Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Terbium (III) upon complexation with guanosine 5'-triphosphate showed remarkable enhancement of fluorescence emission at 488 and 545 nm when excited at 295 nm. Analysis of the binding data yielded a value for the mean Kd between Tb(III) and GTP of 0.2 microM, with three binding sites for Tb(III) on GTP. 31P and 1H NMR measurements revealed that Tb(III) mainly binds the phosphate moiety of GTP. Fluorescence titration of the emission signals of the TbGTP complex with varying concentrations of Escherichia coli RNA polymerase resulted in a Kd value of 4 microM between the TbGTP and the enzyme. It was observed that TbGTP can be incorporated in the place of GTP during E. coli RNA polymerase catalyzed abortive synthesis of dinucleotide tetraphosphate at T7A2 promoter. Both the substrate TbGTP and the inhibitor of the initiation of transcription rifampicin bind to the beta-subunit of E. coli RNA polymerase. This allows the measurement of the fluorescence excited-state energy transfer from the donor TbGTP-RNA polymerase to the acceptor rifampicin. Both emission bands of Tb(III) overlap with the rifampicin absorption, and the distances at 50% efficiency of energy transfer were calculated to be 28 and 24 A for the 488- and 545-nm emission bands, respectively. The distance between the substrate binding site and the rifampicin binding site on the beta-subunit of E. coli RNA polymerase was measured to be around 30 A. This suggests that the nature of inhibition of transcription by rifampicin is essentially noncompetitive with the substrate.
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PMID:Resonance energy transfer study on the proximity relationship between the GTP binding site and the rifampicin binding site of Escherichia coli RNA polymerase. 240 99

Satellite 2 of the newt, Notophthalmus viridescens, is a 330 bp tandemly repeated sequence scattered throughout the genome. Cytoplasmic transcripts homologous to satellite 2 are found in a variety of tissues. Most of the transcripts correspond precisely in length to the DNA repeat unit or to whole multiples of that repeat. We show here that dimer-sized satellite 2 transcripts, synthesized with SP6 RNA polymerase from a plasmid clone, undergo site-specific, self-catalyzed cleavage in vitro. The reaction proceeds at neutral pH and requires Mg++ but no other cofactor or energy source. The cleavage products have 5'-hydroxyl and 3'-phosphate groups, at least some of which are in the form of 2',3'-cyclic phosphates. In this respect the reaction resembles the self-cleavage of certain small, infectious RNAs found in plants. Furthermore, the in vitro cleavage of satellite 2 transcripts occurs within a sequence that is homologous to the conserved cleavage site of the infectious RNAs. The existence of monomer and multimer transcripts in the cell suggests that the monomer may arise by site-specific cleavage of long primary transcripts. However, the 5' end of the cellular monomer is 46 or 47 bases upstream of the in vitro cleavage site, suggesting that factors in the cell may modify the cleavage reaction.
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PMID:Self-cleaving transcripts of satellite DNA from the newt. 243 49

A set of four RNA hairpin helices has been prepared by in vitro transcription with T7 RNA polymerase. The hairpins all contain the same nine base pair helix, but with an extra A, C, or U residue forming a bulge at one position; the fourth hairpin is a perfect helix with no bulge. The helix with a bulged A duplicates six base pairs of a helix in the 16S rRNA known to have an unusually high affinity for ethidium bromide [J. M. Kean, S. A. White, and D. E. Draper, Biochemistry 24, 5062 (1985)]. Binding and chemical cleavage studies with ethidium or the reagent methidiumpropylEDTA-Fe(II) [MPE-Fe(II)] showed that the sequence CpG is a preferred intercalation site whether or not a bulge is present; all three bulged bases enhance intercalation at the CpG sequence by an order of magnitude; and intercalation in a bulged helix results in a concerted conformational change involving the entire helix backbone, again dependent on the presence of a bulge but independent of the particular base. These results suggest that an extra sugar-phosphate residue in an RNA helix backbone has a dramatic effect on the ability of the RNA to adopt new conformations. This effect could be an important reason for the conservation of bulges at certain positions in ribosomal and other RNAs.
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PMID:Single base bulges in small RNA hairpins enhance ethidium binding and promote an allosteric transition. 243 51

The difference in reactivity between phosphate and phosphorothioate diesters is the basis of a chemical degradation scheme for the sequencing of DNA and RNA. The phosphorothioate groups are incorporated into the nucleic acid in four separate enzymatic reactions, with three of the natural nucleoside triphosphates and one alpha-thiotriphosphate in each reaction. Selective strand cleavage is achieved through alkylation to form the hydrolytically labile phosphorothioate triester. As an example, the sequence analysis is presented of M13 phage DNA and of RNA prepared by transcription with SP6 RNA polymerase.
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PMID:DNA and RNA sequence determination based on phosphorothioate chemistry. 245 26

Dinucleotides (3'-5')-ApU and UpA and their 3'-O-phosphonylmethyl and 5'-O-phosphonylmethyl analogues were studied as substrates in the primed abortive synthesis catalysed by Escherichia coli DNA-dependent RNA polymerase on poly[d(A-T)] template. All phosphonate analogues of dinucleotides containing the anomalous sugar-phosphate backbone are substrates for the holoenzyme as verified by RNase A and RNase T2 digestion of the trinucleotide analogues obtained. The finding that phosphonate dinucleotides act as primers for transcription indicates that steric requirements at the initiation site are not as specific as previously supposed. Analysis of kinetic constants of ordered bibi reaction Kia, KmA, KmB and Vmax suggests that the instability of short RNA-DNA hybrids contributes to the abortive release of trinucleotides formed.
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PMID:Phosphonate analogues of dinucleotides as substrates for DNA-dependent RNA polymerase from Escherichia coli in primed abortive initiation reaction. 248 57

Ribonuclease H IIb, which seems to play a physiological role during transcription, was purified from calf thymus tissue. A polyclonal antibody, raised against the most purified ribonuclease H IIb fraction, recognizes in crude extracts almost exclusively a 52-kDa protein band. By immunoaffinity chromatography and immunoprecipitation experiments, we are able to deplete enzyme extracts from the crossreacting 52-kDa protein band and from ribonuclease H IIb activity. Enzyme activity is eluted from the immunoaffinity matrix in association with a 52-kDa protein under denaturing conditions. Immunoaffinity chromatography enables us also to calculate a purification factor of around 20,000 from the crude extract. The native molecular mass for the enzyme of around 45 kDa, as determined by gel filtration, suggests that calf thymus ribonuclease H IIb is most probably monomeric. The enzyme possesses an isoelectric point of 7.0. It requires Mg2+ ions for activity, is inhibited by N-ethylmaleimide, and exhibits a pH optimum of 9.0-9.5. The enzyme releases oligoribonucleotides with 3'-OH and 5'-phosphate ends, probably in an exonucleolytical manner. The third largest subunit of yeast RNA polymerase A (I) displays ribonuclease H activity [Huet et al. (1976) Nature 261, 431-433]. We discuss our findings in the light of a possible association of ribonuclease H IIb and RNA polymerase A (I) in higher eukaryotes.
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PMID:Serological analysis and characterization of calf thymus ribonuclease H IIb. 255 85

The rat liver bifunctional enzyme, 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase (ATP:D-fructose-6-phosphate 2-phosphotransferase/D-fructose-2,6-bisphosphate 2-phosphohydrolase, EC 2.7.1.105/EC 3.1.3.46) and its separate kinase domain were expressed in Escherichia coli by using an expression system based on bacteriophage T7 RNA polymerase. The bifunctional enzyme (470 residues per subunit) was efficiently expressed as a protein that starts with the initiator methionine residue and ends at the carboxyl-terminal tyrosine residue. The expressed protein was purified to homogeneity by anion exchange and Blue Sepharose chromatography and had kinetic and physical properties similar to the purified rat liver enzyme, including its behavior as a dimer during gel filtration, activation of the kinase by phosphate and inhibition by alpha-glycerol phosphate, and mediation of the bisphosphatase reaction by a phosphoenzyme intermediate. The expressed 6-phosphofructo-2-kinase also started with the initiator methionine but ended at residue 257. The partially purified kinase domain was catalytically active, had reduced affinities for ATP and fructose 6-phosphate compared with the kinase of the bifunctional enzyme, and had no fructose-2,6-bisphosphatase activity. The kinase domain also behaved as an oligomeric protein during gel filtration. The expression of an active kinase domain and the previous demonstration of an actively expressed bisphosphatase domain provide strong support for the hypothesis that the hepatic enzyme consists of two independent catalytic domains encoded by a fused gene.
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PMID:Expression of rat liver 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase and its kinase domain in Escherichia coli. 255 38

Growth of cells of Escherichia coli in nitrogen-limited medium induces the formation of glutamine synthetase, product of the glnA gene, and of other proteins that facilitate the assimilation of nitrogen-containing compounds. Transcription from the glnAp2 promoter of the glnALG operon requires the phosphorylation of nitrogen regulator I (NRI) and, for optimal transcription, the binding of NRI-phosphate to two sites that can be over 1,000 base pairs from the binding site for RNA polymerase. In other procaryotic genes, placement of an activator-binding site further upstream from the start site of transcription diminishes expression. To determine how NRI-phosphate activates transcription and why NRI-dependent transcription differs from activation in other systems, we constructed recombinant plasmids with small alterations between the binding sites for NRI-phosphate and RNA polymerase and between the two high-affinity NRI-binding sites. We demonstrate that tightly bound NRI-phosphate activated transcription from either side of the DNA helix when at least 30 base pairs separated NRI-phosphate from RNA polymerase. In contrast, activation from a partial NRI-binding site was effective only from one side of the DNA. We also observed that glnA expression was optimal when the two high-affinity NRI-binding sites were on the same side of the DNA helix. We explain these results on the basis of a hypothesis that a contact between RNA polymerase and NRI-phosphate bound to an upstream site determines the rate of glnA transcription.
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PMID:Activation of glnA transcription by nitrogen regulator I (NRI)-phosphate in Escherichia coli: evidence for a long-range physical interaction between NRI-phosphate and RNA polymerase. 257 9

The transcription of glnA, the structural gene for glutamine synthetase in enteric bacteria, is regulated by the phosphorylation and dephosphorylation of an effector protein, NRI. In its phosphorylated form the effector activates the initiation of transcription at promoters specific of sigma 54, rather than the abundant sigma 70. The ability of NRI-phosphate to stimulate the formation of open promoter-sigma 54 RNA polymerase complexes is enhanced by specific binding sites, located in the case of glnA 100 and 130 base pairs upstream from the transcriptional start site. These sites can be moved more than 1000 base pairs upstream or downstream without losing their effectiveness. The phosphorylation and dephosphorylation of NRI-NRI-phosphate is catalyzed by the modulator protein NRII. Its activity is controlled by an intracellular signal, the ratio of glutamine to 2-ketoglutarate, which is generated by glutamine synthetase in response to the environmental stimulus, the availability or lack of ammonia. The signal is transduced to the modulator by means of 2 additional proteins: uridylytransferase and PII.
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PMID:Regulation of transcription of the glnALG operon of Escherichia coli by protein phosphorylation. 257 99

The complete nucleotide sequence of a 3541-base pairs (bp) DNA fragment from Bacillus stearothermophilus able to complement an Escherichia coli glyceraldehyde-3-phosphate-dehydrogenase (GAPDH) mutant (gapD-) has been determined. The B. stearothermophilus gap gene consists of a 1005-bp open reading frame commencing with an ATG start codon and ending with a TAA stop codon. Upstream from the start codon is a strong Shine-Dalgarno sequence typical of Gram-positive bacteria. Only one putative RNA polymerase recognition signal (-35 and -10 regions) is found 1153 bp upstream from the ATG start codon. In vivo utilization of this signal is in agreement with the study of gene expression from different subclones of the original fragment. 57 bp downstream from the TAA stop codon is a structure resembling Rho-independent transcription termination signals. Although B. stearothermophilus GAPDH-coding gene is highly expressed in E. coli, it contains several rare codons for E. coli. The predicted amino acid sequence of the GAPDH enzyme presents several differences with the amino acid sequence previously determined from the protein and is in better agreement with published crystallographic data.
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PMID:Nucleotide sequence determination of the DNA region coding for Bacillus stearothermophilus glyceraldehyde-3-phosphate dehydrogenase and of the flanking DNA regions required for its expression in Escherichia coli. 265 7


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