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 purified high molecular weight form of HeLa cell DNA polymerase alpha (deoxynucleosidetriphosphate: DNA deoxynucleotidyltransferase, EC 2.7.7.7) was shown to associate tightly with several aminoacyl-tRNA synthetase activities. Fractionation of the high molecular weight enzyme on hexylagarose followed by gel filtration, chromatography on phosphocellulose, or polyacrylamide gel electrophoresis under nondenaturing conditions demonstrated copurification of only tryptophanyl-tRNA synthetase [L-tryptophan:tRNATrp ligase (AMP-forming), EC 6.1.1.2] along with DNA polymerase alpha. The high molecular weight (660,000) and low molecular weight (145,000) forms of DNA polymerase alpha were shown to possess a highly specific, noncovalent, diadenosine 5',5"'-P1,P4-tetraphosphate (Ap4A) binding activity. The dissociation constants were determined to be 16 and 22 microM, respectively, by utilization of a charcoal adsorption procedure. No high-affinity binding of ATP could be detected. These findings suggest a link between the amino acid activation process and DNA replication in mammalian cells.
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PMID:HeLa cell DNA polymerase alpha is tightly associated with tryptophanyl-tRNA synthetase and diadenosine 5',5"'-P1,P4-tetraphosphate binding activities. 694 Jan 51

Foamy viruses form a separate group of retroviruses encoding a pol protein with at least four domains based on comparative sequence alignments. The polymerase and ribonuclease H domains of the human foamy virus (HFV) pol gene were expressed in Escherichia coli either individually or in combination. The histidine-tagged HFV fusion proteins were subsequently purified to near homogeneity by affinity Ni2+ chelate column chromatography. The polymerase and RNase H activities were characterized by performing conventional DNA polymerase and ribonuclease H assays and in situ gel assays. Six purified recombinant HFV proteins were enzymatically active either individually as DNA polymerase and ribonuclease H or as combined domains. The HFV enzymatic activities were characterized with respect to cation preferences and pH optima. Western blots with antibodies against the RNase H domain, in situ reverse transcriptase (RT), and RNase H gel assays showed that in HFV-infected cells pol proteins of 120 and 80 kDa were detectable. A novel activity band of 60 kDa was found in situ RT gel assays. Recombinant RNase H protein additionally purified by fast performance liquid chromatography was capable of removing the primer for minus-strand DNA synthesis when labeled tRNA(Lys1,2) model substrates were used. Specific cleavages occurred at the phosphodiester bonds one to three nucleotides 5' of the RNA-DNA junction. The results revealed biochemical properties of the HFV pol gene products that define functional domains of the HFV pol gene that are distinct but comparable to other retroviruses.
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PMID:Molecular biological characterization of the human foamy virus reverse transcriptase and ribonuclease H domains. 748 84

We show that the reverse transcriptase (RT) encoded by the Mauriceville mitochondrial plasmid of Neurospora closely resembles viral RNA-dependent RNA polymerases in initiating cDNA synthesis opposite the penultimate C residue of a 3' tRNA-like structure and has the unprecedented ability for a DNA polymerase to initiate DNA synthesis at a specific site in a natural template without a primer. The Mauriceville plasmid enzyme can also use DNA or RNA primers in a manner suggesting how a primitive RT could have evolved from an RNA-dependent RNA polymerase into retroviral and other types of RTs. The characteristics of the Mauriceville plasmid RT suggest that it may be related to the progenitor of present-day RTs and DNA polymerases.
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PMID:The Mauriceville plasmid reverse transcriptase can initiate cDNA synthesis de novo and may be related to reverse transcriptase and DNA polymerase progenitor. 750 2

"BcgI cassette" mutagenesis was used to prepare variants of p66 human immunodeficiency virus (HIV)-1 reverse transcriptase with amino acid substitutions between residues Glu224 and Trp229. Mutant polypeptides were reconstituted in vitro with wild type p51 to generate the "selectively mutated" heterodimer series p66(224A)/p51-p66(229A)/p51. Purified enzymes were characterized with respect to dimerization, DNA polymerase, RNase H, and tRNA(Lys-3) binding. The combined analyses indicate that while alteration of p66 residues Glu224-Leu228 has minimal consequences, the DNA polymerase activities of mutant p66(229A)/p51 are impaired. DNase I footprinting illustrates that this mutant does not form a stable replication complex with a model template-primer. In vivo studies indicate that the equivalent mutation eliminates viral infectivity, suggesting a contribution of Trp229 toward architecture of the p66 primer grip.
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PMID:Mutating the "primer grip" of p66 HIV-1 reverse transcriptase implicates tryptophan-229 in template-primer utilization. 752 8

Escherichia coli WP2 trpE65(ochre), when grown to stationary phase and plated on glucose salts medium, gave rise to slow growing tryptophan-independent mutants which formed increasing numbers of visible colonies from about day 6 onwards. These mutants were neither revertants at the ochre codon nor mutants at the tRNA suppressor loci normally found in this strain with logarithmic phase mutagenesis. The yield of mutants was not affected by the presence of the following alleles, umuC122, lexA102, polA1, recA1, recA56 or del(srlR-recA)306, except that in the three recA-defective strains, mutant colonies were initially slower to appear, possibly reflecting a lower viability in the inoculum. Stationary-phase spontaneous mutation in bacteria carrying on ochre mutation is thus a distinct and specific process that does not require the SOS system, or UvrA protein or DNA polymerase I. It may reflect the occurrence of a type of non-bulky DNA damage with altered base pairing specificity. In 3 out of 4 experiments with a strain carrying recA441 plus lexA51(Def) the rate of stationary-phase mutagenesis was elevated suggesting that there may be an additional component requiring an activated SOS system.
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PMID:Spontaneous mutation in stationary-phase Escherichia coli WP2 carrying various DNA repair alleles. 768 28

N-substituted diphenimides and 6,7-dihydro-5H-dibenz[c,e]azepines demonstrated significant cytotoxic activity against the growth of murine and human cells. These derivatives were active against leukemias, carcinomas and sarcomas. Different derivatives with N-substitutions showed specific activity against the growth of several tumor types. These agents inhibited L1210 leukemia IMP dehydrogenase and PRPP amido transferase activities; this was reflected in the inhibition of purine and DNA synthesis. Other sites inhibited to a minor degree by these agents included DNA polymerase alpha, r- and tRNA polymerases, ribonucleoside reductase, dihydrofolate reductase, pyrimidine synthesis, and nucleoside kinase. d(NTP) pool levels were reduced after 24 h incubation with these derivatives. L1210 DNA strand scission was evident after drug treatment.
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PMID:The cytotoxicity of N-substituted diphenimides and 6,7-dihydro-5H-dibenz[c,e]azepines. 829 66

Endonuclease digestion of the 4,800-kb chromosome of Salmonella typhimurium LT2 yielded 24 XbaI fragments, 12 BlnI fragments, and 7 CeuI fragments, which were separated by pulsed-field gel electrophoresis. The 90-kb plasmid pSLT has one XbaI site and one BlnI site. The locations of the fragments around the circular chromosome and of the digestion sites of the different endonucleases with respect to each other were determined by excision of agarose blocks containing fragments from single digestion, redigestion with a second enzyme, end labelling with 32P by using T7 DNA polymerase, reelectrophoresis, and autoradiography. Forty-three cleavage sites were established on the chromosome, and the fragments and cleavage sites were designated in alphabetical order and numerical order, respectively, around the chromosome. One hundred nine independent Tn10 insertions previously mapped by genetic means were located by pulsed-field gel electrophoresis on the basis of the presence of XbaI and BlnI sites in Tn10. The genomic cleavage map was divided into 100 units called centisomes; the endonuclease cleavage sites and the genes defined by the positions of Tn10 insertions were located by centisome around the map. There is very good agreement between the genomic cleavage map, defined in centisomes, and the linkage map, defined in minutes. All seven rRNA genes were located on the map; all have the CeuI digestion site, all four with the tRNA gene for glutamate have the XbaI and the BlnI sites, but only four of the seven have the BlnI site in the 16S rRNA (rrs) gene. Their inferred orientation of transcription is the same as in Escherichia coli. A rearrangement of the rrnB and rrnD genes with respect to the arrangement in E. coli, observed earlier by others, has been confirmed. The sites for all three enzymes in the rrn genes are strongly conserved compared with those in E. coli, but the XbaI and BlnI sites outside the rrn genes show very little conservation.
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PMID:The XbaI-BlnI-CeuI genomic cleavage map of Salmonella typhimurium LT2 determined by double digestion, end labelling, and pulsed-field gel electrophoresis. 832 Feb 26

A mechanism is proposed for the RNA-catalyzed reactions involved in RNA splicing and RNase P hydrolysis of precursor tRNA. The mechanism postulates that chemical catalysis is facilitated by two divalent metal ions 3.9 A apart, as in phosphoryl transfer reactions catalyzed by protein enzymes, such as the 3',5'-exonuclease of Escherichia coli DNA polymerase I. One metal ion activates the attacking water or sugar hydroxyl, while the other coordinates and stabilizes the oxyanion leaving group. Both ions act as Lewis acids and stabilize the expected pentacovalent transition state. The symmetry of a two-metal-ion catalytic site fits well with the known reaction pathway of group I self-splicing introns and can also be reconciled with emerging data on group II self-splicing introns, the spliceosome, and RNase P. The role of the RNA is to position the two catalytic metal ions and properly orient the substrates via three specific binding sites.
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PMID:A general two-metal-ion mechanism for catalytic RNA. 834 61

We have previously described the mutator alleles mutA and mutC, which map at 95 minutes and 42 minutes, respectively, on the Escherichia coli genetic map and which stimulate transversions; the A.T-->T.A and G.C-->T.A substitutions are the most prominent. In this study we show that both mutA and mutC result from changes in the anticodon in one of four copies of the same glycine tRNA, at either the glyV or the glyW locus. This change results in a tRNA that inserts glycine at aspartic acid codons. In view of previous studies of missense suppressor tRNAs, the mistranslation of aspartic acid codons is assumed to occur at approximately 1-2%. We postulate that the mutator tRNA effect is exerted by generating a mutator polymerase and suggest that the epsilon subunit of DNA polymerase, which provides a proofreading function, is the most likely target. The implications of these findings for the contribution of mistranslation to observed spontaneous mutation rates in wild-type strains, as well as other cellular phenomena such as aging, are discussed.
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PMID:Mutator tRNAs are encoded by the Escherichia coli mutator genes mutA and mutC: a novel pathway for mutagenesis. 863 75

We describe the purification, cloning, and characterization of the CCA-adding enzyme [ATP(CTP):tRNA nucleotidyl transferase] from the thermophilic archaebacterium, Sulfolobus shibatae. Characterization of an archaeal CCA-adding enzyme provides formal proof that the CCA-adding activity is present in all three contemporary kingdoms. Antibodies raised against recombinant, expressed Sulfolobus CCA-adding enzyme reacted specifically with the 48-kDa protein and fully depleted all CCA-adding activity from S. shibatae crude extract. Thus, the cloned cca gene encodes the only CCA-adding activity in S. shibatae. Remarkably, the archaeal CCA-adding enzyme exhibits no strong homology to either the eubacterial or eukaryotic CCA-adding enzymes. Nonetheless, it does possess the active site signature G[SG][LIVMFY]xR[GQ]x5,6D[LIVM][CLIVMFY]3-5 of the nucleotidyltransferase superfamily identified by Holm and Sander (1995, Trends Biochem Sci 20:345-347) and sequence comparisons show that all known CCA-adding enzymes and poly(A) polymerases are contained within this superfamily. Moreover, we propose that the superfamily can now be divided into two (and possibly three) subfamilies: class I, which contains the archaeal CCA-adding enzyme, eukaryotic poly(A) polymerases, and DNA polymerase beta; class II, which contains eubacterial and eukaryotic CCA-adding enzymes, and eubacterial poly(A) polymerases; and possibly a third class containing eubacterial polynucleotide phosphorylases. One implication of these data is that there may have been intraconversion of CCA-adding and poly(A) polymerase activities early in evolution.
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PMID:CCA-adding enzymes and poly(A) polymerases are all members of the same nucleotidyltransferase superfamily: characterization of the CCA-adding enzyme from the archaeal hyperthermophile Sulfolobus shibatae. 880 16

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