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)

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

The sequencing of the entire genetic complement of Streptomyces coelicolor A3(2) has been completed with the determination of the 365,023 bp sequence of the linear plasmid SCP1. Remarkably, the functional distribution of SCP1 genes somewhat resembles that of the chromosome: predicted gene products/functions include ECF sigma factors, antibiotic biosynthesis, a gamma-butyrolactone signalling system, members of the actinomycete-specific Wbl class of regulatory proteins and 14 secreted proteins. Some of these genes are among the 18 that contain a TTA codon, making them targets for the developmentally important tRNA encoded by the bldA gene. RNA analysis and gene fusions showed that one of the TTA-containing genes is part of a large bldA-dependent operon, the gene products of which include three proteins isolated from the spore surface by detergent washing (SapC, D and E), and several probable metabolic enzymes. SCP1 shows much evidence of recombinational interactions with other replicons and transposable elements during its history. For example, it has two sets of partitioning genes (which may explain why an integrated copy of SCP1 partially suppressed the defective partitioning of a parAB-deleted chromosome during sporulation). SCP1 carries a cluster of probable transfer determinants and genes encoding likely DNA polymerase III subunits, but it lacks an obvious candidate gene for the terminal protein associated with its ends. This may be related to atypical features of its end sequences.
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PMID:SCP1, a 356,023 bp linear plasmid adapted to the ecology and developmental biology of its host, Streptomyces coelicolor A3(2). 1500 89

Escherichia coli cells expressing the mutA allele of a glyV (glycine tRNA) gene express a strong mutator phenotype. The mutA allele differs from the wild type glyV gene by a base substitution in the anticodon such that the resulting tRNA misreads certain aspartate codons as glycine, resulting in random, low-level Asp-->Gly substitutions in proteins. Subsequent work showed that many types of mistranslation can lead to a very similar phenotype, named TSM for translational stress-induced mutagenesis. Here, we have determined the specificity of forward mutations occurring in the lacI gene in mutA cells as well as in wild type cells. Our results show that in comparison to wild type cells, base substitutions are elevated 23-fold in mutA cells, as against a eight-fold increase in insertions and a five-fold increase in deletions. Among base substitutions, transitions are elevated 13-fold, with both G:C-->A:T and A:T-->G:C mutations showing roughly similar increases. Transversions are elevated 35-fold, with G:C-->T:A, G:C-->C:G and A:T-->C:G elevated 28-, 13- and 27-fold, respectively. A:T-->T:A mutations increase a striking 348-fold over parental cells, with most occurring at two hotspot sequences that share the G:C-rich sequence 5'-CCGCGTGG. The increase in transversion mutations is similar to that observed in cells defective for dnaQ, the gene encoding the proofreading function of DNA polymerase III. In particular, the relative proportions and sites of occurrence of A:T-->T:A transversions are similar in mutA and mutD5 (an allele of dnaQ) cells. Interestingly, transversions are also the predominant base substitutions induced in dnaE173 cells in which a missense mutation in the alpha subunit of polymerase III abolishes proofreading without affecting the 3'-->5' exonuclease activity of the epsilon subunit.
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PMID:Specificity of spontaneous mutations induced in mutA mutator cells. 1506 31

The E. coli dnaQ gene encodes the epsilon subunit of DNA polymerase III (pol III) responsible for the proofreading activity of this polymerase. The mutD5 mutant of dnaQ chronically expresses the SOS response and exhibits a mutator phenotype. In this study we have constructed a set of E. coli AB1157 mutD5 derivatives deleted in genes encoding SOS-induced DNA polymerases, pol II, pol IV, and pol V, and estimated the frequency and specificity of spontaneous argE3-->Arg(+) reversion in exponentially growing and stationary-phase cells of these strains. We found that pol II exerts a profound effect on the specificity of spontaneous mutation in exponentially growing cells. Analysis of growth-dependent Arg(+) revertants in mutD5 polB(+) strains revealed that Arg(+) revertants were due to tRNA suppressor formation, whereas those in mutD5 DeltapolB strains arose by back mutation at the argE3 ochre site. In stationary-phase bacteria, Arg(+)revertants arose mainly by back mutation, regardless of whether they were proficient or deficient in pol II. Our results also indicate that in a mutD5 background, the absence of pol II led to increased frequency of Arg(+) growth-dependent revertants, whereas the lack of pol V caused its dramatic decrease, especially in mutD5 DeltaumuDC and mutD5 DeltaumuDC DeltapolB strains. In contrast, the rate of stationary-phase Arg(+)revertants increased in the absence of pol IV in the mutD5 DeltadinB strain. We postulate that the proofreading activity of pol II excises DNA lesions in exponentially growing cells, whereas pol V and pol IV are more active in stationary-phase cultures.
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PMID:Effect of deletion of SOS-induced polymerases, pol II, IV, and V, on spontaneous mutagenesis in Escherichia coli mutD5. 1514 61

The tRNA m(1)A58 methyltransferase is composed of two subunits encoded by the essential genes TRM6 and TRM61 (formerly GCD10 and GCD14). The trm6-504 mutation results in a defective m(1)A methyltransferase (Mtase) and a temperature-sensitive growth phenotype that is attributable to the absence of m(1)A58 and consequential tRNA(i)(Met) instability. We used a genetic approach to identify the genes responsible for tRNA(i)(Met) degradation in trm6 cells. Three recessive extragenic mutations that suppress trm6-504 mutant phenotypes and restore hypomodified tRNA(i)(Met) to near normal levels were identified. The wild-type allele of one suppressor, DIS3/RRP44, encodes a 3'-5' exoribonuclease and a member of the multisubunit exosome complex. We provide evidence that a functional nuclear exosome is required for the degradation of tRNA(i)(Met) lacking m(1)A58. A second suppressor gene encodes Trf4p, a DNA polymerase (pol sigma) with poly(A) polymerase activity. Whereas deletion of TRF4 leads to stabilization of tRNA(i)(Met), overexpression of Trf4p destabilizes the hypomodified tRNA(i)(Met) in trm6 cells. The hypomodified, but not wild-type, pre-tRNA(i)(Met) accumulates as a polyadenylated species, whose abundance and length distribution both increase upon Trf4p overexpression. These data indicate that a tRNA surveillance pathway exists in yeast that requires Trf4p and the exosome for polyadenylation and degradation of hypomodified pre-tRNA(i)(Met).
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PMID:Nuclear surveillance and degradation of hypomodified initiator tRNAMet in S. cerevisiae. 1514 28

A highly efficient cell-free translation system has been combined with suppressor tRNA technology to substitute nor-Tyr and 3-fluoro-Tyr in place of Tyr183 at the DNA polymerase active site of p66 of human immunodeficiency virus type 1 reverse transcriptase (HIV-1 RT). Supplementing the wild-type HIV-1 p51 RT subunit into this translation system permitted reconstitution of the biologically relevant p66/p51 heterodimer harboring Tyr analogs exclusively on the catalytically competent p66 subunit. Addition of an affinity tag at the p66 C-terminus allowed rapid, one-step purification of reconstituted and selectively mutated heterodimer HIV-1 RT via strep-Tactin-agarose affinity chromatography. The purified enzyme was demonstrated to be free of contaminating nucleases, allowing characterization of the DNA polymerase and ribonuclease H activities associated with HIV-1 RT. Preliminary characterization of HIV-1 RT(nor-Tyr) and HIV-1 RT(m-fluoro-Tyr) is presented. The success of this strategy will facilitate detailed molecular analysis of structurally and catalytically critical amino acids via their replacement with closely related, unnatural analogs.
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PMID:Site- and subunit-specific incorporation of unnatural amino acids into HIV-1 reverse transcriptase. 1547 80

Mitochondrial DNA polymerase (pol gamma) is the sole DNA polymerase responsible for replication and repair of animal mitochondrial DNA. Here, we address the molecular mechanism by which the human holoenzyme achieves high processivity in nucleotide polymerization. We have determined the crystal structure of human pol gamma-beta, the accessory subunit that binds with high affinity to the catalytic core, pol gamma-alpha, to stimulate its activity and enhance holoenzyme processivity. We find that human pol gamma-beta shares a high level of structural similarity to class IIa aminoacyl tRNA synthetases, and forms a dimer in the crystal. A human pol gamma/DNA complex model was developed using the structures of the pol gamma-beta dimer and the bacteriophage T7 DNA polymerase ternary complex, which suggests multiple regions of subunit interaction between pol gamma-beta and the human catalytic core that allow it to encircle the newly synthesized double-stranded DNA, and thereby enhance DNA binding affinity and holoenzyme processivity. Biochemical properties of a novel set of human pol gamma-beta mutants are explained by and test the model, and elucidate the role of the accessory subunit as a novel type of processivity factor in stimulating pol gamma activity and in enhancing processivity.
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PMID:A novel processive mechanism for DNA synthesis revealed by structure, modeling and mutagenesis of the accessory subunit of human mitochondrial DNA polymerase. 1657 52

We determined the sequence of the 152,372 bp genome of phiYS40, a lytic tailed bacteriophage of Thermus thermophilus. The genome contains 170 putative open reading frames and three tRNA genes. Functions for 25% of phiYS40 gene products were predicted on the basis of similarity to proteins of known function from diverse phages and bacteria. phiYS40 encodes a cluster of proteins involved in nucleotide salvage, such as flavin-dependent thymidylate synthase, thymidylate kinase, ribonucleotide reductase, and deoxycytidylate deaminase, and in DNA replication, such as DNA primase, helicase, type A DNA polymerase, and predicted terminal protein involved in initiation of DNA synthesis. The structural genes of phiYS40, most of which have no similarity to sequences in public databases, were identified by mass spectrometric analysis of purified virions. Various phiYS40 proteins have different phylogenetic neighbors, including myovirus, podovirus, and siphovirus gene products, bacterial genes and, in one case, a dUTPase from a eukaryotic virus. phiYS40 has apparently arisen through multiple acts of recombination between different phage genomes as well as through acquisition of bacterial genes.
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PMID:Thermus thermophilus bacteriophage phiYS40 genome and proteomic characterization of virions. 1702 29

Elevated mistranslation induces a mutator response termed translational stress-induced mutagenesis (TSM) that is mediated by an unidentified modification of DNA polymerase III. Here we address two questions: (i) does TSM result from direct polymerase corruption, or from an indirect pathway triggered by increased protein turnover? (ii) Why are homologous recombination functions required for the expression of TSM under certain conditions, but not others? We show that replication of bacteriophage T4 in cells expressing the mutA allele of the glyVtRNA gene (Asp-Gly mistranslation), leads to both increased mutagenesis, and to an altered mutational specificity, results that strongly support mistranslational corruption of DNA polymerase. We also show that expression of mutA, which confers a recA-dependent mutator phenotype, leads to increased lambdoid prophage induction (selectable in vivo expression technology assay), suggesting that replication fork collapse occurs more frequently in mutA cells relative to control cells. No such increase in prophage induction is seen in cells expressing alaVGlu tRNA (Glu-->Ala mistranslation), in which the mutator phenotype is recA-independent. We propose that replication fork collapse accompanies episodic hypermutagenic replication cycles in mutA cells, requiring homologous recombination functions for fork recovery, and therefore, for mutation recovery. These findings highlight hitherto under-appreciated links among translation, replication and recombination, and suggest that translational fidelity, which is affected by genetic and environmental signals, is a key modulator of replication fidelity.
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PMID:Hypermutagenesis in mutA cells is mediated by mistranslational corruption of polymerase, and is accompanied by replication fork collapse. 1742 91

Genomic changes in chromosome 8 are commonly observed in breast cancer cell lines and tumors. To fine map such genomic changes by comparative genomic hybridization (CGH), a high resolution (100 kb) chromosome 8 array that can detect single copy changes was developed using Phi29 DNA polymerase amplified BAC (bacterial artificial chromosome) DNA. The BAC array CGH resolved the two known amplified regions (8q21 and 8q24) of a breast cancer cell line (SKBR3) into nine separate regions including six amplicons and three deleted regions, all of which were verified by Fluorescence in situ hybridization. The extent of the gain/loss for each region was validated by qPCR. CGH was performed with a total of 8 breast cancer cell lines, and common regions of genomic amplification/deletion were identified by segmentation analysis. A 1.2-Mb region (125.3-126.5 Mb) and a 1.0-Mb region (128.1-129.1 Mb) in 8q24 were amplified in 7/8 cell lines. A global expression analysis was performed to evaluate expression changes associated with genomic amplification/deletion: a novel gene, TRMT12 (at 125.5 Mb), amplified in 7/8 cell lines, showed highest expression in these cell lines. Further analysis by RT-qPCR using RNA from 30 breast tumors showed that TRMT12 was overexpressed >2 fold in 87% (26/30) of the tumors. TRMT12 is a homologue of a yeast gene encoding a tRNA methyltransferase involved in the posttranscriptional modification of tRNA(Phe), and exploring the biological consequence of its altered expression, may reveal novel pathways in tumorigenesis. This article contains Supplementary Material available at http://www.interscience.wiley.com/jpages/1045-2257/suppmat.
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PMID:Chromosome 8 BAC array comparative genomic hybridization and expression analysis identify amplification and overexpression of TRMT12 in breast cancer. 1744 Sep 25

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