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)

A molecular cDNA clone (P1 KIN) was isolated that encodes the human RNA-dependent P1/eIF-2 alpha protein kinase. The complete cDNA sequence of the P1 KIN cDNA was determined; the longest open reading frame (ORF) encoded a 551 amino acid protein with a deduced molecular weight of 62055 Da. Transcripts prepared from the P1 KIN cDNA by transcription in vitro with T7 RNA polymerase programmed the cell-free synthesis of a protein indistinguishable by immunoprecipitation and immunoblot gel analyses from the authentic 67-kDa P1 protein synthesized in human U cells treated with interferon (IFN). Furthermore, by use of a sensitive primer extension assay with T7 DNA polymerase, the major site of translation initiation within the deduced ORF of the P1 KIN cDNA was directly identified. Northern RNA gel-blot analysis revealed that the P1 KIN cDNA strongly hybridized to two IFN-induced mRNAs present in both human amnion U cells and HeLa cells; their sizes were 2.5 and 6 kb. Both transcripts were efficiently induced by IFN-alpha, but poorly by IFN-gamma. Polyclonal antibody was prepared against the product of the P1 KIN cDNA expressed in Escherichia coli. In Western blot analysis the antibody recognized a 67-kDa protein induced in human cells by IFN-alpha and, in addition, a 90-kDa protein whose level was not greatly altered by IFN treatment. The IFN-induced 67-kDa protein was found associated with the ribosomal salt-wash fraction of IFN-treated human cells, whereas the 90-kDa protein was predominantly in the S100 soluble fraction. The time course for the induction by IFN-alpha of RNA-dependent protein P1 kinase activity measured by immunoprecipitation was comparable to the time course for protein P1 induction measured by Western immunoblot analysis. The amino acid sequence of P1/eIF-2 alpha protein kinase deduced from the cDNA was 62% identical with the 518-residue murine TIK kinase and contained, within the carboxy-terminal half of the protein, the motifs commonly conserved among protein-serine/threonine kinases. The amino-terminal half of the P1 protein did not possess conserved kinase motifs, but did show extensive homology with vaccinia virus-predicted protein E3L.
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PMID:Mechanism of interferon action: cDNA structure, expression, and regulation of the interferon-induced, RNA-dependent P1/eIF-2 alpha protein kinase from human cells. 137 53

We determined that 85 microM aphidicolin was sufficient to block macroscopic plaque formation by vaccinia virus and to cause a 10(4)-fold reduction in viral yield from a wild-type infection. A chemically mutagenized viral stock was passaged sequentially in the presence of drug, and plaque-purified viral stocks resistant to aphidicolin were isolated and characterized. By use of a marker rescue protocol, the lesion in each mutant was found to map within the same 500-bp fragment within the DNA polymerase gene. All of the mutants were found to contain a single nucleotide change in the same codon. In nine of these mutants, the alanine residue at position 498 was changed to a threonine, whereas a 10th mutant sustained a valine substitution at this position. Congenic viral strains which carried the Aphr lesion in an unmutagenized wild-type background were isolated. The Thr and Val mutations were found to confer equivalent levels of drug resistance. In the presence of drug, viral yields were 25% of control levels, and the levels of viral DNA synthesized were 30 to 50% of those seen in control infections. The two mutations also conferred an equivalent hypersensitivity to the cytosine analog 1-beta-D-arabinofuranosylcytosine (araC); strains carrying the Thr mutation were moderately hypersensitive to the pyrophosphate analog phosphonoacetic acid and the adenosine analog araA, whereas the Val mutation conferred acute hypersensitivity to these inhibitors. The Val mutation also conferred a mutator phenotype, leading to a 20- to 40-fold increase in the frequency of spontaneous mutations within the viral stock.
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PMID:Genetic characterization of the vaccinia virus DNA polymerase: identification of point mutations conferring altered drug sensitivities and reduced fidelity. 189 73

The sequence Gly-Asp-Met-Asp, spanning positions 189-192 of rat DNA polymerase beta, is similar to the sequence motif Gly-Asp-Thr-Asp that is highly conserved in a number of replicative DNA polymerases from eukaryotic cells, viruses, and phages. The role of this sequence in the catalytic function of rat DNA polymerase beta was investigated by individually changing each amino acid in this region by site-directed mutagenesis. The mutant enzymes DE190 and DE192, in which aspartic acid residues at positions 190 and 192, respectively, were replaced by glutamic acid, showed about 0.1% activity of the wild-type enzyme. On the other hand, the replacement of Gly-189 by alanine or Met-191 by isoleucine or threonine only slightly affected the enzyme activity. A gel mobility shift assay showed that DNA complexes with enzyme DE190 and especially with DE192 were less stable than the corresponding complex with the wild-type enzyme. Kinetic analysis with these mutant enzymes indicate that their Km's for primer DNA were about 10-fold higher than that of the wild type, while Km's for deoxyribonucleoside triphosphate were not changed. Since neither DE190 nor DE192 had any significant alteration in secondary structure, our results suggest that both Asp-190 and Asp-192 are located in the active site and are involved in the interaction of DNA polymerase beta with primer.
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PMID:Aspartic acid residues at positions 190 and 192 of rat DNA polymerase beta are involved in primer binding. 203 95

We describe the polypeptide structure and some of the catalytic properties of a DNA polymerase alpha.DNA primase complex that can be prepared from KB cells by immunoaffinity purification. The procedure is based on monoclonal antibodies that were raised against a biochemically purified, catalytically active core protomer of the polymerase. In all respects tested, the basic mechanism of substrate recognition and binding by the immunoaffinity-purified polymerase is qualitatively identical to that of the core protomer. The immunoaffinity-purified KB cell polymerase alpha X DNA primase is structurally complex. On the basis of extensive immunochemical analyses with five independent monoclonal antibodies, three of which are potent neutralizers of polymerase alpha activity, peptide mapping studies, and the application of a sensitive immunoassay that permits detection of polymerase alpha antigens in crude cell lysates, we have established that the principal form of catalytically active DNA polymerase alpha in KB cells is a phosphoprotein with a molecular mass of 180 kilodaltons. This protein is stable in vivo, with an estimated half-life of greater than or equal to 15 h. In contrast, the polypeptide is extremely fragile in vitro and generates partial degradation products of p165, p140, and p125 that explain the "microheterogeneity" typically exhibited by polymerase alpha peptides in denaturing polyacrylamide gels. In addition to the catalytically active polymerase alpha polypeptide(s), the immunopurified enzyme fraction typically contains three other proteins, p77, p55, and p49, the functions of which have not yet been established. These proteins do not display polymerase alpha epitopes and have been shown by peptide mapping to be independent species that are unrelated either to the large polymerase peptides or to one another. The polypeptide p77 is also a phosphoprotein, and in both p180 and p77 the phosphorylated amino acids are exclusively serine and threonine.
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PMID:Structural and enzymological characterization of immunoaffinity-purified DNA polymerase alpha.DNA primase complex from KB cells. 242 27

The amino acid substitutions responsible for the temperature-sensitive (ts) and mutator phenotypes of the classical bacteriophage T4 DNA polymerase mutant tsL56 were determined. tsL56 DNA polymerase has two mutations in the 5' end of the DNA polymerase gene (g43) that produce two amino acid substitutions: codon 89, alanine to threonine, and codon 363, aspartate to asparagine. Both mutations are required for the strong ts and mutator phenotypes. The increased error rate of the tsL56 DNA polymerase is due to a reduction in 3'----5' exonuclease activity relative to polymerase activity (N. Muzyczka, R. L. Poland, and M. J. Bessman, J. Biol. Chem. 247:7116-7122, 1972). Thus, the locations of the tsL56 mutations suggest that the 3'----5' exonuclease domain resides in the N-terminal region. Several other ts DNA polymerase mutant strains isolated with tsL56 also have mutator or antimutator phenotypes. The nucleotide changes in these important mutant strains were also determined. This mutant collection, combined with collections of g43 amber mutants and mutants selected on the basis of a strong mutator phenotype (L. J. Reha-Krantz, J. Mol. Biol. 202:711-724, 1988), contains nearly 70 different DNA polymerase mutations. The numerous T4 DNA polymerase mutations are valuable for DNA polymerase structure-function and fidelity studies.
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PMID:Locations of amino acid substitutions in bacteriophage T4 tsL56 DNA polymerase predict an N-terminal exonuclease domain. 267 3

Treatment of HSV-infected cells with 5-10 mM beta-hydroxynorvaline (Hnv), a threonine analog, specifically affects herpesvirus DNA replication: both the rate of and total DNA synthesis are reduced, the former approximately 15-fold by Hnv (6 h post-infection) and the latter by 12-fold (between 3 and 12 h post-infection). The effect on DNA replication was due to inhibition of HSV-1 thymidine kinase (TK) and DNA polymerase (DP) activities; the former is reduced by 75% and whereas DP returns to baseline levels (when compared to untreated and/or uninfected cells). Host cell TK and DP activities are unaffected. It is suggested that beta-hydroxynorvaline is incorporated into these enzyme(s), either close to or at the active site thus perturbing viral DNA synthesis. beta-Hydroxynorvaline should have unique utility as a targeted antiviral compound, acting on both membrane-mediated phenomena (fusion, penetration and attachment) and DNA replication.
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PMID:Inhibition of herpesvirus-induced thymidine kinase and DNA polymerase by beta-hydroxynorvaline. 282 76

By site-directed mutagenesis we have changed the serine residue 232 of the phi 29 terminal protein, involved in the covalent linkage to dAMP for the initiation of replication, into a threonine residue. The mutant terminal protein has been purified to homogeneity and shown to be inactive in the formation of the initiation complex; nevertheless, the mutant protein retains its ability to interact with the phi 29 DNA polymerase and with the DNA. The results obtained indicate a high specificity in the linking site of the terminal protein.
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PMID:Site-directed mutagenesis in the DNA linking site of bacteriophage phi 29 terminal protein: isolation and characterization of a Ser232----Thr mutant. 313 31

When cultured in a threonine-deficient medium, concanavalin A treated guinea-pig lymphocytes do not incorporate tritiated thymidine. DNA polymerase activity is strongly affected. The addition of the missing amino acid is followed by an early increase in protein and RNA synthesis and a delayed rise in DNA polymerase alpha activity associated with the onset of DNA synthesis.
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PMID:Threonine starvation of concanavalin A treated lymphocytes impairs DNA polymerase alpha activity. 620 65

The recently described protein kinase activity in hepatitis B virus core antigen particles (Albin and Robinson, J. Virol. 34:297-302, 1980) has been demonstrated here in the liver-derived core particles of ground squirrel hepatitis virus. Both protein kinase activities were initially associated with DNA polymerase-positive heavy core particles in CsCl density equilibrium gradients and shifted to polymerase-negative cores during the course of purification. The major core-associated polypeptide of each virus was the dominant species labeled. A variable number of other polypeptide species were also labeled by this reaction. Tryptic peptide mapping of both major and minor phosphorylated polypeptides of each virus resulted in similar patterns, suggesting that many of the sites of phosphorylation were the same in the components of each core particle. Hydrolysis of these phosphorylated core particles revealed a major phosphoamino acid as serine and a minor phosphoamino acid as threonine. The products of the protein kinase reaction in both human hepatitis B and ground squirrel hepatitis virus core particles, then, share many characteristics. The possible function(s) of this protein kinase activity is discussed in the light of similarly characterized activities in other animal viruses.
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PMID:Core particles of hepatitis B virus and ground squirrel hepatitis virus. II. Characterization of the protein kinase reaction associated with ground squirrel hepatitis virus and hepatitis B virus. 710 41

The vaccinia virus genome encodes a DNA polymerase that is similar to other DNA polymerases. A mutation in the polymerase gene at a site that is adjacent to conserved residues allows viral replication in the presence of aphidicolin. Since wild-type virus is converted to aphidicolin-resistance by site-directed mutagenesis, it was feasible that active virus with substituted conserved residues could be detected by linking alterations to the aphidicolin-resistance mutation. Altered DNA, from a PCR, was introduced into virus by a marker transfer procedure. DNA from plaques of drug-resistant virus was amplified, and the product was sequenced to check for the conserved residue alteration. An alteration that introduced a Bg1I site was designed to facilitate the selection of drug-resistant virus containing substituted residues. One positive result was the replacement of two amino acids, tyrosine and alanine, by tryptophan and threonine. The failure to substitute aspartic acid for tyrosine indicates that drastic changes of the conserved sequence are not tolerated. Although the limitations associated with negative results apply, the method provides an in vivo assay for selecting a polymerase with conserved residue changes.
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PMID:A biological method for examining the effect of codon changes in a conserved region of DNA polymerase. 813 25

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