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)

Plant DNA polymerases and E. coli DNA polymerase I, but not animal DNA polymerases or avian reverse transcriptase, are strongly stimulated by ethidium bromide (EtdBr) when TMP incorporation is followed using a short oligo dT primer at 37 degrees C. The effect is observed with a poly A template in the presence of Mg2+ or Mn2+ and of poly dA template only in the presence of magnesium ions. When a longer primer like poly dT is used, EdtBr inhibited wheat DNA polymerase C activity. This result prompted us to study the effect of the incubation temperature on the drug mediated stimulation. With oligo dT primer the stimulation by EdtBr is not observed at a temperature of incubation lower than 35 degrees C. It is shown that the Tm of poly A-dT12 is around 35 degrees C and that EdtBr will clearly increase this value. The stimulation is lost when the enzyme is preincubated with the primer alone whereas it is not affected when the enzyme is preincubated with the template.
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PMID:Ethidium bromide stimulation of DNA polymerase activity by stabilization of the primer-template duplex. 682 Nov 57

The RT/PCR method was applied to study a possible use of Tth DNA-polymerase for coupled reaction of reverse transcription and polymerase chain reaction (RT/PCR) on the CD-4 receptor mRNA template in the total cellular RNA. The conditions for detecting the CD-4 receptor mRNA were optimized. The pH-optimum for RT reaction was 8.8. The influence of Mn2+, Cu2+, Co2+, and Cd2+ cations in RT and PCR reaction was investigated. The efficiency of the RT reaction was shown to be the highest in the presence of Mn2+ (optimal concentration 1 mM). At Mn2+ concentration > or = 3 mM complete inhibition of RT/PCR was observed. The Tth DNA polymerase in RT/PCR was shown to be more effective than Taq DNA polymerase. The Tth DNA polymerase allows observation of the specific product in the gel containing ethidium bromide using 20 ng of the total RNA. High sensitivity and specificity of RT/PCR performed with the Tth DNA polymerase allow its wide application in the detection, quantitative analysis and cloning of cellular and viral RNAs.
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PMID:[Use of thermostable DNA polymerase from Thermus thermophilus KTP in a combined reverse transcription and amplification reaction for detecting CD4 receptor mRNA]. 747 59

Protein splicing is a self-catalyzed, posttranslational process which converts a precursor polypeptide into two new proteins by the excision of an internal polypeptide segment and the ligation of the flanking polypeptides. Evidence has been presented that protein splicing involves a branched intermediate, which is resolved into the two protein products by the cyclization of an asparagine residue to aminosuccinimide [Xu, M. Q., Comb, D. G., Paulus, H., Noren, C. J., Shao, Y., & Perler, F. (1994) EMBO J. 13, 5517-5522]. This report describes the chemical synthesis of a peptide with a C-terminal aminosuccinimide residue, corresponding to the putative C-terminus of the excised intervening sequence (intein) derived from the thermostable DNA polymerase of Pyrococcus species GB-D. The synthetic aminosuccinimide peptide was compared with the C-terminal cyanogen bromide peptide of the excised intein and found to be indistinguishable in terms of its chromatographic properties, high-resolution mass spectrum, and colorimetric assay involving reaction with hydroxylamine. This establishes definitively that protein splicing is accompanied by the cyclization of asparagine to yield an aminosuccinimide residue at the C-terminus of the excised intein and that this unusual residue is therefore a natural constituent of spliced proteins. The effects of pH and temperature on the stability of the synthetic aminosuccinimide peptide are described.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein splicing: characterization of the aminosuccinimide residue at the carboxyl terminus of the excised intervening sequence. 766 64

Our working hypothesis states that DNA damage is a critical step in toxic cell death. The DNA hypothesis was tested in cultured mouse hepatocytes by examining whether inhibitors of DNA repair would increase dimethylnitrosamine toxicity and DNA damage in parallel. Inhibitors were chosen for selectivity toward DNA polymerase alpha (aphidicolin, myricetin), DNA ligase (ethidium bromide), or multiple repair enzymes (ara-C, doxorubicin). Dimethylnitrosamine caused concentration-dependent DNA damage at 6 hr and cell death at 24 hr (35% ALT release vs. 8.8% in control cultured hepatocytes). Each repair inhibitor increased dimethylnitrosamine-induced DNA damage and toxic cell death in parallel. Doxorubicin maximally elevated DNA fragmentation and toxicity (57% ALT release). Repair inhibitors alone failed to damage DNA or cause cell death in this model system. These data support the hypothesis that DNA damage is an early causal event in toxic cell death caused by alkylating hepatotoxicants.
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PMID:DNA as a critical target in toxic cell death: enhancement of dimethylnitrosamine cytotoxicity by DNA repair inhibitors. 799 86

A polymerase chain reaction (PCR) with thermostable DNA polymerase from Thermus aquaticus is described for the specific amplification of the phospholipase C (alpha-toxin) gene of Clostridium perfringens. A set of primers selected for their high specificity could detect Cl. perfringens in stools with a detection limit of approximately 5 x 10(2) bacteria, after bi-amplification. A modified PCR without thermal steps was performed to rapidly amplify, with a yield of 60%, the DNA template. With this PCR method Cl. perfringens alpha-toxin gene could be detected within 2 h. The PCR method detected alpha-toxin positive Cl. perfringens but did not react with phospholipase C-producing Bacillus cereus, Pseudomonas aeruginosa, Cl. sordellii and Cl. bifermentans. The amplified PCR products were screened through ethidium bromide agarose gel electrophoresis or, in only 1 h, with the PhastSystem (Pharmacia). This PCR satisfies the criteria of specificity, sensitivity and rapidity required for a useful tool in epidemiology and for the diagnosis of the pathogen Cl. perfringens as it may be used directly on stool samples.
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PMID:Detection by in vitro amplification of the alpha-toxin (phospholipase C) gene from Clostridium perfringens. 842 Sep 19

Antisense oligonucleotides appear to offer considerable promise as sequence-specific inhibitors of gene expression. Different cellular targets for oligodeoxynucleotides with oncologic interest have been identified such as oncogenes, growth factors, and cell cycle-related genes. DNA polymerase alpha (pol alpha) plays a relevant role in DNA synthesis and cell proliferation. Pol alpha gene expression is constitutive throughout the cell cycle and its mRNA content and activity are related to the growth rate and neoplastic phenotype. The effects of a 18-mer pol alpha antisense oligomer on the proliferation of the MDA-MB 231 breast cancer cell line have been investigated. After 48 h in culture with oligomers (10 microM), about 50% growth inhibition was observed in antisense-treated cells, as evaluated by 3-(4,5-dimethythiazol-2yl)-2,5-diphenyltetrazolium bromide assay and cell count. [3H]Thymidine incorporation exhibited a 90% inhibition of DNA synthesis associated to 64% accumulation of cells at the G1-S border of the cycle as by flow cytometry, at 24 h. Northern hybridization and SDS-PAGE of immunoprecipitated MDA-MB 231 cell lysates revealed a decreased expression of pol alpha mRNA and a reduction of the 180-kDa polypeptide, respectively. Collectively, the data further confirm the relevance of pol alpha in the replicative cycle, as well as strengthen the potentiality of the antisense strategy for the control of gene expression and cell growth.
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PMID:Antiproliferative effect of DNA polymerase alpha antisense oligodeoxynucleotides on breast cancer cells. 850 May 51

DNA polymerases alpha, delta and epsilon from normal regenerating rat liver and Novikoff hepatoma cells were purified about 300-fold, characterized, and checked for sensitivity towards drugs known to inhibit cell proliferation. Characterization included (a) identification of associated proteins, (b) measurement of physiochemical constants (including sedimentation coefficients, diffusion coefficients, calculation of relative molecular masses), (c) quantification of catalytic activities using specific DNA primer templates (Km values) and specific inhibitors (Ki values), and (d) discrimination between DNA polymerases from normal cells and those from malignant cells using inhibitors of cell proliferation. (a) DNA primase associated with DNA polymerase alpha, and 3'-5' exonuclease accompanying DNA polymerases delta and epsilon had similar activities. (b) Comparison of physicochemical and catalytic properties of DNA polymerases from both sources revealed similarities but also some important differences. Sedimentation and diffusion coefficients of DNA polymerases alpha and epsilon from malignant cells differed significantly. (c) The DNA-binding domain of DNA polymerases alpha and epsilon from hepatoma cells was altered since Km values, determined with several specific DNA primer-templates, were higher. Furthermore, dNTP-binding sites of DNA polymerases from malignant cells, when probed with specific inhibitors (aphidicolin, butylphenyl-dGTP, carbonyldiphosphonate, and dideoxy-TTP) showed significantly lower Ki values, indicating lower affinity to deoxyribonucleoside 5'-triphosphates. (d) Sixteen drugs representative of various modes of interaction with DNA and protein were chosen. Dose/response experiments were performed and the concentration at which the polymerizing activity was reduced to 50% was calculated (K50 values). Preferential inhibition of DNA polymerases alpha, delta, and epsilon from Novikoff hepatoma cells was found for: the intercalating drugs doxorubicin, daunorubicin, amsacrine, mitoxantrone, quinacrine and ethidium bromide, the minor-groove binders distamycin and netropsin, the ATPase-blocking agents novobiocin and coumamycin, and the topoisomerase I inhibitors camptothecin and topotecan. When the sensitivity of polymerases delta and epsilon was measured using poly(dA.dT) as a primer-template, the preferential inhibition of the enzymes from malignant cells was even more pronounced. Drugs known to trap the DNA-topoisomerase-II complex, etoposide, nalidixic acid, teniposide, and merbarone did not affect DNA polymerases irrespective of the source. Since the majority of the inhibitors used, particularly intercalators and minor-groove binders, act by modification of the primer-template, inhibition of DNA synthesis must have occurred through weakening of non-covalent bonds between DNA and catalytic polypeptides. Consequently, preferential inhibition of DNA polymerases from malignant cells seems to be indicative of abnormally diminished binding of the enzymes to their primer-templates. This effect may be caused by conformational alterations in polymerases from malignant cells which affect the DNA binding domains. Similarly, changes in physicochemical and kinetic constants are indicative of alterations of dNTP-binding domains.
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PMID:Preferential inhibition of DNA polymerases alpha, delta, and epsilon from Novikoff hepatoma cells by inhibitors of cell proliferation. 857 84

A DNA polymerase was purified to near homogeneity from Trypanosoma cruzi epimastigotes. This preparation had a major polypeptide of 50 kDa and a minor band of 45 kDa. SDS-PAGE studies and a novel colorimetric activity gel technique demonstrated that the 50-kDa polypeptide chain is the catalytic subunit of this T. cruzi DNA polymerase. Western blot analysis of different purification stage fractions strongly suggests that this 50-kDa protein is the intact catalytic subunit and does not correspond to a degradation product from a larger one. This T. cruzi DNA polymerase is insensitive to aphidicolin, butylphenyldeoxyguanosine triphosphate, berenil, ethidium bromide and N-ethylmaleimide, but is markedly inhibited by the dideoxythymidine triphosphate analogue. Studies with different DNA templates showed that the DNA polymerase prefers activated DNA as substrate and that it cannot elongate oligoriboadenylate primers. The data presented in this paper are consistent with the hypothesis that this enzyme corresponds to a beta-like DNA polymerase present in the parasitic protozoon T. cruzi.
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PMID:Purification and characterization of a beta-like DNA polymerase from Trypanosoma cruzi. 857 47

Two polymerase chain reaction (RT-PCR) assays were developed to allow rapid detection of enteroviral RNA in cerebrospinal fluid samples (CSF). Primers homologous to the conserved 5' noncoding region of the enterovirus genome were designed. The RT-PCR product size was approximately 500 bp (479 bp for Poliovirus, 500 bp for Coxsackievirus) and was visualized using ethidium bromide-stained gels. Assay 1 utilized Moloney Murine Leukaemia Virus Reverse Transcriptase (MMLV-RTase) for reverse transcription and Taq polymerase for subsequent PCR. Assay 2 utilized a thermoactive DNA polymerase of Thermus thermophilus (rTth enzyme) for both reverse transcription and DNA amplification. In addition, in Assay 2 reverse transcription and PCR were accomplished within the same reaction tube. Both assays detected between 1 and 0.02 TCID50 of prototype strains of Polio and Coxsackie type B viruses propagated in VERO cell and spiked in a pooled preparation of CSF samples from patients with noninfective neurological disorders. However, Assay 1 was 10-fold more sensitive than Assay 2 when applied to the detection of enteroviral RNA in CSF samples from patients with etiologically well characterized acute aseptic meningitis.
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PMID:Two different PCR assays to detect enteroviral RNA in CSF samples from patients with acute aseptic meningitis. 863 6

A simple and reproducible method of polymerase chain reaction (PCR) assay was established to detect trinucleotide repeat expansion for Huntington's disease (HD) using a new DNA polymerase and buffer system. The system consists of an extremely heat stable DNA polymerase (Pfu), and a buffer supplemented with ammonium sulfate and dimethyl sulfoxide. Previous methods to amplify expanded alleles for HD have been very complex in PCR conditions, but the reproducibility was sometimes very low because of repetitive sequences around the primer sequences. With the present method, strong bands for the disease alleles were reproducibly visible in a conventional agarose gel stained with ethidium bromide without using isotopes. Three cases with sporadic HD and a case with senile chorea showed expanded alleles for HD with smaller sizes of the expansion than cases with typical HD. These results showed that the present method provides a simple and reproducible way to detect HD allele, and some cases with sporadic HD and senile chorea had expanded HD alleles.
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PMID:A reproducible assay of polymerase chain reaction to detect trinucleotide repeat expansion of Huntington's disease and senile chorea. 871 30

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