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)

When incubated in vitro, HeLa cell chromatin can synthesize DNA at rate comparable to that observed with isolated nuclei. The in vitro DNA synthetic activity of chromatin reflects DNA synthesis in intact cells since chromatin from cells in S phase are several times more active thatn preparations derived from mitotic cells. The requirements for the synthesis of DNA by chromatin preparations are also similar to those of isolated nuclei and the size of the DNA pieces made in both systems is roughly comparable. The chromatin system offers several advantages not available with isolated nuclei. Chromatin will synthesize DNA for a much longer time than isolated nuclei so that larger amounts of DNA can be synthesized in vitro In addition, although chromatin has its own endogenous ability to synthesize DNA, it is markedly stimulated by the presence of exogenously added HeLa cell DNA polymerase alpha, beta, and gamma, and, thus, may provide a new template system for the study of DNA synthesis.
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PMID:Study of DNA synthesis in chromatin isolated from HeLa cells. 88 95

A DNA-binding protein from Xenopus laevis unfertilized eggs has been purified to apparent homogeneity. It is a heat stable, lysine-rich protein and has a molecular weight corresponding to 8,200 daltons, measured by sodium dodecyl sulphate gel electrophoresis. The protein, which is active in a monomeric form, stimulates DNA polymerase alpha, and binds to single and double stranded DNA. One egg contains about 4 x 10(12) molecules (minimum estimate) of the protein; since we calculate that 4 x 10(8) molecules are sufficient to cover the entire genome (haploid complement), there is much more protein than is needed to cover chromosomal DNA.
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PMID:Purification of a DNA-binding protein from Xenopus laevis unfertilized eggs. 90 94

The effect of heparin on DNA synthesis was compared between replicative DNA synthesis and unscheduled DNA synthesis. Replicative DNA synthesis in permeable cells or nuclei prepared from rapidly growing mouse ascites sarcoma cells was inhibited by heparin. Unscheduled DNA synthesis in nuclei isolated from normal rat liver or from mouse ascites sarcoma cells in stationary phase was stimulated by heparin at low concentrations but inhibited by high heparin concentrations. DNA polymerase activity assayed with activated calf thymus DNA and DNA polymerase alpha purified partially from mouse ascites sarcoma cells was inhibited with either calf thymus histones or heparin. DNA synthesis inhibited with histones was partially reactivated by heparin. Replicative DNA synthesis in permeable cells was inhibited by adding histones to the assay mixture, and the inhibited DNA synthesis was partially reactivated by low concentrations of heparin. These results indicated that the replicated sites (or replication machinery) in permeable cells or nuclei were largely unrestricted by histones and that heparin inhibition of replicative DNA synthesis was due to the direct inhibitory interaction of heparin with some essential component(s), such as DNA polymerase, of replication machinery.
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PMID:Differential effects of heparin on replicative DNA synthesis and unscheduled DNA synthesis. 92 8

The DNA replication system of S-phase HeLa nuclei has been dissociated by cautious extraction at 0 degrees C with 0.25 M NaCl. Replicase activity has been reestablished by recombination of the fractions and reduction of the salt concentration. The reconstituted system, like the starting nuclei, depended on ATP, 4dNTP, MgCl2, the proper ionic strength and the soluble cytoplasmic protein fraction. The activity of the nuclear extract showed a cell cycle dependency and was elevated in the nuclei of cells at the G1 leads to S boundary. In the presence of Mg2+ the major activity of the nuclear extract precipitated during dialysis to reduce the salt concentration; this precipitate exhibited DNA polymerase alpha activity. Chromatography of the active extracts over phosphocellulose separated the replicase supporting factors into three fractions. The major activity eluted in the fraction containing the DNA polymerase alpha activity; the other two active fractions were devoid of polymerase activity. The fraction containing DNA polymerase alpha from the nuclear extracts supported DNA replicase activity in salt-extracted nuclei whereas an equivalent level of DNA polymerase alpha from the cytoplasm was not effective. The data suggest that the DNA polymerase alpha of the salt extracts of S-phase nuclei is either different than the cytoplasmic enzyme or is associated with some essential replicase-supporting factor.
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PMID:Dissociation and reconstitution of the DNA replicase system of HeLa cell nuclei. 94 95

DNA alpha-polymerase has been partially purified from nuclei of cultured chic, fibroblasts and separated on phosphocellulose columns into two distinct activities designated DNA polymerases alpha(a) and alpha(b), respectively. The enzyme preparations were devoid of activities of DNA beta,gamma-polymerases terminal deoxyribonucleoside transferase, DNase, DNA-dependent RNA polymerase, and phosphatase. DNA polymerases alpha(a) and alpha(b) both having molecular weights of 160 000, constitute 35-50 and 65-50%, respectively, of the activity of alpha-polymerase in the nucleus. These enzymes differ in their requirements for maximal activity, their relative ability to copy oligo(dG)-poly(dC), their response to ribonucleoside triphosphates, and their kinetics of heat inactivation. When the properties of alpha polymerases derived from early or late passage cultures have been compared, no difference could be detected as a function of cell age in the specific activities of the polymerases in crude cell extracts, their chromatographic behavior on diethylaminoethylcellulose and phosphocellulose columns, and their relative abilities to utilize single deoxyribonucleoside triphosphates with activated DNA template. On the other hand, both enzymes become partially heat labile in aging cells. Also, the activity of DNA polymerase alpha(a) from young cells was stimulated by 2--10 mM adenosine or cytidine triphosphates, whereas the same enzyme from old cultures was inhibited by these agents. Conversely, these ribonucleoside triphosphates inhibited the activity of polymerase alpha(b) in young cells but slightly stimulated this enzyme derived from senescent fibroblasts. In addition, the relative ability of DNA polymerase alpha(a) to copy oligo(dG)-poly(dC) decreased in aged cells, whereas that of DNA polymerase alpha(b) increased. We have also observed significant differences in the effects of potassium chloride and N-ethylmaleimide on the activity of DNA polymerase alpha(a) from old cells as compared to young cells. These age-related alterations in the properties of the two avian DNA polymerases may reflect structural or conformational changes in these enzymes.
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PMID:Altered nuclear deoxyribonucleic acid alpha-polymerases in senescent cultured chick embryo fibroblasts. 98 31

2-Aza-1,N6-etheno-adenosine triphosphate (aza-epsilonATP), a fluorescent analog of adenosine triphosphate, significantly inhibits polyadenylate [poly(A)] polymerase of bovine lymphosarcoma and calf thymus, with 50% inhibition at 200 muM (in the presence of an equal concentration of adenosine triphosphate). Calf thymus RNA polymerases II and III are inhibited 32 and 20%, respectively, by a 3.8-fold excess of aza-epsilonATP; DNA polymerase alpha is not inhibited. The inhibition of poly(A) polymerase by aza-epsilonATP appears to be competitive with adenosine triphosphate; incorporation of aza-epsilonATP is not observed. Polymers of 2-aza 1,N6-etheno-adenosine monophosphate are used as primers, but pootly. 1,N-Etheno-adenosine triphosphate and 9-beta-D-arabinofuranosyladenine triphosphate are poor inhibitors of poly(A) polymerase; adenosine diphosphate is ineffective. Deoxyadenosine triphosphate inhibits to the same extent as aza-epsilonATP, while other naturally occurring nucleotides inhibit poly(A) polymerase to varying degrees, with deoxynucleoside triphosphates more potent than ribonucleoside triphosphates. Inhibition of poly(A) polymerase by naturally occurring nucleoside triphosphates suggests that nucleotides may regulate the enzyme in vivo; inhibition by the fluorescent analog aza-epsilonATP suggests that this compound may be useful in elucidating poly(A) metabolism in both normal and neoplastic cells.
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PMID:Inhibition of mammalian polyadenylate polymerase by 2-aza-1,N6-etheno-adenosine triphosphate. 98 43

The effects of partially thiolated polynucleotides on the DNA polymerase alpha from regenerating rat liver were investigated. The enzyme was isolated from the nuclear fraction essentially according to the method of Baril et al.; it was characterized as the alpha polymerase on the basis of its response to synthetic templates and its inhibition with N-ethylmaleimide. Although polycytidylic acid had no effect on the DNA polymerase alpha either as a template or as an inhibitor, partially thiolated polycytidylic acid (MPC) was found to be a potent inhibitor, its activity being directly related to its extent of thiolation (percentage of 5-mercaptocytidylate units in the polymer). In comparison, the DNA polymerase beta which was purified from normal rat liver nuclear fraction, was much less sensitive to inhibition by MPC. Analysis of the inhibition of the alpha polymerase by the method of Lineweaver and Burk showed that the inhibitory action of MPC was competitively reversible with the DNA template, but the binding of the 7.2%-thiolated MPC to the enzyme was much stronger than that of the template (Ki/Km less than 0.03). Polyuridylic acid as such showed some inhibitory activity which increased on partial thiolation, but the 8.4%-thiolated polyuridylic acid was less active than the 7.2% MPC. When MPC was annealed with polyinosinic acid, it lost 80% of its inhibitory activity in the double-stranded configuration. However, 1 to 2%-thiolated DNA isolates were significantly more potent inhibitors than were comparable (1.2%-thiolated) MPC and showed competitive reversibility with the unmodified (but "activated") DNA template. These results indicate that the inhibitory activities of partially thiolated polynucleotides depend not only on the percentage of 5-mercapto groups but also on the configuration, base composition, and other specific structural properties.
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PMID:Action of partially thiolated polynucleotides on the DNA polymerase alpha from regenerating rat liver. 100 Apr 98

We have analyzed and compared the responses of the three major HeLa cell DNA polymerases (alpha, beta, and gamma) to a HeLa DNA template with short RNA or DNA primers hybridized to it. Only DNA polymerase alpha is able to synthesize DNA covalently bonded to the RNA primer via a 3' yields 5' phosphodiester bond. 32P transfer experiments showed that all combinations of ribo- and deoxyribonucleotides are represented in the RNA-DNA linkages but their distribution is nonrandom. The RNA-DNA linked molecules base-paired to a HeLa DNA template strand represent a possible "natural" in vitro primer-template for DNA polymerases and can be extended by all three DNA polymerases (alpha, beta, and gamma). These findings indicate that DNA polymerases beta and gamma are capable of DNA-primed but not RNA-PRIMED DNA synthesis, while DNA polymerase alpha is capable of both RNA-primed and DAN-primed DNA synthesis.
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PMID:RNA-primed DNA synthesis: specific catalysis by HeLa cell DNA polymerase alpha. 105 33

In a reaction mixture containing calf thymus DNA polymerase alpha (DNA nucleotidyltransferase; deoxynucleosidetriphosphate:DNA deoxynucleotidyltransferase; EC 2.7.7.7), calf thymus DNA unwinding protein, DNA, deoxyadenosine 5'-triphosphate and deoxythymidine 5'-triphosphate, a copolymer of deoxyadenylate and deoxythymidylate is synthesized after a lag period of 1-2 hr. In the presence of the four deoxyribonucleoside triphosphates only deoxyadenylate and deoxythymidylate are incorporated into the polymer and the rate of synthesis is decreased. The reaction variably occurs in the absence of DNA or DNA unwinding protein but with a greatly entended lag period. The optimal Mg2+ concentration for synthesis of the polymer of deoxyadenylate and deoxythymidylate is 1 mM, in contrast to an optimal Mg2+ concentration of 8 mM for DNA synthesis with activated DNA as template. Characterization of the product of de novo synthesis indicates that it is the alternating copolymer, poly(dA-dT).
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PMID:De novo synthesis of a polymer of deoxyadenylate and deoxythymidylate by calf thymus DNA polymerase alpha. 106 76

All 5 thymus-dependent cell (T-cell) lines (Molt-3; Molt-4; RPMI-8402; CCRF-CEM; CCRF-HSB-2) and 7 thymus-independent cell (B-cell) lines (RPMI-8382, RPMI-8392, RPMI-8412, RPMI-8422, RPMI-8432, RPMI-8442, CCRF-SB) established so far from acute lymphoblastic leukemia patients were examined for deoxynucleotide polymerizing enzymes. All T- and B-cells had DNA polymerase gamma, DNA polymerase beta, and terminal deoxynucleotidyl transferase both in the soluble (the latter 2 enzymes only in small amounts) and chromatin fraction, whereas DNA polymerase alpha was found only in the soluble fraction. With respect to their sedimentation and chromatographic behavior, template-primer requirements, Km for deoxythymidine triphosphate or deoxyguanosine triphosphate divalent cation preference, effect of NaCI and inhibitors, the enzymes from T- and B-cells resembled each other and those from other mammalian cells. DNA polymerase alpha, beta, and gamma from T-cells like those from "fresh" acute lymphoblastic leukemia cells, were more thermolabile than those from B-cells or phytohemagglutinin-stimulated normal lymphocytes. In addition, the terminal deoxynucleotidyl transferase from the above cells was completely inactivated in 5 to 6 min at 50 degrees, whereas the DNA polymerase alpha, beta, and gamma retained considerable activity even after heating for 25 min at 50 degrees. DNA polymerase activity of the soluble fraction from T-cells was of the same magnitude as in B-cells when expressed on a DNA basis but twice that of B-cells when expressed on a protein basis. High terminal deoxynucleotidyl transferase activity, equivalent to that observed in acute lymphoblastic leukemia cells, was found in all T-cell lines that, when expressed on a DNA basis, was 30 to 100 times higher than the B-cell lines tested. These results support the suggestion of earlier investigators that T-cell lines examined here may have originated from leukemic cells.
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PMID:Deoxynucleotide-polymerizing enzyme activities in T- and B-cells of acute lymphoblastic leukemia origin. 108 65


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