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)

An easy and efficient procedure for the immobilization of polynucleotide ligands to bisoxirane activated insoluble polysaccharides has been elaborated and is described in this paper. The resulting materials have been applied to the chromatography of DNA polymerase I, and RNA polymerase from E.coli. Because of their extraordinary stability to temperature, formamide, and alkaline conditions they seem to be particularly useful adsorbents for nucleic acid hybridization.
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PMID:Affinity adsorbents consisting of nucleic acids immobilized via bisoxirane activated polysaccharides. 2 16

A model RNA template-primer system is described for the study of RNA-directed double-stranded DNA synthesis by purified avian myeloblastosis virus DNA polymerase and its associated RNase H. In the presence of complementary RNA primer, oligo(rI), and the deoxyribonucleoside triphosphates dGTP, dTTP, and dATP, 3'-(rC)30-40-poly(rA) directs the sequential synthesis of poly(dT) and poly(dA) from a specific site at the 3' end of the RNA template. With this model RNA template-primer, optimal conditions for double-stranded DNA synthesis are described. Analysis of the kinetics of DNA synthesis shows that initially there is rapid synthesis of poly(dT). After a brief time lag, poly(dA) synthesis and the DNA polymerase-associated RNase H activity are initiated. While poly(rA) is directing the synthesis of poly(dT), the requirements for DNA synthesis indicate that the newly synthesized poly(dT) is acting as template for poly(dA) synthesis. Furthermore, selective inhibitor studies using NaF show that activation of RNase H is not just a time-related event, but is required for synthesis of the anti-complementary strand of DNA. To determine the specific role of RNase H in this synthetic sequence, the primer for poly(dA) synthesis was investigated. By use of formamide--poly-acrylamide slab gel electrophoresis, it is shown that poly(dT) is not acting as both template and primer for poly(dA) synthesis since no poly(dT)-poly(dA) covalent linkages are observed in radioactive poly(dA) product. Identification of 2',3'-[32P]AMP on paper chromatograms of alkali-treated poly(dA) product synthesized with [alpha-32P]dATP as substrate demonstrates the presence of rAMP-dAMP phosphodiester linkages in the poly(dA) product. Therefore, a new functional role of RNase H is demonstrated in the RNA-directed synthesis of double-stranded DNA. Not only is RNase H responsible for the degradation of poly(rA) following formation of a poly(rA)-poly(dT) hybrid but also the poly(rA)fragments generated are serving as primers for initiation of synthesis of the second strand of the double-stranded DNA.
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PMID:Model RNA-directed DNA synthesis by avian myeloblastosis virus DNA polymerase and its associated RNase H. 8 56

Varying the concentration of Triton X-100, a nonionic detergent used to promote the DNA polymerase activity of Rous sarcoma virus in an endogenous reaction, showed a very sharp peak at about 0.02% (vol/vol) for optimal DNA synthesis. The yield of DNA at this concentration of Triton exceeded yields obtained at concentrations above the optimum by a factor of 2-5 for the 90-min reaction. At optimal Triton concentration, about 1-7% of the DNA made in the absence of actinomycin and about 4-10% of the DNA made in the presence of actinomycin was 2.5 X 10(6) daltons or greater, as estimated by formamide polyacrylamide gel electrophoresis and by alkaline sucrose gradient sedimentation. No large DNA was obtained at higher than optimal Triton concentrations. The large DNA molecules were rendered totally resistant to single-strand specific nuclease S1 after hybridization to an excess of viral RNA. It was concluded that at optimal detergent concentration, the viral DNA polymerase can synthesize full-size DNA transcripts of viral RNA.
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PMID:In vitro synthesis of full-length DNA transcripts of Rous sarcoma virus RNA by viral DNA polymerase. 17 81

RNA polymerase B and DNA polymerase alpha were highly enriched simultaneously from calf thymus. It was shown that the preparation exhibits RNA-synthesizing activity, which is able to stimulate in vitro DNA synthesis by DNA polymerase alpha by its preceding RNA synthesis. A part of the DNA was found to be covalently attached to RNA in Cs2SO4 equilibrium gradients after denaturation by formamide.
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PMID:RNA-primed DNA synthesis by an enzyme preparation of calf thymus containing highly enriched RNA polymerase B and DNA polymerase. 54 71

DNA isolated from the hepatitis B antigen form known as the Dane particle was examined by electron microscopy before and after the endogenous Dane particle DNA polymerase reaction. The most frequently occurring form was an untwisted circular double-stranded DNA molecule approximately 1 mum in length. Less frequently occurring forms included circular DNA of approximately unit length and having one or more small single-stranded regions, similar circular molecules with one or more tails either shorter or longer than 1 mum in length, and very small circular molecules with tails. There was no increase in frequency or length of tails after a DNA polymerase reaction, suggesting that tails were not formed during this reaction. The mean length of circular molecules increased by 23% when DNA was spread in formamide compared with aqueous spreading, suggesting that single-stranded regions are present in most of the molecules. The mean length of circular molecules obtained from aqueous spreading increased by 27% after a Dane particle DNA polymerase reaction. This indicates that single-stranded regions were converted to double-stranded DNA during the reaction.
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PMID:Structure of hepatitis B Dane particle DNA before and after the Dane particle DNA polymerase reaction. 83 42

The nick-translation reaction of E. coli DNA polymerase I (Pol I) was used as a model system to demonstrate the ability of macromolecular crowding to alter the response of an enzyme to a number of basic parameters, such as pH, temperature or inhibitors. In the presence of high concentrations of non-specific polymers, nick translation occurred under a variety of otherwise strongly inhibitory conditions. The conditions tested included a range of pH values or temperatures or inhibitory concentrations of urea, formamide or ethidium bromide. These crowding effects are accentuated at higher ionic strengths, suggesting their origin in increased binding between the polymerase and its DNA template-primer under crowded conditions. Kinetic measurements were consistent with such a mechanism.
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PMID:Macromolecular crowding extends the range of conditions under which DNA polymerase is functional. 245 May 88

The genomic double-stranded DNA of mycobacteriophage I3, when denatured with alkali, heat, formamide or dimethylsulfoxide, breaks down to heterogeneous-sized single-strand (ss) fragments smaller than the expected intact unit genome length suggesting the presence of random ss interruptions on both the strands. The occurrence of the interruptions at random is also demonstrated by two-dimensional gel electrophoresis of the restriction fragments of I3 DNA. These interruptions have no adverse effect on the phage infectivity or DNA transfectivity. Studies with nuclease BAL 31 and end-labeling analysis confirm the presence of random interruptions. Detailed analysis using T4 DNA ligase, nuclease S1 and DNA polymerase I Klenow fragment revealed that the interruptions are in the form of small gaps rather than single phosphodiester bond breaks. The average length of the gap is about 10 nucleotides long and there are 13 to 14 such gaps per DNA molecule.
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PMID:Presence of random single-strand gaps in mycobacteriophage I3 DNA. 378 Dec 46

Considering enzymatic activities found in bacteria and in animal cells, there are two possible mechanisms for repair of N-methylated purines produced by methylating agents such as the mutagen and carcinogen N-methyl-N'-nitro-N-nitrosoguanidine. Both mechanisms involve first an enzymatic removal of the methylated bases by glycosylases. The resulting apurinic sites could then be repaired by (a) direct insertion of the correct bases purine insertases or (b) opening of the polynucleotide chain by apurinic endonuclease followed by repair synthesis. As the methods commonly used to detect lesions induced by methylating agents involve alkali, it was thus far not possible to decide between the above possibilities because apurinic sites are by themselves alkali labile. In this paper I describe two methods which avoid alkali and therefore allow the clarification of some aspects of the repair reaction. One of these methods makes use of 95% formamide at 40 degrees C in place of alkali to denature DNA with pre-existing single-strand breaks, the other measures the capacity of DNA scissions with free 3'-OH groups to act as primer for Escherichia coli DNA polymerase I. Results obtained with both methods make it unlikely that purine insertases play a major role in the repair of apurinic sites. Kinetics of production and repair of single-strand breaks, produced in 3T6 mouse fibroblasts by incubation with N-methyl-N'-nitro-N-nitrosoguanidine, were also examined using the methods of alkaline elution and alkaline sucrose gradient centrifugation.
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PMID:Methods for the detection of single-strand breaks in DNA under neutral conditions and their application in a study on the mechanism of repair of N-methylated purines in mouse cells. 710 18

Taq and Pfu DNA polymerases were tested for their propensity to prime from mismatched primers. Two series of bacteriophage lambda primers were designed with progressively longer mismatched 5' termini. Effects of the primer concentration, annealing temperature, salt and solvent concentrations on PCR yield were tested. At the standard PCR conditions, priming was detectable when the 3'-terminal portion of the partially mismatched primer formed a continuous duplex more stable than -11 kcal/mol with the target DNA. In the presence of low magnesium ion concentrations, priming was significantly reduced, but glycerol (5%) and formamide (2.5%) had only a slight effect (Taq DNA polymerase). Although priming specificities of Taq and Pfu DNA polymerases were similar, the solvents had no effect on Pfu DNA polymerase-directed PCR. Oligonucleotides that are GC rich at their 3' ends exhibit high priming efficiency but are also prone to false priming, since the shorter fragments of their 3' ends are stable enough to serve as primers.
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PMID:Priming efficiency in PCR. 770 59

We describe conditions that improve the specificity of amplification of a G + C-rich (57% G + C) DNA by PCR. Under standard conditions a 368-bp segment of the approx. 2.1-kb repeat unit of a satellite DNA that accounts for approx. 3% of the genome of the Bermuda land crab, Gecarcinus lateralis, was not amplified specifically. To establish optimal conditions for amplification of the segment of the G + C-rich satellite, we used two genetically engineered enzymes, AmpliTaq DNA polymerase and AmpliTaq DNA polymerase, Stoffel fragment (SF), and a number of denaturants or co-solvents. In the absence of denaturants or co-solvents, amplified products of both enzymes contained non-specific bands upon gel electrophoresis. Addition of certain denaturants or co-solvents to PCR mixtures resulted in the production of the single specific band of the expected size. Reagents that improved specificity of the amplified product were formamide, glycerol, DMSO, Tween-20 and NP-40; on the other hand, urea, ethanol and 1-methyl-2-pyrrolidone (NMP) inhibited amplification. Of the two enzymes, SF was more specific and efficient. The products of AmpliTaq DNA polymerase included one or more extra bands, even in the presence of denaturants or co-solvents, except for glycerol or DMSO.
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PMID:Denaturants or cosolvents improve the specificity of PCR amplification of a G + C-rich DNA using genetically engineered DNA polymerases. 812 24

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