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 effects of Mg++, Mn++, and KCl addition, individually and in combination, on the rate of DNA- and RNA-primed DNA synthesis by avian myeloblastosis virus DNA polymerase (reverse transcriptase) using a variety of natural and synthetic template-primer combinations were examined. Optimal divalent cation concentrations were found to vary by as much as 10-fold depending upon the template-primer used to direct synthesis. Addition of KCl to reaction mixtures containing optimal divalent cation concentrations produced stimulation or inhibition of DNA synthesis which was also template-specific. DNA synthesis on the modified template poly (2'-0-methylcytidylate) was uniquely stimulated by combinations of divalent cations. With Mg++ as divalent cation, deviations from classical Michaelis-Menten kinetics of substrate saturation were observed with all template-primers tested.
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PMID:Observations on template-specific conditions for DNA synthesis by avian myeloblastosis virus DNA polymerase. 6 Jul 40

lambdapolA phages carrying the polA gene in either orientation were isolated and characterised by genetic tests and by assay of the polA gene product after infection of E. coli or induction of lysogens. Lytic infection gave consistently better amplification of DNA polymerase I than that obtained by induction of a lysogen. Optimal amplification of DNA polymerase I was not achieved from the PL promoter of cro-phages, but some advantages accrued when the polA gene was oriented for transcription from the PL promoter of a cro+ phage. lambdapolA phages in which the polA allele was from E. coli strain C600 provided better amplification than phages with the polA allele from E. coli ED8659. Induction of a lambdapolA1 cI857 Qam Sam prophage gave levels of DNA polymerase I approaching 100 times that found in the non-lysogenic Pol+ host. Genetics studies with the lambdapolA phages confirmed the previously postulated orientation of the polA gene within the E. coli genome.
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PMID:Characterization of lambdapolA transducing phages; effective expression of the E. coli polA gene. 15 99

Purified nuclei from polyoma-infected mouse (3T3) cells were found to be greatly reduced in their ability to synthesize viral DNA in vitro when compared with a crude system consisting of an unfractionated hypotonic lysate of the infected cells. The synthetic capacity of the nuclei could be fully reconstituted when a high-speed cytoplasmic supernatant was added back to them. Cytosols from uninfected mouse, monkey, and hamster cells were equally as effective in stimulating purified nuclei as that of virus-infected mouse cells. Optimal complementation required high concentrations of the cytosol, and most of the complementing activity was destroyed by heating to 60 C. Dialysis had no effect on the activity. Analysis of the viral DNA synthesized in purified nuclei showed an accumulation of Okazaki-type short DNA chains, which could be chased into viral progeny DNA strands if cytosol was added back to the nuclei. Kinetic analysis of the pulse-labeling pattern of viral replicative DNA showed a strong dependence of the extension of viral progeny strands and of the processing of Okazaki-type fragments on the amount of cytosol present during the reaction. It is suggested that the cytoplasmic DNA polymerase might be one of the active components in the cytosol, but most likely not the only one.
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PMID:In vitro polyoma DNA synthesis: requirement for cytoplasmic factors. 16 50

Simian Virus 40 (SV40) DNA replication was studied in vitro using cell free extracts prepared from SV40 infected CV1 cells. The cells were fractionated into a soluble cytoplasmic fraction and nuclei. The nuclei were lysed with high salt and used to prepare a soluble nuclear fraction. Both fractions displayed DNA polymerase activity as measured with activated calf thymus DNA. However, only the cytoplasmic fraction was active when SV40 DNA comonent I molecules were used as template. Under these conditions, the cytoplasmic extract was shown to catalyse the SV40 DNA dependent, in vitro incorporation of the four deoxyribonucleotides into DNA molecules which had, at both neutral and alkaline pH, the same sedimentation behavior as authentic SV40 DNA component I and component II molecules. Optimal Mg++ concentration was 5-8 mM. Incorporation of label into DNA component I molecules showed an initial lag of about 15 min., after which it was linear with time for up to 5 hrs at 32 degrees. Incorporation into DNA component II molecules proceeded without obvious lag and reached a plateau after approximately 2 hrs of incubation. It is concluded that the cytoplasmic extract supports the in vitro synthesis of SV40 DNA and that DNA component II molecules appear to be a precursor to DNA component I molecules in the reaction. Labeling of viral DNA molecules was highly dependent on ATP and on an ATP generating system. In the absence of ATP and of the energy generating system, incorporation occurred but both template and newly synthesized DNA molecules were extensively degraded.
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PMID:In vitro synthesis of simian virus 40 DNA. I. Synthesis by a soluble extract from infected CV1 cells. 18 50

DNA polymerase of bacteriophage T7 is composed of two subunits, the gene 5 protein of the phage and the host-specified thioredoxin. The gene 5 protein has been purified 7400-fold to homogeneity from bacteriophage T7-infected Escherichia coli 7400 trxA cells that lack thioredoxin. The purification procedure has been monitored by using a complementation assay in which thioredoxin interacts with the gene 5 protein to form an active DNA polymerase. The purified gene 5 protein is a single polypeptide having a molecular weight of 87,000. The gene 5 protein itself has only 1 to 2% of the polymerase activity of T7 DNA polymerase. However, T7 DNA polymerase can be reconstituted by the addition of homogeneous thioredoxin to the gene 5 protein. Optimal reconstitution is obtained when the molar ratio of thioredoxin/gene 5 protein is 150. Under these conditions, the gene 5 protein attains approximately 80% of the activity of an equal amount of T7 DNA polymerase. The apparent Km for thioredoxin in the reaction to restore DNA polymerase activity is 2.8 x 10(-8) M. The enzymatic properties of the reconstituted enzyme are indistinguishable from those of T7 DNA polymerase synthesized in vivo; the reconstituted polymerase interacts with T7 gene 4 protein to catalyze DNA synthesis on duplex DNA templates.
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PMID:Deoxyribonucleic acid polymerase of bacteriophage T7. Purification and properties of the phage-encoded subunit, the gene 5 protein. 38 75

Bull spermatozoa heads were separated from cytoplasmic contaminants, especially mitochondria-rich middle pieces, by centrifugation through 2.4M-sucrose. DNA polymerase activity was demonstrated by incubating nuclear heads for 1 h at 37 degrees C or for 20 h at room temperature in a medium containing detergent and dithiothreitol or 2-mercaptoethanol. Optimal DNA polymerase activity was detected after extraction in a medium containing 50 mM-borate, pH9, 1 mg of soya-bean trypsin inhibitor/ml and supplemented with either 20 mM-dithiothreitol and 4% Tween 80 or 100mM-2-mercaptoethanol and 10% Tween 80. The DNA polymerase reaction was Mg2+-dependent; Mn2+ or Ca2+ could not replace Mg2+ and all four deoxynucleoside triphosphates were required for optimal activity. The polymerase activity was pH-dependent (optimum between 8.2 and 10.5) and was a function of buffer composition and also of pH values. Optimal activity was obtained with 50 mM-Na+ or 150mM-K+ and was partially lowered by N-ethylmaleimide; it was inhibited by spermidine and by salmon protamines, but was greatly stimulated by calf thymus histones. It was also resistant to actinomycin D, netropsin and ethidium bromide. The present results suggest that bull spermatozoa heads contain a beta-type DNA polymerase activity.
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PMID:Extraction and biochemical characterization of a nuclear deoxyribonucleic acid polymerase activity in bull spermatozoa. 74 11

DNA synthesizing reactions catalyzed both large and small species of calf thymus DNA polymerase (DNA polymerase-alpha and -beta) [EC 2.7.7.7] were stimulated to comparable extents by the presence of spermidine or spermine, and it was not possible to differentiate these two species in terms of their sensitivities to polyamines. Optimal concentrations for stimulation were 0.5-1.0 mM for spermidine and 2-10 mjM for spermine. Excess polyamines strongly inhibited the reactions. The modes of stimulation were as follows: 1) Stimulation was observed with templates bearing long single-stranded sections when either natural DNA or synthetic homopolymer-oligomer duplex was used. 2) The nautral DNA-dependent reaction was stimulated by polyamines at suboptimal concentrations of Mg2+; the apparent Km value for Mg2+ was lowered on adding polyamines, while the Vmax value was unchanged. When synthetic homopolymer-oligomer duplex was used as a template, the reaction was stimulated spermidine even at the optimal concentration of Mn2+. 3) Polyamines markedly influenced the salt requirements of the reactions of DNA polymerase. Spermidine could replace salts such as KC1 or NaC1 at concentrations less than 1/100 of those of salts.
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PMID:Effects of polyamines on in vitro dna synthesis by DNA polymerases from calf thymus. 95 42

Initiation of Adenovirus DNA replication in vitro requires the presence of three viral proteins (pTP, pol, DBP) and two cellular transcription factors, NFI and Oct-1, that stimulate replication more than 100-fold. NFI assists in binding and positioning of the DNA polymerase in the origin whereas Oct-1 changes the structure of origin DNA. Optimal templates contain, in addition to origin sequences, the covalently bound viral terminal protein (TP). This terminal protein stimulates the template activity over 20 fold compared to protein-free templates. To study the way in which TP exerts its function in vitro we devised a novel method to isolate and label a short origin containing fragment in which the TP was bound in a functional form. This fragment replicated very efficiently and could be used for studying the binding of other replication proteins. Employing alpha-chymotrypsin digestion we show that for enhancement of replication in vitro only a small part of TP is required.
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PMID:Adenovirus DNA replication: the function of the covalently bound terminal protein. 129 Dec 41

Heat-soaked PCR (HS-PCR) is a method for enhancing amplification performed by heating the DNA sample at 94 degrees C in 90 microliters 1.1 x buffer for 30 min. A 10-microliters bolus of concentrated (10x) deoxynucleotides, Taq DNA polymerase and primers prepared without buffer is then added just prior to thermal cycling. We have investigated the application of this method in a variety of forensically important DNA samples and compared it with regular PCR (R-PCR). DNA samples extracted from bone, postmortem tissues, bloodstains and hair contained low concentrations of human DNA or were contaminated with either non- human DNA or hemoglobin degradation products. Optimal conditions for HS-PCR were determined for the 3' ApoB VNTR locus and applied to a centromeric repeat element and to a single-copy locus. HS-PCR consistently and reproducibly enhanced product yield and specificity over R-PCR at all three loci in the entire set of DNA samples. HS-PCR was also effective in overcoming the inhibitory effect of hemoglobin at concentrations that fully impeded R-PCR.
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PMID:Heat-soaked PCR: an efficient method for DNA amplification with applications to forensic analysis. 138 59

The enzymatic replication of plasmids containing the unique (245 base pair) origin of the Escherichia coli chromosome (oriC) can be initiated with any of three enzyme priming systems: primase alone, RNA polymerase alone, or both combined (Ogawa, T., Baker, T. A., van der Ende, A. & Kornberg, A. (1985) Proc. Natl. Acad. Sci. USA 82, 3562-3566). At certain levels of auxiliary proteins (topoisomerase I, protein HU, and RNase H), the solo primase system is efficient and responsible for priming synthesis of all DNA strands. Replication of oriC plasmids is here separated into four stages: (i) formation of an isolable, prepriming complex requiring oriC, dnaA protein, dnaB protein, dnaC protein, gyrase, single-strand binding protein, and ATP; (ii) formation of a primed template by primase; (iii) rapid, semiconservative replication by DNA polymerase III holoenzyme; and (iv) conversion of nearly completed daughter molecules to larger DNA forms. Optimal initiation of the leading strand of DNA synthesis, over a range of levels of auxiliary proteins, appears to depend on transcriptional activation of the oriC region by RNA polymerase prior to priming by primase.
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PMID:Initiation of enzymatic replication at the origin of the Escherichia coli chromosome: primase as the sole priming enzyme. 240 71

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