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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)

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 DNA polymerase alpha-DNA primase complex from the human lymphoblast line HSC93 has been enriched to near homogeneity by using an immunoaffinity purification protocol which was developed earlier for the purification of the calf thymus enzyme (Nasheuer, H.-P. and Grosse, F. (1987) Biochemistry 26, 8458-8466). Immunoaffinity purified polymerase-primase from human cells consisted of four subunits displaying molecular weights of 195,000 and 180,000 for the DNA synthesizing alpha-subunit, of 68,000 for the beta-subunit, and of 55,000 and 48,000 for the primase-carrying gamma- and delta-subunit, respectively. The isoelectric pH values for the individual subunits were estimated from non-equilibrium pH gradients to be between 5.9 and 5.7 for the alpha-subunit, at 5.5 for the beta-subunit, and at 7.5 and 8.0 for the gamma- and delta-subunit, respectively. The purified polymerase-primase converted single-stranded phi X174 DNA into the double-stranded form in a primase-initiated reaction. During this process, 3-10 RNA primers were formed. RNA primers were about 11 nucleotides long. Elongation of existing RNA primers by the human polymerase-primase was semi-processive; following primer binding the DNA polymerase continuously incorporated 20 to 50 nucleotides, then it dissociated from the template DNA.
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PMID:DNA polymerase alpha-DNA primase from human lymphoblasts. 297 30

Synthesis of human light-strand mitochondrial DNA was accomplished in vitro using DNA primase, DNA polymerase, and other accessory proteins isolated from human mitochondria. Replication begins with the synthesis of primer RNA on a T-rich sequence in the origin stem-loop structure of the template DNA and absolutely requires ATP. A transition from RNA synthesis to DNA synthesis occurs near the base of the stem-loop structure and a potential recognition site for signaling that transition has been identified. The start sites of the in vitro products were mapped at the nucleotide level and were found to be in excellent agreement with those of in vivo nascent light-strand DNA. Isolated human mitochondrial enzymes recognize and utilize the bovine, but not the mouse, origin of light-strand replication.
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PMID:In vitro replication of human mitochondrial DNA: accurate initiation at the origin of light-strand synthesis. 299 85

The role of DNA polymerase alpha (pol alpha) and DNA primase has been investigated in the simian virus 40 (SV40) DNA replication system in vitro. Removal of pol alpha and primase activities from crude extracts of HeLa cells or monkey cells by use of an anti-pol alpha immunoaffinity column resulted in the loss of replication activity. The addition of purified pol alpha-primase complex isolated from HeLa cells or monkey cells restored the replication activity of depleted extracts. In contrast, the pol alpha-primase complex isolated from either mouse cells or calf thumus did not. Extracts prepared from mouse cells (a source that does not support replication of SV40) did not replicate SV40 DNA. However, the addition of purified pol alpha-primase complex isolated from HeLa cells activated mouse cell extracts. pol alpha and primase from HeLa cells were extensively purified and separated by a one-step immunoaffinity adsorption and elution procedure. Both activities were required to restore DNA synthesis; the addition of pol alpha or primase alone supported replication poorly. Crude extracts of HeLa cells that were active in SV40 replication catalyzed the synthesis of full-length linear double-stranded (RFIII) DNA in reaction mixtures containing poly(dT)-tailed pBR322 RFIII. Maximal activity was dependent on the addition of oligo(dA), ATP, and creatine phosphate and was totally inhibited by aphidicolin. Since pol alpha alone could not replicate this substrate and since there was no degradation of input DNA, we propose that other enzymatic activities associate with pol alpha, displace the non-template strand, and allow the enzyme to replicate through duplex regions.
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PMID:Role of DNA polymerase alpha and DNA primase in simian virus 40 DNA replication in vitro. 301 Mar 20

Aphidicolin, a specific inhibitor of DNA polymerase alpha, provided a novel method for distinguishing between initiation of DNA synthesis at the simian virus 40 (SV40) origin of replication (ori) and continuation of replication beyond ori. In the presence of sufficient aphidicolin to inhibit total DNA synthesis by 50%, initiation of DNA replication in SV40 chromosomes or ori-containing plasmids continued in vitro, whereas DNA synthesis in the bulk of SV40 replicative intermediate DNA (RI) that had initiated replication in vivo was rapidly inhibited. This resulted in accumulation of early RI in which most nascent DNA was localized within a 600- to 700-base-pair region centered at ori. Accumulation of early RI was observed only under conditions that permitted initiation of SV40 ori-dependent, T-antigen-dependent DNA replication and only when aphidicolin was added to the in vitro system. Increasing aphidicolin concentrations revealed that DNA synthesis in the ori region was not completely resistant to aphidicolin but simply less sensitive than DNA synthesis at forks that were farther away. Since DNA synthesized in the presence of aphidicolin was concentrated in the 300 base pairs on the early gene side of ori, we conclude that the initial direction of DNA synthesis was the same as that of early mRNA synthesis, consistent with the model proposed by Hay and DePamphilis (Cell 28:767-779, 1982). The data were also consistent with initiation of the first DNA chains in ori by CV-1 cell DNA primase-DNA polymerase alpha. Synthesis of pppA/G(pN)6-8(pdN)21-23 chains on a single-stranded DNA template by a purified preparation of this enzyme was completely resistant to aphidicolin, and further incorporation of deoxynucleotide monophosphates was inhibited. Therefore, in the presence of aphidicolin, this enzyme could initiate RNA-primed DNA synthesis at ori first in the early gene direction and then in the late gene direction, but could not continue DNA synthesis for an extended distance.
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PMID:Initiation of simian virus 40 DNA replication in vitro: aphidicolin causes accumulation of early-replicating intermediates and allows determination of the initial direction of DNA synthesis. 302 13

As a step toward the molecular elucidation of the putative replicational apparatus associated with the nuclear matrix, we have investigated the possible matrix association of several replicational related enzymes. In addition to the previously identified DNA polymerase alpha, DNA primase, 3'-5' exonuclease, RNase H, and DNA methylase were all recovered at significant levels (20-30% of total nuclear activity) in nuclear matrix isolated from regenerating rat liver during maximal in vivo replication (22 h post-hepatectomy). In contrast, DNA ligase was not detected on the nuclear matrix even though significant activity was present in isolated nuclei. Examination of the replicative dependency of these enzyme activities following partial hepatectomy revealed pre-replicative elevations which were distinct for each matrix-bound enzyme. A second late-replicative peak in DNA methylase is consistent with a role of this matrix-bound enzyme in the maintenance of the inheritable methylation pattern. Mild sonication resulted in a significant release of all of these activities except RNase H. A major portion of the matrix-solubilized DNA polymerase alpha, DNA primase, 3'-5' exonuclease, and DNA methylase activities cosedimented on sucrose gradients between approximately 8-12 S. Our results are consistent with the organization of at least a portion of these replicative enzymes into nuclear matrix-bound replicational complexes. We also propose a novel pre-replicative assembly model of the matrix-bound replicational apparatus in which DNA primase plays an initial and critical role.
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PMID:Pre-replicative association of multiple replicative enzyme activities with the nuclear matrix during rat liver regeneration. 302 82

The immunopurified yeast DNA polymerase--DNA primase complex is constituted by DNA polymerase I polypeptides and by three other protein species, called p74, p58 and p48, which we show to be immunologically unrelated. The gene encoding the p48 polypeptide has been identified by immunological screening of a lambda gt11 yeast genomic DNA library. Antiserum specific for p48 inhibits DNA primase, and immunoreactive, inhibitory antibodies are affinity-purified by the clone-encoded protein, thus relating the p48 polypeptide to DNA primase activity. The entire gene has been cloned, and the 1.45-kb p48 mRNA is overproduced in cells containing the gene in high copy number. Gene disruption and Southern hybridization experiments demonstrate that the p48 protein is encoded by a single gene and it performs an essential function.
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PMID:Yeast DNA polymerase--DNA primase complex; cloning of PRI 1, a single essential gene related to DNA primase activity. 303 9

Error rates for conventionally purified DNA polymerase-alpha from calf thymus, chicken, and human sources have been reported to be one in 10,000 to one in 40,000 nucleotides incorporated. Isolation of polymerase-alpha by immunoaffinity chromatography yields a multiprotein high molecular weight replication complex that contains an associated DNA primase (Wong, S. W., Paborsky, L. R., Fisher, P. A., Wang, T. S-F., and Korn, D. (1986) J. Biol. Chem. 261, 7958-7968). We have isolated DNA polymerase-primase complexes from calf thymus, from a human lymphoblast cell line (TK-6), and from Chinese hamster lung cells (V-79) using two different methods of immunoaffinity chromatography. These enzyme complexes are 12- to 20-fold more accurate than conventionally purified calf thymus DNA polymerase-alpha when assayed using the phi X174am3 fidelity assay; estimated error rates are one in 460,000 to one in 830,000 nucleotides incorporated when the enzyme complex is freshly isolated. The polymerase-primase complex from calf thymus exhibited no detectable 3'----5' exonuclease activity using a heteroduplex substrate containing a single 3'-terminal mismatched nucleotide. Upon prolonged storage at -70 degrees C, the error rate of the immunoaffinity-purified calf thymus DNA polymerase-primase complex increases to about one in 50,000 nucleotides incorporated, an error rate similar to that exhibited by conventional isolates of DNA polymerase-alpha.
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PMID:On the fidelity of DNA replication. Isolation of high fidelity DNA polymerase-primase complexes by immunoaffinity chromatography. 303 98

The cloned DNA polymerase I gene has been used to map the POL1 locus on the left arm of chromosome XIV, between MET4 and TOP2. Temperature-sensitive mutants in POL1 have been obtained by in vitro mutagenesis of the cloned gene and in vivo replacement of the wild-type allele with the mutated copy. Physiological and biochemical characterization of one temperature-sensitive mutant (pol1-1) shows that cells shifted to the non-permissive temperature can complete one round of cell division and DNA replication before they arrest. Analysis of DNA polymerase I in crude extracts and in partially purified preparations indicates that the pol1-1 mutation results in a conformational change and affects the stability of the DNA primase-polymerase complex.
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PMID:Genetic mapping of the Saccharomyces cerevisiae DNA polymerase I gene and characterization of a pol1 temperature-sensitive mutant altered in DNA primase-polymerase complex stability. 304 50

Recently, 2-halogenated deoxyadenosine analogs (F, Cl, and Br) have been shown to have antitumor activity. These analogs are phosphorylated by cells and are believed to exert their cytotoxic action at the nucleoside triphosphate level. In this work the interaction of these nucleoside triphosphate analogs with potential targets, such as DNA polymerase alpha, beta, and gamma, DNA primase, and ribonucleotide reductase was examined in detail. All of these compounds competitively inhibited the incorporation of dAMP into DNA by DNA polymerase alpha, beta, or gamma. F-dATP was able to completely substitute for dATP using DNA polymerase alpha and gamma, but not with DNA polymerase beta. Cl-dATP and Br-dATP substituted poorly for dATP using DNA polymerase alpha and beta. Extension of a 32P-labeled primer by DNA polymerase alpha, beta, or gamma on a single-stranded M13 template showed that these compounds were incorporated into the 3' end of the growing DNA chain and that elongation beyond the incorporated analogs was significantly retarded for Cl-dATP and Br-dATP using either DNA polymerase alpha or beta. DNA primase using poly(dC) as template was inhibited by these compounds at a concentration 4 to 5 times greater than that required for 2-F-araATP. The 2-halogenated dATP analogs were potent inhibitors of ADP reduction by ribonucleotide reductase. In conclusion, the cytotoxic action of 2-Cl-deoxyadenosine and 2-Br-deoxyadenosine may partially be mediated through the mechanism of "self-potentiation," by depression of the deoxynucleoside triphosphate pools due to inhibition of ribonucleotide reductase, which would facilitate their incorporation into DNA and result in the inhibition of DNA synthesis.
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PMID:Interaction of 2-halogenated dATP analogs (F, Cl, and Br) with human DNA polymerases, DNA primase, and ribonucleotide reductase. 305 Apr 47

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