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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 DNA polymerase induced by Bacillus subtilis bacteriophage PBS2 (whose DNA contains uracil instead of thymine) has been purified and characterized for its specificity. The enzyme requires a high ionic strength for optimal stability and activity and is sensitive to various anions and to sulfhdryl reagents. Both dUTP and dTTP are incorporated efficiently as substrates and are competitive inhibitors at the same active site. The apparent Km and Ki values are about 6 micrometers for dTTP and 15 micrometers for dUTP, when denatured, uracil-containing B. subtilis or salmon sperm DNA (3.9 micrometers for dUTP and 2.6 micrometers for dTTP). The PBS2 enzyme works best on denatured DNA, on double-stranded DNA activated by DNase to produce gaps, or on primed homopolymeric DNA. Using denatured DNA preparations of average molecular weight 6.2 million, the apparent Km values are 270 micrograms/ml for B. subtilis DNA and 360 micrograms/ml for PBS2 DNA; the Vmax value for denatured PBS2 DNA containing uracil is 7-fold greater than that for denatured B. subtilis DNA containing thymine. However, lower molecular weight DNAs have 10-fold lower apparent Km values and show similar Vmax values for both B. subtilis and PBS2 DNAs. Thus, the PBS2 phage-induced DNA polymerase (which likely replicates only uracil-containing phage DNA using dUTP in vivo) has little selectivity for uracil- versus thymine-containing deoxyribonucleotides or DNA in vitro.
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PMID:Bacillus subtilis bacteriophage PBS2-induced DNA polymerase. Its purification and assay characteristics. 10 47

In vivo studies of PBS2 phage replication in a temperature-sensitive Bacillus subtilis DNA polymerase III (Pol III) mutant and a temperature-resistant revertant of this mutant have suggested the possible involvement of Pol III in PBS2 DNA synthesis. Previous results with 6-(p-hydroxyphenylazo)-uracil (HPUra), a specific inhibitor of Pol III and DNA replication in uninfected cells, suggest that Pol III is not involved in phage DNA replication, due to its resistance to this drug. Experiments were designed to examine possible explanations for this apparent contradiction. First, assays of the host Pol III and the phage-induced DNA polymerase activities in extracts indicated that a labile Pol III did not result in a labile phage-induced enzyme, suggesting that this new polymerase is not a modified HPUra-resistant form of Pol III. Indeed the purified phage-induced enzyme was resistant to the active, reduced form of HPUra under all assay conditions tested. Since in vitro Pol III was capable of replicating the uracil-containing DNA found in this phage, the sensitivity of the purified enzyme to reduced HPUra was examined using phage DNA as template-primer and dUTP as substrate; these new substrates did not affect the sensitivity of the host enzyme to the drug.
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PMID:Relationship of Bacillus subtilis DNA polymerase III to bacteriophage PBS2-induced DNA polymerase and to the replication of uracil-containing DNA. 10 52

Bacillus subtilis W23 was infected with a clear-plaque variant of SP-10 phage, namely, SP-10c. Exogenous thymidine was not incorporated into phage DNA (even in the presence of deoxyadenosine), nor was there any transfer of thymidine nucleotides from bacterial to viral DNA. The lytic program was unaffected by concentrations of 5-fluorodeoxyuridine sufficient to reduce bacterial DNA synthesis by greater than 95%. Although these data are consistent with the interpretation that thymidine nucleotides are excluded from phage DNA, formic acid digests of SP-10c DNA contained what appeared to be the four conventional bases; however, adenine and thymine were not recovered in equimolar yields. DNA-RNA hybridization and hybridization competition experiments were done. Synthesis of host RNA started to wane moments postinfection and stopped completely by 36 min. SP-10c coded for discrete classes of early and late RNA. The possibility of discrete subclasses of early RNA exists. Replication of the bacterial genome appeared to terminate 12 min postinfection. Degradation of the host DNA to acid-soluble material started at 36 min and, by the end of the latent period, greater than 90% of the host chromosome was hydrolyzed. Four apparent phage-coded enzymes have been identified. A di- and triphosphatase degraded dUTP, dUDP, dTTP, and dTDP (and, to a lesser extent, dCDP and d CTP) to the corresponding monophosphates; the enzyme had no apparent activity on dATP and dGTP. SP10c also coded for a DNA-dependent DNA polymerase, lysozyme, and a nuclease that degrades native bacterial DNA. Judging from the dependence of enzyme synthesis on the time of addition of rifampin (an inhibitor of the initiation of RNA synthesis), messengers for the di- and triphosphatase, as well as the nuclease, are transcribed from promoters that start to function 6 min postinfection. Promoters for polymerase and lysozyme did not become functional until 8 and 16 min postinfection, respectively.
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PMID:SP-10 bacteriophage-specific nucleic acid and enzyme synthesis in Bacillus subtilis W23. 13 89

DNA polymerase-alpha and -beta can be distinguished from one another by the differential effects of N-ethylmaleimide, KCl, ara-CTP and temperature, as well as on the basis of sedimentation. The sensitivity of DNA polymerase-beta to elevated temperatures as compared to DNA polymerase-alpha provides a new means of distinguishing between these two enzymes even in crude extracts and a possible probe for determining their function. DNA polymerase-alpha and -beta share several properties in common, including the ability to readily incorporate dUTP in place of dTTP. The Km for dUTP varies from 10 to 30 micron with different preparations of DNA polymerase-alpha and -beta. Thus, in mammalian cells, dUMP could be incorporated into DNA, and if excised by an endonuclease, would lead to discontinuities. Initial analyses of fidelity in direct comparative studies indicate that beta-class DNA polymerases are highly accurate in base selection when copying poly[d(A-T)]. Less than one molecule of dGMP is incorporated for every 12 000-45 000 molecules of dAMP and dTMP polymerized. DNA polymerase-alpha is somewhat less accurate, making one mistake for every 4000-10 000 correct nucleotides incorporated. Since both polymerases lack an exonucleolytic activity, this accuracy must be the result of selectivity for the complementary nucleotide by the polymerase.
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PMID:Distinctive properties of mammalian DNA polymerases. 28 7

The chemical synthesis of 5-alkyl-dUTP-s and their participation as substrates in poly[d(A-6)] primed polymerization reactions with dATP by E. coli DNA polymerase I enzyme has been described. In comparison with dTTP, at saturating substrate concentrations, the rate of hypochromic effect was found to be 17.3% higher for dUTP and was lower by 27.4% for 5-ethyl-dUTP, 29.5% for 5-n-propyl-dUTP, 31.4% for 5-n-butyl-dUTP and by 85.0% for 5-n-pentyl-dUTP. No hypochromic effect could be observed, however, with 5-iso-propyl-, 5-tert.butyl- and 5-n-hexyl-dUTP-s. Polydeoxynucleotides have also been isolated from the reaction mixture and some of their structural properties determined.
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PMID:Modified polynucleotides. I. Investigation of the enzymatic polymerization of 5-alkyl-dUTP-s. 33 94

A method is described for distinguishing deoxyuridine and deoxythymidine di- and triphosphate pools. The method utilizes a DNA polymerase assay for triphosphate determination and a coupled assay in which the disphosphate is converted to its corresponding triphosphate by nucleoside-diphosphate kinase and the triphosphate is measured by the DNA polymerase assay. By including deoxyruidine-triphosphate nucleotidohydrolase in the reaction mixture, dUTP is removed as a substrate for the polymerase. By determining differences in labelled acid-insoluble product formed in the reaction it is possible to determine dUTP, dUDP, dTDP and dTTP pools. Ribonucleotide reductase activity was determined by converting either CDP or ADP to its corresponding deoxyribonucleoside disphosphate and then using the diphosphate assay described for deoxyribonucleoside pools.
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PMID:An enzymatic method for distinguishing deoxyuridine and deoxythymidine nucleotide pools and its application for determining ribonucleotide reductase activity. 39 11

DNA polymerases alpha and beta (EC 2.7.7.7.) from calf thymus could utilize dUTP as a substrate for DNA synthesis as well as DNA polymerase I of Escherichia coli. Deoxyuridylate was incorporated into DNA by replacing deoxythymidylate and supported the further elongation of DNA chains on activated DNA or on the intiated homopolymers, poly(dA) . (dT)10 and poly(rA) . (dT)10. The rate of the incorporation of deoxyuridylate into DNA varied from 50 to 160% of that of deoxythymidylate, depending on the nature of the template primers and the species of DNA polymerase used. The apparent Km values for dUTP were very similar to those for dTTP. Uracil DNA-glycosylase excised efficiently the uracil residues in products of DNA polymerase reactions with either activated calf thymus DNA or initiated homopolymers.
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PMID:Utilization in vitro of deoxyuridine triphosphate in DNA synthesis by DNA polymerases alpha and beta from calf thymus. 42 63

[3H]dUMP was incorporated into DNA of isolated S-phase HeLa S3 cell nuclei during DNA synthesis. The incorporated radioactivity was made acid soluble during a chase with excess TTP. A partially purified DNA polymerase alpha incorporated [3H]dUMP into activated salmon sperm DNA. The incorporation rate was equal to the incorporation of [3H]TMP, and the radioactivity incorporated was not made acid soluble during a chase. The nuclei thus have the ability to remove misincorporated uracil. From cytosol we have partially purified an enzyme (80 times purification) that splits the N-glycosidic bond between uracil and deoxyribose in dUMP-containing DNA. This uracil-N-glycosidase has a molecular weight of about 50 000. It does not accept dUTP or RNA as substrates. Pulse labelling of isolated nuclei with radioactive deoxyribonucleoside triphosphates in the presence of dUTP lead to a large accumulation of label in small DNA fragments. The size of these fragments was about 80 nucleotides in a 60 s pulse and no increase in size was observed with increasing pulse length. The corresponding value for control experiments with no dUTP, was 200 nucleotides and the fragments increased in size with increasing pulse length. About 90% of the radioactivity was found in the small fragments after a 3 min pulse when the concentration of dUTP in the test mixture was 100 micrometer and no exogenous TTP was present. In control experiments with no dUTP present, only 14% of the radioactivity was found in small DNA pieces. When test mixture containing dUTP was preincubated with cytosol for 60 s before adding the isolated nuclei, the small fragments increased in size to that of DNA fragments found in control incubations; also the relative amount of label bound to the fragments returned to the levels found in the controls. Increasing the TTP concentration from 5 micrometer to 1.88 mM in the absence of exogenous dUTP had no effect on the size of the DNA fragments.
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PMID:Accumulation of small fragments of DNA in isolated HeLa cell nuclei due to transient incorporation of dUMP. 70 36

The 5-thio and 5-methylmercurithio derivatives of UTP, dUTP and dCTP have been synthesized and tested as substrates for nucleic acid polymerases. The 5-thio-nucleotides were polymerized inefficiently by both RNA polymerase and DNA polymerase I of Escherichia coli. The 5-methylmercurithio derivatives of dUTP and dCTP were, however, utilized by DNA polymerase I, an enzyme insensitive to mercurial compounds, although they were potent inhibitors of all other polymerases tested. While polymers containing the 5-thio substituent possess structural abnormalities, most likely interstrand disulfide bridges, polymers containing 5-methylmercurithio groups appear normal. The latter polynucleotides are readily separated from non-sulfated polymers by chromatography on mercuriagarose.
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PMID:The synthesis and enzymatic polymerization of 5-thio- and 5-methylmercurithio-pyrimidine nucleotides. 79 73

Extracts of Bacillus subtilis contain a deoxyuridinetriphosphatase (dUTPase) activity with a molecular weight of approximately 48,000. The enzyme is maximally active at pH 8.5, being stimulated by Mg2+ and inhibited by EDTA. The enzyme is specific for dUTP among all the natural nucleotides tested, with an apparent Km for dUTP of 2 muM. Bacteriophage PBS2, whose DNA contains uracil instead of thymine, induces upon infection of B. subtilis a new 83,000-dalton protein which inhibits the host's dUTPase. The inhibitor acts immediately and reversibly in vitro to inhibit dUMP production from dUTP. The inhibitor's action is maximal in dUTPase assays performed at pH 6 to 7, and is minimal at pH 9.7. The inhibitor seems to form a higher molecular weight complex with the B. subtilis dUTPase. Increasing the pH of the medium for PBS2 infection from pH 7 to pH 8.85 caused a dramatic decrease in the synthesis of phage DNA and progeny phage. The newly synthesized DNA had an altered thymine/uracil ratio, being increased from less than 0.03 to greater than 1.0. We propose that infection at high pH prevents the PBS2-induced dUTPase inhibitor from blocking the B. subtilis dUTPase activity, thereby allowing the degradation of dUTP and the synthesis of dTTP (both of which are DNA polymerase substrates), so that thymine replaces some of the uracil normally found in PBS2 DNA.
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PMID:Bacillus subtilis deoxyuridinetriphosphatase and its bacteriophage PBS2-induced inhibitor. 81 Apr 87

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