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)

1. Rifamazine (AF/RP) a dimeric rifamycin, is active against bacterial DNA-dependent RNA polymerase and against viral RNA-dependent DNA polymerase. 2. Rifamazine is active also against DNA-dependent RNA polymerase extracted from rifampicin-resistant mutants of Escherichia coli. It does not interfere with enzyme-template interaction or with RNA elongation. It blocks initiation. 3. A comparison is made between the mechanism of action of rifamazine and that of rifampicin, and of AF/013 (octyloxime of 3-formylrifamycin SV), a C-class rifamycin. Our results show that the mechanism of action of rifamazine is more similar to that of rifampicin than to that of the octyloxime derivative. 4. Activity of rifamazine against RNA polymerase from rifampicin-resistant mutants is thought to be due to binding of the dimer to both the rifamycin-specific binding site and to a second weak site.
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PMID:Mechanism of action of rifamazine, a member of a new class of (dimeric) rifamycins. 5 95

The alpha, beta2, and alphabeta forms of the RNA-dependent DNA polymerase of avian sarcoma virus B77 grown in duck embryo fibroblasts have been compared with respect to several kinetic properties. The following results were obtained. 1. The Km values for dTTP and dGTP for enzyme forms alpha, beta2, and alphabeta were 77, 39, and 74, and 6.8, 3.1, and 6.1 micronM, respectively. 2. The affinity of 70 S Rous sarcoma virus RNA for enzyme form alphabeta was about twice that for the other two forms. 3. The relative specific activities of the three enzyme forms on synthetic primer-templates such as poly(rA)-poly(dT) were almost the same. The viral 70 S RNA-dependent specific activities were 2 to 3 orders of magnitude lower and in the ratio of 1:3:5 for enzyme forms alpha:beta2:alphabeta. Addition of exogenous oligo(dT) stimulated the 70 S viral RNA-dependent activity of enzyme forms alphabeta and beta2 by a factor of 3, and that of enzyme form alpha by a factor of 30, so that it then became the most active transcriptase of viral 70 S RNA. 4. The largest transcripts formed by the three enzyme forms with 70 S viral RNA as primer-template were about 4,500 nucleotides long. About one-third of the total amount of polynucleotides polymerized by the alphabeta enzyme was in the form of such transcripts. This proportion was far higher than for the other two enzyme forms. 5. All three enzyme forms were capable of transcribing single-stranded into double-stranded DNA. 6. The 3-propylcyclohexyl piperidyl derivative of rifamycin SV, at a concentration of 100 microng/ml, inhibited enzyme forms beta2 and alphabeta by over 99.5 and 96%, respectively, but enzyme form alpha by only about 60%. 7. The beta2 and alphabeta forms of the enzyme were processive DNA polymerases, the alpha form a nonprocessive polymerase. 8. In general, these results indicate that in most respects the properties of the dimeric enzyme forms resemble each other much more closely than those of the alpha form. In some very important respects, such as affinity for viral RNA and the size of transcripts formed from it, the alphabeta enzyme form performs significantly better than either of the other two enzyme forms.
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PMID:RNA-dependent DNA polymerase of avian sarcoma virus B77. II. Comparison of the catalytic properties of the alpha, beta2, and alphabeta enzyme forms. 6 35

H1 factor is a heat-stable protein found in large amounts in Escherichia coli. In vitro, this protein has been found to stimulate transcription of lambda templates by E. coli DNA-dependent RNA polymerase. The subunit molecular weight of this factor has been re-estimated and found to be 15500 +/- 1000 in the presence of 2-mercaptoethanol. Crosslinking experiments performed with dimethylsuberimidate in the presence or absence of the DNA template indicate the presence of multiples of the 15500-Mr subunit up to the tetramer, the dimeric species being predominant. One cysteinyl residue per 15000-Mr subunit is labeled by 4-chloro-7-nitrobenzofurazan. This residue is not labeled if the factor is exposed to oxidizing conditions. In this case, three lysyl residues are titrated. H1 factor behaves as a DNA-binding protein. We have detected binding to DNA by two independent methods: displacement of a fluorescently labeled factor by the native protein and retention of radioactive DNA on millipore filters in the presence of the factor. Under our experimental conditions (high ionic strength, absence of magnesium ions), the saturation function of lambda plac DNA as well as of wild-type lambda DNA has been found to be non-cooperative. Saturation is reached when 300 +/- 30 molecules of dimeric factor are bound per lambda molecule, the average dissociation constant of the complex being 10nM. The dissociation time of the H1.DNA complex is less than 5 s at 37 degrees C. The binding of this factor lowers the affinity of native DNA for ethidium bromide. In the presence of this intercalating dye, the solubility of the complex decreases drastically.
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PMID:Physico-chemical properties of a DNA binding protein: Escherichia coli factor H1. 33 3

The chemical dimers of rifamycin SV resembled the corresponding monomeric analogs with respect to the inhibitory properties versus the nucleic acid polymerases. At low doses, such compounds blocked the initiation step of the DNA transcription catalyzed by the bacterial RNA polymerase, as observed for the parental antibiotic and its derivative rifampicin which are largely used in therapy. At concentrations one to two orders of magnitude higher, the chemically modified rifamycins inhibited also other nucleotidyltransferases. The widespread toxicity of the dimeric and monomeric semisynthetic rifamycins versus these enzymes was not causally related with an enhancement of their lipophily. The observed effects might be due to a loss of selectivity in the inhibition mechanism which was originally specific for the RNA polymerase from E. coli at the beginning of its catalysis. The rifamycin derivatives might then react with the catalytic portion of other nucleotidyltransferases interfering adversely with the enzyme activity in a number of ways and/or at different levels.
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PMID:Effect of the rifamycin dimers on the activities of nucleic acid polymerases from various sources. Relation between lipophily and toxicity. 115 83

p34cdc2 kinase, a critical regulator of the cell cycle, has been shown to recognize the consensus sequence S/TP in proteins such as histone H1, the retinoblastoma gene product RB and the carboxyl-terminal domain of eukaryotic RNA polymerase II. Using phosphorylated synthetic peptides, representing the p34cdc2 phosphorylation sites in these proteins and histone H1 protein as substrates, we investigated the substrate specificity of the different oligomeric forms of the polycation-stimulated (PCS/type-2A) protein phosphatase and the active catalytic subunit of the ATP,Mg-dependent (AMDc/type 1) protein phosphatase. The results show that the oligomeric structure of the PCS phosphatases is an important determinant for efficient dephosphorylation. The trimeric PCSH1 and PCSM phosphatases are about 10-20-fold-better histone H1 phosphatases than the dimeric PCSH2 and PCSL phosphatases and about 100-fold better than the catalytic subunit (PCSC), suggesting a regulatory role for the 72-kDa, 65-kDa and 55-kDa subunits. The RB peptide = INGS(P)PRT(P)PRRGQNR, is preferred over phosphorylase a (8-fold) by the PCSH1 phosphatase and is about a 40-fold and 95-fold-better substrate for the PCSH1 phosphatase than for the PCSM and PCSL phosphatases, respectively. The primary structure surrounding the S/T(P)P motif, by itself a strong negative determinant for dephosphorylation, can harbour positive features which relieve the constraint imposed by the carboxyl-terminal proline. Thus, the RB peptide INGS(P)PRT(P)PRRGQNR, in which the T(P)P configuration is preferred over the S(P)P sequence, is an extremely good and specific substrate for the PCSH1 phosphatase (Km = 10 microM, Vmax = 3882 nmol.min-1.mg-1). The AMDC phosphatase is a poor phosphatase for all the phosphopeptides tested, unless Mn2+ is added. Its histone H1 phosphatase activity is much less sensitive than its phosphorylase a and phosphopeptide phosphatase activity to inhibition by the modulator or inhibitor-1. The results strongly suggest a role for the trimeric PCSH1 phosphatase in reversing the p34cdc2 phosphorylations.
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PMID:Specificity of the polycation-stimulated (type-2A) and ATP,Mg-dependent (type-1) protein phosphatases toward substrates phosphorylated by P34cdc2 kinase. 131 64

By means of neutron solution scattering we determined the position and orientation of core enzyme and sigma-factor within the Escherichia coli RNA polymerase holoenzyme with the aim of improving existing models. The individual components, core enzyme (E) and sigma-factor (sigma), were highlighted by deuterium labeling and their center-to-center distances determined in the monomeric and the dimeric holoenzyme. The following distance parameters were obtained: dE1-sigma 1 = 8.6(+/- 1) nm, dE1-E2 = 11.5(+/- 1) nm, d sigma 1-sigma 2 = 12.0(+/- 0.7) nm, dE1-sigma 2 = 9(+/- 3) nm. Using a triangulation procedure the position of the sigma-factors, sigma 1 and sigma 2, were determined with respect to the mass center of the core enzyme molecules, E1 and E2, assuming a symmetrical arrangement of the holoenzyme molecules in the dimer (C2 symmetry). In addition, the orientation of the sigma-factor with respect to core enzyme was estimated by means of model calculations. The obtained model of holoenzyme depicts the sigma-factor as buried in a groove of core enzyme, probably between the large subunits beta' and beta.
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PMID:Spatial arrangement of sigma-factor and core enzyme of Escherichia coli RNA polymerase. A neutron solution scattering study. 205 37

Escherichia coli integration host factor (IHF) is a small dimeric protein that binds to a specific DNA consensus sequence and produces DNA bending. Transcription from the bacteriophage lambda pL promoter is stimulated three- to fourfold by IHF both in vivo and in vitro. IHF binds with high-affinity to two tandem sites located just upstream from the pL promoter and enhances the formation of RNA polymerase-promoter closed complexes. The rate of isomerization to open complex is not influenced by IHF. IHF may stimulate recognition of pL by one or more of several mechanisms: (1) by bending DNA; (2) by making protein-protein contacts with RNA polymerase; or (3) by occluding a competing promoter upstream from pL.
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PMID:Integration host factor stimulates the phage lambda pL promoter. 214 Jan 36

The Alu sequence family comprises the major dispersed repeat sequences of rodent and primate genomes, numbering greater than 300,000 copies in the human haploid genome. The function of these elements is unknown. The sequences can be transcribed by RNA polymerase III and represent a substantial fraction of total heterogeneous nuclear RNA. Alu sequences can be found both in the flanking regions and within the transcription units of several well-characterized genes. Here we show that some members of the mouse B1 Alu sequence family encode a small cytoplasmic RNA. The mouse B1 sequence is congruent to 130 nucleotides long and shows homology with the monomeric units of the dimeric 300-nucleotide primate sequence. By means of microinjection studies in the Xenopus laevis oocyte, we have elucidated a novel pathway leading to the appearance of a processed B1-type Alu RNA species in the cytoplasm. The abundance of this small Alu RNA differs between various mouse tissues, suggesting a role in tissue-specific gene expression.
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PMID:Transcription, processing and nuclear transport of a B1 Alu RNA species complementary to an intron of the murine alpha-fetoprotein gene. 241 35

We have constructed a plasmid expressing E. coli M1 RNA, the catalytic RNA subunit of ribonuclease P, under the control of a phage T7 promoter. The active M1 RNA species synthesized in vitro by T7 RNA polymerase from this vector was reacted with the tRNA(Gln) - tRNA(Leu) precursor RNA (Band K) encoded by phage T4. Only the tRNA(Leu) moiety of this dimeric precursor RNA contains the 3' terminal C-C-A sequence common to all tRNAs. We observed that protein-free M1 RNA was capable of processing the precursor RNA at the 5' ends of both tRNA tRNA sequences. The rate of cleavage of the tRNA(Gln) sequence was more strongly dependent on [Mg2+] than that of tRNA(Leu), increasing severalfold between 100 and 500 mM Mg2+, conditions under which the rate of cleavage at the tRNA(Leu) sequence was constant.
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PMID:Dependence of M1 RNA substrate specificity on magnesium ion concentration. 245 26

The rna82 mutation of Saccharomyces cerevisiae inactivates an RNA processing activity responsible for maturation of 3'-terminal sequences upon 5 S and 37 S ribosomal RNA precursors. This study describes a difference in the processing of transcripts of an S. cerevisiae dimeric tRNA gene (tRNA(arg)-tRNA(Asp) in RNA polymerase III in vitro transcription extracts prepared from rna82 and wild-type cells. The mutant extract accumulated additional processing intermediates containing tRNA(Arg) sequences as compared to the extract from wild-type cells. The structure of these intermediates revealed a defect in removal of the 10 nucleotides left 3' to the tRNA(Arg) sequence by the RNase P cleavage immediately 5' to tRNA(Asp). This is the first demonstration of a mutational defect affecting maturation of 3' sequences upon a eukaryotic tRNA precursor.
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PMID:Processing of transcripts of a dimeric tRNA gene in yeast uses the nuclease responsible for maturation of the 3' termini upon 5 S and 37 S precursor rRNAs. 266 58

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