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 hepatitis B virus X gene encodes a transcription activator which stimulates the synthesis of RNAs from a variety of class II and III promoter elements. In this report, we present a mutational analysis which genetically demonstrates that the X gene actually encodes two, and possibly three, related polypeptides from a single mRNA using alternate translation initiation from any of three in-frame AUG codons. Genetic analysis shows that translation initiates at the 5' proximal AUG of X mRNA and produces a full-length 17-kDa X protein but in addition also likely initiates at either of two conserved, in-frame AUG codons, producing two amino-terminally truncated X proteins presumably of 8 and 6.6 kDa. Expression of mRNAs capable of encoding only one of each X protein all individually transactivate class III (RNA polymerase III)-transcribed promoters. However, class II (RNA polymerase II)-transcribed promoters displayed various requirements for the different X proteins. Expression of two X proteins, the 17- and 6.6-kDa species, was required to activate transcription of the simian virus 40 enhancer/early promoter. In contrast, activation of an NF-kappa B-dependent promoter was carried out only by mRNAs encoding the full-length 17-kDa X protein. These results indicate that the X gene encodes several related proteins that possess different transcriptional regulatory activities.
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PMID:Alternate translation initiation on hepatitis B virus X mRNA produces multiple polypeptides that differentially transactivate class II and III promoters. 131 8

We cloned, expressed, and purified the positive regulatory protein C1 of the temperate phage P22 of Salmonella typhimurium. The purified protein was characterized as to its amino acid composition, protein sequence, molecular weight, and antigenicity. P22 C1 was shown to be a tetrameric protein composed of four identical subunits with M(r) = 10,000. Moreover, we identified and characterized two P22 C1-dependent phage promoters, P(RE) and Pa23, whose function was completely dependent on C1 both in vitro and in vivo. These two promoters share a common TTGCN6TTGC/T motif in their -35 regions, the same motif recognized by the analogous phage lambda transcription activator protein cII. P22 C1 protein bound selectively to this region and centered on the TTGC repeat motif. Binding and transcription experiments demonstrated that the two promoters respond coordinately to C1 activation. Last, in contrast to lambda cII, the C1 protein exhibited little cooperativity with Escherichia coli RNA polymerase for DNA binding, but because of its stronger inherent binding ability, achieved an overall promoter affinity similar to that observed for cII at its cognate promoter signals.
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PMID:Characterization of the transcription activator protein C1 of bacteriophage P22. 138 14

We have investigated a number of mutations that alter the ability of the E. coli transcription factors CRP and FNR to activate transcription. In CRP, some mutations at position 159 (H159L, H159I and delta 159) prevent transcription activation at a number of naturally-occurring and semi-synthetic CRP-dependent promoters. We suggest that some feature of the surface-exposed turn around residue 159 is recognised by RNA polymerase during transcription activation at these promoters. Mutations at position 52 increase CRP activity and reverse the effects of H159L and delta 159, most likely by creating a new contact with RNA polymerase. However this new contact only gives increased expression when the CRP binding site is located 41 1/2 base pairs upstream of the transcription start site and fails to reverse the effects of H159L and delta 159 at promoters where the CRP site is located further upstream. To explain our results we propose that the two surface-exposed turns around residues 52 and 159 contain elements that are potential RNA polymerase docking sites: in the CRP dimer these two active patches are located on adjacent faces of different subunits. FNR, a related transcription activator, contains amino acid sequences homologous to the CRP sequence around position 52. Mutations in this zone (from residues 81-88 in FNR) reduce expression from an FNR-dependent promoter without stopping FNR binding to its target. This defines a patch on FNR, which is homologous to the CRP surface-exposed loop around position 52, which is involved in transcription activation, most likely by contacting RNA polymerase.
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PMID:The role of two surface exposed loops in transcription activation by the Escherichia coli CRP and FNR proteins. 176 1

The U2 snRNA genes, which are transcribed by RNA polymerase II at high levels in all tissues examined, require both a distal and a proximal sequence element for efficient expression. The distal sequence element which has many properties in common with transcriptional enhancers contains, in addition to Sp1 binding sites, an octamer binding site which mediates activation through interactions with the ubiquitous transcription factor Oct-1. In the present study we have attempted to answer the question whether Oct-1 contains a unique activating domain which is required for activation of snRNA genes or whether ubiquitously expressed and lymphoid specific octamer binding factors both have the capacity to activate snRNA transcription. Our results show that in the presence of Oct-1, overexpression of Oct-2A in HeLa or COS1 cells neither inhibits nor stimulates transcription of U2 constructions which contain octamer binding sites with or without an adjacent Sp1 binding site. Moreover, an Oct-2A--GAL4 fusion protein in which the DNA binding domain of Oct-2A was substituted for by the one of the yeast transcription activator GAL4 activates transcription of a human U2 snRNA gene in which the octamer binding site was replaced by a GAL4 binding site. From the results it is concluded that both Oct-1 and Oct-2A contain domains which can activate the ubiquitously expressed U2 snRNA genes.
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PMID:Both Oct-1 and Oct-2A contain domains which can activate the ubiquitously expressed U2 snRNA genes. 182 77

The MerR metalloregulatory protein is a heavy-metal receptor that functions as the repressor and Hg(II)-responsive transcription activator of the prokaryotic mercury-resistance (mer) genes. We demonstrate that this allosterically modulated regulatory protein is sensitive to HgCl2 concentrations of 1.0 +/- 0.3 x 10(-8) M in the presence of 1.0 x 10(-3) M dithiothreitol for half-maximal induction of transcription of the mer promoter by Escherichia coli RNA polymerase in vitro. Transcription mediated by MerR increases from 10% to 90% of maximum in response to a 7-fold change in concentration of HgCl2, consistent with a threshold phenomenon known as ultrasensitivity. In addition, MerR exhibits a high degree of selectivity. Cd(II), Zn(II), Ag(I), Au(I), and Au(III) have been found to partially stimulate transcription in the presence of MerR, but concentrations at least two to three orders of magnitude greater than for Hg(II) are required. The molecular basis of the ultrasensitivity and selectivity phenomena are postulated to arise from the unusual topology of the transcription complex and a rare trigonal mercuric ion coordination environment, respectively. This mercuric ion-induced switch is to our knowledge the only known example of ultrasensitivity in a signal-responsive transcription mechanism.
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PMID:Ultrasensitivity and heavy-metal selectivity of the allosterically modulated MerR transcription complex. 218 94

The OmpR binding sequence (OBS) in the upstream region of the ompF promoter of Escherichia coli was fused to 27 synthetic promoters. Transcription from a number of weak promoters, regardless of their sequences, was dramatically activated in the presence of OmpR, a transcriptional activator. In vivo DNA footprinting revealed that OmpR enhanced the binding of RNA polymerase to the promoters. This enhancement was essential for transcription of weak promoters, while OmpR binding to the OBS fused to a strong promoter was inhibitory for transcription. These results indicate that OmpR stabilizes the formation of an RNA polymerase-promoter complex, possibly a closed promoter complex, and that a transcription activator can serve not only as a positive but also as a negative regulator for gene expression.
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PMID:Enhancement of RNA polymerase binding to promoters by a transcriptional activator, OmpR, in Escherichia coli: its positive and negative effects on transcription. 219 74

Promoter-proximal downstream regions of the human immunodeficiency viruses (HIV-1 and HIV-2) mediate the action of the viral transcription activator protein, Tat. We demonstrate here that the downstream domain of each virus interacts with two RNA polymerase II transcription factors. One of these, CTF/NF I, is a multifunctional protein associated previously with activation of transcription and DNA replication. The other cellular protein, designated LBP-1 (leader-binding protein-1), recognizes repeated elements within an extended region of DNA corresponding to part of the 5'-untranslated leader. Analysis of clustered point mutants in the HIV-1 leader for DNA-binding and transcription activity in vitro and in vivo suggests a role for LBP-1 as part of the basal promoter. A complex overlapping arrangement is observed between sequences required for the interaction of LBP-1 and CTF/NF I proteins and those defined previously for regulation by the HIV-1 Tat protein.
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PMID:Structural arrangements of transcription control domains within the 5'-untranslated leader regions of the HIV-1 and HIV-2 promoters. 284 59

The structure of the carboxyl-terminal domain of the Escherichia coli RNA polymerase alpha subunit (alpha CTD), which is regarded as the contact site for transcription activator proteins and for the promoter UP element, was determined by nuclear magnetic resonance spectroscopy. Its compact structure of four helices and two long arms enclosing its hydrophobic core shows a folding topology distinct from those of other DNA-binding proteins. The UP element binding site was found on the surface comprising helix 1, the amino-terminal end of helix 4, and the preceding loop. Mutation experiments indicated that the contact sites for transcription activator proteins are also on the same surface.
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PMID:Solution structure of the activator contact domain of the RNA polymerase alpha subunit. 749 96

A number of transcription activators have been found to activate transcription via protein-protein contact between RNA polymerase alpha subunits and transcription factors; they are classified as class I factors. In this report, we demonstrate that the FlhD/FlhC complex, a transcription activator of the Escherichia coli flagellar regulon, requires the C-terminal domain of the RNA polymerase alpha subunit for transcription activation. We conclude that FlhD/FlhC is a class I transcription factor.
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PMID:The C-terminal region of the alpha subunit of Escherichia coli RNA polymerase is required for transcriptional activation of the flagellar level II operons by the FlhD/FlhC complex. 766 4

SoxR protein of Escherichia coli is activated by superoxide-generating agents or nitric oxide as a powerful transcription activator of the soxS gene, whose product activates approximately 10 other promoters. SoxR contains non-heme iron essential for abortive initiation of transcription in vitro. Here we show that this metal dependence extends to full-length transcription in vitro. In the presence of E. coli sigma 70 RNA polymerase, iron-containing SoxR mediates open complex formation at the soxS promoter, as determined using footprinting with Cu-5-phenyl-1,10-phenanthroline. We investigated the nature of the SoxR iron center by chemical analyses and electron paramagnetic resonance spectroscopy. Dithionite-reduced Fe-SoxR exhibited an almost axial paramagnetic signature with g values of 2.01 and 1.93 observable up to 100 K. These features, together with quantitation of spin, iron, and S2-, and hydrodynamic evidence that SoxR is a homodimer in solution, indicate that (SoxR)2 contains two [2Fe-2S] clusters. Treatment of Fe-SoxR with high concentrations of dithiothreitol caused subtle changes in the visible absorption spectrum and blocked transcriptional activity without generating reduced [2Fe-2S] centers, but was also associated with the loss of iron from the protein. However, lowering the thiol concentration by dilution allowed spontaneous regeneration of active Fe-SoxR.
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PMID:Binuclear [2Fe-2S] clusters in the Escherichia coli SoxR protein and role of the metal centers in transcription. 767 13

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