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 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

The kinetics of forming all possible single base substitution errors are measured for Drosophila melanogaster DNA polymerase alpha and avian myeloblastosis virus reverse transcriptase. Seventeen sites along bacteriophage M13 DNA are investigated so that effects of nearest neighbor base stacking on misinsertion kinetics can be evaluated. Polymerase alpha appears to be more error prone than reverse transcriptase. Polymerase alpha forms transversion mispairs at rates comparable to transition mispairs with two exceptions; A.A and C.C are formed with significantly higher and lower efficiencies, respectively. Reverse transcriptase forms transversions with lower efficiencies than transitions, especially low being A.G, G.G, and C.C. For both enzymes, misinsertion frequencies vary typically by 10-fold for the same mispair in different locations. Misinsertion frequency can be expressed as a product of two components, one based on Km and the other on Vmax. DNA polymerase alpha appears to use primarily Km discrimination (100-5000-fold) to achieve insertion fidelity while reverse transcriptase shows a greater balance between Km and Vmax discrimination. Nearest-neighbor base stacking interactions appear to have opposite effects on the two discrimination components. The 5'-nearest neighbor influence on Km is greater for correct insertions than for incorrect, while the influence on Vmax is greater for the incorrect base. Target sites that have pyrimidine as the 5'-nearest neighbor to incoming nucleotides show a higher than average misinsertion component based on Km, but a lower than average component based on Vmax. Conversely, target sites with nearest neighbor purines have a higher than average Vmax component. These results imply that nucleotide misinsertion "hot spots" will occur next to pyrimidines when Km discrimination is dominant and next to purines when Vmax discrimination is dominant. When Vmax and Km discrimination components have similar magnitudes, nearest neighbor effects tend to cancel thereby reducing the effects of base stacking on insertion error rates.
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PMID:Nearest neighbor influences on DNA polymerase insertion fidelity. 247 45

Primase is a specialized RNA polymerase that synthesizes RNA primers for initiation of DNA synthesis. A full cDNA clone of the p49 subunit of mouse primase, a heterodimeric enzyme, has been isolated using a primase p49-specific polyclonal antibody to screen a lambda gt11 mouse cDNA expression library. The cDNA indicated the subunit is a 417-amino acid polypeptide with a calculated molecular mass of 49,295 daltons. The p49 mRNA is approximately 1500 nucleotides long with a 5'-untranslated region of 74 nucleotides and a 3'-untranslated region of 200 nucleotides. Comparison with a similar sized primase subunit from yeast showed highly conserved amino acid sequences in the N-terminal halves of the polypeptides and included a potential metal-binding domain suggesting the functional importance of this region for DNA binding. In contrast, the 3' portion of the cDNA has rapidly diverged in nucleotide sequence, as primase mRNA can be detected in mouse and rat cells with a 3' probe (including coding and noncoding) but not in RNA from hamster or human cells. A full-length cDNA probe detected mRNA from hamster and human cell lines, indicating a conserved 5' portion and divergent 3' region of the expressed gene. The rapid divergence may be related to the species-specific protein interactions found for the DNA polymerase alpha-primase complex. The mRNA is detected in proliferating but not in quiescent cells consistent with its function in DNA replication.
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PMID:Mouse primase p49 subunit molecular cloning indicates conserved and divergent regions. 292 77

Interferons (IFNs) have been shown to suppress the growth of both normal and malignant cells. We examined the effect of gene-cloned IFN-alpha and IFN-gamma on the in vitro activities of human, calf, or rat DNA polymerases. IFN-alpha strongly inhibited the reactions of DNA polymerase alpha and beta at apparent Ki values of 1.25 and 0.35 x 10(5) antiviral units/ml, respectively, but inhibited DNA polymerase gamma only slightly. IFN-gamma inhibited the reaction of DNA polymerase alpha more strongly (Ki, 1.2 x 10(4) units/ml) than IFN-alpha, but not that of DNA polymerase beta. On the other hand, neither IFN-alpha nor IFN-gamma inhibited the reactions of DNA polymerase I from Escherichia coli, Klenow fragment, T-4 DNA polymerase, and RNA polymerase. The fact that Ki values for IFN-alpha of DNA polymerase from calf thymus, human leukemic cells, and rat liver were similar suggests the absence of species specificity among animals with regard to the inhibition of DNA polymerases by IFNs. These results indicate that DNA polymerase may be one of the targets of the action of IFNs.
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PMID:Inhibition of mammalian DNA polymerases by recombinant alpha-interferon and gamma-interferon. 311 59

Nuclear protein factor type 1 (NPF-1) that simulates IMR-32 primase-associated DNA polymerase alpha 1 and alpha 2 activities has been purified from a high-salt extract of liver chromatin from 6-month-old rats. The final purified factor lacks DNA polymerase alpha, RNA polymerase, and DNA-unwinding or topoisomerase type I activities. The stimulatory activity is destroyed by trypsin (60 min at 37 degrees C), DNase II (60 min at 37 degrees C), and heat treatment (2 min at 68 degrees C). The 125I-labeled NPF-1 does not bind to activated calf thymus DNA or poly(dC). However, it forms a ternary complex with DNA in the presence of DNA polymerase alpha-primase complex (alpha 1 and alpha 2). The ternary complex sediments on sucrose density gradient as a heavier band (11S). The NPF-1 also stimulates (2.5-fold) primase-catalyzed incorporation of GMP and dGMP from the corresponding triphosphates on poly(dC) template even in the presence of a high concentration of alpha-amanitin (400 micrograms/ml). The labeled duplex containing the poly(dC) template, [32P]-GTP, and [3H]dGTP loses 80% of the 32P label and 70% of the 3H label after treatment with 0.3 M KOH and DNase I, respectively. The products were isolated from reaction mixtures incubated with and without NPF-1 and subjected to alkaline sucrose-density-gradient sedimentation analysis. The results suggest that the rate of synthesis of DNA short chains is increased in the presence of NPF-1 without a concomitant increase in the chain length of the newly synthesized products.
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PMID:Stimulation of human neuroblastoma DNA polymerase alpha and primase activities by a protein factor isolated from rat liver chromatin. 354 Sep 37

Studies of the spatial organization of DNA replication have provided increasing evidence of the importance of the nuclear matrix. We have previously reported a relationship between rates of DNA synthesis and the differential binding of DNA polymerase alpha to the nuclear matrix over the S-phase. We now report the detection of DNA primase bound to the HeLa nuclear matrix. Matrix-bound primase was measured both indirectly, by the incorporation of [32P]dAMP into an unprimed single-stranded template, poly(dT), and directly, by the incorporation of [3H]AMP into matrix DNA. Characteristics of this system include a requirement for ATP, inhibition by adenosine 5'-O-(thiotriphosphate), a primase inhibitor, and insensitivity to aphidicolin and alpha-amanitine, inhibitors of polymerase alpha and RNA polymerase, respectively. Subcellular quantification of primase and polymerase alpha activity revealed that while most (approximately 72%) primase activity is bound to the matrix, only a minority (approximately 32%) of polymerase alpha activity is matrix-bound. Treatment of the nuclear matrix with beta-D-octylglucoside allowed the solubilization of approximately 54% of primase activity and approximately 39% of the polymerase alpha activity. This data provides further evidence of a structural and functional role for the nuclear matrix in DNA replication. The ability to solubilize matrix-bound replicative enzymes may prove to be an important tool in the elucidation of the spatial organization of DNA replication.
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PMID:Preferential binding of DNA primase to the nuclear matrix in HeLa cells. 371 Oct 79

DNA primase (EC 2.7.7.6) produces an RNA oligomer of approximately 10 bases, which is required by DNA polymerase alpha (EC 2.7.7.7) for the initiation of DNA synthesis. We partially purified DNA primase from acute lymphocytic leukemia cells from patients using several chromatography columns. Poly(dT) and poly(dC), but not poly(dA) or poly(dG), were good templates for ribonucleoside triphosphate (rNTP)-dependent DNA synthesis (i.e., DNA primase activity), and they were used in the study of the effect of natural and arabinofuranosyl nucleoside triphosphates on DNA primase activity. The Km for GTP in the poly(dC) primase assay was approximately 175 microM. All noncomplementary natural rNTPs and deoxyribonucleoside triphosphates (dNTPs) inhibited poly(dC) primase activity to a similar extent (Ki values of ATP and CTP were 610 and 517 microM, respectively). 1-beta-D-Arabinofuranosylcytosine 5'-triphosphate (araCTP) and 9-beta-D-arabinofuranosyladenine 5'-triphosphate (araATP) were more potent inhibitors of poly(dC) primase activity than were CTP and ATP (Ki values were approximately 125 microM). araCTP, araATP, CTP, and ATP inhibited DNA primase activity in a manner competitive with GTP. The concentration required to inhibit poly(dC) DNA primase activity by 50% was determined for a number of arabinofuranosyl nucleoside triphosphate analogs, and the relative potency of inhibition of DNA primase activity was as follows: rNTP = dNTP = 5-aza-dCTP less than ara-5-azaCTP = araTTP = araATP = araCTP less than 2-fluoro-araATP = 2'-azido-2'-deoxy araCTP less than 2'-fluoro-araTTP = 2'-fluoro-5-iodo-araCTP = 2'-fluoro-5-methyl-araCTP. In the poly(dT) primase assay ATP did not follow classic Michaelis-Menten kinetics (ATP exhibited positive cooperativity with a Hill coefficient of 2.0). However, this assay was very sensitive to araCTP (apparent Ki of 25 microM). In summary, these experiments suggested that DNA primase is controlled by the levels of ribonucleoside triphosphates, and that the perturbation of these pools by any agent could lead to the inhibition of DNA primase and thereby inhibit DNA synthesis. Furthermore, aranucleoside triphosphate analogs directly inhibited DNA primase, and it is possible that this effect may contribute to the cytotoxicity of these compounds.
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PMID:Inhibition of DNA primase by nucleoside triphosphates and their arabinofuranosyl analogs. 380 92

The effects of lead acetate on DNA and RNA synthesis have been investigated with intact HeLa cells, isolated nuclei, and purified DNA and RNA polymerases. No inhibition of DNA or RNA synthesis in intact cells was found even after exposure to 0.5 mM lead acetate for 18 hr. In contrast, both DNA and RNA synthesis in isolated nuclei were inhibited by lead (with 50% inhibition at approximately 150 and 80 microM respectively). Similarly, both HeLa DNA polymerase alpha and RNA polymerase II were inhibited, with 50% inhibition obtained at approximately 150 and 20 microM lead acetate respectively. The inhibition of nucleic acid synthesis in isolated nuclei can thus be accounted for by inhibition of the polymerases. The sensitivity of Escherichia coli DNA polymerase I to lead acetate was found to be significantly greater than the HeLa DNA polymerase alpha (50% inhibition at only 10 microM), but the sensitivity of the E. coli RNA polymerase was the same as that of the HeLa enzyme.
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PMID:Effects of lead acetate on DNA and RNA synthesis by intact HeLa cells, isolated nuclei and purified polymerases. 381 70

Protein extracts were prepared at various times after serum stimulation of growth-arrested mouse 3T3 fibroblasts. The extracts were fractionated by sucrose gradient centrifugation and used to determine the activities of DNA polymerase alpha and DNA primase. We found that polymerase and primase appeared in close association in one homogeneous 8.2-S peak. Neither polymerase, free of associated primase, nor primase, free of polymerase, could be detected at any time after serum stimulation. The activities of both enzymes started to increase concomitantly at the beginning of the DNA replication phase of the cell cycle. We found five to six times more DNA primase activity in replicating than in resting 3T3 cells. Besides DNA primase, a second additional priming activity could be detected. This activity sedimented at 12.5 S and corresponded most probably to RNA polymerase I.
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PMID:Cell-cycle-dependent expression of DNA primase activity. 383 Jan 83

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