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)

Pyran covalently linked to cyanogen bromide-activated Sepharose has been shown to be an effective affinity matrix for several viral DNA polymerases. Differential salt elution of viral compared with cellular polymerases, as well as substrate elution, suggests the affinity nature for the matrix. Unlike some other affinity systems described, pyran-Sepharose is totally resistant to nuclease digestion and is stable at 4 degrees for several months. DNA polymerases isolated from several viruses by detergent treatment were recovered in good yield. Analysis of iodinated proteins by sodium dodecyl sulfate-gel electrophoresis revealed that the DNA polymerase of avian myeloblastosis virus found in crude preparations of the virus could be purified nearly to homogeneity by a single passage through the column. These results suggest that pyran-Sepharose is an effective affinity column that is potentially adaptable as part of a general purification procedure for viral DNA polymerases.
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PMID:Affinity chromatography of viral DNA polymerases on pyran-sepharose. 16 85

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

Deoxyribonucleic acid polymerase-beta (EC 2.7.7.7) FROM THE Novikoff hepatoma has been purified over 200 000-fold (based on the increase in specific activity), by ammonium sulfate fractionation and chromatography on DEAE-Sephadex, phosphocellulose, hydroxylapatite, and DNA-cellulose. The enzyme is remarkably stable through all stages of purification until DNA-cellulose chromatography when it must be kept in buffers containing 0.5 M NaCl and 1 mg/ml bovine serum albumin for stability. The enzyme appears to be homogeneous as evidenced by a single stainable band when subjected to electrophoresis in polyacrylamide gels of different porosity. The stainable band corresponds to the DNA polymerase as determined by slicing sister gels and assaying for enzyme activity. The specific activity of the homogeneous preparation is about 60 000 units/mg. The enzyme lacks detectable exonuclease or endonuclease activity. It has a molecular weight of 32 000 as determined by sodium dodecylsulfate-polyacrylamide gel electrophoresis. In sucrose gradients, the molecular weight is estimated at 31 000. The isoelectric point of the hydroxylapatite fraction enzyme is 8.5. The Novikoff beta-polymerase requires all four deoxyribonucleoside triphosphates, primer-template, and a divalent cation for maximal activity. The apparent Km for total deoxyribonucleoside triphosphate is 7-8 muM and for DNA 125 mug/ml. Activated DNA, rendered 7% acid soluble by DNase I, is the preferred primer-template, although a number of synthetic polynucleotides can by efficiently utilized, particularly in the presence of Mm2+ optimum is 7 mM; the Mn2+ optimum is 1 mM. The pH optimum is 8.4 in Tris-HCl or 9.2 in glycine buffer. The beta-polymerase is sstimulated about twofold by NaCl or KCl at an optimum of 50-100 MM, and the enzyme maintains considerable activity at high ionic strengths. The DNA polymerase is inhibited by ethanol, acetone, and a variety of known polymerase inhibitors. Glycols stimulate the enzyme as does spermine or spermidine. Unlike most beta-polymerases, the Novikoff enzyme is moderately sensitive to N-ethylmaleimide.
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PMID:Novikoff hepatoma deoxyribonucleic acid polymerase. Purification and properties of a homogeneous beta polymerase. 18 3

8-Hydroxyquinoline and several of its derivatives inactivate the transforming ability of Rous sarcoma virus and inhibit its ribonucleic acid-dependent deoxyribonucleic acid polymerase activity. The copper complex of these metal-binding ligands is as active as the free ligand. The activity of the 8-hydroxyquinolines is approximately 50-fold more effective than another group of metal-binding compounds that we have tested, the thiosemicarbazones. In contrast to the potency of the 8-hydroxyquinolines to inactivate Rous sarcoma virus, no intracellular inhibition of transformation could be demonstrated at a concentration that did not affect the growth and appearance of the cells. Cellular deoxyribonucleic acid synthesis was inhibited to a greater extent than was ribonucleic acid or protein synthesis. The phenomenon of "concentration quenching" was observed with high concentrations of drug, causing less inhibition of deoxyribonucleic acid synthesis than was observed with lower concentrations. Herpes simplex virus type 1 was inactivated also by the 8-hydroxyquinolines and their copper complexes. No intracellular inhibition of plaque formation was observed. Treatment with 8-hydroxyquinoline sulfate had no effect on the resolution of herpetic keratitis in rabbits. Some 8-hydroxyquinolines bind to deoxyribonucleic acid in the presence of copper, a phenomenon that may be important in their antiviral activity.
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PMID:Hydroxyquinolines inhibit ribonucleic acid-dependent deoxyribonucleic acid polymerase and inactivate Rous sarcoma virus and herpes simplex virus. 18 49

The Novikoff hepatoma DNA polymerase-beta sediments as a 7.3S form in crude extracts but during purification sediments as a 4.1S form (after diethylaminoethyl-Sephadex chromatography) or as a 3.3S form (after DNA-cellulose chromatography). If 0.25 M ammonium sulfate or 0.5 M NaCl is included in the sucrose gradients, the 7.3S form sediments at 3.3 S; after removal of the salt, it sediments again at 7.3 S, indicating the reversibility of the aggregation phenomenon. By careful adjustment of ionic strength in the gradient, four distinct and reproducible forms of the enzyme sedimenting at 7.3, 5.8, 4.1, and 3.3 S can be generated. The isoelectric point of the DNA polymerase also changes during purification; the 7.3S form has a pI of 7.5, while the 4.1S form isoelectrically focuses at a pH of 8.5. During DNA-cellulose chromatography, the Novikoff beta-polymerase is separated from a stimulatory factor designated as Novikoff factor IV. Factor IV is a protein as shown by its sensitivity to protease and resistance to nucleases. It is responsible for converting the 3.3S enzyme to the 4.1S form since the 3.3S homogeneous DNA polymerase-beta sediments at 4.1 S in the presence of factor IV. Factor IV confers stability to the polymerase in low ionic strength buffers as well as stability to heat denaturation. Factor IV has the ability to increase the activity of the 3.3S homogeneous polymerase by about fourfold.
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PMID:Novikoff hepatoma deoxyribonucleic acid polymerase. Identification of a stimulatory protein bound to the beta-polymerase. 19 Oct 73

A comparative biochemical study of virus-induced DNA polymerases was made among the herpes group viruses: namely, herpes simplex virus (HSV) type 1 and type 2, human cytomegalovirus (HCMV) and varicella-zoster virus (VZV). Although these virus-induced enzymes shared some biochemical properties, they differed in several important aspects. All these virus-induced DNA polymerases could efficiently use poly(dC) . oligo(dG)12--18 and poly(dA) . oligo(dT)12--18 as template-primers. However, in phosphocellulose chromatography, HSV-1- and HSV-2-induced enzymes were eluted at the low concentration of 0.18--0.20 M NaCl and the counterparts of HCMV and VZV were eluted at 0.30--0.32 M. The former two enzymes were more sensitive to lower concentrations of phosphonoacetate and ethyl phosphonoacetate than the latter two enzymes. Moreover, the activity of HSV-1- and HSV-2-specified DNA polymerases was 5 times greater in the presence of 60 mM ammonium sulfate if poly(dA) . oligo(dT)12--18 was used as template-primer, while HCMV- and VZV-induced enzyme activities were only about twice as great under the same conditions. Futhermore, DNase activity was conspicuous in both HSV-1- and HSV-2-infected WI-38 cells, but was not detectable in HCMV- and VZV-infected cells. After storage for 1 year at 4 degrees, the HSV-1-induced DNA polymerase was the most thermostable of the four viral enzymes.
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PMID:Comparative study of herpes group virus-induced DNA polymerases. 23 86

Distinct DNA polymerase activities have been found in the cytoplasmic and nuclear fractions of a baby hamster kidney cell line. They were separated by chromatography on DEAE-cellulose and partially purified by ammonium sulfate fractionation, DNA - cellulose and linear sucrose gradients. The cytoplasmic DNA polymerase exhibited an S-coefficient of 6.95 S in 0.15 M NaCl and its activity was highly sensitive to inhibition by N-ethylmaleimide and elevated temperatures, regardless of the presence of DNA template or other cofactors. It was stimulated by monovalent salts in the order of NH4 Cl greater than KCl greater than NaCl greater than CsCl greater than LiCl (inhibitory). The DNA polymerase extracted from nuclei sedimented with an S-value of 3.47 S, was resistant to inactivation by N-ethylmaleimide, and maximally stimulated by NaCl, while also being inhibited by LiCl. For optimal activity, both DNA polymerase activities required a divalent cation, with MgCl2 being more effective than MnCl2. Although the optimal pH values for the two enzyme activities differed slightly, glycine - NaOH buffer induced an alkaline shift of 1.5 pH units in the optimum of both enzymes. This was accompanied by an increase in the effectiveness of MnCl2 relative to MgCl2 for the cytoplasmic DNA polymerase.
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PMID:Differentiation and characterization of the cytoplasmic and nuclear deoxyribonucleic acid polymerases from baby hamster kidney cells. 24 Apr 21

The replication cycle of the small resistance plasmid RSF1030 can be divided into two stages with different enzyme requirements: (1) Synthesis of early replicative intermediates containing 7 S DNA catalyzed by DNA polymerase I in the absence of functional dnaZ protein, and (2) replication of early intermediates requiring DNA polymerase III holenzyme (including the dnaZ protein). Early intermediate DNA synthesized in a dnaZ extract can be converted to fully replicated plasmid molecules upon addition to a replication enzyme fraction prepared by ammonium sulfate fractionation of polA I extracts. The first-stage reaction is sensitive to rifampicin, novobiocin, and oxolinic acid, but insensitive to arabinosylcytosine triphosphate (aCTP). Addition of aCTP interferes with the second-stage reaction resulting in the accumulation of late replicative intermediates.
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PMID:Replication of the ampicillin resistance plasmid RSF1030 in extracts of Escherichia coli: separation of the replication cycle into early and late stages. 34 Aug 89

Dextran sulfate is commonly used with polyethylene glycol to concentrate viruses before extraction of their DNA. However, dextran slulfate then easily contaminated such DNA and acted as a potent inhibitor of DNA polymerases from Bacillus subtilis (III), phage PBS2, and phage T4. Dextran sulfate only weakly inhibited Micrococcus luteus and Escherichia coli DNA polymerase I preparations.
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PMID:Dextran sulfates as a contaminant of DNA extracted from concentrated viruses and as an inhibitor of DNA polymerases. 35 55

A procedure has been developed which allows the T4 bacteriophage proteins corresponding to the products of genes 43, 44, 45, and 62 to be purified to near homogeneity from a single T4-infected cell lysate (greater than 90% single species as judged by sodium dodecyl sulfate polyacrylamide elctrophoresis). In these preparations, the major problem of removing all contaminating nucleases has been overcome. Each of the above proteins is known from genetic analysis to be essential for phage DNA replication. The protein product of gene 43 is T4 DNA polymerase, and its recovery can be monitored using a standard DNA polymerase assay. The other three gene products have been designated as "polymerase accessory proteins," since they directly enhance polymerase function on both single- and double-stranded DNA templates. Their activities were monitored by an "in vitro complementation assay," which measures the stimulation of DNA synthesis observed in a concentrated lysate of T4 mutant-infected Escherichia coli cells when the missing T4 wild type protein is added. Starting from 300 g of infected cell paste, we obtained 9.3 mg of gene 43 protein, 21 mg of gene 45 protein, and 70 mg of a tight complex made up of 44 and 62 proteins; final yields were estimated at 30%, 14%, and 28%, respectively, of the initial activity present in the lysate. When the above purified proteins are incubated with preparations of two other T4 DNA replication proteins (gene 41 and gene 32 proteins) plus deoxyribonucleoside and ribonucleoside triphosphates, extensive DNA synthesis occurs on both single- and double-stranded DNA templates. As reported elsewhere, this synthesis mimicks that catalyzed by the T4 DNA replication apparatus in vivo.
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PMID:Purification of the gene 43, 44, 45, and 62 proteins of the bacteriophage T4 DNA replication apparatus. 37 34

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