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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 genes for the RNA polymerase sigma subunit (rpoD) and DNA primase (dnaG) of Salmonella typhimurium have been cloned into lambda vectors. Combined restriction, deletion and functional analysis of the cloned fragment allows us to map the genes precisely on the fragment, establishes the direction in which rpoD is transcribed, and reveals the existence of at least one new gene in the vicinity. A closely homologous, smaller fragment of Escherichia coli DNA, also cloned into lambda, contains rpoD and at least part of dnaG.
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PMID:Gene for the RNA polymerase sigma subunit mapped in Salmonella typhimurium and Escherichia coli by cloning and deletion. 16 May 66

A DNA primase activity was isolated from pea chloroplasts and examined for its role in replication. The DNA primase activity was separated from the majority of the chloroplast RNA polymerase activity by linear salt gradient elution from a DEAE-cellulose column, and the two enzyme activities were separately purified through heparin-Sepharose columns. The primase activity was not inhibited by tagetitoxin, a specific inhibitor of chloroplast RNA polymerase, or by polyclonal antibodies prepared against purified pea chloroplast RNA polymerase, while the RNA polymerase activity was inhibited completely by either tagetitoxin or the polyclonal antibodies. The DNA primase activity was capable of priming DNA replication on single-stranded templates including poly(dT), poly(dC), M13mp19, and M13mp19 + 2.1, which contains the AT-rich pea chloroplast origin of replication. The RNA polymerase fraction was incapable of supporting incorporation of 3H-TTP in in vitro replication reactions using any of these single-stranded DNA templates. Glycerol gradient analysis indicated that the pea chloroplast DNA primase (115-120 kDa) separated from the pea chloroplast DNA polymerase (90 kDa), but is much smaller than chloroplast RNA polymerase. Because of these differences in size, template specificity, sensitivity to inhibitors, and elution characteristics, it is clear that the pea chloroplast DNA primase is an distinct enzyme form RNA polymerase. In vitro replication activity using the DNA primase fraction required all four rNTPs for optimum activity. The chloroplast DNA primase was capable of priming DNA replication activity on any single-stranded M13 template, but shows a strong preference for M13mp19 + 2.1. Primers synthesized using M13mp19 + 2.1 are resistant to DNase I, and range in size from 4 to about 60 nucleotides.
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PMID:Pea chloroplast DNA primase: characterization and role in initiation of replication. 186 57

Infection of Vero cells with herpes simplex virus type 1 results in the appearance in soluble extracts of a DNA primase activity. The partially purified enzyme, Mr, approximately 100,000, is identical in resistance to alpha-amanitin, pH profile, Mg2+ dependence, salt sensitivity, and KmATP to the catalytic core of Vero cell mitochondrial RNA polymerase. Moreover, the products synthesized are those expected of an RNA polymerase rather than a DNA primase. Inasmuch as the enzyme is not present in soluble extracts of uninfected Vero cells, we presume that the specific appearance of RNA polymerase in extracts of herpesvirus-infected cells results from infection-induced disruption of the mitochondrial membrane, followed by release of the enzyme into the cytosol.
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PMID:Release of RNA polymerase from vero cell mitochondria after herpes simplex virus type 1 infection. 215 32

The inhibitory effects of hexasodium sym-bis(m-aminobenzoyl-m-amino-p-methylbenzoyl-1-naphthylamino-4,6, 8-trisulfonate)carbamide (trivial name: suramin) on the activities of various deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) polymerases from mammalian cells, bacteria and retrovirus were examined and compared with each other. Among the various DNA and RNA polymerases tested, the activities of DNA primase, DNA polymerase alpha, reverse transcriptase and Escherichia coli RNA polymerase were strongly inhibited by suramin, while the activities of other enzymes including DNA polymerases beta and gamma, terminal deoxynucleotidyl-transferase and DNA polymerase I were relatively resistant to inhibition by this drug. The inhibition by suramin of DNA polymerase alpha from KB cells and Rauscher murine leukemia virus (RLV) reverse transcriptase was due to competition with the respective template primer (activated DNA for alpha polymerase and (rA)n.(dT)12-18 for reverse transcriptase) for the template.primer-binding site of the enzyme, while the inhibition of DNA primase and E.coli RNA polymerase was due to competition with the ribonucleoside triphosphate substrate. The inhibition constants (Ki) of suramin were determined to be 2.6 microM, 0.35 microM, 0.54 microM and 0.70 microM for DNA primase, DNA polymerase alpha, RLV reverse transcriptase and E. coli RNA polymerase respectively. The observed inhibitions of these polynucleotide-synthesizing enzymes by suramin seem to explain, at least in part, an as yet unknown mechanism of trypanocidal action of this drug.
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PMID:Differential inhibition of various deoxyribonucleic and ribonucleic acid polymerases by suramin. 245 Jul 43

The inhibitory effects of two anionic compounds, Evans blue and aurintricarboxylic acid (ATA), on various kinds of polynucleotide-synthesizing enzymes were examined. Under the assay conditions, optimized for each enzyme species, both these compounds strongly inhibited the activities of the purified human DNA polymerases alpha, beta, gamma, and DNA primase as well as those of DNA polymerase I and RNA polymerase from Escherichia coli and Rauscher leukemia virus reverse transcriptase. ATA was particularly effective in inhibiting retroviral reverse transcriptase and cellular DNA polymerase alpha. Evans blue, which is a structural analogue of suramin, exerted its inhibitory action largely by competing with the template.primer for the same binding site of the enzyme. On the other hand, ATA inhibited most, if not all, of these enzyme activities noncompetitively with respect to either the template.primers or nucleoside 5'-triphosphate substrates. The inhibition constants for ATA were, in general, smaller than those for Evans blue.
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PMID:Differential inhibition of various deoxyribonucleic acid polymerases by Evans blue and aurintricarboxylic acid. 246 Mar 49

Carbocylic 2',3'-didehydro-2',3'-dideoxyguanosine (Carbovir; NSC 614846) is an antiretroviral agent which may be useful in the treatment of AIDS. We have synthesized the 5'-triphosphate of Carbovir and examined its ability to inhibit human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (EC 2.7.7.49) and other retroviral reverse transcriptases, as well as human DNA polymerases alpha, beta, gamma (EC 2.7.7.7) and DNA primase (EC 2.7.7.6). Carbovir triphosphate emerges as a highly selective inhibitor of reverse transcriptases with little, if any, effect on the cellular enzymes. 3'-Azido-2',3'-dideoxythymidine (AZT) triphosphate and the two dideoxynucleoside triphosphates, ddTTP and ddGTP, inhibited HIV-1 reverse transcriptase to the same degree as Carbovir triphosphate, but were less selective in that they also inhibited DNA polymerases beta and gamma. We conclude that Carbovir is a highly selective antiretroviral agent.
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PMID:Comparison of the effect of Carbovir, AZT, and dideoxynucleoside triphosphates on the activity of human immunodeficiency virus reverse transcriptase and selected human polymerases. 247 36

An enzymatic activity in crude extracts of macronuclei from the hypotrichous ciliate Oxytricha nova catalyzes the synthesis of RNA consisting of (C4A4)n using an oligodeoxynucleotide template of the telomeric sequence (dG4T4)n. Single-stranded (dG4T4)n is an effective template if it has a random sequence at its 5' end. The enzyme will not use a (dG4T4)n template of any length (up to 64 bases) if it lacks a random sequence at the 5' end. With a random, single-stranded sequence at the 5' end, the (dG4T4)n oligodeoxynucleotide must be at least 36 bases long to work as a template. A 16-base, single-stranded region of (dG4T4)2 is an effective template when joined to a 20-base double-stranded region of (dG4T4)n/(dA4dC4)n, a structural arrangement that is the same as the native telomere of Oxytricha macronuclear DNA. The RNA-synthesizing activity is unaffected by 1.0 mg/ml of alpha-amanitin. Macronuclear extracts have an alpha-amanitin-insensitive, RNA-polymerizing activity that can use a random 55mer oligodeoxynucleotide as a template. This enzyme activity may be the same one that uses (dG4T4)n templates to make (C4A4)n RNA. The (C4A4)n RNA made in the reaction can prime DNA synthesis by the E. coli DNA polymerase I Klenow fragment. Therefore, the RNA polymerase activity fulfills the requirements of the telomere DNA primase that we postulated for replication of telomeres in hypotrichs (Zahler and Prescott, 1988, Nucleic Acids Research 16, 6953-6972).
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PMID:DNA primase and the replication of the telomeres in Oxytricha nova. 247 56

The 330 residue-long N-terminal domains (NTDs) of beta and beta' subunits of the Escherichia coli RNA polymerase (RPase) core enzyme were found to be significantly homologous to the entire length of its alpha subunit. The C-terminal domains (CTDs) of the RPase beta subunit and DNA primase (dnaG protein) were not only strongly homologous to each other but also considerably homologous to the RPase alpha, suggesting that an alpha subunit-like enzyme must have been commonly ancestral to core enzyme subunits and primase. The N-terminal region (NTR) of RPase alpha was also found to show significant homologies with NTRs of the E. coli EF-Tu and F1-ATPase alpha subunit, and a possible weak homology with ribosomal protein L3. A most important finding was that the C-terminal regions (CTRs) of DNA polymerase (DPase) I, T7 phage DPase and MS2 phage RNA replicase beta subunit are closely homologous with one another. These CTRs showed considerable homologies to RPase alpha NTD and RPase beta CTD. These conclusions are based on statistical evaluations of homologies in base and/or amino acid sequence alignments.
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PMID:Amino acid and nucleotide sequence homologies among E. coli RNA polymerase core enzyme subunits, DNA primase, elongation factor Tu, F1-ATPase alpha, ribosomal protein L3, DNA polymerase I, T7 phage DNA polymerase, and MS2 phage RNA replicase beta subunit. 286 46

Replication of UV-irradiated circular single-stranded phage M13 DNA by Escherichia coli RNA polymerase (EC 2.7.7.6) and DNA polymerase III holoenzyme (EC 2.7.7.7) in the presence of single-stranded DNA binding protein yielded full-length as well as partially replicated products. A similar result was obtained with phage G4 DNA primed with E. coli DNA primase, and phage phi X174 DNA primed with a synthetic oligonucleotide. The fraction of full-length DNA was several orders of magnitude higher than predicted if pyrimidine photodimers were to constitute absolute blocks to DNA replication. Recent models have suggested that pyrimidine photodimers are absolute blocks to DNA replication and that SOS-induced proteins are required to allow their bypass. Our results demonstrate that, under in vitro replication conditions, E. coli DNA polymerase III holoenzyme can insert nucleotides opposite pyrimidine dimers to a significant extent, even in the absence of SOS-induced proteins.
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PMID:Replication of UV-irradiated single-stranded DNA by DNA polymerase III holoenzyme of Escherichia coli: evidence for bypass of pyrimidine photodimers. 294 56

The Bacillus subtilis rpoD gene has been sequenced and the primary structure of its product deduced. The molecular weight calculated for the sigma 43 is 42,828. The DNA and protein sequences of sigma 43 exhibit extensive homology to the Escherichia coli rpoD gene and its sigma 70 product, especially in the C-terminal two-thirds of the sequence. Other proteins exhibiting partial homology with sigma 43 include the E. coli nusA protein, the E. coli htpR (heat-shock regulatory gene) product sigma 32, and specific DNA-binding proteins. No amino acid homology was found between sigma 43 and B. subtilis phage SP01 sigma gp28, phage T7 RNA polymerase, or E. coli DNA primase. The gene exhibits a strong ribosomal binding site and a typical rho-independent transcription terminator sequence. A typical transcription terminator sequence was not observed upstream from the sigma 43 gene. The sigma 43 gene may be part of an operon, resembling the situation found in the E. coli sigma operon.
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PMID:A strong sequence homology exists between the major RNA polymerase sigma factors of Bacillus subtilis and Escherichia coli. 298 46

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