EC:2.7.7.7 - FACTA Search

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)

Several thiosemicarbazone-metal complexes inhibit the RNA dependent DNA polymerase and the transforming ability of Rous sarcoma virus. Some complexes are equally as active as the free ligand whereas the activity of others is greatly enhanced. The 2-formyl pyridine thiosemicarbazone copper (II) complex is the most potent compound of this class that we tested. Some copper complexes of salicylaldehyde derivatives are very active also, particularly N-n-butyl, N-n-hexyl and N-benzylsalicylaldimine; no nickel complex of any salicylaldehyde compound is active. In addition, other metal ligands, such as dithizone, diacetyl bis (mercaptoethylimine), N-butyl thiocarbamate, 0,0' dimethyl dithiophosphate, potassium dithiooxalate, and cis-PtII(NH3)2Cl2 were tested with varying results.
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PMID:Inhibition of the RNA dependent DNA polymerase and the malignant transforming ability of Rous sarcoma virus by thiosemicarbazone-transition metal complexes. 7 67

Antabuse (disulfiram) is widely used in the treatment of chronic alcoholism. We have examined the effect of this drug on malignant transformation by Rous sarcoma virus, on eukaryotic cell synthesis, and on nucleic acid binding. It was found that: (1) Disulfiram inhibits the activity of the RNA dependent DNA polymerase of Rous sarcoma virus and inactivates the ability of the virus to malignantly transform chick embryo cells. The monomer of disulfiram, diethyldithiocarbamate does not affect the virus. (2) Disulfiram induced the synthesis of four proteins in normal chick embryo and human foreskin cells. The monomer diethyldithiocarbamate, induced these proteins also. Cellular DNA synthesis is more sensitive to disulfiram than are RNA and protein synthesis. (3) Disulfiram binds to neither DNA or RNA in the presence or absence of copper. However, diethyldithiocarbamate in the presence of, but not in the absence of, copper binds to HeLa cell DNA and to Rous sarcoma virus 70 S genome RNA. These results indicate that this compound, which causes no symptoms in people who do not consume alcohol, may have significant effects on a cellular level.
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PMID:Effect of antabuse (disulfiram) on Rous sarcoma virus and on eukaryotic cells. 7 22

8-Hydroxyquinoline and several of its derivatives inactivate the transforming ability of Rous sarcoma virus and inhibit its ribonucleic acid-dependent deoxyribonucleic acid polymerase activity. The copper complex of these metal-binding ligands is as active as the free ligand. The activity of the 8-hydroxyquinolines is approximately 50-fold more effective than another group of metal-binding compounds that we have tested, the thiosemicarbazones. In contrast to the potency of the 8-hydroxyquinolines to inactivate Rous sarcoma virus, no intracellular inhibition of transformation could be demonstrated at a concentration that did not affect the growth and appearance of the cells. Cellular deoxyribonucleic acid synthesis was inhibited to a greater extent than was ribonucleic acid or protein synthesis. The phenomenon of "concentration quenching" was observed with high concentrations of drug, causing less inhibition of deoxyribonucleic acid synthesis than was observed with lower concentrations. Herpes simplex virus type 1 was inactivated also by the 8-hydroxyquinolines and their copper complexes. No intracellular inhibition of plaque formation was observed. Treatment with 8-hydroxyquinoline sulfate had no effect on the resolution of herpetic keratitis in rabbits. Some 8-hydroxyquinolines bind to deoxyribonucleic acid in the presence of copper, a phenomenon that may be important in their antiviral activity.
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PMID:Hydroxyquinolines inhibit ribonucleic acid-dependent deoxyribonucleic acid polymerase and inactivate Rous sarcoma virus and herpes simplex virus. 18 49

The lowering of the viscosity of DNA solution was caused by the action of AsA or EA and facilitated in the presence of CU2+. However, the action of AsA-3-P was very weak. By sucrose density gradient centrifugation, it was observed that single- and double-strand scissions of DNA were provoked by AsA or EA and enhanced with Cu2+, while only a single-strand scission was caused by AsA-3-P and Cu2+. Similar action of AsA or AsA-3-P was also observed for RNA. Thus, the result indicates that the enediol group of AsA takes an essential part in the breakage of nucleic acids, and Cu2+ enhances the action. It was shown that Apu was mainly decomposed by AsA, whereas Apy not, suggesting that some pyrimidine cluster may be one of the regions attacked by AsA. During the reaction with DNA, the reducing activity of AsA decreased first to some extent and then increased, whereas the reducing activity of AsA-3-P was much lower than that of AsA and decreased steadily. The priming activity of DNA for DNA polymerase was changed after treatment with AsA according to the condition. It was enhanced when DNA was treated under mild conditions but decreased with severer action.
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PMID:Breaking action of ascorbic acid on nucleic acids. 121 77

Four 25-nt oligonucleotides consisting of sequences of dA and dT (D1-4) have been synthesized. As shown in a companion paper (Rippe et al., 1989), the two combinations D1.D3 and D2.D4 form normal antiparallel duplexes, whereas the pairs D1.D2 and D3.D4 constitute duplexes with the same sequences, but with the two strands parallel to each other. The activities of the following DNA processing enzymes and chemical reagents on the parallel stranded (ps) and antiparallel stranded (aps) duplexes were tested. (i) The restriction endonucleases DraI, SspI, and MseI do not cut the ps duplexes. (ii) DNase I and exonuclease III exhibit a much lower activity with the ps duplexes. (iii) The nuclease activities of S 1 nuclease, micrococcal nuclease (S 7), phage lambda 5'-exonuclease, and the 3'-5' nuclease activity of Escherichia coli DNA polymerase I and its large fragment are higher with the ps than with the aps substrates. (iv) Bal 31 nuclease and the chemical nuclease 1,10-phenanthroline-copper ion [(OP)2Cu+] degrade ps-DNA and aps-DNA at approximately the same rate but show preferred cutting sites only with the aps molecules. (v) The iron(II)-EDTA complex has equivalent nuclease activities with the ps and the aps molecules. (vi) The ps duplex is not a substrate for blunt-end ligation with phage T4 DNA ligase.
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PMID:Substrate properties of 25-nt parallel-stranded linear DNA duplexes. 255 23

Copper complexes of 1,10-phenanthroline (OP-Cu) hydrolyze DNA [D'Aurora, V., Stern, A. M., & Sigman, D. S. (1978) Biochem. Biophys. Res. Commun. 80, 1025-1032; Marshall Pope, L., Reich, K. A., Graham, D. R., & Sigman, D. S. (1982) J. Biol. Chem. 257, 12121-12128]. This reaction has been studied to determine whether the 1,10-phenanthroline (OP) inhibition of the activity of RNA and DNA polymerases is the result of template hydrolysis or the chelation of a metal associated with and essential to the function of these enzymes. Addition of 4',6-diamino-2-phenylindole dihydrochloride (DAPI) to DNA generates a fluorescence signal with a linear increase of the intensity over a broad range of DNA concentrations from 0 to 100 micrograms/mL. The progress of hydrolysis of DNA by DNase I or OP (2 mM) is monitored by the time-dependent decrease in DAPI-induced fluorescence. In the presence of OP, the rate of hydrolysis increases as the Cu2+ concentration in the reaction mixture rises from 10(-8) to 10(-5) M. The rate differs for each nucleic acid template used; hydrolysis of poly(dA-dT) greater than denatured DNA greater than double-stranded DNA. However, millimolar amounts of OP do not hydrolyze the template even in the presence of Cu2+ (10(-6) M) when DNA is complexed with either Escherichia coli DNA polymerase I or Euglena gracilis or wheat germ RNA polymerase II. Under the same conditions, OP inhibits the activity of both varieties of RNA polymerase II with pKi's of 3.4 and 3.0, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of Euglena gracilis and wheat germ zinc RNA polymerases II by 1,10-phenanthroline acting as a chelating agent. 308 13

Bis(diphenylphosphine)ethane (DPPE) and its bis[chlorogold(I)] [DPPE(Au2Cl2)], and bis[trichlorogold(III)] [DPPE(Au2Cl6)], complexes have in vivo antitumor activity. To determine if interaction with metals in situ can play a role in the antitumor activity of DPPE, we have studied the effects of DPPE, DPPE(Au2Cl2), DPPE(Au2Cl6) and mixtures of DPPE with metal salts on in vitro and in vivo biological systems. The in vitro cytotoxic potencies of the two DPPE-gold complexes were approximately 10-fold greater than that of DPPE. In addition, the cytotoxic potency of DPPE was increased when incubated with cells in the presence of Au(III) and Cu(II) salts, whereas Mg(II), Zn(II), Mn(II), Fe(II), Co(II), and Cd(II) had no effect. The effects of DPPE, DPPE(Au2Cl2) and mixtures of DPPE and metal salts on the activity of a model enzyme system, DNA polymerase alpha were measured. While DPPE did not inhibit the activity of DNA polymerase alpha, the DPPE(Au2Cl2) complex and mixtures of DPPE and Cu(II) salts inhibited the activity of the enzyme. Consistent with the effects observed in vitro, coadministration of Cu(II) or Au(III) increased the in vivo potency of DPPE in mice bearing i.p. P388 leukemia. Fifteen other DPPE analogues were evaluated for in vivo antitumor activity and for the effect of Cu(II) on their in vitro cytotoxic potency; there was a relationship between the ability of Cu(II) to potentiate the cytotoxic activities of DPPE analogues and their having in vivo antitumor activity.
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PMID:Modulation of the antitumor and biochemical properties of bis(diphenylphosphine)ethane with metals. 375 63

Ascorbate-Cu2+ shows considerable cytotoxicity for human melanoma cells at a dose which has very little effect on human fibroblasts. Ascorbate itself inhibits DNA synthesis in melanoma cells but does not fragment the parental DNA. However, the combined action of ascorbate-Cu2+ generates fragmentation of the parental DNA due to the induction of alkali-labile bonds in the DNA. In contrast, if DNA polymerase alpha is inhibited by aphidicolin prior to treatment with ascorbate-Cu2+ one cannot detect the fragmentation of the DNA. The generated fragments show a discrete appearance in agarose gel electrophoresis with a single-stranded size of approximately 5 kb. When fibroblasts were analyzed using the same experimental protocol it was not possible to detect the fragmentation of the DNA.
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PMID:Ascorbate-Cu2+ fragments melanoma DNA but not fibroblast DNA into a discrete DNA population. 640 86

Studies were undertaken to examine the interaction of chloramphenicol and some of its analogs with DNA in an effort to elucidate the mechanism by which high levels of the drug cause inhibition of DNA synthesis. Chloramphenicol at concentrations of 1 mM and above was found to mediate the degradation of double-stranded DNA in the presence of copper and a reducing agent. Similarly, the L-threo steroisomer of chloramphenicol was equally potent at causing strand scissions in DNA. Nitroso-chloramphenicol, which inhibits DNA synthesis at much lower concentrations, also causes DNA damage at levels 100-fold lower than chloramphenicol. In contrast, thiamphenicol, which has a methyl-sulfonyl group in place of the nitro group at the para position, neither affects DNA synthesis nor causes DNA degradation under the conditions tested. The good correlation between the inhibition of DNA synthesis and the generation of strand-scissions by this series of analogs suggests that damage to DNA may be responsible for the inhibition of DNA synthesis seen with chloramphenicol, rather than an interaction of chloramphenicol with DNA polymerase. This proposal is further substantiated by studies with a DNA polymerase in a cell-free system. There was no inhibition of DNA synthesis when any of the analogs were added directly to the polymerase reaction mixture. However, a significant, time-dependent reduction in DNA synthesis was seen when the DNA template used for the polymerase assay was preincubated with chloramphenicol or nitroso-chloramphenicol prior to its use in the assay, again suggesting damage to DNA as the mechanism involved.
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PMID:Chloramphenicol-mediated DNA damage and its possible role in the inhibitory effects of chloramphenicol on DNA synthesis. 664 56

A binuclear copper(II) complex derived from trimethylamine carboxyborane [tetrakis-mu-(trimethylamine-boranecarboxylato)-bis-(trimethyla mine- carboxyborane)dicopper(II)] was shown to have antineoplastic activity in the Ehrlich ascites carcinoma screen. Metabolic studies demonstrated that the compound suppressed DNA and protein syntheses. The inhibition of DNA synthesis appeared to be due to reduction of the DNA polymerase activity and the regulatory enzymes of de novo purine synthesis. Preliminary data suggest that the compound is an initiation inhibitor of protein synthesis in Ehrlich ascites cells.
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PMID:Antineoplastic activity of tetrakis-mu-(trimethylamine-boranecarboxylato)-bis (trimethylamine-carboxyborane)dicopper (II) in Ehrlich ascites carcinoma. 670 88

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