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)

Hepadnaviruses employ a unique mechanism for the initiation of RNA-directed DNA synthesis. Initially, four bases (5'-GTAA-3') are added to a tyrosine residue of the viral polymerase by reverse transcription of a bulge sequence in epsilon, a stem-loop structure which functions as the packaging signal for pregenomic RNA. This protein-DNA complex acts as the primer for minus-strand elongation from the 3' sequence, DR1. To understand this process in greater detail, we investigated whether the protein-mediated priming of viral DNA synthesis is affected by nucleotide analogs. By using cell-free expression of duck hepatitis B virus (DHBV) reverse transcriptase (G.-H. Wang and C. Seeger, Cell 71:663-670, 1992), the 5'-triphosphate of the thymidine analog fialuridine (FIAU) was shown to inhibit the incorporation of radiolabeled TMP into primer DNA in a dose-dependent manner. Inhibition by the 5'-triphosphate of FIAU (FIAU-TP) was nearly complete at a concentration of 10 microM. The dideoxynucleotide analogs ddGTP, ddTTP, and 3'-azidodeoxythymidine triphosphate, known inhibitors of DHBV endogenous DNA polymerase, did not affect substantially the synthesis of primer DNA. Alternate substrate analysis suggested that FIAU is incorporated efficiently into nascent primer DNA as an analog of thymidine. Using site-directed mutagenesis to construct a mutant RNA template yielding a primer with the sequence 5'-GTAC-3', we demonstrated that FIAU-TP inhibited the incorporation of TMP, had no effect on that of dAMP, and decreased markedly the incorporation of dCMP. These results show that the synthesis of full-length DHBV primer DNA is inhibited by FIAU-TP but not by the dideoxynucleotide analogs that we tested. The significance of these findings as they relate to HBV DNA replication is discussed.
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PMID:Priming of duck hepatitis B virus reverse transcription in vitro: premature termination of primer DNA induced by the 5'-triphosphate of fialuridine. 752 86

An oligodeoxyribonucleotide containing 8-hydroxyadenine (OH8Ade) was chemically synthesized and single- and double-stranded c-Ha-ras gene fragments with OH8Ade at the second position of codon 61 were prepared. The single-stranded ras gene fragment was used as a template for in vitro DNA synthesis with the Klenow fragment of Escherichia coli DNA polymerase I, Taq DNA polymerase, rat DNA polymerase beta and mouse DNA polymerase alpha. The former two enzymes exclusively incorporated dTMP opposite OH8Ade. The DNA polymerases alpha and beta misinserted dGMP, and dAMP and dGMP, respectively. The c-Ha-ras gene was constructed using the double-stranded ras gene fragment containing OH8Ade and was transfected into NIH 3T3 cells. The gene with OH8Ade induced focus formation, indicating that OH8Ade elicited point mutations in cells. When c-Ha-ras genes present in transformed cells were analyzed, an A-->G transition and an A-->C transversion were detected. These results indicate that OH8Ade induced misincorporation in in vitro DNA synthesis and mutations in mammalian cells.
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PMID:8-Hydroxyadenine (7,8-dihydro-8-oxoadenine) induces misincorporation in in vitro DNA synthesis and mutations in NIH 3T3 cells. 765 12

phi 29 DNA replication starts at both DNA ends by a protein priming mechanism. The formation of the terminal protein-dAMP initiation complex is directed by the second nucleotide from the 3' end of the template. The transition from protein-primed initiation to normal DNA elongation has been proposed to occur by a sliding-back mechanism that is necessary for maintaining the sequences at the phi 29 DNA ends. Structure-function studies have been carried out in the phi 29 DNA polymerase. By site-directed mutagenesis of amino acids conserved among distantly related DNA polymerases we have shown that the N-terminal domain of phi 29 DNA polymerase contains the 3'-5' exonuclease activity and the strand-displacement capacity, whereas the C-terminal domain contains the synthetic activities (protein-primed initiation and DNA polymerization). Viral protein p6 stimulates the initiation of phi 29 DNA replication. The structure of the protein p6-DNA complex has been determined, as well as the main signals at the phi 29 DNA ends recognized by protein p6. The DNA binding domain of protein p6 has been studied. The results indicate that an alpha-helical structure located in the N-terminal region of protein p6 is involved in DNA binding through the minor groove. The phi 29 protein p5 is the single-stranded DNA binding (SSB) protein involved in phi 29 DNA replication, by binding to the displaced single-stranded DNA (ssDNA) in the replication intermediates. In addition, protein p5 is able to unwind duplex DNA. The properties of the phi 29 SSB-ssDNA complex are described. Using the four viral proteins, terminal protein, DNA polymerase, protein p6 and the SSB protein, it was possible to amplify the 19,285-bp phi 29 DNA molecule by a factor of 4000 after 1 h of incubation at 30 degrees C. The infectivity of the in vitro amplified DNA was identical to that of phi 29 DNA obtained from virions.
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PMID:Protein-nucleic acid interactions in bacteriophage phi 29 DNA replication. 766 51

3,N4-Etheno-2'-deoxycytidine, 3-(hydroxyethyl)-2'-deoxyuridine, and 3,N4-ethano-2'-deoxy-cytidine are found in DNA of cells treated with either vinyl chloride or 1,3-bis(2-chloroethyl)-nitrosourea. These exocyclic and related DNA adducts were incorporated into oligodeoxynucleotides, which were then used as templates for primer extension in reactions catalyzed by the Klenow fragment of Escherichia coli DNA polymerase I. The miscoding potential of each lesion was determined quantitatively. DNA primers were readily extended on an epsilon dC-modified template; dAMP and dTMP were incorporated opposite the lesion. With high concentrations of DNA polymerase, small amounts of fully extended reaction products containing dAMP and dGMP or one-base and two-base deletions opposite ethano-dC were formed. Primer extension was blocked partially on templates containing 3-(hydroxyethyl)-dU; dAMP and smaller amounts of dTMP and dCMP were incorporated. The frequencies of nucleotide insertion opposite each of the three lesions and the frequencies of chain extension from the 3'-primer terminus, determined by kinetic analysis, were consistent with results of experiments utilizing polyacrylamide gel electrophoresis. We conclude from these studies that epsilon dC, ethano-dC, and 3-(hydroxyethyl)-U are potentially miscoding lesions; only epsilon dC facilitates translesional synthesis.
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PMID:Miscoding by the exocyclic and related DNA adducts 3,N4-etheno-2'-deoxycytidine, 3,N4-ethano-2'-deoxycytidine, and 3-(2-hydroxyethyl)-2'-deoxyuridine. 770 60

Nucleotide incorporation opposite an oxidative form of adenine, 2-hydroxyadenine (2-OH-Ade) was investigated. When a primed template with 2-OH-Ade was treated with an exonuclease-deficient Klenow fragment of Escherichia coli DNA polymerase I (KFexo-), recombinant rat DNA polymerase beta (pol beta) or calf thymus DNA polymerase alpha (pol alpha), incorporation of dTMP and dAMP was observed. In addition, KFexo- inserted dGMP as well. A steady-state kinetic study indicated that the insertion of dAMP and dTMP opposite the DNA lesion occurred with similar frequency with KFexo- and pol beta. Insertion of dTMP opposite 2-OH-Ade was favored to that of dAMP by pol alpha. Chain extension from the A.2-OH-Ade pair is less favored than that from the T.2-OH-Ade pair by all three DNA polymerase. Analysis of full-length products of in vitro DNA synthesis showed that dTMP and dAMP were incorporated by DNA polymerases and that exonuclease-proficient and -deficient Klenow fragments also inserted dGMP opposite 2-OH-Ade. These results suggest that formation of 2-OH-Ade from A in DNA will induce A-->T and A-->C transversions in cells.
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PMID:Misincorporation of dAMP opposite 2-hydroxyadenine, an oxidative form of adenine. 770 90

phi 29 DNA polymerase shares with other DNA-dependent DNA polymerases several regions of amino acid homology along the primary structure. A conserved amino acid motif, located in the C-terminal portion of the polypeptide and characterized by the amino acid sequence KK(K/R)Y, is conserved in the group of eukaryotic-type DNA polymerases. In the subgroup of DNA polymerases that have a protein-priming mechanism, this motif is restricted to the sequence KXY, X never being a positively charged amino acid. Residues Lys498 and Tyr500 form this conserved motif in phi 29 DNA polymerase. Mutant K498T, in which the positive charge of the motif has been eliminated, was strongly affected both in initiation (terminal protein-dAMP formation, using terminal protein as primer) and DNA polymerization reactions. Mutants K498R and Y500S were able to carry out the initiation reaction to a higher or similar extent, respectively, than wild-type phi 29 DNA polymerase but were affected in DNA polymerization reactions. All of the mutations severely affected the stable binding of the polymerase to a primer-template DNA. In addition, all of the mutant polymerases analyzed in this work showed an unusually strong 3'-5' exonuclease activity both under polymerization or non-polymerization conditions. The results obtained suggest a role of the conserved residues of the KXY motif in stabilizing the primer terminus at the polymerization active site, the positive charge of residue Lys498 being critical for the synthetic activities of phi 29 DNA polymerase.
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PMID:Primer terminus stabilization at the phi 29 DNA polymerase active site. Mutational analysis of conserved motif KXY. 785 44

DNA polymerase preferentially incorporate dAMP opposite abasic sites (A-rule). The mechanism of the A-rule can be studied by analyzing three dissected stages of the reaction including (i) initial nucleotide insertion, (ii) proofreading excision of the inserted nucleotide and (iii) extension of the nascent primer terminus. To assess the role of the stage (ii) in the A-rule, kinetic parameters of the proofreading excision of primer terminus nucleotides opposite abasic sites were determined using E.coli DNA polymerase I Klenow fragment. The relative efficiency of the excision (Vmax/Km) revealed that removal of A was the least favored of the four nucleotides, but the differences in the efficiencies between excision of A and the other nucleotides was less than 2-fold. In addition, in an attempt to reconcile kinetic data associated with the stage (i) or (ii), the differences in free energy changes (delta delta G degrees) for the formation of model template-primer termini containing XN pairs (X = abasic site, N = A, G, C or T) were determined by temperature dependent UV-melting measurements. The order of delta delta G degrees was XG > XA = XC > or = XT, with delta delta G degrees being 0.5 kcal/mol for the most stable XG and the least stable XT. Based on these data, the role of the stage (ii) and energetic aspects of the A-rule are discussed.
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PMID:On the mechanism of preferential incorporation of dAMP at abasic sites in translesional DNA synthesis. Role of proofreading activity of DNA polymerase and thermodynamic characterization of model template-primers containing an abasic site. 787 May 77

Synthetic oligonucleotides (18-mers) containing either a single deoxyadenosine residue or a single deoxyguanosine residue were treated with aristolochic acid I (AAI) or aristolochic acid II (AAII), the main components of the plant carcinogen aristolochic acid (AA). These reactions resulted in the formation of site-specifically adducted oligonucleotides containing the two known AAI-DNA adducts (dA-AAI, dG-AAI) or the two known AAII-DNA adducts (dA-AAII, dG-AAII) at position 15 from the 3' end. Using HPLC chromatography, the oligonucleotides were purified and subsequently shown to contain the adducts of interest by 32P-postlabelling. The adducted oligonucleotides were used as templates in primer (11-mer) extension reactions catalysed by modified bacteriophage T7 DNA polymerase (Sequenase). Regardless of the type of DNA adduct examined, DNA synthesis was blocked predominantly (80-90%) at the nucleotide 3' to each adduct, although primer extension to the full length of the template was noted with unmodified control templates. However, 15 nucleotide products, indicating blocking of DNA synthesis after incorporation of a nucleotide opposite the adduct and translesional synthesis products were formed in all cases in different amounts, depending on the adduct structure. When a 14-mer primer together with high dNTP concentrations was used to examine nucleotide incorporation directly across from the four different purine adducts we found that the deoxyadenosine adducts (dA-AAI and dA-AAII) allowed incorporation of dAMP and dTMP equally well, whereas the deoxyguanosine adducts (dG-AAI and dG-AAII) allowed preferential incorporation of dCMP. Molecular dynamic simulations showed that the aristolactam moiety of all adducts exhibit a strong stacking, with the adenine residue at the 3' end of the 14-mer primer. These studies demonstrate that all AA purine adducts provide severe blocks to DNA replication and that the guanine adducts may not be very efficient mutagenic lesions. In contrast, the translesional bypass past adenine adducts of the aristolochic acids suggests a mutagenic potential resulting from dAMP incorporation by polymerase. AT-->TA transversion mutations would be the mutagenic consequences of AA adenine adducts, which are consistent with the activating mutations of c-ras genes found in AA-induced tumours of rodents.
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PMID:Translesional synthesis on DNA templates containing site-specifically placed deoxyadenosine and deoxyguanosine adducts formed by the plant carcinogen aristolochic acid. 795 74

The functional significance of the conserved motif TX2GR, included in one of the six main regions of amino acid sequence similarity identified in the C-terminal portion of both Escherichia coli DNA polymerase I-like and eukaryotic-type DNA polymerases (Blanco, L., Bernad, A., Blasco, M.A., and Salas, M. (1991) Gene (Amst.) 100, 27-38) has been studied by site-directed mutagenesis in the psi 29 DNA polymerase. A revised multiple alignment of this region, including 61 DNA polymerases belonging to these two superfamilies, is presented. In addition, based on amino acid sequence comparisons and by extrapolation to the crystal structure of T7 RNA polymerase, a similar motif (DX2GR) is predicted to be structurally and functionally equivalent in RNA polymerases, the other class of DNA-dependent polymerases. The severe defect in polymerization displayed by two of the psi 29 DNA polymerase mutants used in this study (T434N and R438I) is interpreted as the consequence of a decreased capacity to stabilize the binding of primer-template DNA structures in a polymerization-competent conformation. These mutants were also severely affected in the formation of terminal protein (TP)-dAMP initiation complex, a reaction in which psi 29 DNA polymerase is able to use the TP as primer.
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PMID:Primer-terminus stabilization at the psi 29 DNA polymerase active site. Mutational analysis of conserved motif TX2GR. 796 4

The alpha-anomer of deoxyadenosine (alpha-dA) is a major adenine lesion produced by hydroxyl radicals in DNA. To assess its biochemical effects on DNA replication, alpha-dA was site-specifically incorporated into oligodeoxyribonucleotide templates using phosphoramidite chemistry. alpha-dA in the template constituted a transient block to DNA synthesis catalyzed by Escherichia coli DNA polymerase I Klenow fragment (polI), but translesional synthesis occurred after prolonged incubation. Primer extension assays and Maxam-Gilbert sequencing of newly synthesized products revealed that alpha-dA directed not only incorporation of the correct nucleotide, dTMP, opposite the lesion but also misincorporation of dAMP and dCMP. dGMP was barely incorporated under these conditions. The order of the incorporation frequency at the alpha-dA site was affected by the nearest neighbor base pair 3' to the lesion. T7 and Taq DNA polymerases, as well as RAV-2 reverse transcriptase, showed a selectivity similar to that of PolI with respect to the nucleotide incorporation opposite alpha-dA, suggesting that the discrimination of nucleotides associated with alpha-dA is independent of the origin of DNA polymerases and is an intrinsic feature of the lesion. The mutational spectrum predicted for alpha-dA (i.e., A-->G transitions and A-->T transversions) is significantly different from those reported for other hydroxyl radical induced DNA lesions such as abasic sites or 7,8-dihydro-8-oxoguanine, both primarily directing misincorporation of A. Possible biological consequences and the mechanism of dNTP discrimination associated with alpha-dA are discussed.
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PMID:Replication of DNA templates containing the alpha-anomer of deoxyadenosine, a major adenine lesion produced by hydroxyl radicals. 800 79

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