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)

Deoxyoligonucleotide 49-mers containing a central cis-syn, trans-syn-I, (6-4), or Dewar photoproduct of TpT were constructed for use in repair and replication studies by ligation of shorter photoproduct-containing oligonucleotides. A (6-4) product-containing 6-mer was prepared in 3.4% yield by 254 nm irradiation of d(AATTAA) and converted in nearly quantitative yield to the Dewar isomer by irradiation with Pyrex- and Mylar-filtered medium-pressure mercury arc light. d(CGAATTAAGC) containing a site-specific cis-syn or trans-syn-I dimer was prepared via automated solid-phase DNA synthesis utilizing photoproduct building blocks. The photoproduct-containing 49-mers were characterized by their susceptibility to base cleavage and a number of enzymes routinely used to map the sites of DNA photoproduct formation. 1 M piperidine at 90 degrees C cleaved the Dewar product faster than the (6-4) product, but did not cleave the cyclobutane dimers. The 3'-->5' exonuclease activity of T4 DNA polymerase was completely blocked by all the lesions except the (6-4) product, which it slowly bypassed. T4 endonuclease V did not cleave the (6-4) or Dewar photoproduct, but unexpectedly cleaved the trans-syn-I dimer at most 1% the rate of the cis-syn dimer in double-stranded DNA. The trans-syn-I dimer was cleaved at a 50-fold higher rate in double- than in single-stranded DNA. Escherichia coli photolyase was found to be specific for the cis-syn dimer at low concentrations. Implications of this work to methodology for mapping and quantifying DNA photoproducts are also discussed.
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PMID:Preparation and characterization of a set of deoxyoligonucleotide 49-mers containing site-specific cis-syn, trans-syn-I, (6-4), and Dewar photoproducts of thymidylyl(3'-->5')-thymidine. 849 75

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

In order to examine the effect of purine adducts of the plant carcinogen aristolochic acid (AA) on DNA replication four 30-mer templates were prepared which contained single site-specific AA lesions. The oligonucleotides were isolated by HPLC and shown to contain the two known aristolochic acid I-DNA adducts (dA-AAI, dG-AAI) or the two known aristolochic acid II-DNA adducts (dA-AAII, dG-AAII) at position 27 from the 3' end by 32P-postlabeling. These adducts templates were replicated in primer (23-mer) extension reactions catalysed by human DNA polymerase alpha. Both AAI-DNA adducts (dA-AAI, dG-AAI) blocked DNA synthesis predominantly (80-95%) at the nucleotide 3' to the adduct, although primer extension to the full length of the template was found with unmodified control templates. Increasing dNTP concentrations had only a small effect on the DNA synthesis and translesional synthesis was negligible. In contrast, both AAII-DNA adducts showed marked differences in primer extension reactions. Blocking of DNA synthesis by the dA-AAII adduct was strongly dNTP dependent. With increasing dNTP concentrations 27 and 28 nucleotide products, indicating termination of DNA synthesis after incorporation of a nucleotide opposite this adduct and incorporation of an additional nucleotide accumulated. Only the dG-AAII adducted template allowed substantial translesional synthesis to the full length of the template (up to 25%). When a 26-mer primer was used to examine nucleotide incorporation directly across from the four purine adducts, we found no detectable incorporation of nucleotides for the dA-AAI adduct, whereas the dG-AAI adduct and both AAII-adducts (dA-AAII and dG-AAII) allowed preferential incorporation of the correct nucleotide. These results indicate that for human polymerase alpha three AA purine adducts (dA-AAI, dG-AAI and dA-AAII) provide severe blocks to DNA replication and that dG-AAII, which allows translesional synthesis, may not be a very efficient mutagenic lesion.
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PMID:Effect of site-specifically located aristolochic acid DNA adducts on in vitro DNA synthesis by human DNA polymerase alpha. 852 5

A minor groove binder (MGB) derivative (N-3-carbamoyl-1,2-dihydro-3H-pyrrolo[3,2-e]indole-7-carboxylate tripeptide; CDPI3) was covalently linked to the 5' or 3' end of several oligodeoxyribonucleotides (ODNs) totally complementary or possessing a single mismatch to M13mp19 single-stranded DNA. Absorption thermal denaturation and slot-blot hybridization studies showed that conjugation of CDPI3 to these ODNs increased both the specificity and the strength with which they hybridized. Primer extension of the same phage DNA by a modified form of phage T7 DNA polymerase (Sequenase) was physically blocked when a complementary 16-mer with a conjugated 5'-CDPI3 moiety was hybridized to a downstream site. Approximately 50% of the replicating complexes were arrested when the blocking ODN was equimolar to the phage DNA. Inhibition was unaffected by 3'-capping of the ODN with a hexanol group or by elimination of a preannealing step. Blockage was abolished when a single mismatch was introduced into the ODN or when the MGB was either removed or replaced by a 5'-acridine group. A 16-mer with a 3'-CDPI3 moiety failed to arrest primer extension, as did an unmodified 32-mer. We attribute the exceptional stability of hybrids formed by ODNs conjugated to a CDPI3 to the tethered tripeptide binding in the minor groove of the hybrid. When that group is linked to the 5' end of a hybridized ODN, it probably blocks DNA synthesis by inhibiting strand displacement. These ODNs conjugated to CDPI3 offer attractive features as diagnostic probes and antigene agents.
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PMID:Sequence-specific arrest of primer extension on single-stranded DNA by an oligonucleotide-minor groove binder conjugate. 862 13

Exposure to exogenous alkylating agents, particularly N-nitroso compounds, has been associated with increased incidence of primary human brain tumors, while intrinsic risk factors are currently unknown. The DNA repair protein O6-methylguanine-DNA methyltransferase (MGMT) is a major defense against the carcinogenicity of N-nitroso compounds and other alkylators. We report here that in 55% (64/117) of cases, histologically normal brain tissue adjacent to primary human brain tumors lacked detectable MGMT activity [methyl excision repair-defective (Mer-) status]. The incidence of Mer- status in normal brain tissue from brain tumor patients was age-dependent, increasing from 21% in children 0.25-19 years of age to 75% in adults over 50. In contrast, Mer- status was found in 12% (5/43) of normal brain specimens from patients operated for conditions other than primary brain tumors and was not age-dependent. The 4.6-fold elevation in incidence of Mer- status in brain tumor patients is highly significant (chi2 = 24; p < or = 0.001). MGMT activity was independent of age in the lymphocytes of brain tumor patients and was present in lymphocytes from six of nine tumor patients whose normal brain specimen was Mer-. DNA polymerase beta, apurinic/apyrimidinic endonuclease, and lactate dehydrogenase activities were present in all specimens tested, including Mer- specimens from brain tumor patients. Our data are consistent with a model of carcinogenesis in human brain in which epigenetically regulated lack of MGMT is a predisposing factor and alkylation-related mutagenesis is a driving force.
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PMID:Lack of the DNA repair protein O6-methylguanine-DNA methyltransferase in histologically normal brain adjacent to primary human brain tumors. 869 23

Optimal conditions were developed for a random amplified polymorphio DNA (RAPD) assay of hexaploid bread wheat and tetraploid durum wheat. AmpliTaq Stoffcl fragment was found to be better than Taq DNA polymerase in generating RAPDs. Studies on chromosome specific RAPD markers of the A- and B- and D-genome were performed using the complete set of Langdon disomic substitution lines and the parental lines (Langdon and Chinese Spring) as templete. Seven out of twelve arbitrary primers (all Operon 10-mer sequences) yielded 13 products that could be assigned to 1.0 chromosomes of A- and B- and D-genome, five of 13 markers for A-genome (2A: J6a and J11b; 3A: D11b; 6A: J17; 7A: J15a), seven for B-genome (1B: J11c; 2B: D5, D11c and J18) and one for D-genome (1D: J11a). Using Chinese Spring ditelosomic lines, four RAPD markers were further mapped to a specific chromosome arm (i.e., J11b-2AL, J17-6AL, D11c-2BL, and J11a-1DL). This study demonstrates that reproduoible RAPID markers can be generated and assigned to wheat chromosomes except 4AL, using Langdon disomic substitution lines and Chinese Spring euploid and aneuploids as malerids.
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PMID:[RAPD markers for wheat chromosomes in Langdon disomic substitution lines]. 869 76

Mitochondrial DNA (mtDNA) is replicated by DNA polymerase gamma by a strand displacement mechanism involving mitochondrial single-stranded DNA-binding protein (mtSSB). mtSSB stimulates the overall rate of DNA synthesis on singly-primed M13 DNA mainly by stimulating the processivity of DNA synthesis rather than by stimulating primer recognition. We used electrophoretic mobility shift methods to study the effects of mtSSB on primer-template recognition by DNA pol gamma. Preliminary experiments showed that single mtSSB tetramers bind tightly to oligo(dT) single strands containing 32 to 48 residues. An oligonucleotide primer-template was designed with an 18-mer primer annealed to the 3'-portion of a 71-mer template containing 40 dT residues at its 5'-end as a binding site for mtSSB. DNA pol gamma bound to this primer-template either in the absence or presence of mtSSB in complexes that remained intact and enzymatically active following native gel electrophoresis. Association of mtSSB with the 5'-dT40-tail in the 18:71-mer primer-template reduced the binding of DNA polymerase gamma and the efficiency of primer extension. Binding of mtSSB to single-stranded DNA was also observed to block the action of the 3'-->5' exonuclease of DNA polymerase gamma. The size of fragments protected from 3'-->5' exonuclease trimming increases with increasing ionic strength in a manner consistent with the known salt dependence of the binding site size of Escherichia coli SSB.
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PMID:Effects of Xenopus laevis mitochondrial single-stranded DNA-binding protein on primer-template binding and 3'-->5' exonuclease activity of DNA polymerase gamma. 870 57

Incorporation of the anticancer drug fludarabine (9-beta-D-arabinofuranosyl-2-fluoroadenine 5'-monophosphate; F-ara-AMP) into the 3'-end of DNA during replication causes termination of DNA strand elongation and is strongly correlated with loss of clonogenicity. Because the proofreading mechanisms that remove 3'-F-ara-AMP from DNA represent a possible means of resistance to the drug, the present study investigated the excision of incorporated F-ara-AMP from DNA by the 3' --> 5'-exonuclease activity of DNA polymerase epsilon from human leukemia CEM cells. Using the drug-containing and normal deoxynucleotide oligomers (21-base) annealed to M13mp18(+) DNA as the excision substrates, we demonstrated that DNA polymerase epsilon was unable to effectively remove F-ara-AMP from the 3'-end of the oligomer. However, 3'-terminal dAMP and subsequently other deoxynucleotides were readily excised from DNA in a distributive fashion. Kinetic evaluation demonstrated that although DNA polymerase epsilon has a higher affinity for F-ara-AMP-terminated DNA (Km = 7.1 pM) than for dAMP-terminated DNA of otherwise identical sequence (Km = 265 pM), excision of F-ara-AMP proceeded at a substantially slower rate (Vmax = 0.053 pmol/min/mg) than for 3'-terminal dAMP (Vmax = 1.96 pmol/min/mg). When the 3'-5' phosphodiester bond between F-ara-AMP at the 3'-terminus and the adjacent normal deoxynucleotide was cleaved by DNA polymerase epsilon, the reaction products appeared to remain associated with the enzyme but without the formation of a covalent bond. No further excision of the remaining oligomers was observed after the addition of fresh DNA polymerase epsilon to the reaction. Furthermore, the addition of DNA polymerase alpha and deoxynucleoside triphosphates to the excision reaction failed to extend the oligomers. After DNA polymerase epsilon had been incubated with 3'-F-ara-AMP-21-mer for 10 min, the enzyme was no longer able to excise 3'-terminal dAMP from a freshly added normal 21-mer annealed to M13mp18(+) template. We conclude that the 3' --> 5' exonuclease of human DNA polymerase epsilon can remove 3'-terminal F-ara-AMP from DNA with difficulty and that this excision results in a mechanism-mediated formation of "dead end complex."
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PMID:Inhibition of the 3' --> 5' exonuclease of human DNA polymerase epsilon by fludarabine-terminated DNA. 870 31

A single polypeptide of approx. 67 kDa mol.wt. with DNA polymerase activity has been chromatographically purified from shoot tips of 72 hr. grown germinated seedlings of rice (Oryza sativa.L.cv IR-8). An approx. 4800 fold enrichment of specific activity was measured by the incorporation of 3H-dTMP into trichloroacetic acid insoluble fraction, using activated calf thymus DNA as template-primer. The enzyme uses different types of DNA but not RNA as a template. The enzyme requires Mg+2, high KCl, and is highly sensitive to dideoxyribonucleoside triphosphate but is unaffected by aphidicolin, suggesting a plant counterpart of mammalian DNA polymerase beta. Replication of M13mp18 single stranded DNA by extension of 5'32P-labeled 17-mer primer(-40) showed distributive type of DNA synthesis by the rice DNA polymerase beta, which is a characteristic feature of mammalian DNA polymerase beta.
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PMID:Isolation of mammalian pol beta type DNA polymerase in shoot tips of germinated seedlings of IR-8 rice (Oryza sativa L.). 879 34

The activity of gemcitabine (dFdC), an effective agent against solid tumors, depends on the incorporation of its triphosphate into DNA. In vitro investigations demonstrated that, depending on the sequence of template DNA, polymerases may pause after incorporation of gemcitabine nucleotide at either the 3'-terminal or 3'-penultimate position. Proofreading enzymes such as 3'-->5' exonucleases, which are associated with DNA polymerases, can excise mismatched deoxynucleotides from DNA. To model this reaction, we evaluated excision of the gemcitabine nucleotide from oligodeoxynucleotide (19-mer) containing 3'-penultimate dFdC monophosphate (dFdCMP) or dCMP by the 3'-->5' exonuclease of the Klenow fragment. The rate of excision of the 3'-terminal deoxynucleotide was similar, with both primers resulting in formation of primers with terminal dCMP or dFdCMP. The primer containing dCMP was further excised, and by 40 min, more than 75% of total radioactivity was in excision products smaller than 18-mer. In contrast, most of the primers (90%) with terminal dFdCMP were unexcised. When primers terminated with either dFdCMP or dCMP were used as substrates, normal primer was hydrolyzed almost completely by 20 min; however, only 40% of primers containing dFdCMP had excision of dFdCMP molecule. Kinetic studies demonstrated that the enzyme had similar affinity for primers containing penultimate or terminal dFdCMP, but the apparent Vmax for excision was 4-5-fold greater for removal of a 3'-terminal deoxynucleotide than for cleavage of a dFdCMP molecule. Reaction conditions that permitted polymerization of one deoxynucleotide to primers containing either 3'-penultimate dCMP or dFdCMP were used to evaluate excision during DNA synthesis. The excised primers could not be extended because the reaction lacked the requisite deoxynucleotide triphosphate. After 5 min, more than one-half of the dCMP primers were extended, whereas only 15% had been excised. In comparison, 30% of the analogue-containing primers lost the terminal deoxynucleotide, with a proportional lower incidence of extension (30%). Lesser excision of dFdCMP-containing substrate was observed in reactions containing deoxynucleotide triphosphates required to make full-length products. Consistent with this result, in the absence of 3'-->5' exonuclease activity, both primers were extended similarly by the polymerization unit of the Klenow fragment. Taken together, these data demonstrate that dFdCMP residues are difficult to excise from DNA, and DNA polymerase can extend primers with 3'-dFdCMP. This results in the internal incorporation of dFdCMP into DNA, as observed in whole cells.
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PMID:Excision of 2',2'-difluorodeoxycytidine (gemcitabine) monophosphate residues from DNA. 881 40


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