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)

Herpes simplex virus (HSV) DNA polymerase was isolated on a large-scale from African green monkey kidney cells infected with HSV type 1 (HSV-1) strain Angelotti. After DNA-cellulose chromatography the enzyme showed a specific activity of 48,000 units/mg protein. Three major single polypeptides with molecular weights of 144,000, 74,000 and 29,000 were copurified with the enzyme activity at the DNA-cellulose ste. By its chromatographic behavior and by template studies, the HSV DNA polymerase activity was clearly distinguishable from cellular alpha, beta and gamma DNA polymerase activities. Two exonucleolytic activities were found in the DNA-cellulose enzyme preparation. The main exonucleolytic activity, which degraded both single-stranded and double-stranded DNA to deoxynucleoside 5'-monophosphates, was separated by subsequent velocity sedimentation. The remaining exonucleolytic activity was not separable from the HSV DNA polymerase by several chromatographic steps and by velocity sedimentation at high ionic strength. This novel exonuclease and HSV DNA polymerase were equally sensitive both to phosphonoacetic acid and Zn2+ ions, inhibitors of the viral polymerase. Similar to the 3'-to-5'-exonuclease of procaryotic DNA polymerases and mammalian DNA polymerase delta, the HSV-polymerase-associated exonuclease catalyzed the removal of 3'-terminal nucleotides from the primer/template as well as the template-dependent conversion of deoxynucleoside triphosphates to monophosphates.
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PMID:Properties of herpes simplex virus DNA polymerase and characterization of its associated exonuclease activity. 22 46

A study was made of the repair of ionizing radiation-induced DNA single-strand breaks (SSB) in proliferating and quiescent mouse Swiss 3T6 cells and in those stimulated from the quiet status by epidermal growth factor in combination with insulin, in the presence of specific inhibitors of DNA polymerase alpha and delta (aphidicolin) and DNA polymerase beta (2', 3'-dideoxythymidine-5'-triphosphate). The repair of DNA SSB induced by X-ray-irradiation (10 Gr) or by gamma-ray irradiation (150 Gr) is more sensitive to aphidicolin independently of cell proliferating status. Aphidicolin inhibits the recovery of single-strand DNA in quiescent and mitogen-stimulated cells three times stronger than in proliferating cells. The influence of 2', 3'-dideoxythymidine-5'-triphosphate on the rate of DNA SSB repair in cells of all the three types does not differ. Thus, the decrease in DNA repair efficiency in quiescent cells is connected with a decrease in the activity of aphidicolin-sensitive DNA polymerase, apparently DNA polymerase alpha. It is suggested that the regulation action of mitogens on the DNA SSB repair may be determined by qualitative changes of this enzyme or of some conditions in which it functions. The involvement of DNA polymerase delta in this process is not excluded.
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PMID:[The regulation of the DNA repair process in mammalian cells. IV. The role of DNA polymerases in the epidermal growth factor regulation of the repair of single-stranded DNA breaks induced by ionizing radiation in Swiss 3T6 mouse cells]. 129 56

DNA primase-dependent synthesis of oligoribonucleotides 10-15 nucleotides long was observed in the presence of ATP, UTP, GTP, and CTP by using the purified components of the simian virus 40 (SV40) DNA replication system. The DNA primase-catalyzed reaction required the SV40 large tumor antigen (T antigen), DNA polymerase alpha (pol-alpha), the three-subunit human single-stranded DNA binding protein (HSSB), and topoisomerase I. The synthesis of small RNAs was unaffected by the addition of activator 1, proliferating cell nuclear antigen, and DNA polymerase delta, proteins that can support extensive leading-strand synthesis. The RNA primers were derived predominantly from transcription of the lagging-strand template, even after prolonged incubation, indicating that the leading strand did not serve as a template. When the four dNTPs were added after oligoribonucleotide synthesis, pol-alpha extended the RNA primers hybridized to SV40 DNA. Pulse-chase experiments revealed that the small RNA chains were elongated to Okazaki-sized products. T7 DNA polymerase was also shown to rapidly extend oligoribonucleotide primers in the presence of aphidicolin or antibodies against pol-alpha, conditions under which pol-alpha was markedly inhibited. These findings suggest that interactions between T antigen, pol-alpha-primase, and HSSB position the pol-alpha-primase complex on the lagging-strand template for RNA primer synthesis.
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PMID:Studies on the initiation of simian virus 40 replication in vitro: RNA primer synthesis and its elongation. 131 May 41

The role of DNA polymerases in the replication of SV40 DNA was studied using a T-antigen-dependent assay supplemented with a human KB cell extract. Inhibition of DNA polymerase alpha by addition of aphidicolin or monoclonal antibodies prevented DNA synthesis, confirming the requirement for this enzyme in replication. The replication process was unaffected by ddTTP at a concentration (5 microM) inhibitory to DNA polymerases beta and gamma, however, higher concentrations of ddTTP (200 microM) caused an apparent accumulation of relaxed circular plasmid with a concomitant decrease in DNA synthesis. An analysis of this replication intermediate indicated that it was formed during the replication reaction and that the replicative cycle was nearly complete. A kinetic study of ddTTP inhibition strongly suggested DNA polymerase epsilon (PCNA-independent DNA polymerase delta) was the target of the inhibitor and that this enzyme functions during the final stages of DNA replication.
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PMID:Dideoxynucleoside triphosphates inhibit a late stage of SV40 DNA replication in vitro. 131 27

We have previously proposed that DNA polymerase alpha-primase provides short RNA-DNA precursors below 40 nucleotides (DNA primers), several of which assemble into an Okazaki piece after intervening RNA has been removed and the gaps have been filled by DNA polymerase delta (or epsilon) (T. Nethanel, S. Reisfeld, G. Dinter-Gottlieb, and G. Kaufmann, J. Virol. 62:2867-2873, 1988; T. Nethanel and G. Kaufmann, J. Virol. 64:5912-5918, 1990). In this report, we confirm and extend these conclusions by studying the effects of deoxynucleoside triphosphate (dNTP) concentrations and the presence of ATP on the occurrence, dynamics, and configuration of DNA primers in simian virus 40 replicative intermediate DNA. We first show that these parameters are not significantly affected by a 10-fold increase in dNTP precursor concentrations. We then demonstrate that Okazaki piece synthesis can be arrested at the level of DNA primers by ATP depletion. The arrested DNA primers faced short gaps of 10 to 20 nucleotides at their 3' ends and were progressively chased into Okazaki pieces when ATP was restored. ATP could not be substituted in this process by adenosine-5'-O-(3-thiotriphosphate) or adenyl-imidodiphosphate. The chase was interrupted by aphidicolin but not by butylphenyl-dGTP. The results implicate an ATP-requiring factor in the switch between the two DNA polymerases engaged in Okazaki piece synthesis. They also suggest that the replication fork advances by small, DNA primer-size increments.
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PMID:Assembly of simian virus 40 Okazaki pieces from DNA primers is reversibly arrested by ATP depletion. 132 83

The elongation of primed DNA templates by DNA polymerase delta and DNA polymerase epsilon requires the action of two accessory proteins, proliferating cell nuclear antigen and activator 1 (A1, also called replication factor C). A1 is an enzyme that contains five different subunits (145, 40, 38, 37, and 36.5 kDa). In this paper, we describe the isolation of the gene encoding the 37-kDa subunit from HeLa cells. This gene was cloned, sequenced, and overexpressed in Escherichia coli. The amino acid sequence shows a high degree of homology to the 40-kDa subunit of A1; they both contain the identical ATP-binding motif, but in contrast to the bacterial expressed 40-kDa protein, the 37-kDa expressed protein did not bind ATP. Both the 37- and 40-kDa proteins share substantial homology with the phage T4 gene 44 protein and to a lesser extent with the tau and gamma subunits of the E. coli DNA polymerase III holoenzyme. Polyclonal antibodies against the bacterially expressed 37- and 40-kDa proteins do not crossreact and are specific in their interaction. Antibodies against the 37-kDa protein maximally inhibited (by 50%) the A1-dependent synthesis of DNA by DNA polymerase delta; antibodies against the 40-kDa protein quantitatively inhibited the same reaction. When A1-dependent synthesis of DNA was partially inhibited by antibodies against the 40-kDa subunit, the addition of antibodies against the 37-kDa subunit inhibited DNA synthesis to a greater extent than the anti-37-kDa antibody alone. These results suggest that both the 37- and 40-kDa subunits of A1 are required for the biological role of A1 and that they may function differently in this process.
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PMID:Studies of the cloned 37-kDa subunit of activator 1 (replication factor C) of HeLa cells. 135 77

The activity of nuclear DNA polymerases alpha, beta and delta/epsilon, uracil-DNA glycosylase, thymidine kinase and the presence of Proliferating Cell Nuclear Antigen (PCNA) have been examined in developing rat glial cells, in rat and human glioma, in human neuroblastoma and in differentiated neuroblastoma cell lines in vitro. During glial development the activity of all enzymes tested, except DNA polymerase beta, markedly decreased, suggesting their coordinate regulation in respect to the proliferative state of the cells. Glioma and neuroblastoma cell lines restore the enzymatic activities that were no longer expressed in normal adult cells. Neuroblastoma cell lines induced to differentiate in vitro by retinoic acid showed a decline of the activities of DNA polymerase alpha, DNA polymerase delta/epsilon, uracil-DNA glycosylase and thymidine kinase similar to that observed during in vivo differentiation. We also demonstrate that PCNA is not detectable in glial and neuronal cells at all developmental stages, but can be found in tumor nerve cells. A possible use of enzymatic assays or anti-PCNA antibodies to detect brain tumors is discussed.
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PMID:DNA synthesis enzymes and proliferating cell nuclear antigen in normal and neoplastic nerve cells. 135 31

By using a complementation assay that enabled DNA polymerase delta and DNA polymerase epsilon to replicate a singly-DNA primed M13 DNA in the presence of proliferating cell nuclear antigen (PCNA) and Escherichia coli single-stranded DNA binding protein (SSB), we have purified from calf thymus in a five step procedure a multipolypeptide complex with molecular masses of polypeptides of 155, 70, 60, 58, 39 (doublet), 38 (doublet) and 36 kDa. The protein is very likely replication factor C (Tsurimoto, T. and Stillman, B. (1989) Mol. Cell. Biol. 9, 609-619). This conclusion is based on biochemical and physicochemical data and the finding that it contains a DNA stimulated ATPase which is under certain conditions stimulated by PCNA. Together RF-C, PCNA and ATP convert DNA polymerases delta and epsilon to holoenzyme forms, which were able to replicate efficiently SSB-covered singly-DNA primed M13 DNA. Calf thymus RF-C could form a primer recognition complex on a 3'-OH primer terminus in the presence of calf thymus PCNA and ATP. Holoenzyme complexes of DNA polymerase delta and epsilon could be isolated suggesting that these enzymes directly interact with the auxiliary proteins in a similar way. Under optimal replication conditions on singly-DNA primed M13 DNA the DNA synthesis rate of DNA polymerase delta was higher than of DNA polymerase epsilon. Based on these functional date possible roles of these two DNA polymerases in eukaryotic DNA replication are discussed.
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PMID:Calf thymus RF-C as an essential component for DNA polymerase delta and epsilon holoenzymes function. 135 54

Genetic and biochemical evidence suggests there are at least three DNA polymerases required for replication in eukaryotic cells. However, Drosophila embryonic cells have a very short duration S phase which is regulated differently. To address the question of whether embryos utilize different DNA polymerases, we employed Mono Q anion exchange chromatography to resolve the DNA polymerase activities. Two types of DNA polymerase, DNA polymerase delta and DNA polymerase alpha, were distinguished by: 1. copurification of DNA primase or 3'-5'exonuclease activities; 2. immunoblot analysis with alpha-specific polyclonal antisera; 3. sensitivity to aphidicolin and BuPdGTP; and 4. processivity measurements with and without Proliferating Cell Nuclear Antigen. These observations suggest that Drosophila embryos, similar to nonembryonic cells, have both alpha- and delta-type DNA polymerases.
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PMID:Delta-type DNA polymerase characterized from Drosophila melanogaster embryos. 136 Jun 47

Proliferating cell nuclear antigen (PCNA) and PCNA-dependent DNA polymerase delta were partially purified and characterized from rabbit bone marrow. Rabbit DNA polymerase delta sediments at 8.2 S upon glycerol density gradient centrifugation. Similar to calf thymus PCNA-dependent DNA polymerase delta, a 125-123-kDa doublet and 48-kDa polypeptides correlate with DNA polymerase activity. Western blotting of rabbit DNA polymerase delta with polyclonal antibody to calf thymus PCNA-dependent DNA polymerase delta gives the same results as calf thymus delta; the 125-123-kDa doublet is recognized. PCNA-dependent DNA polymerase delta is resistant to inhibition by dideoxynucleotides and is relatively insensitive to inhibition by N2-[p-(n-butyl)phenyl]dGTP. A 3'-->5' exonuclease copurifies with the DNA polymerase. The processivity of DNA polymerase delta alone is very low but greatly increases with the addition of PCNA from rabbit bone marrow or calf thymus. Comparative studies of the original DNA polymerase delta from rabbit bone marrow demonstrate a lack of recognition by antibodies to calf thymus delta and a high degree of processivity in the absence of PCNA. Additionally, the originally described DNA polymerase delta is a single polypeptide of 122 kDa. These features would recategorize the original delta to the epsilon category by recently proposed convention. PCNA-dependent DNA polymerase delta is a relatively minor component of rabbit bone marrow compared to DNA polymerase alpha and PCNA-independent DNA polymerase delta (epsilon), the relative proportions being alpha, 60%; delta, 7%; and epsilon, 30%.
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PMID:PCNA-dependent DNA polymerase delta from rabbit bone marrow. 136 Nov 52

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