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)

Replicative DNA polymerases achieve insertion fidelity by geometric selection of a complementary nucleotide followed by induced fit: movement of the fingers subdomain toward the active site to enclose the incoming and templating nucleotides generating a binding pocket for the nascent base pair. Several residues of motif B of DNA polymerases from families A and B, localized in the fingers subdomain, have been described to be involved in template/primer binding and dNTP selection. Here we complete the analysis of this motif, which has the consensus "KLX2NSXYG" in DNA polymerases from family B, characterized by mutational analysis of conserved leucine, Leu384 of phi 29 DNA polymerase. Mutation of Leu384 into Arg resulted in a phi 29 DNA polymerase with reduced nucleotide insertion fidelity during DNA-primed polymerization and protein-primed initiation reactions. However, the mutation did not alter the intrinsic affinity for the different dNTPs, as shown in the template-independent terminal protein-deoxynucleotidylation reaction. We conclude that Leu384 of phi 29 DNA polymerase plays an important role in positioning the templating nucleotide at the polymerization active site and in controlling nucleotide insertion fidelity. This agrees with the localization of the corresponding residue in the closed ternary complexes of family A and family B DNA polymerases, contributing to form the binding pocket for the nascent base pair. As an additional effect, mutant polymerase L384R was strongly reduced in DNA binding, resulting in reduced processivity during polymerization.
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PMID:phi 29 DNA polymerase residue Leu384, highly conserved in motif B of eukaryotic type DNA replicases, is involved in nucleotide insertion fidelity. 1280 85

Hydroxyurea, hydroxyurethane, and dihydroxyurea inhibit incorporation of thymidine into the DNA of monolayers of HeLa cells. They do not affect incorporation of uridine into RNA or of leucine into protein. In contrast, hydroxylamine inhibits cellular incorporation of all three precursors: thymidine, uridine, and leucine. Hydroxyurea does not affect thymidine kinase, thymidylate kinase, or DNA polymerase reactions, but it does inhibit incorporation of cytidylic and guanylic acids into DNA in cell-free supernatants.
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PMID:HYDROXYUREA: INHIBITORY EFFECT ON DNA METABOLISM. 1420 79

The novel antitumor compound NC-190 strongly inhibited the growth of FM3A cells with an IC50 of 0.019 microg/ml (0.042 microM) when cultured with NC-190 for 48 h. NC-190 potently suppressed DNA synthesis, with 90% inhibition observed at 0.1 microg/ml of NC-190. RNA and protein syntheses were also suppressed under the same conditions, but to a lesser extent. We then measured the cellular enzymatic activities of DNA polymerase alpha, RNA polymerase, thymidine kinase, thymidylate synthase and Leu-tRNA synthetase of FM3A cells cultured with or without NC-190. Of these 5 enzymes, the activity of thymidine kinase was most strongly suppressed by NC-190, by 77%. Although NC-190 did not directly inhibit the activitiy of thymidine kinase in a cell-free system, expression of mRNA of thymidine kinase was suppressed by 75% in NC-190-treated cells. These results indicate that NC-190 can suppress the expression of the gene for thymidine kinase and the inhibition of thymidine kinase contributes to the inhibition of cell growth by NC-190 together with the inhibition of topoisomerase II.
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PMID:The topoisomerase II-inhibitor NC-190 reduces the level of thymidine kinase mRNA in murine tumor cells. 1463 16

Site-directed mutagenesis is a powerful tool to explore the structure-function relationship of proteins, but most traditional methods rely on the mutation of only one site at a time and efficiencies drop drastically when more than three sites are targeted simultaneously. Many applications in functional proteomics and genetic engineering, including codon optimization for heterologous expression, generation of cysteine-less proteins, and alanine-scanning mutagenesis, would greatly benefit from a multiple-site mutagenesis method with high efficiency. Here we describe the development of a simple and rapid method for site-directed mutagenesis of more than 10 sites simultaneously with up to 100% efficiency. The method uses two terminal tailed primers with a unique 25-nucleotide tail each that are simultaneously annealed to template DNA together with the set of mutagenic primers in between. Following synthesis of the mutant strand by primer extension and ligation with T4 DNA polymerase and ligase, the unique mutant strand-specific tails of the terminal primers are used as anchors to specifically amplify the mutant strand by high-fidelity polymerase chain reaction. We have employed this novel method to mutate simultaneously all 9 and 11 CUG leucine codons of the Hyg and Neo resistance genes, respectively, to the Candida albicans-friendly UUG leucine codon at 100% efficiency.
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PMID:Multiple site-directed mutagenesis of more than 10 sites simultaneously and in a single round. 1469 Jun 93

We isolated active mutants in Saccharomyces cerevisiae DNA polymerase alpha that were associated with a defect in error discrimination. Among them, L868F DNA polymerase alpha has a spontaneous error frequency of 3 in 100 nucleotides and 570-fold lower replication fidelity than wild-type (WT) polymerase alpha. In vivo, mutant DNA polymerases confer a mutator phenotype and are synergistic with msh2 or msh6, suggesting that DNA polymerase alpha-dependent replication errors are recognized and repaired by mismatch repair. In vitro, L868F DNA polymerase alpha catalyzes efficient bypass of a cis-syn cyclobutane pyrimidine dimer, extending the 3' T 26000-fold more efficiently than the WT. Phe34 is equivalent to residue Leu868 in translesion DNA polymerase eta, and the F34L mutant of S. cerevisiae DNA polymerase eta has reduced translesion DNA synthesis activity in vitro. These data suggest that high-fidelity DNA synthesis by DNA polymerase alpha is required for genomic stability in yeast. The data also suggest that the phenylalanine and leucine residues in translesion and replicative DNA polymerases, respectively, might have played a role in the functional evolution of these enzyme classes.
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PMID:Palm mutants in DNA polymerases alpha and eta alter DNA replication fidelity and translesion activity. 1502 63

The gene for the newly described D-amidase from Variovorax paradoxus (Krieg et al. 2002) was cloned and functionally expressed in Escherichia coli. Since native enzyme was available in minute amounts only, we determined the N-terminal sequence of the enzyme and utilized the Universal GenomeWalker Approach to make use of the common internal sequence of the amidase signature family. The high GC content of the gene made it necessary to employ an appropriate DNA polymerase in the amplification reactions. Thus, the sequence of the complete gene and the flanking regions was established. In independent experiments, the gene was then amplified from genomic DNA of V. paradoxus, expressed in E. coli, and characterized. The recombinant enzyme has a specific activity of 1.7 units/mg with racemic tert-leucine amide as substrate and is a homodimer of 49.6-kDa monomers.
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PMID:Identification and characterization of a novel D-amidase gene from Variovorax paradoxus and its expression in Escherichia coli. 1548 Jun 36

Because of the near geometric identity of Watson-Crick (W-C) GxC and AxT base pairs, a given DNA polymerase forms the four possible correct base pairs with nearly identical catalytic efficiencies. However, human DNA polymerase iota (Pol iota), a member of the Y family of DNA polymerases, exhibits a marked template specificity, being more efficient at incorporating the correct nucleotide opposite template purines than opposite pyrimidines. By using 7-deazaadenine and 7-deazaguanine as the templating residues, which disrupt Hoogsteen base pair formation, we show that, unlike the other DNA polymerases belonging to the A, B, or Y family, DNA synthesis by Pol iota is severely inhibited by these N7-modified bases. These observations provide biochemical evidence that, during normal DNA synthesis, template purines adopt a syn conformation in the Pol iota active site, enabling the formation of a Hoogsteen base pair with the incoming pyrimidine nucleotide. Additionally, mutational studies with Leu-62, which lies in close proximity to the templating residue in the Pol iota ternary complex, have indicated that both factors, steric constraints within the active site and the stability provided by the hydrogen bonds in the Hoogsteen base pair, contribute to the efficiency of correct nucleotide incorporation opposite template purines by Pol iota.
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PMID:Biochemical evidence for the requirement of Hoogsteen base pairing for replication by human DNA polymerase iota. 1601 7

Eukaryotic DNA polymerase (Pol) delta replicates chromosomal DNA and is also involved in DNA repair and genetic recombination. Motif A in Pol delta, containing the sequence DXXXLYPSI, includes a catalytically essential aspartic acid as well as other conserved residues of unknown function. Here, we used site-directed mutagenesis to create all 19 amino acid substitutions for the conserved Leu(612) in Motif A of Saccharomyces cerevisiae Pol delta. We show that substitutions at Leu(612) differentially affect viability, sensitivity to genotoxic agents, cell cycle progression, and replication fidelity. The eight viable mutants contained Ile, Val, Thr, Met, Phe, Lys, Asn, or Gly substitutions. Individual substitutions varied greatly in the nature and extent of attendant phenotypic deficiencies, exhibiting mutation rates that ranged from near wild type to a 37-fold increase. The L612M mutant exhibited a 7-fold elevation of mutation rate but essentially no detectable effects on other phenotypes monitored; the L612T mutant showed a nearly wild type mutation rate together with marked hypersensitivity to genotoxic agents; and the L612G and L612N strains exhibited relatively high mutation rates and severe deficits overall. We compare our results with those for homologous substitutions in prokaryotic and eukaryotic DNA polymerases and discuss the implications of our findings for the role of Leu(612) in replication fidelity.
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PMID:Mutator phenotypes caused by substitution at a conserved motif A residue in eukaryotic DNA polymerase delta. 1634 51

Crystallographic studies have implicated several residues of the p66 fingers subdomain of human immunodeficiency virus type-1 reverse transcriptase in contacting the single-stranded template overhang immediately ahead of the DNA polymerase catalytic center. This interaction presumably assists in inducing the appropriate geometry on the template base for efficient and accurate incorporation of the incoming dNTP. To investigate this, we introduced nucleoside analogs either individually or in tandem into the DNA template ahead of the catalytic center and investigated whether they induce pausing of the replication machinery before serving as the template base. Analogs included abasic tetrahydrofuran linkages, neutralizing methylphosphonate linkages, and conformationally locked nucleosides. In addition, several Phe-61 mutants were included in our analysis, based on previous data indicating that altering this residue affects both strand displacement synthesis and the fidelity of DNA synthesis. We demonstrate here that altering the topology of the template strand two nucleotides ahead of the catalytic center can interrupt DNA synthesis. Mutating Phe-61 to either Ala or Leu accentuates this defect, whereas replacement with an aromatic residue (Trp) allows the mutant enzyme to bypass the template analogs with relative ease.
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PMID:Examining interactions of HIV-1 reverse transcriptase with single-stranded template nucleotides by nucleoside analog interference. 1686 79

To better understand the functions and fidelity of DNA polymerase epsilon (Pol epsilon), we report here on the fidelity of yeast Pol epsilon mutants with leucine, tryptophan or phenylalanine replacing Met644. The Met644 side chain interacts with an invariant tyrosine that contacts the sugar of the incoming dNTP. M644W and M644L Pol epsilon synthesize DNA with high fidelity, but M644F Pol epsilon has reduced fidelity resulting from strongly increased misinsertion rates. When Msh6-dependent repair of replication errors is defective, the mutation rate of a pol2-M644F strain is 16-fold higher than that of a strain with wild-type Pol epsilon. In conjunction with earlier studies of low-fidelity mutants with replacements for the homologous amino acid in yeast Pol alpha (L868M/F) and Pol delta (L612M), these data indicate that the active site location occupied by Met644 in Pol epsilon is a key determinant of replication fidelity by all three B family replicative polymerases. Interestingly, error specificity of M644F Pol epsilon is distinct from that of L868M/F Pol alpha or L612M Pol delta, implying that each polymerase has different active site geometry, and suggesting that these polymerase alleles may generate distinctive mutational signatures for probing functions in vivo.
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PMID:Regulation of B family DNA polymerase fidelity by a conserved active site residue: characterization of M644W, M644L and M644F mutants of yeast DNA polymerase epsilon. 1745 67


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