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)

Phosphonoacetate is a highly specific inhibitor of herpes simplex virus-induced DNA polymerase. Sensitivity of herpesvirus type 1 or type 2 induced DNA polymerase to the drug was similar. However, DNA polymerases from other sources such as the host cells (Wi-38), Micrococcus luteus, and hepatitis B virus were highly resistant. In addition, Escherichia coli RNA polymerase and reverse transcriptase of Rous sarcoma virus were also insensitive to the drug. Enzyme kinetic studies showed that inhibition was noncompetitive with respect to deoxyribonucleotide triphosphates. The Ki value was about 0.45 muM. The apparent Km values for dTTP, dATP, dCTP, and dGTP were 0.71, 0.75, 0.42, and 0.39 muM, respectively. The base composition of template has no profound effect on the extent of inhibition. The drug caused uncompetititve inhibition with respect to template which indicated that phosphonoacetate did not bind directly to template DNA. Results are presented which suggest that phosphonoacetate did not affect the formation of the enzyme-DNA complex but probably inhibited the elongation step of DNA polymerase reaction.
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PMID:Mode of inhibition of herpes simplex virus DNA polymerase by phosphonoacetate. 5 71

A model RNA template-primer system is described for the study of RNA-directed double-stranded DNA synthesis by purified avian myeloblastosis virus DNA polymerase and its associated RNase H. In the presence of complementary RNA primer, oligo(rI), and the deoxyribonucleoside triphosphates dGTP, dTTP, and dATP, 3'-(rC)30-40-poly(rA) directs the sequential synthesis of poly(dT) and poly(dA) from a specific site at the 3' end of the RNA template. With this model RNA template-primer, optimal conditions for double-stranded DNA synthesis are described. Analysis of the kinetics of DNA synthesis shows that initially there is rapid synthesis of poly(dT). After a brief time lag, poly(dA) synthesis and the DNA polymerase-associated RNase H activity are initiated. While poly(rA) is directing the synthesis of poly(dT), the requirements for DNA synthesis indicate that the newly synthesized poly(dT) is acting as template for poly(dA) synthesis. Furthermore, selective inhibitor studies using NaF show that activation of RNase H is not just a time-related event, but is required for synthesis of the anti-complementary strand of DNA. To determine the specific role of RNase H in this synthetic sequence, the primer for poly(dA) synthesis was investigated. By use of formamide--poly-acrylamide slab gel electrophoresis, it is shown that poly(dT) is not acting as both template and primer for poly(dA) synthesis since no poly(dT)-poly(dA) covalent linkages are observed in radioactive poly(dA) product. Identification of 2',3'-[32P]AMP on paper chromatograms of alkali-treated poly(dA) product synthesized with [alpha-32P]dATP as substrate demonstrates the presence of rAMP-dAMP phosphodiester linkages in the poly(dA) product. Therefore, a new functional role of RNase H is demonstrated in the RNA-directed synthesis of double-stranded DNA. Not only is RNase H responsible for the degradation of poly(rA) following formation of a poly(rA)-poly(dT) hybrid but also the poly(rA)fragments generated are serving as primers for initiation of synthesis of the second strand of the double-stranded DNA.
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PMID:Model RNA-directed DNA synthesis by avian myeloblastosis virus DNA polymerase and its associated RNase H. 8 56

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

Crude extracts of Escherichia coli selectively convert fd viral DNA and not phiX174 DNA to duplex DNA via a complex series of reactions one of which involves RNA polymerase. Reactions leading to formation of fd duplex-replicative (RFII) structures have been reconstituted with purified proteins from E. coli. Maximal synthesis requires the combined action of E. coli binding protein, DNA elongation factor I, DNA elongation factor II preparations (which are a mixture of dna Z and DNA elongation factor III), DNA polymerase III, DNA-dependent RNA polymerase, Mg2+, dATP, dGTP, dCTP, dTTP, and ATP, GTP, CTP, and UTP. In contrast to crude extracts of E. coli, purified protein fractions do not distinguish between fd DNA and phiX174 DNA in duplex DNA formation. The addition of crude fractions of E. coli to the purified components listed above selectively permits fd RFII formation and prevents phiX RFII formation. This selective inhibition was used as an assay to isolate proteins essential for this phenomenon; they include RNase H, discriminatory factor alpha, and discriminatory factor beta.
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PMID:Selective inhibition of in vitro DNA synthesis dependent on phiX174 compared with fd DNA. I. Protein requirements for selective inhibition. 14 Jan 66

The effect of Rolly No. 11 strain herpes simplex virus infection of HeLa cells in culture on deoxynucleotide metabolism and the level of various enzymes concerned with the biosynthesis of DNA has been investigated. Of 18 enzyme activities studied, thymidine kinase, DNA polymerase and deoxyribonuclease were markedly augmented, a finding in agreement with previous reports. Deoxycytidine kinase, ribonucleotide reductase, thymidylate kinase and deoxycytidylate deaminase activities, in contrast with previous reports, did not increase; the activities of the other enzymes studied, also did not increase. Whereas most of the radioactivity derived from [14-C] thymidine in the acid-soluble fraction of the uninfected cells was present as deoxythymidine triphosphate, that present in the infected cells was primarily in the form of deoxythymidine monophosphate. Thus, in the infected cell deoxythymidylate kinase is a rate-limiting enzyme in the biosynthesis of deoxythymidine triphosphate. A marked increase in the pools of the four naturally occurring deoxynucleoside triphosphates (dTTP, dCTP, dATP, dGTP) was found. The rate of formation of the virus-induced enzymes was determined, as were the various nucleoside triphosphate pools and the other phosphorylated derivatives of thymidine; a maximum was reached for all these csmponents between 6 to 8 h post infection. Although an apparent greater synthesis of DNA occurred in the uninefected cells, when the specific activity of the radioactive deoxythymidine triphosphate was taken into account, there was actually a greater rate of DNA synthesis in the infected cells, with the peak at 8 h post infection.
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PMID:Deoxyribonucleotide metabolism in Herpes simplex virus infected HeLa cells. 16 49

The high error rate characteristic of DNA polymerases from RNA tumor viruses has permitted measurements on the simultaneous incorporation of complementary and noncomplementary nucleotides during DNA synthesis. For example, avian myeloblastosis virus DNA polymerase incorporates 1 molecule of dCMP for approximately 500 molecules of dTMP polymerized using polyriboadenylic acid as a template. The parallel incorporation of complementary and noncomplementary nucleotides afer gel filtration of avian myeloblastosis virus DNA polymerase indicates that the observed fidelity is catalyzed by the polymerase itself. Nearest neighbor analysis of the product indicates that noncomplementary nucleotides are incorporated as single base substitutions. The incorporation of the noncomplementary dCMP is not reduced by a 20-fold greater amount of the complementary nucleotide, dTTP. Conversely, the concentration of the noncomplementary nucleotides does not effect the rate of incorporation of the complementary nucleotide. A similar lack of competition between complementary dGTP and noncomplementary dATP is exhibited using poly(rC)-oligo(dG) as a template-primer. Furthermore, there was no detectable competition between the different noncomplementary nucleotides. Possible explanations for this lack of competition are considered.
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PMID:Avian myeloblastosis virus DNA polymerase. Kinetic studies on the incorporation of noncomplementary nucleotides. 17 98

A class of precursor DNA (pDNA) II molecules has been identified as the immediate precursor of simian virus 40 DNA I. A pDNA II molecule contains a strand of newly synthesized DNA with an interruption located in the region where DNA synthesis terminates (4). These pDNA II molecules have been isolated and further characterized. They are converted to covalently closed structures (simian virus 40 DNA I) only when they are treated in vitro with both T4 DNA polymerase and Escherichia coli ligase. After in vitro repair of pDNA II with T4 DNA polymerase and nucleoside triphosphates, approximately 7 mol of alpha-[32P]dATP is incorporated per mol of DNA II. Alkaline sucrose analysis of these gap-filled molecules, after they have been cleaved with Eco RI restriction endonuclease, has demonstrated that gaps are specifically located in the termination region. alpha-[32P]dATP is incorporated equally into the two labeled products that are generated by RI cleavage of these molecules. This indicates the presence of gaps in both the newly synthesized plus the minus strands. Electrophoretic analysis of the gap-filled molecules, after they have been cleaved with endonuclease Hind, has shown that gaps are localized in Hind fragments G and B and to a minor degree in fragment J. pDNA II molecules have the following properties. There is a gap in the newly synthesized linear DNA strand contained in the pDNA II molecule. Nicked pDNA II molecules cannot be detected. The two molecules that arise by segregation contain gaps in both of the complementary strands. Based on the amount of alpha-[32P]dATP incorporated and the rate of exonuclease III digestion of gap-filled molecules, it is estimated that the size of the gaps is between 22 and 73 nucleotides. Models for termination of DNA synthesis are proposed based on these findings.
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PMID:Simian virus 40 DNA replication: characterization of gaps in the termination region. 17 34

In the presence of RNA polymerase, RNase H, discriminatory factors alpha and beta, Escherichia coli binding protein, DNA elongation factor I, DNA elongation factor II preparation, DNA polymerase III, and ATP, UTP, GTP, CTP, dATP, dTTP, dGTP, and dCTP, fd viral DNA can be quantitatively converted to RFII containing a unique gap in the linear minus strand. This gap, mapped with the aid of restriction endonucleases HinII and HpaII, is located within Fragment Hpa-H of the fd genome. The discrimination reaction has been resolved into two steps: Step A, fd viral DNA, E. coli binding protein, and discriminatory factors alpha and beta form a protein DNA complex; Step B, the complex isolated by agarose gel filtration selectively forms fd RFII when supplemented with RNase H, RNA polymerase, and the DNA elongation proteins. The omission of any of the proteins described above during the first reaction resulted in either no discrimination or a decrease in discrimination when the missing protein was added during the second step. Results are presented which indicate that E. coli binding protein, discriminatory factors alpha and beta, and RNase H must be present during the time RNA synthesis occurs in order to selectively form RFII from fd DNA and not phiX RFII. The amount of fd and phiX174 RNA-DNA hybrid formed in vitro is directly related to the DNA synthesis observed. Thus, under discriminatory conditions, only fd viral DNA leads to fd RNA-DNA complexes and no phiX RNA-DNA hybrid is formed. Under nondiscriminatory conditions, both DNAs yield RNA-DNA hybrids and DNA synthesis. In the absence of discriminatory factor alpha, no RNA-DNA hybrid is formed with either DNA, and in turn, no DNA synthesis is detected with either DNA template.
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PMID:Selective inhibition of phiX RFII compared with fd RFII DNA synthesis in vitro. II. Resolution of discrimination reaction into multiple steps. 32 48

We have synthesized fd and phi X174DNA in the presence of 2'-deoxyadenosine 5'-O-(1-thiotriphosphate) (dATP alpha S) and the corresponding phosphorothioate derivatives of dCTP and dTTP using ether-permeabilized E. coli cells or crude cell extracts of E. coli DNA polymerase I. Reaction rates of enzymes involved in the formation or breakdown of DNA are decreased in the presence of phosphorothioates. The amount of label incorporated with [35S]dATP alpha S suggests that the dAMP has been completely substituted by 2'-deoxyadenosine 5'-0-phosphorothioate (dAMPS). The substituted DNAs have the same sedimentation coefficients, similar buoyant density, infectivity, and thermal stability as the unsubstituted DNAs. The procedure therefore allows specific modification at the 5' position of dA, dC, or dT in the DNA. In view of the recent demonstration of specific binding of Pt2+ complexes to the phosphorothioate analogue of poly[r(A-U)] (Strothkamp, K.G., and Lippard, S.J. (1976), Proc. Natl. Acad. Sci. U.S.A. 73, 2536), the synthesis of phosphorothioate containing DNA may be of use for DNA sequencing by electron microscopy.
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PMID:Incorporation of phosphorothioate groups into fd and phi X174 DNA. 32 75

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

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