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)

We conducted Southern blot analysis of DNAs from mouse x hamster somatic cell hybrids and progeny of an interspecies backcross to localize the mouse gene for DNA polymerase beta (Polb) to the centromeric end of Chromosome 8. These results provide additional support for the regional localization of polymerase beta on the short arm of human chromosome 8 or the very proximal end of the long arm.
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PMID:Mapping of the gene for DNA polymerase beta to mouse chromosome 8. 197 75

Enhanced DNA repair has been identified as a major mechanism of resistance to the anticancer drug cisplatin in murine leukemia L1210 cells. Studies of other cells have implicated the elevation of a variety of RNA transcripts in cisplatin resistance. This study investigated potential changes in transcription of these genes as well as genes involved in DNA repair. No elevation in any of the following transcripts was observed: thymidylate synthase, dihydrofolate reductase, DNA polymerase alpha, DNA polymerase beta, topoisomerase II, Ha-ras, beta-tubulin, metallothionein and the DNA repair genes ERCC1 and ERCC2. Thymidine kinase was increased no more than 2-fold. None of these RNA were induced by incubation with cisplatin. High levels of cisplatin produced selective decreases in certain RNA. These results demonstrate that the previous observations of elevated RNA can not be universally applied to all cisplatin-resistant cells.
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PMID:Analysis of various mRNA potentially involved in cisplatin resistance of murine leukemia L1210 cells. 197 66

A novel method using combined chemical and enzymatic reactions to allow the preparation of covalently cross-linked DNA duplexes has been described. The method can be used to specifically link two complementary bases of a DNA duplex containing all four natural bases. The modified nucleotide 9-(2-deoxy-5-O-triphospho-beta-D-ribofuranosyl)-N6,N6-ethano -2,6-diaminopurine (6edDTP) was prepared by total chemical synthesis and was found to be incorporated into DNA duplexes in the place of 2'-deoxyguanosine 5'-O-triphosphate by the Klenow fragment of Escherichia coli DNA polymerase I, T4 and T7 DNA polymerases, avian myeloma virus reverse transcriptase, and rat DNA polymerase beta. Once incorporated, the aziridine of the nucleotide is rapidly opened by the N4 of the cytosine on the complementary strand to give cross-linked DNA, where the modified nucleotide is covalently joined to the complementary base by an ethano linkage. The duplexes produced were found to be recognized as substrates by various DNA polymerases. The Km for the incorporation of the 6edDTP into DNA catalyzed by the Klenow fragment of E. coli DNA polymerase I was found to be 29 microM, and the kcat was found to be 0.014 s-1. The modified nucleoside also served as a substrate for terminal deoxynucleotidyltransferase, where it was added to single-stranded DNA and then hybridized to a complementary strand, after which cross-linking of the two strands occurred within 1 min.
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PMID:A novel combined chemical-enzymatic synthesis of cross-linked DNA using a nucleoside triphosphate analogue. 198 67

A general repair process for DNA heteroduplexes has been detected in HeLa cell extracts. Using a variety of M13mp2 DNA substrates containing single-base mismatches and extra nucleotides, extensive repair is observed after incubation with HeLa cell cytoplasmic extracts and subsequent transfection of bacterial cells with the treated DNA. Most, but not all, mispairs as well as two frameshift heteroduplexes are repaired efficiently. Parallel measurements of repair in HeLa extracts and in Escherichia coli suggest that repair specificities are similar for the two systems. The presence of a nick in the molecule is required for efficient repair in HeLa cell extracts, and the strand containing the nick is the predominantly repaired strand. Mismatch-dependent DNA synthesis is observed when radiolabeled restriction fragments, produced by reaction of the extract with heteroduplex and homoduplex molecules, are compared. Specific labeling of fragments, representing a region of approximately 1,000 base pairs and containing the nick and the mismatch, is detected for the heteroduplex substrate but not the homoduplex. The repair reaction is complete after 20 min and requires added Mg2+, ATP, and an ATP-regenerating system, but not dNTPs, which are present at sufficient levels in the extract. An inhibitor of DNA polymerase beta, dideoxythimidine 5'-triphosphate, does not inhibit mismatch-specific DNA synthesis. Aphidicolin, an inhibitor of DNA polymerases alpha, delta, and epsilom, inhibits both semiconservative replication and repair synthesis in the extract. Butylphenyl-dGTP also inhibits both replicative and repair synthesis but at a concentration known to inhibit DNA polymerase alpha preferentially rather than delta or epsilon. This suggests that DNA polymerase alpha may function in mismatch repair.
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PMID:Heteroduplex repair in extracts of human HeLa cells. 199 29

We have detected the in situ activities of DNA glycosylase, endonuclease, exonuclease, DNA polymerase, and DNA ligase using a novel polyacrylamide activity gel electrophoresis procedure. DNA metabolizing enzymes were resolved through either native or SDS-polyacrylamide gels containing defined 32P-labeled oligonucleotides annealed to M13 DNA. After electrophoresis, these enzymes catalyzed in situ reactions and their [32P]DNA products were resolved from the gel by a second dimension of electrophoresis through a denaturing DNA sequencing gel. Detection of modified (degraded or elongated) oligonucleotide chains was used to locate various enzyme activities. The catalytic and physical properties of Novikoff hepatoma DNA polymerase beta were found to be similar under both in vitro and in situ conditions. With 3'-terminally matched and mismatched [32P]DNA substrates in the same activity gel, DNA polymerase and/or 3' to 5' exonuclease activities of Escherichia coli DNA polymerase I (large fragment), DNA polymerase III (holoenzyme), and exonuclease III were detected and characterized. In addition, use of matched and mismatched DNA primers permitted the uncoupling of mismatch excision and chain extension steps. Activities first detected in nondenaturing activity gels as either multifunctional or multimeric enzymes were also identified in denaturing activity gels, and assignment of activities to specific polypeptides suggested subunit composition. Furthermore, DNA substrates cast within polyacrylamide gels were successfully modified by the exogenous enzymes polynucleotide kinase and alkaline phosphatase before and after in situ detection of E. coli DNA ligase activity, respectively. Several restriction endonucleases and the tripeptide (Lys-Trp-Lys), which acts as an apurinic/apyrimidinic endonuclease, were able to diffuse into gels and modify DNA. This ability to create intermediate substrates within activity gels could prove extremely useful in delineating the steps of DNA replication and repair pathways.
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PMID:Characterization of DNA metabolizing enzymes in situ following polyacrylamide gel electrophoresis. 200 53

Terminal deoxynucleotidyl transferase (terminal transferase) was specifically modified in the DNA binding site by a photoactive DNA substrate (hetero-40-mer duplex containing eight 5-azido-dUMP residues at one 3' end). Under optimal photolabeling conditions, 27-40% of the DNA was covalently cross-linked to terminal transferase. The specificity of the DNA and protein interaction was demonstrated by protection of photolabeling at the DNA binding domain with natural DNA substrates. In order to recover high yields of modified peptides from limited amounts of starting material, protein modified with 32P-labeled photoactive DNA and digested with trypsin was extracted 4 times with phenol followed by gel filtration chromatography. All peptides not cross-linked to DNA were extracted into the phenol phase while the photolyzed DNA and the covalently cross-linked peptides remained in the aqueous phase. The 32P-containing peptide-DNA fraction was subjected to amino acid sequence analysis. Two sequences, Asp221-Lys231 (peptide B8) and Cys234-Lys249 (peptide B10), present in similar yield, were identified. Structure predictions placed the two peptides in an alpha-helical array of 39 A which would accommodate a DNA helix span of 11 nucleotides. These peptides share sequence similarity with a region in DNA polymerase beta that has been implicated in the binding of DNA template.
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PMID:Interactions of photoactive DNAs with terminal deoxynucleotidyl transferase: identification of peptides in the DNA binding domain. 200 41

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

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

The study of plant DNA polymerases lags far behind that concerning their animal or yeast counterpart. In this work we describe the first extensive purification to apparent homogeneity, as well as a detailed biochemical and immunological characterization, of a low molecular weight DNA polymerase (DNA polymerase CI) purified from wheat embryos. The monomeric enzyme is a basic protein having a molecular weight of 52 kDa. Polyclonal antibodies raised in rabbits against DNA polymerase CI did not inhibit animal DNA polymerases alpha and beta or wheat DNA polymerase A, whereas wheat DNA polymerases CII and B were much less affected than the CI enzyme. Several properties of enzyme CI were studied. Some known inhibitors of DNA polymerase activity including aphidicolin, phosphonoacetic acid and heparin, did not affect DNA polymerase CI while the activity of this enzyme was strongly inhibited by ddTTP and N-ethylmaleimide. The polyamine spermine decreased markedly the enzyme activity, while spermidine produced a strong stimulation at the same concentrations that spermine inhibited the enzyme. The best template for this enzyme is poly dA-oligo dT, although polymerase CI can recognize significantly some synthetic polyribonucleotide templates (poly rC-oligo dG, poly rA-oligo dT) but only at a given protein/template primer ratio. The enzyme is blocked at the amino terminus, thus preventing the automatic sequencing of the protein. The amino acid analysis showed a striking similarity with the animal low molecular weight DNA polymerase beta. The latter observation, as well as the effect of inhibitors (except N-ethylmaleimide which does not inhibit the animal polymerase) indicate that the DNA polymerase described in this work is a plant DNA polymerase very similar to the low molecular weight animal DNA polymerase beta, an enzyme believed to be involved in nuclear DNA repair.
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PMID:A low molecular weight DNA polymerase from wheat embryos. 210 59

The 5'-flanking region of the human poly(ADP-ribose) polymerase gene was isolated and characterized. The nucleotide sequence of a part of the poly(ADP-ribose) polymerase gene completely matched that of the cDNA. The transcriptional initiation sites (cap sites) of this gene, located about 166-bp upstream from the translational initiation site, were identified by S1 mapping analysis. Neither CAAT box nor TATA box was found within 500-bp upstream from the cap sites of poly(ADP-ribose) polymerase gene. The 200-bp immediately upstream of the cap site had a high G+C content (76.5%) and contained double repeats of the sequence CCGCCC, putative Sp1 binding sites, and a palindromic structure. The 5'-flanking region of poly(ADP-ribose) polymerase gene also showed promoter activity in chloramphenicol acetyltransferase assay and structural similarity to that of DNA polymerase beta gene.
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PMID:Characterization of a putative promoter region of the human poly(ADP-ribose) polymerase gene: structural similarity to that of the DNA polymerase beta gene. 210 70


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