Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We have purified a DNA helicase from calf thymus to apparent homogeneity by monitoring the activity with a strand displacement assay. DNA helicase followed the DNA polymerase alpha-primase complex through chromatography on phosphocellulose and hydroxylapatite. Separation from DNA polymerase alpha-primase complex as well as from the bulk of another DNA-dependent ATPase was achieved on heparin-Sepharose. Further purification steps included ATP-agarose and fast protein liquid chromatography-Mono S. A 47-kDa polypeptide cosedimented with the DNA helicase activity in a glycerol gradient as well as in gel filtration on Superose 6. The calf thymus DNA helicase had a sedimentation coefficient of 4-7 S and Stokes radius of about 45 A suggesting that the enzyme might be monomer in its functional form. DNA helicase activity requires a divalent cation with Mg2+ being more efficient than Mn2+ or Ca2+. Hydrolysis of ATP is required since the two nonhydrolyzable ATP analogs adenosine 5'-O-(3-thiotriphosphate) and adenylyl (beta, gamma-methylene)diphosphonate cannot substitute for ATP or dATP in the displacement reaction. Calf thymus DNA helicase is able to use ATP, dATP, dideoxy-ATP, CTP, and dCTP with Km for ATP and dATP of 0.2 and 0.25 mM, respectively. The enzyme can displace a fragment of 24 bases completely in an enzyme concentration- and time-dependent manner. The DNA helicase appears to bind to single-stranded DNA and to move to single-strand double-strand transition. The directionality of unwinding is 3'----5' with respect to the single-stranded DNA to which the enzyme is bound.
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PMID:DNA helicase from calf thymus. Purification to apparent homogeneity and biochemical characterization of the enzyme. 197 96

To study the proliferative response of hematopoietic cells to growth factors at the molecular level, we developed a cell-free system for growth factor-dependent initiation of genomic DNA replication. Nuclei were isolated from the IL-3-dependent cell line NFS/N1-H7 after a 10-h period of IL-3 deprivation. Cytosolic and membrane-containing subcellular fractions were prepared from proliferating NFS/N1-H7 cells. Nuclei from the nonproliferating cells (+/- IL-3) showed essentially no incorporation of [3H]thymidine during a 16-h incubation with a mixture of unlabeled GTP, ATP, UTP, CTP, dGTP, dATP, dCTP, and [3H]dTTP. When the combination of IL-3, a cytosolic fraction, and a membrane-containing fraction from proliferating cells was added to nuclei from nonproliferating cells, a burst of [3H]thymidine incorporation into DNA began after a 12-h lag period, attained a maximal rate at 16 h, and reached a level of 860 pmol thymidine/10(6) nuclei at 24 h (corresponding to replication of approximately 56% total mouse genomic DNA). This DNA synthesis was inhibited approximately 90% by the specific DNA polymerase alpha inhibitor aphidicolin. Deletion of a single cellular component or IL-3 from the system resulted in a marked reduction of DNA replication (-membrane, 80 +/- 4%; -cytosol, 90% +/- 4%; -IL-3, 74 +/- 7% inhibition). This model requires a growth factor (IL-3), a sedimentable cell fraction containing its receptor and possibly additional membrane-associated components, and a cytosolic fraction. It appears to recapitulate the molecular events required for progression from early G1 to S phase of the cell cycle induced by IL-3 binding to its receptor.
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PMID:Growth factor-dependent initiation of DNA replication in nuclei isolated from an interleukin 3-dependent murine myeloid cell line. 210 81

A DNA polymerase has been highly purified from Anacystis nidulans R2. Electrophoretic analysis in sodium dodecyl sulfate-polyacrylamide gels revealed that the final fraction contains three bands of Mr 107,000, 93,000, and 51,000, respectively. Analysis of purified DNA polymerase activity in situ indicates that of the three polypeptides the Mr 107,000 species has the catalytic activities. The native molecular weight of the enzyme was estimated by glycerol gradient sedimentation to be 100,000. The enzyme has an absolute requirement for a divalent cation. Mg2+ can be replaced with Mn2+, but the DNA polymerase is less active. Potassium chloride stimulates the enzyme, while potassium phosphate has no apparent effect. The enzyme is active over a pH range from 7.5 to 9.5 in 50mM Tris-HCl buffer. The ability of the cyanobacterial DNA polymerase to use activated DNA as a template, its associated 3'----5' and 5'----3' exonuclease activities, as well as its resistance to N-ethylmaleimide, dideoxynucleotides, arabinosyl-CTP and aphidicolin suggest a similarity between this enzyme and E. coli DNA polymerase I. This is the first characterization of a DNA polymerase from a cyanobacterium.
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PMID:Purification and characterization of a DNA polymerase from the cyanobacterium Anacystis nidulans R2. 212 41

A single-stranded DNA-dependent ATPase that cofractionates during the early stages of purification of a multiprotein DNA polymerase alpha complex from HeLa cells has been purified to homogeneity. The ATPase is part of a 16S multienzyme DNA polymerase alpha complex that is fully active in SV40 DNA replication in vitro. The ATPase hydrolyzes ATP to ADP in a reaction that is completely dependent on the presence of DNA. DNA in single-stranded form is strongly preferred as a cofactor, and polydeoxynucleotides with adenine or thymidine residues are highly effective. Glycerol gradient sedimentation showed that the purified ATPase sedimented at an s20,w of 7 S, and polyacrylamide gel electrophoresis under denaturing conditions reveals two polypeptides with relative molecular weights of 83,000 and 68,000. Both of these polypeptides have purine nucleotide binding sites as revealed by photoaffinity cross-linking experiments. ATP binds to the two subunits more efficiently than GTP, and CTP or UTP does not cross-link with the two polypeptides. DNA synthesis catalyzed by purified HeLa cell DNA polymerase alpha-primase is stimulated in the presence of ATPase and ATP at an optimum concentration of 2 mM. Analysis of the DNA product by gel electrophoresis indicates that with poly(dT) but not phage M13 DNA as template the ATPase overcomes a lag and decreases the length of nascent DNA chains synthesized by the DNA polymerase alpha-primase complex.
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PMID:Single-stranded-DNA-dependent ATPase from HeLa cells that stimulates DNA polymerase alpha-primase activity: purification and characterization of the ATPase. 214 84

HO-221, N-[4-(5-Bromo-2-pyrimidinyloxy)-3-chlorophenyl]-N'-(2-nitrobenzoyl ) urea is a novel benzoylphenylurea derivative. We previously reported HO-221 showed significant antitumor activities against various experimental tumor models, and was especially effective against the solid tumor. In this report we studied the mechanism of action of the compound. The inhibitory activity of HO-221 and 6 kinds of antitumor agents on DNA polymerase alpha was examined in vitro. HO-221 inhibited DNA polymerase alpha activity strongly. From the comparison with IC50 values of individual agents, the inhibitory activity of HO-221 was almost equivalent to aphidicolin and ara-CTP. By double reciprocal plot analysis, the inhibition of HO-221 was found to be non-competitive with the dCTP unlike that of aphidicolin and ara-CTP. Furthermore, HO-221 showed almost no effect on RNA polymerase activity and the protein synthesis. The effect of HO-221 on cell cycle progression of HL-60 cells was examined by flow cytometry analysis. The compound accumulated cells at S phase at a low concentration. The compound showed accumulation of cells in G1, G1-S and G2 + M phases. At higher concentrations, HO-221 increased the G1 phase of tumor cells, stopping the cell cycle progression. Therefore, G1 and S phase accumulation by HO-221 was considered to be correlated with the inhibition of DNA polymerase alpha dependent DNA synthesis. These results suggest that HO-221 is a novel antitumor agent with different mechanism of action from the known antitumor agents.
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PMID:[Mechanism of antitumor effect of a benzoylphenylurea derivative, HO-221]. 226 Aug 70

The cytotoxicity of ara-C is believed to result from incorporation of ara-CTP into DNA and inhibition of DNA synthesis. Since complete inhibition of DNA synthesis would prevent further incorporation of ara-CTP, ara-C may have a self-limiting effect on its own cytotoxicity, particularly at the high concentrations typical of high-dose ara-C clinical protocols. In this study, the incorporation of [3H]-dThd and [3H]-ara-C into DNA were compared. Within 1 h of exposure of L5178Y cells to ara-C, the rate of [3H]-dThd incorporation into the acid-insoluble fraction was reduced by 98%. Despite this nearly complete block in [3H]-dThd incorporation, DNA synthesis was not completely inhibited since [3H]-ara-C continued to be incorporated for up to 6 h, although a plateau in ara-CDNA synthesis was observed between 2 and 3 h exposure when ara-CTP levels were maximal. The effect of ara-C on [3H]-dThd incorporation into DNA was due in part to an indirect effect of ara-C on the metabolism of intracellular [3H]-dThd to [3H]-dTTP. Within 30 min exposure to 10 microM ara-C, the rate of cellular [3H]-dTTP synthesis was slowed to only 15% of the control rate. This was not due to inhibition of [3H]-dThd transport, since the intracellular and extracellular concentrations of the nucleoside were equal. The effect of ara-C on [3H]-dTTP synthesis resulted from significant changes in deoxynucleoside 5'-triphosphate (dNTP) pools. dTTP, dATP, and dGTP levels were increased, whereas the dCTP concentration was decreased. When dThd kinase from L5178Y cells was assayed with increased dTTP levels induced by ara-C vs the dTTP level in control cells, its activity was reduced by 72%. Thus, the [3H]-dThd incorporation experiment overestimated the extent of inhibition of DNA synthesis by ara-C due to increased feedback inhibition of dThd kinase and increased competition for DNA polymerase between the elevated unlabeled dTTP pool and the decreased levels of [3H]-dTTP. In vitro assay of DNA polymerase in the presence of the ara-CTP concentration achieved after 0.5 or 3 h exposure to 10 microM ara-C (60 microM and 200 microM, respectively), plus the mixture of dNTPs found intracellularly at these times, resulted in 57% and 80% inhibition of the polymerase, respectively. This inhibition may account for the plateau in the accumulation of ara-CDNA that was observed at 3 h and suggests that ara-C incorporation may be self-limiting at high cellular concentrations of ara-CTP.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The effect of ara-C-induced inhibition of DNA synthesis on its cellular pharmacology. 231 Nov 69

Effects of ATP and some other nucleotides (AMP, ADP, CTP, GTP, UTP and dATP) on reparative DNA synthesis and repair patch ligation in bleomycin-pretreated permeable mouse sarcoma cells were studied. Reparative DNA synthesis was significantly stimulated by 2.5 mM ATP, ADP or dATP. The stimulation was observed on both DNA polymerase alpha- and beta-dependent reparative DNA synthesis. ATP concentration required for repair patch ligation was much lower than that required for the stimulation of reparative DNA synthesis. An apparent Km value for ATP of the repair patch ligation was about 40 microM. ADP supported repair patch ligation after being converted into ATP by adenylate kinase in permeable cells.
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PMID:Effects of ATP and other nucleotides on DNA repair synthesis in bleomycin-pretreated permeable mouse sarcoma cells. 244 62

We have developed a modified primer extension procedure for specific detection of mRNA. Alkali-fragmented total cellular RNA or some RNA fraction is hybridized to single-stranded or double-stranded M13 DNA containing the insert of interest which is immobilized on nylon membranes. Hybridized RNA is then detected by incubation of membranes with Escherichia coli RNase H and DNA polymerase I. RNase H is used for nicking the RNA in the hybrids. The resulting 3'-OH groups can subsequently be used by DNA polymerase I to synthesize a labeled complementary strand. The method described is both relatively fast and sensitive and particularly useful for screening large numbers of DNA clones for their representation in RNA populations. Using total cellular RNA as hybridization probe and single-stranded M13 DNA as template as low as 0.25 ng of a specific mRNA was detected (2.5-fold background) when adding 1 microCi [3H]dCTP or 2.5 microCi [32P]d-CTP alternatively as radioactive precursor for the labeling reaction. The detection limit increased to 1 ng (2-fold background) with denatured replicative form double-stranded M13 DNA as template.
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PMID:A modified primer extension procedure for specific detection of DNA-RNA hybrids on nylon membranes. 247 44

Acyclovir triphosphate (ACVTP) was a substrate for herpes simplex virus type 1 (HSV-1) DNA polymerase and was rapidly incorporated into a synthetic template-primer designed to accept either dGTP or ACVTP followed by dCTP. HSV-1 DNA polymerase was not inactivated by ACVTP, nor was the template-primer with a 3'-terminal acyclovir monophosphate moiety a potent inhibitor. Potent inhibition of HSV-1 DNA polymerase was observed upon binding of the next deoxynucleoside 5'-triphosphate coded by the template subsequent to the incorporation of acyclovir monophosphate into the 3'-end of the primer. The Ki for the dissociation of dCTP (the "next nucleotide") from this dead-end complex was 76 nM. In contrast, the Km for dCTP as a substrate for incorporation into a template-primer containing dGMP in place of acyclovir monophosphate at the 3'-primer terminus was 2.6 microM. The structural requirements for effective binding of the next nucleotide revealed that the order of potency of inhibition of a series of analogs was: dCTP much greater than arabinosyl-CTP greater than 2'-3'-dideoxy-CTP much greater than CTP, dCMP, dCMP + PPi. In the presence of the next required deoxynucleotide (dCTP), high concentrations of dGTP compete with ACVTP for binding and thus retard the formation of the dead-end complex. This results in a first-order loss of enzyme activity indistinguishable from that expected for a mechanism-based inactivator. The reversibility of the dead-end complex was demonstrated by steady-state kinetic analysis, analytical gel filtration, and by rapid gel filtration through Sephadex G-25. Studies indicated that potent, reversible inhibition by ACVTP and the next required deoxynucleoside 5'-triphosphate also occurred when poly(dC)-oligo(dG) or activated calf thymus DNA were used as the template-primer.
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PMID:Herpes simplex virus type 1 DNA polymerase. Mechanism of inhibition by acyclovir triphosphate. 254 Jan 93

The nearly homogeneous 9 S DNA polymerase alpha from calf thymus contains a primase activity that allows priming of DNA synthesis on single-stranded templates in the presence of ribonucleoside triphosphates. Both on synthetic and natural single-stranded templates, RNA primers of 8-15 nucleotides in length are formed. In the absence of dNTPs, primers of some hundred nucleotides in length are observable. ATP and/or GTP are required for the priming reaction. UTP and CTP cannot initiate the RNA synthesis. M13 single-stranded DNA can be converted to the nicked double helical form upon primase-primed replication by the 9 S enzyme. Priming occurs mostly at specific sites on the M13 genome and replication products of up to 6000 nucleotides in length are formed. In the presence of the single-stranded DNA binding protein from Escherichia coli, specificity of priming is strongly increased. The primase is inhibited by salt and actinomycin; it is insensitive to alpha-amanitin and N-ethylmaleimide. Due to the strong complex formation between DNA polymerase and primase, it has not been possible to separate the two activities of the multisubunit 9 S enzyme.
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PMID:The primase activity of DNA polymerase alpha from calf thymus. 257 65


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