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)

This paper describes techniques and strategies for semi-preparative high-performance liquid chromatographic (HPLC) purification of 2'-deoxynucleoside 5'-triphosphates (dNTPs). The procedure yields dNTPs that are sufficiently pure for use in a sensitive electrophoretic assay of misincorporation during DNA synthesis. Anion-exchange HPLC was used to purify the four normal dNTPs (dATP, dGTP, dCTP and dTTP), plus the chemically modified analogues, 5-BrdUTP, 5-IodUTP and 1,N6-etheno-dATP (epsilon dATP). Baseline separations were achieved by isocratic elution of dNTPs with potassium dihydrogen phosphate mobile phase. In general, the resolution of dNTPs was highly dependent on pH, although the influence of mobile phase composition on separation of dNTPs was not the same for all three HPLC packing materials used. A Hewlett-Packard diode array detector was extremely valuable in the identification of contaminating peaks and in the development of optimal mobile phase conditions for dNTP purification. The pure dNTPs were used in the electrophoretic assay of misincorporation, yielding information about the mispairing potential of the modified dNTPs. BrdUMP and IodUMP were misincorporated in place of dCMP during chain elongation catalyzed by purified DNA polymerase I of Escherichia coli. epsilon dAMP was incorporated into DNA in place of dAMP, although at much lower efficiency than dAMP.
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PMID:High-performance liquid chromatographic purification of deoxynucleoside 5'-triphosphates and their use in a sensitive electrophoretic assay of misincorporation during DNA synthesis. 639 78

The N complementation group of adenovirus (Ad) serotype 5 mutants, which are temperature sensitive for viral DNA synthesis in vivo, has been used to study a 140,000-dalton DNA polymerase (Pol) that copurified with the 80,000-dalton terminal protein precursor (pTP). Extracts prepared from HeLa cells infected with the N group mutant H5ts149 at nonpermissive temperature were unable to synthesize viral DNA. The defect in these extracts was specifically reversed by addition of the Pol purified from wild-type Ad-infected cytosol. Addition of the pTP, free of the Pol, did not restore replicative activity to H5ts149 extracts. The reactions studied depend on the presence of the DNA template and include the initiation reaction (the covalent attachment of dCMP to the pTP) and the selective replication of Ad DNA restriction endonuclease fragments containing the origin sequences. Glycerol gradient sedimentation showed that a replicative activity representing the pTP-Pol complex was greatly reduced in H5ts149 extracts as compared with wild-type extracts, suggesting some alteration in the mutant. A pool of pTP free of Pol was detected on these gradients in extracts from both wild-type and H5ts149-infected cells. In addition, the initiation and elongation of Ad DNA catalyzed by H5ts149 extracts prepared from cells grown at permissive temperatures was more labile to urea inactivation than extracts prepared from cells infected with wild-type virus. These results, considered together with the mapping of the H5ts149 mutation within an open reading frame approximately large enough to code for the 140,000-dalton DNA polymerase [Gingeras, T. R., Sciaky, D., Gelinas, R. E., Bing-Dong, J., Yen, C. E., Kelly, M. M., Bullock, P. A., Parsons, B. L., O'Neill, K. E. & Roberts, R. J. (1982) J. Biol. Chem. 257, 13475-13491; Alestrom, P., Akusjarui, G., Pettersson, M. & Pettersson, U. (1982) J. Biol. Chem. 257, 13492-13498], suggest that the Pol is a virally encoded protein, as is the pTP.
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PMID:Evidence for an altered adenovirus DNA polymerase in cells infected with the mutant H5ts149. 657 22

Initiation of adenovirus (Ad) DNA replication occurs on viral DNA containing a 55-kilodalton (kDa) protein at the 5' terminus of each viral DNA strand and on plasmid DNAs containing the origin of Ad replication but lacking the 55-kDa terminal protein (TP). Initiation of replication proceeds via the synthesis of a covalent complex between an 80-kDa precursor to the TP (pTP) and the 5'-terminal deoxynucleotide, dCMP. Formation of the covalent pTP-dCMP initiation complex with Ad DNA as the template requires the viral-encoded pTP and DNA polymerase and, in the presence of the Ad DNA binding protein, is dependent upon a 47-kDa host protein, nuclear factor I. Initiation of replication with recombinant plasmid templates requires the aforementioned proteins and an additional host protein, factor pL. Deletion mutants of the Ad DNA replication origin contained within the 6.6-kilobase plasmid pLA1 were used to analyze the nucleotide sequences required for the formation and subsequent elongation of the pTP-dCMP initiation complex. The existence of two domains within the first 50 base pairs of the Ad genome, both of which are required for the efficient use of recombinant DNA molecules as templates in an in vitro DNA replication system, was demonstrated. The first domain, consisting of a 10-base-pair "core" sequence located at nucleotide positions 9-18, has been identified tentatively as a binding site for the pTP [ Rijinders , A. W. M., van Bergen, B. G. M., van der Vliet , P. C. & Sussenbach , J. S. (1983) Nucleic Acids Res. 11, 8777-8789]. The second domain, consisting of a 32-base-pair region spanning nucleotides 17-48, was shown to be essential for the binding of nuclear factor I.
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PMID:DNA sequences required for the in vitro replication of adenovirus DNA. 658 41

Initiation of adenovirus DNA replication is dependent on a complex of the precursor of the terminal protein and the adenovirus-coded DNA polymerase (pTP-pol complex). This complex catalyzes the formation of a covalent linkage between dCMP and pTP in the presence of a functional origin of DNA replication residing in the terminal nucleotide sequence of adenovirus DNA. We have purified the pTP-pol complex of adenovirus type 5 and studied its binding to double-stranded DNA. Using DNA-cellulose chromatography it could be shown that the pTP-pol complex has a higher affinity for adenovirus DNA than for calf thymus or pBR322 DNA. From the differential binding of the pTP-pol complex to plasmids containing adenovirus terminal sequences with different deletions, it has been concluded that a sequence of 14 nucleotide pairs at positions 9-22 plays a crucial role in the binding of pTP-pol to adenovirus DNA. This region is conserved in the DNA's of all human adenovirus serotypes and is obviously an important structural element of the adenovirus origin of DNA replication. Comparative binding studies with adenovirus DNA polymerase and pTP-pol indicated that pTP is responsible for the binding. The nature of the binding of pTP-pol to the conserved sequence will be discussed.
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PMID:Specific binding of the adenovirus terminal protein precursor-DNA polymerase complex to the origin of DNA replication. 667 72

A preparation of bacteriophage T4-induced deoxyribonucleotide synthetase complex is described. This very large complex of enzymes can be separated by centrifugation at 100,000 X g, by sucrose step gradient centrifugation, or with molecular exclusion columns. By direct assay and by unidimensional and two-dimensional acrylamide electrophoretic separations the following T4-coded enzymes were shown to be associated with the complex: ribonucleoside diphosphate reductase, dCMP deaminase, dCTP/dUTPase, dCMP hydroxymethylase, dTMP synthetase, and DNA polymerase. Other phage-coded prereplicative proteins related to DNA replication and other phage functions such as the proteins coded by genes 32, 46, rIIA, and rIIB as well as many unidentified proteins were also consistently associated with the isolated fractions. T4 DNA topoisomerase, a membrane-bound enzyme, was found in quantity in all purified fractions of the complex, even in preparations apparently free of membrane and of T4 DNA. The functional integrity of a segment of the complex was followed by measuring the conversion of [5-3H]CDP to the level of 5-hydroxymethyl dCMP. This series of reactions requires the actions of T4-coded ribonucleoside diphosphate reductase and its associated reducing system, dCTP/dUTPase and dCMP hydroxymethylase, 3H being lost to water at the last step. In this reaction sequence an intermediate, [5-3H]dCMP, is maintained at low steady state concentrations, and argument is presented that the synthesis of deoxyribonucleotides is channeled and normally tightly coupled to DNA replication. One of the primary characteristics of this complex is its ready dissociation of dilution into smaller complexes of proteins and to the free forms of the proteins. That the complex is held together by weak electrostatic forces was supported by its sensitivity to dissociation at moderate salt concentrations. Not only the enzymes required in deoxyribonucleotide synthesis but T4 DNA polymerase, T4 DNA topoisomerase, and a number of other proteins dissociate to varying degrees from the larger complexes under these conditions.
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PMID:Characteristics of a bacteriophage T4-induced complex synthesizing deoxyribonucleotides. 675 52

Heat treatment of poly(deoxycytidylic acid)-[poly(dC)] induces the formation of dUMP residues, which code for dAMP when replicated by Escherichia coli DNA polymerases I and III. The specificity of dUMP coding properties is indicated by the quantitative relation between the dAMP incorporated and the frequency of dUMP residues in the heat-treated poly(dC). The dAMP incorporation is prevented by preincubation of uracil containing poly(dC) with uracil-DNA glycosylase. The excision of uracil by uracil-DNA glycosylase leads to the formation of apyrimidinic sites (AP sites), which are barely replicated in vitro under physiological conditions. However, the alteration of E. coli DNA polymerase I fidelity of replication by Mn2+ greatly stimulates the replication of AP sites. There is a preferential incorporation of dAMP, as compared to dTMP, opposite the AP sites. The dAMP incorporation is prevented by preincubation of poly(dC) containing AP sites with Micrococcus luteus AP endonuclease B. The results show a close association between DNA repair by base excision and the prevention of mutagenic processes in vitro. Furthermore, since the alteration of DNA polymerase fidelity allows some replication of the noncoding DNA lesion (AP site), this could imply a role in SOS-induced mutagenesis in vivo.
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PMID:Coding properties of poly(deoxycytidylic acid) templates containing uracil or apyrimidinic sites: in vitro modulation of mutagenesis by deoxyribonucleic acid repair enzymes. 676 Aug 93

On activated DNA aphidicolin competitively inhibits the incorporation of dCMP by both calf thymus DNA polymerase alpha A2 and C enzymes and inhibits the incorporation of the other three deoxynucleoside monophosphates apparently non-competitively. However, aphidicolin does not inhibit the incorporation of dAMP into poly(dT) . oligo(A)10 nor does it inhibit the incorporation of dGMP into poly(dC) . oligo(dG)10, but, it does competitively inhibit the incorporation of dTMP into poly(dA) . oligo(dT)10.
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PMID:Studies on the inhibition of highly purified calf thymus 8S and 7.3S DNA polymerase alpha by aphidicolin. 678 51

Aphidicolin is a selective inhibitor of DNA polymerase alpha. In contrast to earlier reports, the drug was found to inhibit DNA synthesis catalyzed by DNA polymerase alpha and isolated HeLa cell nuclei by a similar mechanism. For both systems aphidicolin primarily competed with dCTP incorporation. However, the apparent Vmax for dCTP incorporation was reduced by 50-60% at relatively low concentrations of aphidicolin, thus the mechanism of inhibition is complex. Furthermore, a 2-5 fold increase in apparent Km for dTTP was observed in the presence of aphidicolin, but the apparent Km values for dATP and dGTP were essentially unaltered. This, together with additional evidence, suggested that the mechanism of action of aphidicolin involves a strong competition with dCMP incorporation, a weaker competition with dTMP incorporation and very little, if any, competition with dGMP and dAMP incorporation.
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PMID:Aphidicolin inhibits DNA synthesis by DNA polymerase alpha and isolated nuclei by a similar mechanism. 679 95

Adenovirus DNA replication is inhibited by aphidicolin but the inhibition clearly has different parameters than the inhibition of purified DNA polymerase alpha. In adenovirus infected Hela cells, 10 micrograms/ml of aphidicolin reduced viral DNA synthesis by 80%. Cellular DNA synthesis was inhibited by 97% at 0.1 microgram/ml. 10 micrograms/ml of drug had no effect on virus yield or late protein synthesis though higher concentrations of drug (50 micrograms/ml) caused an abrupt cessation of late protein synthesis and 100 micrograms/ml reduced virus yield by 3 logs. Concentrations of the drug from 0.5 microgram/ml to 10 micrograms/ml were found to dramatically slow the rate of DNA chain elongation in vitro but not stop it completely, so that over a long period of time net incorporation was reduced only slightly compared to the control. 50 micrograms/ml or 100 micrograms/ml of drug completely inhibited incorporation in vitro. Initiation of viral DNA replication - covalent attachment of dCMP to the preterminal protein - occurs in vitro. This reaction was found to be insensitive to inhibition by aphidicolin. We thus conclude that aphidicolin exerts its effect on adenovirus DNA chain elongation, but not on the primary initiation event of protein priming.
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PMID:Characterization of the effect of aphidicolin on adenovirus DNA replication: evidence in support of a protein primer model of initiation. 679 38

A protein fraction isolated from the cytosol of adenovirus-infected HeLa cells, which contained DNA polymerase alpha, catalyzed adenoviral DNA replication in the presence of adenovirus DNA binding protein, eukaryotic DNA polymerase beta, ATP, all four dNTPs, and MgCl2. DNA replication started at either end of exogenously added adenoviral DNA and was totally dependent on the presence of terminal 55,000-dalton proteins on the DNA template. The replicaton of adenovirus DNA in the system was sensitive to aphidicolin and retained nearly all the properties of DNA replication that occur in vivo or in vitro with crude extracts. The 5'-ends of the newly synthesized adenovirus DNA strands were covalently linked to an 80,000-dalton protein linked to dCMP. DNA synthesized with purified proteins was only 25-50+ the length of parental viral strands. Addition of cytosol extracts from uninfected HeLa cells to reaction mixtures containing purified proteins gave full-length adenoviral DNA strands.
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PMID:Replication of adenovirus DNA-protein complex with purified proteins. 694 Jan 54

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