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 new system for studying the molecular mechanisms of mutation by carcinogens is described. The system involves (a) site-specific modification of the essential gene G in phi X174 replicative form DNA by a combination of chemical and enzymatic steps; (b) production of mutant virus carrying a change at a single preselected site by transfection of spheroplasts with the site modified phi X174 DNA; (c) detection and propagation of mutants using a host carrying the plasmid, p phi XG, that rescues all type of gene G mutants by complementation; (d) identification of the mutation in the progeny virus by isolating and sequencing mutant phi X174 DNA in the region that carried the parental, site-specific change. To demonstrate that this system is operational, we have produced a previously unknown phi X174 gene G mutant carrying a C leads to T base change at position 2401 of the viral (plus) strand. This preplanned, nonsense (amber) mutant was obtained by changing G to A at the appropriate position in a chemically synthesized, octadeoxynucleotide, minus strand primer; elongating this enzymatically with Escherichia coli DNA polymerase I (larger fragment) (lacking 5' leads to 3' exonuclease activity) to a 17-mer; and repriming to obtain the site-modified phi X174 replicative form DNA enzymatically with E. coli DNA polymerase I (large fragment) and T4 DNA ligase. After transfection of spheroplasts with the heteroduplex DNA, the lysate was screened for mutant virus with permissive (carrying p phi XG) and nonpermissive (without p phi XG) host cells. About 1% of the progeny virus were mutants. Out of 15 isolates, 11 were suppressible by an amber Su1+ (serine) or an ochre Su8+ (glutamine) suppressor. The other 4 isolates were not suppressed at all. Replicative form DNA produced from one of the suppressible mutants was shown (by sequencing) to contain the expected C leads to T change at the preselected site in the viral strand. Replicative form DNA from one of the nonsuppressible mutants was partially sequenced. No change was found at or around position 2401. The nature of the mutation(s) in these isolates is still unknown. The occurrence of mutations outside the preselected sites represent a potential problem for our projected studies, but additional data is required before the problem can be fully evaluated. In spite of this, it should be possible to study, in vivo, the biological effects of any site-specific modification (including covalent modifications by carcinogens) that can be introduced into gene G of phi X174 DNA via a synthetic, oligonucleotide primer.
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PMID:A new system for studying molecular mechanisms of mutation by carcinogens. 22 5

The mutator effect of amber alleles of three early genes (43, 32, 47), which were suppressed by the bacterial suppressor gene, was studied. There are some advantages in using the suppressed amber alleles instead of ts, because in this case definite amino acid substitutions take place in the protein due to certain suppressor gene effect. For example, in Escherichia coli CR63(Su+-1) the replacement of the original amino acid by serine takes place. Studying the mutator effect of 43 alleles of DNA polymerase gene of phage T4 with tester mutant r131 showed that in condition of suppression by the gene Su+ -1 only 13,9% of alleles possessed the mutator activity. In the same experiments with mutants of genes 32 and 47 the mutator effect was not observed.
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PMID:[Mutator effect of suppressed amber-alleles of early genes of bacteriophage T4]. 79 21

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

In this paper, we show that the phi 29 DNA polymerase, in the absence of DNA, is able to catalyze the formation of a covalent complex between the phi 29 terminal protein (TP) and 5'-dAMP. Like the reaction in the presence of phi 29 DNA, TP.dAMP complex formation is strongly dependent on activating Mn2+ ions and on the efficient formation of a TP/DNA polymerase heterodimer. The nature of the TP-dAMP linkage was shown to be identical (a O-5'-deoxyadenylyl-L-serine bond) to that found covalently linking TP to the DNA of bacteriophage phi 29, indicating that this DNA-independent reaction actually mimics that occurring as the initiation step of phi 29 DNA replication. Furthermore, as in normal TP-primed initiation on the phi 29 DNA template, this novel reaction showed the same specificity for TP Ser232 as the OH donor and the involvement of the YCDTD amino acid motif, highly conserved in alpha-like DNA polymerases. However, unlike the reaction in the presence of phi 29 DNA, the DNA-independent deoxynucleotidylation of TP by the phi 29 DNA polymerase did not show dATP specificity, being possible to obtain any of the four TP.dNMP complexes with a similar yield. This lack of specificity together with the poor efficiency of this reaction at low deoxynucleoside triphosphate (dNTP) concentration reflect a weak, but similar stability of the four dNTPs at the phi 29 DNA polymerase dNTP-binding site. Thus, the presence of a director DNA would mainly contribute to stabilizing a complementary nucleotide, giving base specificity to the protein-primed initiation reaction. According to all these data, the novel DNA polymerase reaction described in this paper could be considered as a "non-DNA-instructed" protein-primed deoxynucleotidylation.
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PMID:DNA-independent deoxynucleotidylation of the phi 29 terminal protein by the phi 29 DNA polymerase. 173 Jun 46

We have determined the nucleotide sequence of the polC gene of Bacillus subtilis which codes for DNA polymerase III. Our recent analysis has revealed that the gene comprises 4311 nucleotides, from the start to the stop codon, 306 nucleotides more than we reported earlier. The plasmid reported by us and by N.C. Brown's laboratory contained a sequence at the end of the gene which is not related to the polC region of B. subtilis. We have isolated the rest of the gene, the sequence of which is presented in this paper. The new stop codon is followed by a hyphenated palindromic sequence of 13 nucleotides. The C-terminus of the coding region contains the novel mutation, dnaF, which results in a defect in the initiation of replication due to a change in the codon TCC to TTC (serine to phenylalanine). The hypermutator mutation mut-1 is due to two point mutations in the 3' to 5' exonuclease domain, the proof reading function. The codon changes are GGA to GAA (glycine to glutamic acid) and AGC to AAC (serine to asparagine). The elongation defective mutation, polC26, affecting the catalytic site that adds nucleotides to the growing chain, is due to a change in the codon GTC to GAC (valine to aspartic acid). It is separated from the mutation reported earlier, azp-12, by 306 nucleotides. Knowing the locations of the mutational sites allowed us to deduce the domains of the gene and the enzyme it encodes, and permitted us to present a precise map of the gene at the molecular level.
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PMID:Genetic structure and domains of DNA polymerase III of Bacillus subtilis. 184 Jun 38

The functional importance of the conserved region I (YGDTDSLF) found in several prokaryotic, eukaryotic, and viral DNA polymerases has been probed by site-directed mutagenesis of the adenovirus DNA polymerase (Ad Pol). Three different adenovirus-specific assays have been used to measure the in vitro activity of region I mutants of Ad Pol expressed in transiently transfected CMT-4 cells. In general, both conservative and nonconservative changes generally showed a greater than 5- to 10-fold reduction in activity in three different assays for activity. However, several replacements at the glycine residue showed activities closer to wild-type levels. For example, replacements of this glycine with cysteine (found in bacteriophage phi 29, another protein primed replication system), with serine, or with methionine had little effect on the activity observed in adenovirus-specific assays, such as initiation and elongation. These studies confirm the importance of this region of Ad Pol in specific initiation and elongation reactions on Ad DNA templates.
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PMID:Mutagenesis of conserved region I in the DNA polymerase from human adenovirus serotype 2. 187 69

The Mr = 38,300 polypeptide of the purified recombinant rat DNA polymerase beta served as an excellent substrate for protein kinase C (PKC) in vitro but not for the catalytic subunit of cAMP-dependent protein kinase. The phosphorylation by PKC resulted in inactivation of DNA polymerase beta activity, and recovery was achieved by dephosphorylation with alkaline phosphatase. Since the phosphorylated DNA polymerase beta was retained with use of a single-stranded DNA-cellulose column, inactivation might occur at a site different from that for the DNA binding. Amino acid sequence analysis of the phosphopeptides revealed that the phosphorylated sites were 2 serine residues at positions 44 and 55 from the NH2 terminus, either or both of which might be involved in the catalytic activity of DNA polymerase beta. Thus, the inactivation of the DNA repair enzyme, DNA polymerase beta, by PKC may be an important process in the modification of DNA metabolism in the nucleus through signal transduction processes.
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PMID:Inactivation of DNA polymerase beta by in vitro phosphorylation with protein kinase C. 204 Jun 2

Bacteriophage phi 29 DNA polymerase is sensitive to aphidicolin (APH). DNA polymerase of the APH-resistant mutant, APHr71, was more sensitive to phosphonoacetic acid and butylphenyldeoxyguanosine 5'triphosphate than the wild type. Nucleotide sequence analysis revealed a single transition of G at nucleotide 562 to A in the DNA polymerase gene of APHr71, indicating that APHr71 DNA polymerase (572 residues) had a single amino acid substitution from glycine at residue 188 to serine. The results suggest that the site and the neighboring conserved segment of phi 29 DNA polymerase constitute a structure interacting with deoxynucleotides, pyrophosphate, and APH.
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PMID:Aphidicolin-resistant DNA polymerase of bacteriophage phi 29 APHr71 mutant is hypersensitive to phosphonoacetic acid and butylphenyldeoxyguanosine 5'-triphosphate. 211 30

Secretin is a 27-amino acid gastrointestinal hormone that stimulates the secretion of bicarbonate-rich pancreatic fluid. The unusually high number of serine, leucine, and arginine residues in secretin has precluded the use of oligonucleotides to screen cDNA libraries to isolate a secretin cDNA. In the present study, a short cDNA encoding porcine secretin was amplified from duodenal mucosal first-strand cDNA template by using 16,384- and 4096-fold degenerate primers in the DNA polymerase chain reaction. From the sequence of the amplified cDNA, an unambiguous oligonucleotide probe was designed to screen a cDNA library. Here we report the sequences of cDNAs encoding the porcine and rat secretin precursors. The predicted amino acid sequences reveal that each precursor consists of a signal peptide, an N-terminal peptide, secretin, and a 72-amino acid C-terminal peptide. Secretin has been highly conserved through evolution. Rat secretin differs from its porcine counterpart by a single glutamine-for-arginine substitution at position 14. In contrast, the amino acid sequences of the C-terminal peptides are only 39% conserved between the two species, suggesting that the C-terminal peptide does not have an essential physiologic function. RNA blot hybridizations reveal that the rat secretin gene is expressed throughout the small intestine. Although secretin immunoreactivity has been localized in the central nervous system by some laboratories, we are unable to detect secretin mRNA in tissues of the central nervous system by Northern blot hybridization.
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PMID:Secretin: structure of the precursor and tissue distribution of the mRNA. 231 22

By site-directed mutagenesis we have changed into Cys the Ser232 of the phi 29 terminal protein (TP) involved in the covalent linkage to dAMP for the initiation of replication. The mutant TP, highly purified, had about 0.7% of the priming activity of the wild-type (wt) protein p3. The linkage between the mutant protein p3 and dAMP was more labile to piperidine treatment than the serine-dAMP linkage in the wt protein p3, suggesting the presence of a different kind of linkage, Cys-dAMP. In the other three mutant TPs, residues Leu220, Ser223 and Ser226 were independently changed into Pro; the purified TP mutants had about 3%, 140% and 1% of the priming activity of the wt p3, respectively. All the mutant TP were able to interact with the phi 29 DNA polymerase and with DNA, suggesting that Leu220 and Ser226, in addition to Ser232, form part of a functional domain involved in the process of initiation of DNA replication.
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PMID:Functional domain for priming activity in the phage phi 29 terminal protein. 234 Oct 40

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