EC:2.7.7.7 - FACTA Search

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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bleomycin (BLM) exclusively affects thymidine-containing compounds such as DNA and polydeoxyribonucleotides by releasing free thymine and leaving aldehyde functions. Molecular morphology and base sequence of the DNA strongly influence BLM activity. High BLM concentrations, besides modifying DNA into oligothyminic or athyminic nucleic acids, cause strand scissions. Enzymatic DNA and RNA synthesis is strongly influenced by BLM. The inhibition in DNA-dependent DNA polymerase and DNA-dependent RNA polymerase assays is of the non-competitive type. Protein biosynthesis in in vitro systems is not affected by BLM even at high concentrations. BLM turns out to be a strong inhibitor of DNase I and of DNase II; the inhibition is of the competitive type. The enzymatic activities of nucleases using RNA as substrate (RNase A, RNase B, Rnase T1, venom phosphodiesterase I and spleen phosphodiesterase II) are not influenced by this antibiotic. The antibiotic reduces cell proliferation (L5178y mouse lymphoma cells) in vitro in low concentrations by cytostasis and at higher concentrations by cytotoxicity. In BLM-treated L5178y cells, DNA synthesis is strongly reduced, while RNA and protein synthesis are not affected. In vivo, using growing quail oviducts, cell proliferation and cytodifferentiation are markedly inhibited after BLM treatment. This is attributed to the observed inhibition of DNA synthesis. RNA and protein synthesis as well as gene expression are not influenced by BLM under the conditions used. The selective inhibition of DNA synthesis in vivo may be caused by the following mechanisms: (1) competition of BLM with RNA; (2) blocking of the accessibility of DNA in chromatin to BLM, and (3) dependence from the repair processes. BLM inhibits growth of sarcomas, induced by oncogenic RNA viruses in vivo; well-developed tumours show regression after BLM treatment. Transformation of chick embryo fibroblasts by oncogenic RNA viruses in vitro and growth of these viruses is blocked by BLM; the most sensitive period for BLM inhibition is the time during the first period (integration of viral genome into cellular genome?) after infection.
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PMID:Effect of bleomycin on DNA, RNA, protein, chromatin and on cell transformation by oncogenic RNA viruses. 6 69

The sequence of 129 nucleotides next to the poly(A) tail of encephalomyocarditis virus RNA has been determined by rapid gel sequencing of cDNA synthesized with DNA polymerase I or reverse transcriptase and a phasing primer, [5'-32P]p(dT)8dC. The sequence is in accord with (a) the pyrimidine tracts which were mapped in blocks along the cDNA, (B) the sequences of seven characteristic T1 RNase oligonucleotides in the RNA transcribed from the cDNA with RNA polymerase, and (c) a limited amount of sequence deduced by partial spleen phosphodiesterase digestion and depurination of endonuclease IV oligonucleotides. The 3' end shows little secondary structure on its own. Ten nonsense codons block all three reading frames such that at least 26 nucleotides do not code for protein. The possible function of a homology A-A-U-A-A-A with other polyadenylated RNAs is discussed.
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PMID:Sequence of 129 nucleotides at the 3'-terminus of encephalomyocarditis virus RNA. 7 85

It has been shown that 4-hydroxyaminoquinoline 1-oxide, the proximate form of the carcinogen 4-nitroquinoline 1-oxide, binds covalently to the purine bases of DNA. Here we report that carcinogen-bound nucleotides can be excised from DNA by a 5' leads to 3' exonuclease associated with DNA polymerase I of E. coli in the forms of either mononucleotides or oligonucleotides. Beef spleen phosphodiesterase II (5' leads to 3') also split carcinogen-bound nucleotides, while a 3' leads to 5' exonuclease of DNA polymerase I and E. coli exonuclease III (3' leads to 5') could not excise the modified nucleotide.
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PMID:Excision in vitro of the DNA bound carcinogen, 4-nitroquinoline 1-oxide. 18 19

Two DNA polymerases are present in extracts of commercial bakers' yeast and wild type Saccharomyces cerevisiae grown aerobically to late log phase. Yeast DNA polymerase I and yeast DNA polymerase II can be separated by DEAE-cellulose, hydroxylapatite, and denatured DNA-cellulose chromatography from the postmitochondrial supernatants of yeast lysates. The yeast polymerases are both of high molecular weight (greater than 100,000) but are clearly separate species by the lack of immunological cross-reactivity. Analysis of associated enzyme activities and other reaction properties of yeast DNA polymerases provides additional evidence for distinguishing the two species. Enzyme I has no associated nuclease activity but does carry out pyrophosphate exchange and pyrophosphorolysis reactions, and has an associated 3'-exonuclease activity. Enzyme I does not degrade deoxynucleoside triphosphates and cannot utilize a mismatched template. Enzyme II does carry out a template-dependent deoxynucleoside triphosphate degradation reaction and can excise mismatched 3'-nucleotides from suitable template systems. Earlier studies have shown that both Enzyme I and Enzyme II are inhibited by N-ethylmaleimide. The yeast enzymes are not identical to any known eukaryotic or prokaryotic DNA polymerases. In general, Enzyme I appears to be most similar to eukaryotic DNA polymerase alpha and Ezyme II exhibits properties of prokaryotic DNA polymerases II and III.
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PMID:DNA polymerases from bakers' yeast. 32 47

A homopolymer system has been developed to examine the digestion strategies of DNA exonucleases. Escherichia coli exonuclease I and lambda-exonuclease, are processive enzymes. However, T7 exonuclease, spleen exonuclease, E. coli exonuclease III, the 3' leads to 5'-exonuclease of T4 DNA polymerase, and both the 3' leads to 5' and the 5' leads to 3' activity of E. coli DNA polymerase I dissociate frequently from the substrate during the course of digestion. Regions of duplex DNA are a dissociation signal for exonuclease I.
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PMID:Processivity of DNA exonucleases. 33 8

In this communication, we describe a simple procedure for analyzing the processiveness of DNA polymerases in general. By choosing conditions for which the number of incorporations per available primer is less than 1, we have reduced the probability of a primer molecule being utilized by the enzyme more than once. The primer-template used was poly(dA)300:oligo(dT)10, and the product was isolated by oligo(dT)-cellulose chromatography. The number of dTMP residues added per association was determined from the [3H]dThd + [3'-3H]dTMP/[3H]dThd ratio of the product after its digestion by micrococcal nuclease and spleen phosphodiesterase. Using this procedure, we have found that Escherichia coli DNA polymerase I, T4 DNA polymerase, and calf thymus alpha- and beta-DNA polymerase are "quasi-processive." Most of these enzymes add on the average approximately 10 to 15 nucleotides before dissociating from the template. T5 DNA polymerase, on the other hand, is processive, i.e. it continues to replicate a given template until it is very close to the 5' end of the template. With "nicked DNA-like" poly(dA):oligo(dT), the processiveness of E. coli DNA polymerase I is increased 2- to 2.5-fold. The significance of this increase in determining the "patch size" during DNA repair is discussed.
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PMID:Processiveness of DNA polymerases. A comparative study using a simple procedure. 36 69

The fidelity of DNA synthesis as determined by the misincorporation of the base analogue 2-aminopurine in competition with adenine has been measured as a function of deoxynucleoside triphosphate substrate concentrations using purified mutator (L56), antimutator (L141), and wild type (T4D) T4 DNA polymerases. Although the rates of both incorporation and turnover of aminopurine and adenine decrease as substrate concentrations are decreased, the ratio of turnover/polymerase activity is increased. Thus, the nuclease/polymerase ratio of each of these three DNA polymerases can be controlled. The misincorporation of aminopurine decreases with decreasing substrate concentrations such that all three enzymes approach nearly identical misincorporation frequencies at the lowest substrate concentration. The increased accuracy of DNA synthesis corresponds to conditions producing a high nuclease/polymerase ratio. The misinsertion frequency for aminopurine is independent of substrate concentrations and enzyme phenotype; therefore, the increased accuracy of DNA synthesis with decreasing substrate concentrations is shown to be a result of increased nuclease activity and not increased polymerase or nuclease specificity. The data are analyzed in terms of a kinetic model of DNA polymerase accuracy which proposes that discrimination in nucleotide insertion and removal is based on the free energy difference between matched and mismatched base pairs. A value of 1.1 kcal/mol free energy difference, delta G, between adenine: thymine and aminopurine:thymine base pairs is predicted by model analysis of the cocentration dependence of aminopurine misincorporation and removal frequencies. An independent estimate of this free energy difference based on the 6-fold higher apparent Km of T4 DNA polymerase for aminopurine compared to adenine also gives a value of 1.1 kcal/mol. It is shown that the aminopurine misinsertion frequency for an enzyme having either extremely low 3'-exonuclease activity, Escherichia coli DNA polymerase I, or no measurable exonuclease activity, calf thymus DNA polymerase alpha, is 12 to 15%, which is similar to that for the T4 polymerases and consistent with delta G approximately 1.1 kcal/mol.
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PMID:Error induction and correction by mutant and wild type T4 DNA polymerases. Kinetic error discrimination mechanisms. 42 61

DNA polymerase beta from mouse myeloma has been purified to near homogeneity, and its properties have been examined. The enzyme did not catalyze a detectable level of dNTP turnover, pyrophosphate exchange, pyrophosphorolysis, 3'-exonuclease degradation, or 5'-exonuclease degradation. Steady-state kinetic studies point to an ordered bibi mechanism for the polymerization reaction. Metal activation, which is required for polymerization, did not alter the Km for either the dNTP or the template--primer.
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PMID:Steady-state kinetics of mouse DNA polymerase beta. 46 81

The DNA polymerase induced by an antimutator T4 phage has been purified to apparent homogeneity and has been compared to the wild type polymerase. The mutant enzyme resembles the wild type in thermal stability, pH optimum, salt activation, divalent metal ion requirement, inhibition by a sulfhydryl reagent, and apparent affinity for DNA. However, the mutant enzyme differs from the wild type in its 8-fold higher 3'-exonuclease activity and in its decreased apparent affinity for deoxyribonucleoside triphosphates. Inhibition studies indicate that the exonuclease of the mutant enzyme is more vulnerable to physical and chemical modification than its wild type counterpart.
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PMID:An antimutator deoxyribonucleic acid polymerase. I. Purification and properties of the enzyme. 77 Apr 66

DNA polymerase I has been purified to homogeneity from an Escherichia coli K12 strain bearing the temperature-sensitive conditionally lethal mutation, polAex1. The purified enzyme shows no defect in its polymerase or 3' leads to 5'-exonuclease activities; however, its 5' leads to 3'-exonuclease activity is abnormally low at both 30 degrees and 43 degrees. Although the mutant enzyme is able to catalyze the coordinated 5' leads to 3' polymerization and 5' leads to 3' exonucleolytic hydrolysis of nucleotides at a nick in duplex DNA ("nick translation") at a measurable rate at 30 degrees, this reaction is undetectable at 43 degrees. This defect is very likely responsible for the retarded joining of nascent DNA fragments and the consequent loss of viability that occur in the mutant at this temperature.
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PMID:Biochemical characterization of mutant forms of DNA polymerase I from Escherichia coli. II. The polAex1 mutation. 77 79

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