nucleosome resulted in a relatively more compact structure when measured in terms of the polarity of the microenvironment of the dye in various salt-dependent conformations of the nucleosomes. Time-resolved fluorescence spectroscopy showed that the probe molecule at its binding site undergoes certain excited-state processes, and the presence/absence or rate of these excited-state processes depends on the conformation of nucleosomes, which in turn depends on the type and concentration of the ion present in the medium. Time-resolved emission spectra showed that binding of nucleosomes by pol II established some new contacts that resulted in inaccessibility of the dye to the bulk solvent, reflecting a more hydrophobic environment for the dye in the steady-state spectra. Thus, binding or transcription of nucleosomes by pol II did not break open their structure. Rather, some transient internal adjustments within the histone octamer may take place to accommodate the bulky pol II molecule.
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PMID:Dynamics of interaction of RNA polymerase II with nucleosomes. I. Effect of salts. 829 67

We have studied promoter opening in assays reconstituted with purified RNA polymerase II and basal transcription factors. We found that creating a region of heteroduplex DNA around the start site of the adenovirus major late (AdML) promoter circumvents the requirement for TFIIE and TFIIH in transcription. The critical size and position of the heteroduplex region that alleviates the requirement for TFIIE and TFIIH is six nucleotides, from -4 to +2. Promoter opening was investigated directly with potassium permanganate (KMnO4), a chemical probe specific for single-stranded thymidines. We found that KMnO4-detectable opening of the AdML promoter requires the presence of the complete pre-initiation complex, DBpolFEH, and that opening occurs in two discrete steps. First, dependent on ATP but prior to initiation, the -9 to +1 region becomes single-stranded. Second, formation of the first phosphodiester bond results in expansion of the open region to the +8 position. Our results lead to a model in which the critical function of the TFIIH-associated DNA helicases is to create a single-stranded region. This gives RNA polymerase II access to the nucleotides of the template strand and allows expansion of the open region upon formation of the first phosphodiester bond.
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PMID:Opening of an RNA polymerase II promoter occurs in two distinct steps and requires the basal transcription factors IIE and IIH. 861 91

We have used supercoiled DNA templates in this study to demonstrate that transcription in vitro from the P1 and P2 promoters of the osmoresponsive proU operon of Escherichia coli is preferentially mediated by the sigma(s) and sigma70-bearing RNA polymerase holoenzymes, respectively. Addition of potassium glutamate resulted in the activation of transcription from both P1 and P2 and also led to a pronounced enhancement of sigma(s) selectivity at the P1 promoter. Transcription from P2, and to a lesser extent from P1, was inhibited by the nucleoid protein H-NS but only in the absence of potassium glutamate. This study validates the existence of dual promoters with dual specificities for proU transcription. Our results also support the proposals that potassium, which is known to accumulate in cells grown at high osmolarity, is at least partially responsible for effecting the in vivo induction of proU transcription and that it does so through two mechanisms, directly by the activation of RNA polymerase and indirectly by the relief of repression imposed by H-NS.
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PMID:Effects of H-NS and potassium glutamate on sigmaS- and sigma70-directed transcription in vitro from osmotically regulated P1 and P2 promoters of proU in Escherichia coli. 876 46

Transcription from the middle promoter, Pm, of phage Mu is initiated by Escherichia coli RNA polymerase holoenzyme (E sigma 70; RNAP) and the phage-encoded activator, Mor. Point mutations in the spacer region between the -10 hexamer and the Mor binding site result in changes of promoter activity in vivo. These mutations are located at the junction between a rigid T-tract and adjacent, potentially deformable G + C-rich DNA segment, suggesting that deformation of the spacer region may play a role in the transcriptional activation of Pm. This prediction was tested by using dimethyl sulfate and potassium permanganate footprinting analyses. Helical distortion involving strand separation was detected at positions -32 to -34, close to the predicted interface between Mor and RNAP. Promoter mutants in which this distortion was not detected exhibited a lack of melting in the -12 to -1 region and reduced promoter activity in vivo. We propose that complexes containing the distortion represent stressed intermediates rather than stable open complexes and thus can be envisaged as a transition state in the kinetic pathway of Pm activation in which stored torsional energy could be used to facilitate melting around the transcription start point.
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PMID:Distortion in the spacer region of Pm during activation of middle transcription of phage Mu. 879 Mar 43

Analyses of Drosophila cells have revealed that RNA polymerase II is paused in a region 20 to 40 nucleotides downstream from the transcription start site of the hsp70 heat shock gene when the gene is not transcriptionally active. We have developed a cell-free system that reconstitutes this promoter-proximal pausing. The paused polymerase has been detected by monitoring the hyperreactivity of thymines in the transcription bubble toward potassium permanganate. The pattern of permanganate reactivity for the hsp70 promoter in the reconstituted system matches the pattern found on the promoter after it has been introduced back into files by P-element-mediated transposition. Matching patterns of permanganate reactivity are also observed for a non-heat shock promoter, the histone H3 promoter. Further analysis of the hsp70 promoter in the reconstituted system reveals that pausing does not depend on sequence-specific interactions located immediately downstream from the pause site. Sequences upstream from the TATA box influence the recruitment of polymerase rather than the efficiency of pausing. Kinetic analysis indicates that the polymerase rapidly enters the paused state and remains stably in this state for at least 25 min. Further analysis shows that the paused polymerase will initially resume elongation when Sarkosyl is added but loses this capacity within minutes of pausing. Using an alpha-amanitin-resistant polymerase, we provide evidence that promoter-proximal pausing does not require the carboxy-terminal domain of the polymerase.
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PMID:Analyses of promoter-proximal pausing by RNA polymerase II on the hsp70 heat shock gene promoter in a Drosophila nuclear extract. 881 56

Intrinsic termination of T7 RNA polymerase transcription occurs at different signals in vitro. One type of signal is similar to that mediating factor-independent termination of Escherichia coli RNA polymerase, whereas the other type does not involve RNA hairpin formation. By examining the termination behaviour of T7 RNA polymerase at the E.coli rrnB operon t1 terminator, at the T7-t(phi) terminator, at the human preproparathyroid hormone gene terminator on both single- and double-stranded templates, and in the presence of GTP or ITP during transcription, we show that the termination event can be mediated by either RNA or DNA structural features. Moreover, by using co-transcriptional probing with potassium permanganate, we present evidence for the presence of transcription-induced hyperreactive thymidines on the non-template strand in the DNA-mediated event, and a putative sequence motif is identified. We conclude that intrinsic termination of T7 RNA polymerase transcription in vitro can be mediated either by a hairpin in the nascent RNA or by a sequence motif including hyperreactive thymidines in the non-template DNA strand.
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PMID:Intrinsic termination of T7 RNA polymerase mediated by either RNA or DNA. 888 68

We used potassium permanganate (KMnO4) to identify unpaired thymidine (T) residues in promoter complexes formed by RNA polymerase (RNAP) associated with sigma E (sigma E-RNAP) from Bacillus subtilis. We found that a region of the spoIIID promoter from at least -10 to +1 becomes melted in the presence of this polymerase. In promoter complexes formed by RNAP associated with a mutant sigma E that melts promoter DNA inefficiently, we noted additional KMnO4 sensitivity at the -11 position of the spoIIID promoter. We suggest that the base pair at -11 is unpaired in both mutant and wild type (wt) complexes; however, close proximity of wt sigma E-RNAP with the T at -11 may protect it from KMnO4 attack. The absence of a close contact between the mutant sigma E-RNAP and the base at -11 may explain why this polymerase uses promoters less efficiently than wt sigma E-RNAP.
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PMID:Potassium permanganate susceptibility of sigma E-RNA polymerase-promoter complexes. 892 57


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