Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Polynucleotide templates were copied by avian myeloblastosis virus DNA polymerase ("reverse transcriptase") and the frequency and distribution of errors were determined. The error rate with [r(pA)2500-d(pT)12-18] template-initiator under a variety of conditions was approximately 1/600, i.e. one incorrect dCMP incorporated for 600 correct dTMP polymerized. Addition of the metal chelator o-phenanthroline to the reaction inhibited the incorporation of correct and incorrect nucleotides proportionately. The enzyme inhibited a pH optimum of 8.5 and the error rate remained constant over a range of pH (6.0 to 10.0). The rate of polymerization was greater at higher temperatures and approximately doubled for every 10 degrees increase. The error rate was constant at all temperatures. These results indicate that the purified avian myeloblastosis virus DNA polymerase synthesizes polydeoxynucleotides with an unusually large number of errors in base-pairing. Velocity sedimentation of the products of the reaction obtained at various times during the course of synthesis indicate that: (a) the entire length of the 14 S template was copied, and (b) the incorporation of the incorrect nucleotide did not terminate chain propagation. Isopyknic banding in neutral and alkaline cesium sulfate gradients showed that the noncomplementary nucleotides are incorporated into the polydeoxynucleotide product. Stepwise degradation and nearest neighbor analysis of the reaction product indicated that (a) the correct and incorrect nucleotides are present in phosphodiester linkages, (b) the errors are not concentrated at either termini; and (c) the errors are uniformly distributed throughout the newly synthesized polydeoxynucleotide.
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PMID:On the fidelity of DNA replication. Characterization of polynucleotides with errors in base-pairing synthesized by avian myeloblastosis virus deoxyribonucleic acid polymerase. 16 92

The high error rate characteristic of DNA polymerases from RNA tumor viruses has permitted measurements on the simultaneous incorporation of complementary and noncomplementary nucleotides during DNA synthesis. For example, avian myeloblastosis virus DNA polymerase incorporates 1 molecule of dCMP for approximately 500 molecules of dTMP polymerized using polyriboadenylic acid as a template. The parallel incorporation of complementary and noncomplementary nucleotides afer gel filtration of avian myeloblastosis virus DNA polymerase indicates that the observed fidelity is catalyzed by the polymerase itself. Nearest neighbor analysis of the product indicates that noncomplementary nucleotides are incorporated as single base substitutions. The incorporation of the noncomplementary dCMP is not reduced by a 20-fold greater amount of the complementary nucleotide, dTTP. Conversely, the concentration of the noncomplementary nucleotides does not effect the rate of incorporation of the complementary nucleotide. A similar lack of competition between complementary dGTP and noncomplementary dATP is exhibited using poly(rC)-oligo(dG) as a template-primer. Furthermore, there was no detectable competition between the different noncomplementary nucleotides. Possible explanations for this lack of competition are considered.
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PMID:Avian myeloblastosis virus DNA polymerase. Kinetic studies on the incorporation of noncomplementary nucleotides. 17 98

A DIRECT APPROACH IS DESCRIBED TO THE QUESTION: Are enzymes of DNA precursor synthesis organized into a supramolecular structure? This approach involved sedimentation analysis of several T4 phage-coded early enzyme activities in crude lysates of infected Escherichia coli. One-third to one-half of several activities tested-dCMP hydroxymethylase, dTMP synthetase, deoxynucleoside 5'-monophosphate kinase, deoxyuridine triphosphatase, and probably dCMP deaminase, but not dihydrofolate reductase or DNA polymerase-sedimented much more rapidly than expected from molecular weight. About 5% of the host cell nucleoside diphosphate kinase, known to participate in T4 DNA precursor synthesis, cosedimented with these activities. To show that this rapidly sedimenting material represents an organized enzyme complex rather than a nonspecific aggregate, we studied the kinetics of formation of dTTP with dUMP as the initial substrate. This three-step reaction sequence reached its maximal rate within a few seconds when catalyzed by enzymes in the aggregate, whereas an equivalent mixture of uncomplexed enzymes required nearly 20 min before dTTP synthesis reached its maximal rate. The effect of aggregation is evidently to decrease the volume into which intermediates are free to diffuse. Because there is reason to believe that intracellular concentration gradients of DNA precursors exist, the properties of this enzyme aggregate in vitro may help to explain how such gradients are maintained.
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PMID:Enzyme associations in T4 phage DNA precursor synthesis. 19 73

DNA synthesis in chromatin isolated from herpes simplex virus type 1-infected HeLa cells (HSV chromatin) was examined in vitro. The HSV chromatin was found to carry out an initial limited synthesis of DNA in vitro, 50 to 64 pmol of dTMP incorporated in 10(6) nuclei per 10 min, which is comparable to that found in nuclei isolated from HSV-infected cells. DNA synthesis in vitro proceeded for only 30 min, and both HSV DNA and host DNA were synthesized in significant amounts. The HSV and host DNA synthesis in isolated chromatin were inhibited to the same extent by anti-HSV antiserum or by phosphonoacetic acid. The results indicate that the HSV-induced DNA polymerase is most likely involved in the synthesis of host and HSV DNA in isolated chromatin, even though this chromatin contains small amounts of the host gamma-polymerase in addition to the HSV-induced DNA polymerase. The HSV chromatin contains no detectable levels of DNA polymerases alpha and beta, even though infected cells have normal, or increased, levels of these enzymes.
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PMID:Synthesis of viral and host DNA in isolated chromatin from herpes simplex virus-infected HeLa cells. 20 89

HEp-2 cells were infected with herpes simplex virus type 1 and extracted with 0.25% Triton X-100 and 0.1 M NaCl. The extract was sedimented on sucrose gradients, and the fractions containing the endogenous DNA polymerizing activity (replication complex) were collected. The properties of the replication complex were partially characterized. Under optimal conditions 375 pmol of dTMP per micrograms of DNA was incorporated, which corresponds to about 50% replication of preexisting viral DNA. The replication complex was shown to contain only DNA of viral origin by its density in CsCl. By using specific assays for DNA polymerases alpha, beta, gamma, and herpes simplex virus, we found that only the viral DNA polymerase copurified with the replication complex.
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PMID:Herpes simplex virus DNA synthesis in a partially purified soluble extract from infected cells. 22 58

DNA polymerase-alpha and -beta can be distinguished from one another by the differential effects of N-ethylmaleimide, KCl, ara-CTP and temperature, as well as on the basis of sedimentation. The sensitivity of DNA polymerase-beta to elevated temperatures as compared to DNA polymerase-alpha provides a new means of distinguishing between these two enzymes even in crude extracts and a possible probe for determining their function. DNA polymerase-alpha and -beta share several properties in common, including the ability to readily incorporate dUTP in place of dTTP. The Km for dUTP varies from 10 to 30 micron with different preparations of DNA polymerase-alpha and -beta. Thus, in mammalian cells, dUMP could be incorporated into DNA, and if excised by an endonuclease, would lead to discontinuities. Initial analyses of fidelity in direct comparative studies indicate that beta-class DNA polymerases are highly accurate in base selection when copying poly[d(A-T)]. Less than one molecule of dGMP is incorporated for every 12 000-45 000 molecules of dAMP and dTMP polymerized. DNA polymerase-alpha is somewhat less accurate, making one mistake for every 4000-10 000 correct nucleotides incorporated. Since both polymerases lack an exonucleolytic activity, this accuracy must be the result of selectivity for the complementary nucleotide by the polymerase.
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PMID:Distinctive properties of mammalian DNA polymerases. 28 7

The kinetics of the de novo formation of pyrimidine deoxyribonucleotides is the same after infection by wild type bacteriophage T4, which generate very low steady state levels of deoxytibonucleotides, and by T4 DNA synthesis-negative mutatants (Dna-), which accumulate high levels, suggesting that the control is not by a feedback mechanism. In this study, the ratio of the de novo synthesis of dTMP to HmdCMP derivatives was measured by determining the total thymine and 5-hydroxylxytosine (HmCyt) deoxyribonucleotides synthesized by the reductive pathways from [6-3H]uracil including those in DNA and any degradation products excreted into the medium. The ratio of the de novo synthesis of Thy/HmCyt derivatives remained constant at 2.1 +/- 0.1 for at least 45 min after infection by wild type phage, i.e. precisely at the Thy/HmCyt ratio in T4 DNA. On infection by phage mutated in the Dna-genes 32, 41, 44, or 45, the ratio still remained close to 2 to 1 for at least 25 min. Only after the pyrimidine deoxyribonucleotide concentrations reached levels about 100-fold greater than the initial values did the ratio begin to increase. However, a mutant of the structural gene for T4 DNA polymerase showed some increase in ratio by 15 min. Mutants of gene 1 (HmdCMP kinase) were distinct in that the Thy/HmCyt ratio dropped to about 1.0 by 25 min, and then remained quite constant. Uniquely, in these mutants a significant quantity of 5-hydroxymethyluracil or a derivative was found, about 40% being in the medium. The product was shown to be derived by deamination of a 5-HmCyt derivative. All Dna- mutants tested excreted 35 to 50% of their thymine derivatives, mostly as thymine, into the medium. Neither thymine nor 5-hydroxymethyluracil derivates were excreted after wild type phage infection. We propose that pyrimidine deoxyribonucleotide synthesis is regulated at a Thy:HmCyt ratio of 2:1 as an intrinsic property of a complex of enzymes synthesizing and channeling deoxyribonucleotides for T4 DNA replication and not exclusively by effector-sensitive mechanisms.
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PMID:Regulation of deoxyribonucleotide biosynthesis during in vivo bacteriophage T4 DNA replication. Intrinsic control of synthesis of thymine and 5-hydroxymethylcytosine deoxyribonucleotides at precise ratio found in DNA. 32 59

In this communication, we describe a simple procedure for analyzing the processiveness of DNA polymerases in general. By choosing conditions for which the number of incorporations per available primer is less than 1, we have reduced the probability of a primer molecule being utilized by the enzyme more than once. The primer-template used was poly(dA)300:oligo(dT)10, and the product was isolated by oligo(dT)-cellulose chromatography. The number of dTMP residues added per association was determined from the [3H]dThd + [3'-3H]dTMP/[3H]dThd ratio of the product after its digestion by micrococcal nuclease and spleen phosphodiesterase. Using this procedure, we have found that Escherichia coli DNA polymerase I, T4 DNA polymerase, and calf thymus alpha- and beta-DNA polymerase are "quasi-processive." Most of these enzymes add on the average approximately 10 to 15 nucleotides before dissociating from the template. T5 DNA polymerase, on the other hand, is processive, i.e. it continues to replicate a given template until it is very close to the 5' end of the template. With "nicked DNA-like" poly(dA):oligo(dT), the processiveness of E. coli DNA polymerase I is increased 2- to 2.5-fold. The significance of this increase in determining the "patch size" during DNA repair is discussed.
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PMID:Processiveness of DNA polymerases. A comparative study using a simple procedure. 36 69

The alternating copolymer poly(dC-dG) has been methylated with either dimethyl sulphate or N-methyl-N-nitrosourea and the levels of the various methylation products determined. In addition to the 3-methylcytosine, 3-methylguanine and 7-methylguanine (produced by both agents) reaction with N-methyl-N-nitrosourea also yielded easily detectable amounts of O(6)-methylguanine and phosphotriesters. These methylated polymers were then used as templates in an in vitro assay with Escherichia coli DNA polymerase I measuring the incorporation of complementary (dCMP and dGMP) and noncomplementary (dAMP and dTMP) nucleotides. When the dimethyl sulphate-methylated polymer was used as template there was virtually no detectable incorporation of non-complementary nucleotides indicating that no miscoding could be attributed to the presence of 3-methylcytosine, 3-methylguanine or 7-methylguanine. However, when the N-methyl-N-nitrosourea-methylated polymer was used as template there was a specific incorporation of dTMP but not of dAMP. The amount of dTMP incorporated was always less than the level of O(6)-methylguanine in the template and was found to vary with the relative concentrations of the deoxynucleoside 5'-triphosphates in the assay. As the amount of dCTP present in the assay was decreased the wrong incorporation of dTMP increased and approached the level that would have been expected for a one-to-one miscoding by O(6)-methylguanine as the concentration of dCTP approached zero. The results indicate that O(6)-methylguanine is capable of miscoding with a DNA polymerase but the miscoding is competitive with the normal incorporation of dCMP: when the 5'-triphosphate precursors are present in equal amounts approximately one O(6)-methylguanine in three miscodes leading to the incorporation of dTMP.
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PMID:DNA synthesis with methylated poly(dC-dG) templates. Evidence for a competitive nature to miscoding by O(6)-methylguanine. 37 5

The mode of action by aphidicolin on DNA polymerase alpha from the nuclear fraction of sea-urchin blastulae was studied. The inhibition of DNA polymerase alpha by aphidicolin was uncompetive with activated DNA and competitive with the four deoxynucleoside triphosphates using activated DNA as a template-primer. For truncated (residual or limited) DNA synthesis with only three deoxynucleoside triphosphates, aphidicolin inhibited the residual synthesis more strongly in the absence of dCTP than in the absence of each of the other three deoxynucleoside triphosphates. The inhibition was reversed with excess dCTP but not with the other three deoxynucleoside triphosphates. That is, aphidicolin inhibited DNA polymerase alpha by competing with dCTP with a Ki value of 0.5 microgram/ml and by not competing with the other three deoxynucleoside triphosphates. dTMP incorporation with the activated DNA was more sensitive to aphidicolin than dGMP or dTMP incorporation with poly(dC). (dG)12-18 or poly(dA) . (dT)12-18. Similar results were obtained for DNA polymerase alpha (B form) from mouse myeloma MOPC 104E.
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PMID:The mode of inhibitory action by aphidicolin on eukaryotic DNA polymerase alpha. 46 34


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