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)

Terminal deoxynucleotidyl transferase (TdT) is a non-template directed DNA polymerase normally found in vertebrate thymus and bone marrow. Quantitative assay of TdT activity is being widely used as a tool in the differential diagnosis of acute leukemias in man. Clinical specimens of blood and bone marrow often contain 10(7) or fewer cells and require a specific and rapid assay for transferase which can be carried out in crude cell extracts. Commonly used assay methods do not meet these requirements, but can be easily modified to do so.
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PMID:A critical comparison of commonly used procedures for the assay of terminal deoxynucleotidyl transferase in crude tissue extracts. 60 Jul 96

Terminal deoxynucleotidyltransferase is an enzyme which has been found to be associated with thymus cells, bone marrow cells, as well as leukocytes from patients with acute lymphoblastic leukemia and chronic myelocytic leukemia in blast crisis. We report here the purification of terminal deoxynucleotidyltransferase by an oligonucleotide affinity (oligo(dT)12-18 cellulose) column. By using a 35 to 70% (NH4)2SO4 cut, Sephacryl S200 column and an oligo(dT) cellulose column, terminal deoxynucleotidyltransferase has been purified from calf thymus cells to a specific activity of more than 8,500 units/mg of protein. The terminal deoxynucleotidyltransferase purified by this method contains no detectable DNA-dependent DNA polymerase or endonuclease activities. Furthermore, sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that the enzyme appears to be homogeneous, with two polypeptides corresponding to the two subunits alpha (10,000) and beta (23,000) of terminal deoxynucleotidyltransferase. These data indicate that oligo(dT)12-18 cellulose can be used as a rapid and selective affinity column for the purification of terminal deoxynucleotidyltransferase.
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PMID:Purification of terminal deoxynucleotidyltransferase by oligonucleotide affinity chromatography. 64 3

Three patterns of activity were evident when the differential activation of the DNA polymerase associated with serum Dane particles by nonionic detergent and salt was investigated. The patterns were obtained by plotting the increase in enzyme activity mediated by the detergent Nonidet P-40 (NP-40) in increasing concentrations of KCl compared to the activity observed in the absence of detergent. The pattern of differential activity of hepatitis B (HB) DNA polymerase in detergent and salt was altered by subjecting the HBAg preparations to shearing forces. Hepatitis B DNA polymerase activity was stable even in NP-40 concentrations as high as 10%. In addition to hepatitis B DNA polymerase, DNA polymerase activated by calf thymus DNA was found in pellets containing Dane particles. The latter DNA polymerase activity was also activated by NP-40 and was not decreased by DNAse; this DNA polymerase coprecipitated with hepatitis B antigen (HBAg) upon addition of anti-HBs. However, the DNA polymerase activated by calf thymus DNA was inhibited by 0.4 M KCl. Electron microscopic observations of serum Dane particles in 0.4 M KCl showed no alterations of morphology of these particles when compared to particles in low-salt buffer. The data indicated that KCl activated HB DNA polymerase by a different mechanism from that of shear or NP-40, which removed the surface antigen coat from the Dane particles.
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PMID:Differential activation of hepatitis B DNA polymerase by detergent and salt. 68 13

A novel DNA polymerase, which could use both poly(rA) . oligo(dT) and activated calf thymus DNA efficiently as template-primers, was purified 20 000-fold from calf thymus extract. These activities were co-purified throughout successive column chromatographies and banded at the same position in either electrofocussing (pI = 6.5--7.0) or sucrose rate-zonal centrifugation (10--10.5 S). The most purified fraction (DNA-cellulose fraction) possessed specific activities of 3900 units/mg of protein with poly(rA) . oligo(dT) and 32 000 units/mg of protein with activated DNA. The poly(rA) . oligo(dT)-dependent activity differed from the previously described DNA polymerase gamma from other sources in the following ways: 1. The activity was inhibited by 100--300 mM KCl and and 80 mM potassium phosphate buffer. 2. The activity was 4-fold higher at 26 degrees C than at 37 degrees C. 3. The Km value for dTTP was 2.6--3.0 . 10(-4) M, which is several hundred-fold greater than that of DNA polymerase gamma. 4. Mn2+ was essential for the reaction and could not be replaced by Mg2+. The activated DNA-dependent activity shared many properties with DNA polymerase alpha, except that it was less sensitive to N-ethylmaleimide and anti-alpha polymerase immunoglobulin G. The 10-S DNA polymerase was dissociated into 8.5-S and 3.3-S by treatment with Triton X-100.
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PMID:10-S DNA polymerase from calf thymus which copies both poly(rA) . oligo(dT) and activated DNA. 71 38

Three ribonucleotidyl transferase types have been described in the sea urchin: riboadenylate trnasferase, the DNA dependent RNA polymerases, and a DNA polymerase associated ribonucleotidyl transferase (Biochemistry 15:3106-3113, 1976). In the present work this latter ribonucleotidyl transferase was found to purify with DNA polymerase alpha through phosphocellulose, DEAE-Sephadex and DNA cellulose and to cosediment at 6.5 S. This ribonucleotidyl transferase was active with Mn+2, but not Mg+2, on calf thymus DNA and poly(dC). Other synthetic templates elicited DNA polymerase alpha but no ribonucleotidyl transferase activity. From alkaline hydrolysates of the poly(dC) directed GTP polymerization, we found Goh and Gp in a ratio of 1:16 indicating an average chain length of 17 residues after a 20 min reaction. Co-polymerization of GTP (5 micrometer) and dGTP (10 micrometer) yielded a non-random distribution of the ribonucleotide in the deoxyribonucleotide. The properties of this urchin ribonucleotidyl transferase are unlike any previously described eukaryotic transferase and the data is discussed with reference to the known properties of E. coli DNA polymerase I and the primase.
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PMID:Ribonucleotidyl transferase in preparations of partially purified DNA polymerase alpha of the sea urchin. 72 5

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

Escherichia coli DNA polymerases II and III have been extensively studied in vitro when activated with Mg2+. The Mn2+-activated polymerization reactions are considered here, and shown to differ from the Mg2+-activated reactions. The Mn2+-activated DNA polymerase II reaction requires K+ or spermidine, and the effects of monovalent cation and polyamine are additive. In contrast, the Mg2+-activated reaction does not require, but is stimulated by, K+ or spermidine, in a non-additive manner. Under optimal conditions, DNA polymerase II is activated better with Mn2+ than it is with Mg2+, suggesting a physiological role for the Mn2+-activated enzyme. The observed preference for Mn2+ over Mg2+ in reaction kinetics and at high DNA template concentrations suggest that Mg2+ may preferentially activate the associated exonuclease activity. At 29 degrees C, the Mn2+-activated DNA polymerase III reaction is stimulated by K+ and inhibited by ethanol or phosphatidylethanolamine. In contrast, the latter compounds and Triton X-100 increase the initial rate of the Mg2+-activated reaction, whereas K+ inhibits this reaction at all concentrations. The K+ inhibition is reduced at low Mg concentrations when Mn2+ is also present. After stimulating the initial reaction rate, ethanol causes a rapid decrease in the rate of the Mg2+-activated reaction during incubation at 20 degrees C. At 27 degrees C, all surface-active compounds inhibit the Mg2+-activated reaction. Preincubation of the enzyme at 30 degrees C or below with DNA template and divalent cation increases the initial reaction rate, suggesting that formation of an enzyme-divalent cation-DNA template complex occurs as the first step in DNA polymerase III catalysis. The apparent Km at 21 degrees C for gapped calf thymus DNA was 25 muM with Mn2+ and 125 muM with Mg2+ for DNA polymerase III, and 18 muM at 30 degrees C for DNA polymerase II with either Mn2+ or Mg2+. Reactions with poly[d(A-T)] were enhanced by Mn2+ relative to Mg2+, and activity with poly(rA)-poly(dT) was Mn2+ dependent for both enzymes.
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PMID:Escherichia coli DNA polymerases II and III: activation by magnesium or by manganous ions. 78 84

A ribonuclease-sensitive DNA polymerase, which uses an endogenous template, is detectable in the 39,000 g supernatant of a rat thymus homogenate, and appears as a single peak of activity in the void volume after Sephadex G 150 or G 200 gel filtration chromatography. Native and "activated" DNA-dependent DNA polymerase activities coincide with the endogenous-templated polymerase activity. Treatment of the thymus extract with ribonuclease(s) prior to gel filtration chromatography yields two other peaks of activity in addition to the void volume peak. The appearance of the two lower molecular weight peaks of activity is accompanied by a concomitant decrease in the endogenous-templated activity. The effect of ribonuclease is specific and cannot be reproduced by a similar deoxyribonuclease treatment.
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PMID:DNA polymerase activity associated with endogenous template: release by ribonuclease treatment. 80 37

We investigated by molecular hybridization whether T cells contain RNA sequences homologous to RNA which codes for immunoglobulin kappa-chain (k-chain). A radioactive probe of complementary DNA (cDNA) was prepared by transcription of purified k-chain mRNA from mouse myeloma MOPC-41 with reverse transcriptase (RNA-dependent-DNA nucleotidyltransferase) from avian myeloblastosis virus. The cDNA probably corresponded only to the constant region and 3'-terminus of k-chain mRNA. Kappa-chain cDNA was found to hybridize efficiently with RNA from both thymus cells and an established culture of thymoma cells. The thymus and thymoma cells contained 99.8% and 100% theta-positive cells, respectively. Quantitatively the average thymus T cell (thymus derived lymphocyte) contained about one half as much k-chain mRNA as the average spleen B cell ("bursa" dependent lymphocyte), whereas the thymoma cells contained only 1/33 as much. Control hybridizations of k-chain cDNA with myeloma and liver RNA support the conclusion that T cells in the thymus and in the thymoma cell line synthesize k-chain mRNA-like molecules. The thermal stability of hybrids of k-chain cDNA with RNA from spleen, thymus, thymoma, and another k-chain producing myeloma tumor was lower than that with MOPC-41 RNA. This finding may be due to the existence of several slightly different ck genes in the mouse as suggested by various control experiments.
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PMID:Sequences related to immunoglobulin kappa chain messenger RNA in T cells. 82 Oct 55

An endonuclease present in partially purified preparations of calf thymus DNA polymerase has been purified to homogeneity. It has a molecular weight of 53,000 +/- 2,500 as determined by sucrose gradient sedimentation. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicates the protein is composed of four subunits, each polypeptide possessing a molecular weight of 13,000. Its isoelectric point is 10.3 +/- 0.2. The endonuclease has a pH optimum at 6.6, requires Mg2+ or Mn2+ for activity, and does not attack RNA. The enzyme appears to be present in tissues other than calf thymus. The enzyme catalyzes the endonucleolytic cleavage of both denatured and native eukaryotic DNA. The enzyme introduces a limited number of single strand nicks into native DNA; hydrolysis of denatured DNA produces acid-soluble oligonucleotides. The average size of the limit product, sedimented in an alkaline sucrose gradient, is 1200 nucleotides for native DNA. The product contains 5'-phosphoryl and 3'-hydroxyl termini. While all four deoxynucleotides are found at the 5' termini, pyrimidine residues predominate. Calf thymus DNase V degrades closed circular duplex SV40 DNA and glucosylated T4DNA but not poly(dA-dT). The rate of hydrolysis of homopolymers is: poly(dT) greater than poly(dA) greater than poly(dC) greater than poly(dG) in the presence of Mg2+, and poly(dT) greater than poly(dC) greater than poly(dA) = poly(dG) in the presence of Mn2+.
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PMID:Mammalian endonuclease, DNase V. Purification and properties of enzyme of calf thymus. 83 11

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