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)

The active sites in reverse transcriptase of avian myeloblastosis virus have been selectively modified by various chemical reagents. The DNA polymerase activity is very sensitive to hydrophobic sulfhydryl reagents such as 5,5'-dithiobis(2-nitrobenzoic acid) and p-hydroxymercuribenzoate but resistant to sulfhydryl reagents with hydrophilic properties. The RNase H activity, on the other hand, is resistant to both hydrophobic and hydrophilic sulfhydryl reagents, indicating the absence of cysteinyl residues essential for RNase H activity. N-Ethylmaleimide (NEM), an amino and sulfhydryl group specific reagent, inactivates both DNA polymerase and RNase H, the later activity being fourfold more stable. Polynucleotides, but not nucleotide triphosphates, protect the two enzymatic activites of reverse transcriptase against NEM. Since pretreatment of the enzyme with 5,5' -dithiobis(2-nitrobenzoic acid) does not prevent N-ethylmaleimide from reacting with a residue necessary for DNA polymerase activity, two different reactive groups are probably involved with this enzymatic activity. The pH profile of reverse transcriptase inhibition by N-ethylmaleimide also suggests the involvement of two reactive groups essential for the DNA polymerase activity with apparent pKas of 5.5 and 6.5. Only one reactive group with a pKa of 7.5 is found associated with the RNase H activity.
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PMID:Discrimination of DNA polymerase and RNase H activities in reverse transcriptase of avian myeloblastosis virus. 7 19

DNA polymerase beta is widely distributed in the eukariotes. So far, few examples are known in which a DNA polymerase alpha -like form alone is reported. Surprisingly, DNA polymerase beta was not detected in Drosophila embryos, while it is present in the cells of multicellular species from sponge to mammals. In view of the relevance of Drosophila as a model biological system for studying the role of the various DNA metabolism enzymes in vivo we have reinvestigated the presence of the DNA polymerase beta-like form in Drosophila adult flies. Here we report the occurrence in Drosophila melanogaster adult flies of a DNA polymerase activity that, for its NEM(1) resistance, template specificity, sensitivity to ddTTP, sedimentation coefficient and nuclear localization can be classified as a beta-like form.
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PMID:Identification of a DNA polymerase beta-like form in Drosophila melanogaster adult flies. 11 77

The activities of two DNA polymerases (DNA nucleotidyltransferases) were characterized in mouse neuroblastoma clone N-18 on the basis of their apparent molecular weights (determined by sucrose density gradient centrifugation: polymerase-alpha, 7.5-8 S; polymerase-beta, 3-4 S) and relative inhibition by sulfhydryl-blocking agents. N-Ethylmaleimide (10 mM) and iodoacetamide (1.5 mM) inhibited DNA polymerase-alpha activity completely, whereas only 35-40% inhibition was observed for DNA polymerase-beta under similar conditions. DNA polymerase-alpha activity was reduced 50-70% in N-18 cells that had been induced to differentiate by 4 micro M bromodeoxyuridine, and the low molecular weight DNA polymerase-beta activity remain unchanged. With activated calf thymus DNA as template, only DNA polymerase-alpha activity was stimulated in the presence of added ribonucleotides and purified Escherichia coli RNA polymerase.
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PMID:DNA polymerase activities in differentiating mouse neuroblastoma N-18 cells. 27 18

DNA polymerase alpha from germinated wheat embryos was purified by ammonium sulphate fractionation, chromatography on DEAE-Toyopearl, followed by phosphocellulose and heparin Sepharose columns. The specific activity of the purified enzyme was more than 60,000 units/mg. It belongs to the alpha-type according to the large molecular mass, high sensitivity to NEM, aphidicoline, 200 mM KCl, low sensitivity to ethidium bromide and the absence of inhibition by ddTTP. DNA polymerase alpha consists of four subunits as shown by SDS-PAGE and seems to be homogeneous under non-denaturing conditions.
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PMID:Isolation of DNA polymerase alpha from germinated wheat embryos. 154 80

Two hybrid cell lines (DM88-5E12 and DM88-4C9) secreting monoclonal antibodies against DNA polymerase alpha-primase complex from Drosophila melanogaster Kc cells were established by immunizing mice with the complex partially purified by a conventional method. The IgG subclasses of both antibodies were IgG1. Both antibodies immunoprecipitated the DNA polymerase alpha-primase complex from D. melanogaster Kc cells. The DNA-polymerizing activity was neutralized by 4C9 antibody, but not by 5E12 antibody. The DNA priming activity was not neutralized by either antibody. These antibodies did not cross-react to HeLa DNA polymerase alpha-primase complex. A rapid, two-step purification of DNA polymerase alpha-primase complex from D. melanogaster Kc cell was carried out by 5E12 antibody column chromatography followed by single-stranded DNA cellulose column chromatography. The immunoaffinity-purified enzyme had both DNA-polymerizing and DNA-priming activities with the specific activities of 50,000 and 2,000 units/mg, respectively. The effects of aphidicolin, NEM, ddTTP, BuPdGTP, and DMSO on the enzyme activity showed that the purified enzyme was DNA polymerase alpha, but not DNA polymerase beta, gamma, or delta. The purified enzyme consisted of polypeptides with apparent molecular weights of 180 (and 145, 140, 130 kDa), 72, 63, 51, and 49 kDa. The 5E12 antibody was shown to bind to all the high-molecular-weight polypeptides, 180, 145, 140, and 130 kDa, by immuno-Western blotting analysis.
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PMID:Immunoaffinity purification and properties of Drosophila melanogaster DNA polymerase alpha-primase complex. 212 88

Sucrose density gradient analysis of Neurospora cell free extract showed at least three distinct peaks of enzyme activity; of these, a high molecular weight enzyme was identified as DNA polymerase alpha because of its sensitivity to aphidicolin and to NEM. DNA polymerase mutants of Neurospora crassa were isolated by their resistance to aphidicolin, a specific inhibitor of the eukaryotic DNA polymerase alpha. Some mutants showed an increase in the specific activity of the enzyme. One mutant (E-2-4-1) characterized in detail showed the presence of DNA polymerase which was resistant to inhibitory action of aphidicolin in an in vitro assay. Another mutant (C-3) showed changes in the pH optimum of the enzyme activity. Genetic characterization of the mutants provided evidence for the dominance of the aphr allele controlling aphidicolin resistance and its Mendelian segregation. Some of the aphidicolin resistant mutants were found to be UV-sensitive. Neurospora wild-type and mutant genomic DNA digest was found to hybridize with a cloned yeast DNA polymerase gene. The nick translated yeast DNA polymerase gene was used to screen a genomic cosmid library of Neurospora. A putative clone containing Neurospora DNA polymerase gene has been identified. Further molecular characterization of the Neurospora DNA polymerase gene and enzyme is in progress.
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PMID:Characterization of eukaryotic DNA polymerases: aphidicolin resistant mutants of Neurospora with altered DNA polymerase. 214 49

A DNA-membrane complex was extracted from minicells of an Escherichia coli mutant harboring a "miniplasmid" derivative (11.2 kilobases) of the low-copynumber plasmid RK2 (56 kilobases). The complex contained various species of supercoiled and intermediate forms of plasmid DNA, of which approximately 20% was bound firmly to the membrane after centrifugation in a CsCl density gradient. The plasmid DNA-membrane complex synthesized new plasmid DNA without the addition of exogenous template, enzymes, or other proteins. DNA synthesis appeared to proceed semi-conservatively, was dependent on the four deoxynucleoside triphosphates, partially dependent on ribonucleoside triphosphates, and was sensitive to rifampin, an antibiotic known to inhibit initiation of replication. Novobiocin and nalidixic acid also inhibited synthesis, as did the omission of ATP, N-Ethylmaleimide, an inhibitor of DNA polymerase II and III activity, but not DNA polymerase I activity, also partially inhibited the synthetic reaction, as did chloramphenicol. The plasmid DNA synthetic product was analyzed by alkaline sucrose and dye-CsCl gradient centrifugation, as well as by agarose gel electrophoresis. In each case, the product consisted of parental and intermediate forms of plasmid DNA. Some chromosomal DNA was also synthesized by a contaminating bacterial DNA-membrane complex, but this synthesis was rifampin insensitive and could be separated from plasmid DNA synthesis.
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PMID:Replication of a low-copy-number plasmid by a plasmid DNA-membrane complex extracted from minicells of Escherichia coli. 704 88

We have shown by activity gel that overexpression in E. coli of a yeast chromosome 3 open reading frame (ORF) designated YCR14C and bearing homology to mammalian DNA polymerases beta results in a new DNA polymerase in the host cells. The molecular mass of this enzyme corresponded to the YCR14C-predicted 67 kDa protein, and NH2-terminal amino acid sequencing confirmed that the expressed protein was encoded by the yeast ORF. This new yeast DNA polymerase was purified to homogeneity from E.coli. In a fashion similar to that of mammalian beta-polymerases, the purified yeast enzyme exhibited distributive DNA synthesis on DNA substrate with a single-stranded template and processive gap-filling synthesis on a short-gapped DNA substrate. Activity of this yeast beta-polymerase-like enzyme was sensitive to the beta-polymerase inhibitor ddNTP and resistant to both 1 mM NEM and neutralizing antibody to E. coli DNA polymerase I. These results, therefore, indicate that YCR14C encodes a DNA beta-polymerase-like enzyme in yeast, and we name it DNA polymerase IV. Yeast strains harboring a deletion mutation of the pol IV gene are viable, they exhibit no increase in sensitivity to ultraviolet light, ionizing radiation or alkylating agents, and sporulation and spore viability are not affected in the mutant.
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PMID:Yeast open reading frame YCR14C encodes a DNA beta-polymerase-like enzyme. 826 41

Harris et al. [P.V. Harris, O.M. Mazina, E.A. Leonhardt, R.B. Case, J.B. Boyd, K.C. Burtis, Molecular cloning of Drosophila mus308, a gene involved in DNA cross-link repair with homology to prokaryotic DNA polymerase I genes, Mol. Cell. Biol., 16 (1996) 5764-5771.] reported the molecular cloning of Drosophila mus308 gene, and its nucleotide and protein sequences similar to DNA polymerase I. In the present study, we attempted to find and isolate the gene product by purifying a DNA polymerase fraction not present in mus308 flies. A new DNA polymerase with properties different from those of any known polymerase species was identified and partially purified from the wild-type fly embryos through ten column chromatographies. The enzyme was resistant to aphidicolin, but sensitive to ddTTP and NEM. Human proliferating cell nuclear antigen (PCNA) and Drosophila replication protein A (RP-A) did not affect the polymerase activity. It preferred poly(dA)/oligo(dT) as a template-primer. The molecular mass was about 230 kDa with a broad peak region of 200 to 300 kDa in HiPrep16/30 Sephacryl S-300 gel filtration. These properties a different from those of all reported Drosophila polymerase classes such as alpha, beta, gamma, delta, epsilon and zeta and closely resemble those of the gene product expected from the nucleotide sequence. The new polymerase species appears to have ATPase and 3'-5' exonuclease activities as shown by the chromatographies.
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PMID:A new DNA polymerase species from Drosophila melanogaster: a probable mus308 gene product. 1034 51

Xeroderma pigmentosum variant (XP-V) represents one of the most common forms of this cancer-prone DNA repair syndrome. Unlike classical XP cells, XP-V cells are normal in nucleotide excision repair but defective in post-replication repair. The precise molecular defect in XP-V is currently unknown, but it appears to be a protein involved in translesion synthesis. Here we established a sensitive assay system using an SV40 origin-based plasmid to detect XP-V complementation activity. Using this system, we isolated a protein from HeLa cells capable of complementing the defects in XP-V cell extracts. The protein displays novel DNA polymerase activity which replicates cyclobutane pyrimidine dimer-containing DNA templates. The XPV polymerase activity was dependent on MgCl2, sensitive to NEM, moderately sensitive to KCl, resistant to both aphidicolin and ddTTP, and not stimulated by PCNA. In glycerol density gradients, the activity co-sedimented with a 54 kDa polypeptide at 3.5S, indicating that the monomeric form of this polypeptide was responsible for the activity. The protein factor corrected the translesion defects of extracts from three XPV cell strains. Bypass DNA synthesis by the XP-V polymerase occurred only in the presence of dATP, indicating that it can incorporate only dATP to bypass a di-thymine lesion.
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PMID:Xeroderma pigmentosum variant (XP-V) correcting protein from HeLa cells has a thymine dimer bypass DNA polymerase activity. 1036 88

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