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)

The effects on DNA synthesis in vitro in mouse L929-cell nuclei of differential extraction of DNA polymerases alpha and beta were studied. Removal of all measurable DNA polymerase alpha and 20% of DNA polymerase beta leads to a 40% fall in the replicative DNA synthesis. Removal of 70% of DNA polymerase beta inhibits replicative synthesis by 80%. In all cases the nuclear DNA synthesis is sensitive to N-ethylmaleimide and aCTP (arabinosylcytosine triphosphate), though less so than DNA polymerase alpha. Addition of deoxyribonuclease I to the nuclear incubation leads to synthesis of high-molecular-weight DNA in a repair reaction. This occurs equally in nuclei from non-growing or S-phase cells. The former nuclei lack DNA polymerase alpha and the reaction reflects the sensitivity of DNA polymerase beta to inhibiton by N-ethylmaleimide and aCTP.
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PMID:Involvement of deoxyribonucleic acid polymerase beta in nuclear deoxyribonucleic acid synthesis. 68 72

A technique is described for preparation of 3H-labelled DNA by nick-translation employing deoxyribonuclease I and DNA polymerase I. The labelled DNA can be obtained in high yield with specific activities of 10(6) cpm/mug or more. Ribosomal DNA, isolated from ovaries of young Xenopus laevis, and whole DNA from Plethodon cinereus were labelled in this way. The rDNA was used for in situ hybridization to meiotic chromosomes from P. cinereus, P. vehiculum and P. dunni. Autoradiographs of in situ hybrids were exposed for 5 to 10 days, by which time nucleolus organizer regions on the chromosomes of all 3 species were clearly and specifically labelled. In all cases, labelling was confined to a short region near the middle of the short arm of both halves of a medium length bivalent. It is concluded that nick-translation is a useful and altogether efficient method of labelling nucleic acids for subsequent use in experiments involving in situ hybridizations.
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PMID:In situ hybridization of "nick-translated" 3H-ribosomal DNA to chromosomes from salamanders. 124 32

The activity of bleomycin to break the strand of deoxyribonucleic acid (DNA) in the presence of 2-hydroxy-1-ethanethiol (2-mercaptoethanol) was enhanced by ultraviolet (UV) irradiation. Photo-activated bleomycin stimulated the action of deoxyribonuclease I (DNase I) to degrade DNA and the DNA synthesis by DNA polymerase I with DNase I. On the other hand, although UV-irradiated bleomycin scarcely broke the DNA strand in the presence of 1,2-benzenediol (catechol), it stimulated the action of DNase I to degrade DNA in the presence of catechol. In accordance with the inhibition by catechol, when DNA treated with UV-irradiated bleomycin in the presence of catechol was employed as a primer for the DNA synthesis, the incorporation of precursor into the acid-insoluble fraction by DNA polymerase I with exonuclease III was reduced to about one-half of the incorporation into DNA treated with unirradiated bleomycin. These findings suggest that the ability of bleomycin to bind to double-helical DNA forming regions sensitive to DNase I was increased by an appropriate dose of UV irradiation and that catechol inhibited the activity of the UV-irradiated bleomycin to break the DNA strand rather than to bind to DNA.
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PMID:Effects of photo-activated bleomycin on deoxyribonuclease I, exonuclease III and deoxyribonucleic acid polymerase I reactions. 247 48

The duck hepatitis B virus (DHBV) has a DNA polymerase associated with it which uses the incomplete viral genome as endogenous template. A prerequisite for studying this polymerase is the availability of conditions to open viral cores without destroying their enzymatic activity. In this study, this was achieved by a brief treatment with low pH. DHBV DNA in low-pH-treated cores was susceptible to digestion with deoxyribonuclease I and restriction enzymes, and large restriction fragments diffused out of the viral cores. However, the DHBV polymerase remained tightly associated with its DNA template in the viral core structure and could still incorporate nucleotides into those DNA fragments which carried the DNA-bound protein and remained in the core. The DHBV polymerase could not switch to any of several exogenously supplied templates although these were most likely accessible to it. The manner in which this tight association of the DHBV polymerase with the core may occur, and the possible implications of this interaction during the DHBV replication cycle, is discussed.
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PMID:The duck hepatitis B virus DNA polymerase is tightly associated with the viral core structure and unable to switch to an exogenous template. 334 95

Several tests were devised to further characterize deoxyribonucleic acid (DNA) synthesis in toluenized Bacillus subtilis cells. Vigorous agitation of toluenized cells (localization test) demonstrated that the DNA replication is exclusively a cell-associated process. A DNA "repair" condition was also applied to toluenized cells and shown to be distinct from DNA replication in its DNA polymerase I dependency and its ability to synthesize DNA on template which is either cell associated or free, outside the cell. This repair condition was used in conjunction with the localization test to demonstrate the penetration of deoxyribonuclease I and possibly DNA polymerase I into toluenized cells. Therefore, we suggest that the localization test can be used to test the penetration of proteins into toluenized cells for both the DNA repair and replication processes.
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PMID:Tests for deoxyribonucleic acid synthesis in toluenized Bacillus subtilis cells. 420 14

The template requirements and deoxyribonucleic acid (DNA) products of the DNA polymerases isolated from Rauscher leukemia and avian myeloblastosis viruses have been examined. All DNA preparations or synthetic polydeoxynucleotides which are active as primers possess a duplex structure containing single-stranded regions with a 3'-hydroxyl terminus. Native DNA and fully single-stranded DNA are inactive; moreover, their activity is not enhanced by sonic oscillation or treatment with micrococcal nuclease, Neurospora nuclease, or low levels of deoxyribonuclease I. Poor DNA templates are activated by treatment with exonuclease III, large amounts of deoxyribonuclease I, or an endonuclease isolated from Rauscher viral preparations. In reactions primed with deoxyadenylate-deoxythymidylate copolymer, the product formed is covalently attached to primer strands, indicating that no new strands are initiated. DNA polymerase products formed with exonuclease III- or deoxyribonuclase I-treated DNA are duplex structures. Short single-stranded regions are completely filled in, whereas long single-stranded regions are only partly repaired. DNA preparations containing extensive single-stranded regions are poorly utilized as templates.
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PMID:RNA-dependent DNA polymerase activity of RNA tumor viruses. I. Directing influence of DNA in the reaction. 433 38

The incorporation of (3)H-labeled thymidine triphosphate ((3)H-dTTP) into deoxyribonucleic acid (DNA) of germinated and then Brij 58-treated Bacillus subtilis spores was measured to study DNA replication activity of cells. The dTTP incorporation rate was very low in dormant spores, gradually increased as germination proceeded, and reached a level of the vegetative cell activity approximately 4 hr after the start of germination. This is in contrast to the DNA polymerase activity in the cell extract which remained at the same level throughout the germination period. The increase of the dTTP incorporation activity was inhibited by chloramphenicol or phenethyl alcohol. When these inhibitors were added after germination had proceeded, the elevated dTTP incorporation activity gradually decreased. Permeability to dTTP of spores germinated in the presence of chloramphenicol and then treated with Brij 58 was confirmed by (i) (3)H-dTTP incorporation into the treated spores following either electron or ultraviolet irradiation and (ii) release of radioactivity from the treated spores containing radioactively labeled DNA after deoxyribonuclease I treatment.
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PMID:Increasing activity of germinating Bacillus subtilis spores to incorporate thymidine triphosphate into deoxyribonucleic acid after detergent treatment. 463 16

The effects of vanadium on some enzymes involved in DNA metabolism were investigated in vitro. Vanadate (V) ions competitively inhibit calf thymus terminal deoxynucleotidyl transferase with Ki = 2.5 microM. A binding of vanadium to the enzyme with no change of the amount of the Zn constituent of the protein was found at concentrations of vanadate causing inhibition. The catalytic activity of mammalian DNA polymerase alpha was also inhibited by vanadate ions at an I50 of 60 microM, while the bacterial (E. coli) DNA polymerase I was affected to the same extent only when the concentration of vanadate was raised to about 0.5 mM. In contrast to the inhibitory effects caused by vanadium on the nucleotidyl transferases, concentrations of pentavalent vanadium ions of the order of 10 microM increase 2.4-fold the hydrolytic activity of deoxyribonuclease I from bovine pancreas. These findings suggest that vanadium can interact with enzymes involved in nucleic acid metabolism.
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PMID:Different effects of vanadium ions on some DNA-metabolizing enzymes. 666 21

Human deoxyribonuclease I (DNase I), an enzyme used to treat cystic fibrosis patients, has been engineered to more effectively degrade double-stranded DNA to lower molecular weight fragments by altering its functional mechanism from the native single-stranded nicking pathway to a much more efficient one which results in increased double-stranded scission. By introducing positively charged amino acids at DNase I positions that can interact favorably with the proximal negatively charged phosphate groups of the DNA, we have created a hyperactive variant with approximately 35-fold higher DNA-degrading activity relative to wild type. This enhancement can be attributed to both a decrease in Km and an increase in Vmax. Furthermore, unlike wild-type DNase I, the hyperactive variants are no longer inhibited by physiological saline. Replacement of the same positions with negatively charged amino acids greatly reduced DNA cleavage activity, consistent with a repulsive effect with the neighboring DNA phosphates. In addition, these variants displayed similar activities toward a small synthetic substrate, p-nitrophenyl phenylphosphonate, suggesting that the difference in DNA cleavage activity is due to the interaction of the engineered charged residues with the DNA phosphate backbone rather than any change in catalytic machinery. Finally, experiments involving the repair of DNase I digested DNA with T4 DNA ligase and the Klenow fragment of DNA polymerase I suggest that single-stranded gaps are introduced by the hyperactive variants. Thus, the increased functional activity of the hyperactive variants may be explained in part by a shift toward a processive DNA nicking mechanism, which leads to a higher frequency of double-stranded breaks.
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PMID:Engineering hyperactive variants of human deoxyribonuclease I by altering its functional mechanism. 918 42

Bovine pancreatic deoxyribonuclease I (DNaseI) has been used to footprint T7 (exo-) DNA polymerase bound to a model primer-template junction. The polymerase was blocked at a specific position either by the omission of dCTP from the reaction mix or by the presence of a N-(deoxyguanosin-8-yl)-2-acetylaminofluorene (dGuo-AAF) adduct. This lesion has been shown to be a severe block for several DNA polymerases, both in in vitro primer elongation experiments, and during the in vivo replication of AAF-monomodified single-stranded vectors. The footprints obtained with unmodified primer-template DNA define two protected domains separated by an inter-region that remains sensitive to DNaseI, and several hypersensitive sites located on both strands. Binding of the polymerase to AAF monomodified duplexes results in the same protection pattern as that obtained with the unmodified duplexes. However, the hypersensitive sites either disappear or are dramatically reduced. The results suggest that the AAF lesion alters the correct positioning of the duplex DNA within the polymerase cleft.
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PMID:A single N-2-acetylaminofluorene adduct alters the footprint of T7 (exo-) DNA polymerase bound to a model primer-template junction. 953 79

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