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)

Treatment of the eukaryotic organism Tetrahymena with various types of DNA-damaging agents has been reported to cause a 35-fold induction of a mitochondrial DNA polymerase. We here report that the enzyme can be induced in large-scale cultures by exposure of the cells to thymine starvation and/or intercalating agents. The induced DNA polymerase has been purified to near homogeneity, with a specific activity of approx. 300,000 units/mg protein. The relative molecular mass of the active form of the enzyme is approx. 100,000, as determined by glycerol gradient sedimentation. The subunit structure has been analysed by SDS polyacrylamide gel electrophoresis of the highly purified preparation and by immunoprecipitation with a monoclonal antibody directed to the DNA polymerase. A polypeptide of Mr 47,000 has been observed to be a subunit of the enzyme. This corresponds to the size of the subunits suggested for mitochondrial DNA polymerase from chicken embryos and mouse myeloma cells.
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PMID:Purification and characterization of an inducible mitochondrial DNA polymerase from Tetrahymena thermophila. 381 2

The effects of the antiprogestin RU 486 on the human endometrium were investigated. Seventeen postmenopausal women were injected with estradiol (E2) benzoate (0.625 mg/day) for 15 days. Progesterone (P) (25 mg/day) and/or RU 486 (100 or 200 mg/day) were given to groups of 2-3 women during the last 6 days of E2 benzoate treatment. Serial blood samples were drawn for the measurement of plasma E2, P, and LH and FSH. An endometrial biopsy was performed on the last day of treatment, and processed for histology or for assays of DNA polymerase alpha, E2-dehydrogenase (E2DH), and P receptor (PR). Treatment with E2 benzoate alone resulted in a marked decrease of plasma gonadotropins; in those patients who received either P, RU 486, or both, in addition to E2 benzoate, the concentrations of plasma LH and FSH were further decreased to premenopausal levels. In absence of glycerol, the affinity of RU 486 for the endometrial PR (Kd = 0.8 nM) was higher than that of P (Kd = 1.2 nM). Glycerol decreased markedly the affinity of RU 486, whereas the affinity of P for the PR was unchanged. RU 486 had negligible affinity for plasma transcortin. Either P or RU 486, but not both together, induced secretory changes in the endometrium as determined from histologic sections of tissue biopsies. Either P or RU 486 decreased DNA polymerase alpha and increased E2-DH activities in the endometrium. Unexpectedly, when P and RU 486 were given together. E2-DH activity remained at the level found in E2-treated women. In vitro cultures of proliferative endometrium treated with the synthetic progestagen R 5020 or with RU 486 also had increased E2-DH activity; RU 486 counteracted R 5020 effects. We conclude that, contrary to previous results with experimental animals, the anti-P RU 486 has some progestomimetic activity in humans under specific conditions. Paradoxically, when given together with P, RU 486 lost most of its progestomimetic activity in the endometrium and behaved as a pure antagonist.
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PMID:Endometrial and pituitary responses to the steroidal antiprogestin RU 486 in postmenopausal women. 396 88

Three DNA polymerase isoenzymes, which have been called A, B and C, were purified from Thermus thermophilus HB-8. These enzymes can be separated by chromatography (pH 7.5) on phosphocellulose and DNA-agarose. Their relative molecular masses, as determined by glycerol gradient centrifugation, fall in the range of 110000-120000. The three of them are devoid of exonuclease activity. Species A, B and C differ in their sensitivity towards N-ethylmaleimide (A greater than B greater than C) and urea (A greater than B = C) and also in their stability at high temperature (90 degrees C) (B greater than C greater than A). In addition, these enzymes can be distinguished utilizing various templates under different conditions. Thus, with activated DNA and Mg2+ as a cofactor, the highest incorporation is obtained at 50 degrees C with enzyme A and at 63 degrees C with enzymes B and C. If Mg2+ is replaced by Mn2+, the optimal temperatures remain unchanged, but enzyme A is stimulated twofold, while the activities of enzymes B and C decrease to one-half. On the other hand, with either poly(dA) X (dT)10 or poly(dA-dT) and Mg2+, enzyme A is inactive and enzyme C is severalfold more active than enzyme B. With the former synthetic template, optimal temperatures are 50 degrees C (enzyme C) and 40 degrees C (enzyme B), while with poly(dA-dT) they both work best at 63 degrees C. In turn, only enzyme C is able to utilize poly(rA) X (dT)10, although only with Mn2+ as a cofactor.
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PMID:DNA polymerases from the extremely thermophilic bacterium Thermus thermophilus HB-8. 399 3

Two forms of DNA polymerase alpha, alpha 1 and alpha 2, have been partially purified from mouse FM3A cells by discriminating one form from the other on the basis of the association of primase activity. The primase activity in the most purified alpha 1 fraction co-sedimented with the DNA polymerase activity in a glycerol gradient, and almost no primase activity was detected in the most purified alpha 2 fraction. The primase activity associated with DNA polymerase alpha was assayed indirectly by measuring ATP-dependent DNA synthesis with poly (dT) as template. Characterization of the assay system was performed with the purified alpha 1. The system was absolutely dependent on the presence of ATP and a divalent cation. Mn2+ was much more effective than Mg2+, and 5-fold higher activity was observed with Mn2+ than with Mg2+ at their optimal concentrations. The primase activity assayed by the above system showed sensitivity to (NH4)2SO4 very similar to that of free primase reported by Tseng and Ahlem (J. Biol. Chem. 258, 9845-9849, 1983). The activity was inhibited by more than 50% by 20 mM (NH4)2SO4. alpha 1 and alpha 2 were very similar as DNA polymerases in their sensitivity to several inhibitors and their preference for template-primers, except that alpha 1 had a slightly greater preference for poly (dT) X (rA)10 than alpha 2 did. The major difference between the two forms was observed in their S values, 8.2 and 6.4 S for alpha 1 and alpha 2, respectively.
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PMID:Purification and characterization of two forms of DNA polymerase alpha from mouse FM3A cells: a DNA polymerase alpha-primase complex and a free DNA polymerase alpha. 400 61

The levels of DNA polymerase alpha and beta activities were measured during the cell cycle using a total cell homogenate technique. The results indicate a decrease in the levels of both enzyme activities during the G1 phase and a gradual increase as cells enter the S phase. The recovery of DNA polymerase activities was measured after heating for 10 min at 45.5 degrees C during the G1 phase (1.5 hr after mitotic release) or S phase (8-9 hr after mitotic release). This treatment reduced the levels of DNA polymerase beta activity to 20-30% and DNA polymerase alpha activity to 40-50% of their control activity for both G1 and S phase. The activity of DNA polymerase beta recovered fully during 20-25 hr after heating for both G1 phase or S phase cells. There was no recovery of the activity of DNA polymerase alpha during this time. Survival was measured when cells were irradiated (4 Gy) at various times after hyperthermia (10 min at 45.5 degrees C), and for both G1 and S phase the interaction between heat and X rays disappeared by 20-25 hr after heating and the same increase was observed for the recovery of DNA polymerase beta activity. Furthermore, treatment with cycloheximide inhibited protein synthesis and prevented recovery from heat damage assayed in terms of both cell survival and beta polymerase activity. These results, in addition to experiments with heat protection by glycerol or thermotolerance induced with sodium arsenite or fractionated heat doses, suggest that beta polymerase may be an important enzyme involved in repairing X-ray-induced damage that can result in cell lethality.
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PMID:DNA polymerase alpha and beta activities during the cell cycle and their role in heat radiosensitization in Chinese hamster ovary cells. 404 Oct 63

A family of enzymatic activities isolated from human mitochondria is capable of initiating DNA replication on single-stranded templates. The principal enzymes include at least a primase and DNA polymerase gamma and require that rNTPs as well as dNTPs be present in the reaction mixture. Poly(dC) and poly(dT), as well as M13 phage DNA, are excellent templates for the primase activity. A single-stranded DNA containing the cloned origin of mitochondrial light-strand synthesis can be a more efficient template than M13 phage DNA alone. Primase and DNA polymerase activities were separated from each other by sedimentation in a glycerol density gradient. Using M13 phage DNA as template, these mitochondrial enzymes synthesize RNA primers that are 9 to 12 nucleotides in size and are covalently linked to nascent DNA. The formation of primers appears to be the rate-limiting step in the replication process. Replication of M13 DNA is sensitive to N-ethylmaleimide and dideoxynucleoside triphosphates, but insensitive to rifampicin, alpha-amanitin, and aphidicolin.
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PMID:Isolation and characterization of a DNA primase from human mitochondria. 404 69

The conditions for dissociation of the DNA polymerase alpha-primase complex (DNA polymerase alpha 1) have been examined. It was revealed that 50% ethylene glycol effectively dissociated the complex. The dissociated DNA polymerase and primase were purified to eliminate cross-contaminating activities by column chromatography using buffers containing 50% ethylene glycol. The sedimentation coefficients of the purified DNA polymerase and primase were 7.1S and 5.7S, respectively. These two enzymes were mixed in the presence of 20% ethylene glycol and the mixture was sedimented through a glycerol gradient containing no ethylene glycol. The DNA polymerase and primase activities co-sedimented at 9.1S which corresponds to the S value of intact alpha 1, indicating the reconstitution of the DNA polymerase alpha-primase complex.
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PMID:Dissociation and reconstitution of a DNA polymerase alpha-primase complex. 406 57

A study was made of the DNA polymerase of reptilian type C virus isolated from Russell's viper spleen cells. Simultaneous detection experiments demonstrated the presence of 70S RNA and RNA-dependent DNA polymerase activity in reptilian type C virions. The endogenous activity was dependent on the addition of all four deoxynucleotide triphosphates and demonstrated an absolute requirement for a divalent cation. The reptilian viral DNA polymerase elutes from phosphocellulose at 0.22 M salt. In this respect, it is similar to the avian (avian myeloblastosis virus; AMV) viral enzyme but is different from the mammalian (Rauscher leukemia virus; RLV) viral enzyme which elutes at 0.4 M salt. The molecular weight of the viper DNA polymerase as estimated from glycerol gradient centrifugation is 109,000. It is a smaller enzyme than the AMV DNA polymerase (180,000 daltons) and somewhat larger than the RLV enzyme (70,000 daltons). A comparison of other properties of the type C reptilian DNA polymerase with the enzyme found in other type C oncogenic viruses is made.
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PMID:DNA polymerase in virions of a reptilian type C virus. 412 37

Infectious hamster leukemia virus (HaLV) contains a DNA polymerase different from those of murine and avian viruses. No endogenous reaction directed by the 60 to 70S RNA of HaLV could be demonstrated in detergenttreated HaLV virions, nor could the purified DNA polymerase copy added viral RNA. The virion RNA could, however, act as template for added avian myeloblastosis virus DNA polymerase and the HaLV DNA polymerase could efficiently utilize homopolymers as templates. The HaLV enzyme was like other reverse transcriptases in that certain ribohomopolymers were much better templates than the homologous deoxyribohomopolymers. No ribonuclease H activity could be shown in the HaLV enzyme, but neither could activity be found in the murine leukemia virus DNA polymerase. The hamster enzyme was unique in that poly(A) .oligo(dT) was a poor template, and globin mRNA primed with oligo(dT) was totally inactive as a template. Its uniqueness was also indicated by its subunit composition; electrophoresis of the HaLV DNA polymerase in sodium dodecyl sulfate-containing polyacrylamide gels revealed equimolar amounts of two polypeptides of molecular weight 68,000 and 53,000. The sedimentation rate of the enzyme in glycerol gradients was consistent with a structure containing one each of the two polypeptides. The enzyme thus appears to be structurally distinct from other known virion DNA polymerases. Its inability to carry out an endogenous reaction in vitro might result from an inability to utilize certain primers.
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PMID:Hamster leukemia virus: lack of endogenous DNA synthesis and unique structure of its DNA polymerase. 413 18

Kirsten murine sarcoma-leukemia virus (Ki-MSV[MLV]) was found to contain less RNase H per unit of viral DNA polymerase than avian Rous sarcoma virus (RSV). Upon purification by chromatography on Sephadex G-200 and subsequent glycerol gradient sedimentation the avian DNA polymerase was obtained in association with a constant amount of RNase H. By contrast, equally purified DNA polymerase of Ki-MSV(MLV) and Moloney [Mo-MSV(MLV)] lacked detectable RNase H if assayed with two homopolymer and phage fd DNA-RNA hybrids as substrates. On the basis of picomoles of nucleotides turned over, the ratio of RNase H to purified avian DNA polymerase was 1:20 and that of RNase H to purified murine DNA polymerase ranged between <1:2,800 and 5,000. Based on the same activity with poly (A).oligo(dT) the activity of the murine DNA polymerase was 6 to 60 times lower than that of the avian enzyme with denatured salmon DNA template or with avian or murine viral RNA templates assayed under various conditions (native, heat-dissociated, with or without oligo(dT) and oligo(dC) and at different template enzyme ratios). The template activities of Ki-MSV(MLV) RNA and RSV RNA were enhanced uniformly by oligo(dT) but oligo(dC) was much less efficient in enhancing the activity of MSV(MLV) RNA than that of RSV RNA. It was concluded that the purified DNA polymerase of Ki-MSV(MLV) differs from that of Rous sarcoma virus in its lack of detectable RNase H and in its low capacity to transcribe viral RNA and denatured salmon DNA. Some aspects of these results are discussed.
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PMID:DNA polymerase of murine sarcoma-leukemia virus: lack of detectable RNase H and low activity with viral RNA and natural DNA templates. 435 18

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