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)

phi X174 RFI DNA treated with bleomycin (BLM) under conditions permitting nicking does not serve as a template-primer for Escherichia coli DNA polymerase I. Purified exonuclease III from E. coli and extracts from wild-type E. coli strains are able to convert the BLM-treated DNA to suitable template-primer, but extracts from exonuclease III deficient strains are not. Brief digestion by exonuclease III is enough to create the template-primer, suggesting that the exonuclease III is converting the BLM-treated DNA by a modification of 3' termini. The exonucleolytic rather than the phosphatase activity of exonuclease III appears to be involved in the conversion. Comparative studies with micrococcal nuclease indicate that BLM-created nicks do not have a simple 3'-P structure. Bacterial alkaline phosphatase does not convert BLM-treated DNA to template-primer. The endonuclease VI activity associated with exonuclease III does not incise DNA treated with BLM under conditions not allowing nicking, in contrast to DNA with apurinic sites made by acid treatment, arguing that conversion does not require the endonuclease VI action on uncleaved sites.
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PMID:Synthesis by DNA polymerase I on bleomycin-treated deoxyribonucleic acid: a requirement for exonuclease III. 616 81

The nascent DNA synthesized by permeable cells of Bacillus subtilis in the presence of 5'-mercurideoxycytidine triphosphate and 2',3'-dideoxyATP has been isolated and characterized. The newly synthesized DNA was isolated free from other cellular nucleic acids by affinity chromatography on thiol-substituted agarose. The number average chain length of the nascent DNA synthesized in one minute at 25 degrees C was 33 nucleotide residues, due to the chain-terminating action of 2',3'-dideoxyATP. Several lines of evidence indicated that at least 90% of the DNA thus isolated carried a terminally phosphorylated RNA moiety at its 5'-end: (1) the nascent DNA was resistant to exonucleolytic degradation by spleen phosphodiesterase unless first hydrolyzed by strong alkali or ribonuclease; (2) the 5'-termini of nascent DNA could not be phosphorylated by polynucleotide kinase unless first treated with alkaline phosphatase or subjected to hydrolysis by strong alkali or ribonuclease; (3) alkaline hydrolysis of nascent DNA labeled with 32P at the 5'-end released unlabeled DNA with a free 5'-terminus and 32P-labeled ribonucleoside 3',5'-bisphosphates; (4) ribonuclease degradation of similarly labeled material produced an unlabeled DNA-containing polynucleotide fraction and 32P-labeled ribo-oligonucleotides; (5) chromatography on dihydroxyboryl cellulose showed that the RNA moiety lacked a 3'-terminal cis-diol grouping (even after treatment with alkaline phosphatase) unless first subjected to the 3'-exonucleolytic action of bacteriophage T4 DNA polymerase. The sequence of the ribonucleotide chains was elucidated by end-group labeling with polynucleotide kinase and digestion with various ribonucleases. The ribonucleotide moiety was primarily three and four residues in length with the predominant sequence (pp)pApG(pC)1-2pDNA. The possibility that it represents a primer for discontinuous DNA synthesis is discussed.
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PMID:Analysis of the 5'-termini of nascent DNA chains synthesized in permeable cells of Bacillus subtilis. 618 36

Neocarzinostatin (NCS) induces repair in a xeroderma pigmentosum lymphoblastoid line deficient in the ability to repair DNA damage induced with (acetoxyacetyl-amino)fluorene. Repair was demonstrated by the induction of repair synthesis and by the disappearance of NCS-induced single-strand breaks and/or alkaline-labile sites in DNA. Estimation of NCS-induced repair patch size, based on the density shift induced in DNA by extensive shear after incubation of treated cells in medium with bromodeoxyuridine or by calculation from the extent of restoration of DNA sedimentation profiles in alkaline sucrose gradients and the amount of repair synthesis measured by the BND cellulose method, indicated that only a few nucleotides were inserted per repaired region. NCS-treated bacteriophage T7 DNA requires incubation with alkaline phosphatase to make it a substrate for DNA polymerase I. NCS-reacted T7 DNA, even after phosphatase treatment, is not a substrate for a DNA polymerase alpha obtained from human lymphoma cells. NCS-treated T7 DNA did serve as a substrate for the DNA polymerase alpha when incubated with an apurinic/apyrimidinic (AP) endonuclease with associated 5'-3'-exonuclease activity. The results suggest that NCS-induced AP sites could be intermediates for the in vivo repair synthesis.
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PMID:Repair of neocarzinostatin-induced deoxyribonucleic acid damage in human lymphoblastoid cells: possible involvement of apurinic/apyrimidinic sites as intermediates. 625 59

gamma-Irradiation of DNA in vitro produces two types of single strand breaks. Both types of strand breaks contain 5'-phosphate DNA termini. Some strand breaks contain 3'-phosphate termini, some contain 3'-phosphoglycolate termini (Henner, W.D., Rodriguez, L.O., Hecht, S. M., and Haseltine, W. A. (1983) J. Biol. Chem. 258, 711-713). We have studied the ability of prokaryotic enzymes of DNA metabolism to act at each of these types of gamma-ray-induced 3' termini in DNA. Neither strand breaks that terminate with 3'-phosphate nor 3'-phosphoglycolate are substrates for direct ligation by T4 DNA ligase. Neither type of gamma-ray-induced 3' terminus can be used as a primer for DNA synthesis by either Escherichia coli DNA polymerase or T4 DNA polymerase. The 3'-phosphatase activity of T4 polynucleotide kinase can convert gamma-ray-induced 3'-phosphate but not 3'-phosphoglycolate termini to 3'-hydroxyl termini that can then serve as primers for DNA polymerase. E. coli alkaline phosphatase is also unable to hydrolyze 3'-phosphoglycolate groups. The 3'-5' exonuclease actions of E. coli DNA polymerase I and T4 DNA polymerase do not degrade DNA strands that have either type of gamma-ray-induced 3' terminus. E. coli exonuclease III can hydrolyze DNA with gamma-ray-induced 3'-phosphate or 3'-phosphoglycolate termini or with DNase I-induced 3'-hydroxyl termini. The initial action of exonuclease III at 3' termini of ionizing radiation-induced DNA fragments is to remove the 3' terminal phosphate or phosphoglycolate to yield a fragment of the same nucleotide length that has a 3'-hydroxyl terminus. These results suggest that repair of ionizing radiation-induced strand breaks may proceed via the sequential action of exonuclease, DNA polymerase, and DNA ligase. The possible role of exonuclease III in repair of gamma-radiation-induced strand breaks is discussed.
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PMID:Enzyme action at 3' termini of ionizing radiation-induced DNA strand breaks. 636 Oct 28

An oligonucleotide probe (23-mer) containing a single biotinylated deoxyuridine residue at the 3' terminus was prepared by a primer extention reaction using Escherichia coli DNA polymerase I (Klenow fragment). For efficient synthesis of the probe, it was necessary to add about 16-fold molar excess of the template oligonucleotide (pentadecanucleotide) to the primer oligonucleotide (nonadecanucleotide) in the reaction mixture and to continue the reaction for 2.5 hr at 4 degrees C. The probe was purified by polyacrylamide gel electrophoresis under denaturing conditions. The probe could be specifically and tightly bound with Avidin D (Vector Laboratories) in 1 M NaCl. It could be hybridized to a plasmid DNA containing a perfectly matched complementary sequence, but not to a DNA containing five consecutive noncomplementary bases. The hybridized biotinylated probe could be detected by Avidin D and biotinylated alkaline phosphatase, even when 1.8 ng of the plasmid DNA (0.5 fmoles) was used. A general approach to the enzymatic synthesis of oligonucleotides containing a single biotinylated deoxyuridine at the 3' end is described.
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PMID:Biotin-labeled oligonucleotides: enzymatic synthesis and use as hybridization probes. 674 43

One of the two forms of DNA polymerase alpha from ovaries of the frog Xenopus laevis catalyzed ribonucleoside triphosphate-dependent DNA synthesis on single-stranded circular fd phage DNA templates. DNA synthesis was dependent on ATP and added template. CTP, GTP, and UTP stimulated DNA synthesis but were not required and could not substitute for ATP. DNA synthesis was not inhibited by alpha-amanitin. Neither poly(dT) nor double-stranded DNA served as template. Analysis of [32P]-dTMP-labeled product by neutral and alkaline agarose gel electrophoresis showed that 0.1- to 1-kilobase DNA fragments (average size of approximately equal to 0.25 kilobase) were synthesized. The fragments were not covalently linked to the template. Either [alpha-32P]NMP, [gamma-32P]ATP, or [gamma-32P]GTP were incorporated also into the product. Analysis of the product after hydrolysis by KOH, alkaline phosphatase, or bacteriophage T4 3' leads to 5' exonuclease showed the presence of a small oligoribonucleotide primer at the 5' end of the newly synthesized DNA. NTP-dependent DNA-synthesizing activity copurified on six columns and cosedimented during glycerol gradient centrifugation with one form of DNA polymerase alpha activity but not with the other form. These results suggest that DNA primase activity is associated with one of the two forms of X. laevis DNA polymerase alpha.
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PMID:DNA primase activity associated with DNA polymerase alpha from Xenopus laevis ovaries. 696 3

T4 DNA polymerase copolymerizes the SP isomers of 2'-deoxyadenosine 5'-O-(1-thiotriphosphate) and 5'-O-(2-thiotriphosphate) with dTTP onto a poly(d(A-T) template in the presence of various metal ions. The corresponding RP diastereomers are inactive, independent of the metal ion used. The polymer resulting from the polymerization of the SP diastereomer of 2'-deoxyadenosine 5'-O-(1-thiotriphosphate) and dTTP can be degraded by the 5' leads to 3' exonuclease activity of Escherichia coli DNA polymerase I and alkaline phosphatase (Brody, R. S., and Frey, P. A. (1981) Biochemistry 20, 1245-1252) to d(Tp(S)A). This material has the RP configuration as determined by comparison with the RP and SP diastereomers obtained by chemical synthesis and preparative separation by high performance liquid chromatography. This result indicates inversion of configuration at the alpha-phosphorus in the nucleotidyl transfer reaction and is compatible with the absence of a covalent enzyme intermediate.
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PMID:A study of the mechanism of T4 DNA polymerase with diastereomeric phosphorothioate analogues of deoxyadenosine triphosphate. 704 12

The 10 S DNA polymerase alpha from calf thymus (Masaki, S., and Yoshida, S. (1978) Biochim. Biophys. Acta 521, 74-88) has been purified to near homogeneity. The most purified fraction obtained by repeated sucrose rate-zonal centrifugation contained three large polypeptides of 150,000, 145,000, and 140,000 daltons and three to four smaller polypeptides ranging from 43,000 to 50,000 daltons. A good resolution of these polypeptides was achieved on a sodium dodecyl sulfate-polyacrylamide linear gradient gel (5-20%) which was stained by the silver stain method. The three large polypeptides were also observed in the more crude fractions prepared in the presence of three kinds of protease inhibitors. By a peptide mapping analysis, it was revealed that these three polypeptides have a similar primary structure. Treatments of the enzyme with alkaline phosphatase, phosphodiesterase, and neuraminidase did not affect the gel pattern. These results indicate that the 10 S DNA polymerase alpha of calf thymus has a microheterogeneity in terms of the large polypeptide component. Among these three large polypeptides, the two polypeptides of 150,000 and 145,000 daltons disappeared by keeping the sucrose gradient fraction at 4 degrees C in the absence of glycerol, while the 140,000-dalton polypeptide was well preserved. The poly(rA)oligo(dT)-dependent activity of 10 S DNA polymerase alpha was selectively lost under this condition.
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PMID:10 S DNA polymerase alpha of calf thymus shows a microheterogeneity in its large polypeptide component. 708 21

The bacteriophage T7 induced DNA polymerase, consisting of the phage specified gene 5 protein associated with Escherichia coli thioredoxin, catalyzes the copolymerization of SP-dATP alpha S with dTTP, producing the alternating of polymer poly[dTs-A)] by a mechanism involving inversion of configuration at P alpha. Degradation of poly[d(5s-A)] by the nucleolytic action of E. coli DNA polymerase produced the dinucleotide pdTps-dA, whose configuration at the phosphorothioate diester was assigned as R by comparison of the phosphorus-31 nuclear magnetic resonance chemical shift (55.0 ppm downfield from H3PO4) with that of an authentic sample. Further degradation by alkaline phosphatase to Rp-dTps-dA (55.6 ppm downfield from H3PO4) confirmed the configuration. The stereochemistry provides no evidence of a double displacement mechanism.
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PMID:Stereochemical course of nucleotidyl transfer catalyzed by bacteriophage T7 induced DNA polymerase. 709 4

The ligation-independent cloning of PCR products (LIC-PCR) is a versatile and highly efficient cloning procedure resulting in recombinant clones only. Recombinants are generated between PCR products and a PCR-amplified vector through defined complementary single-stranded (ss) ends artificially generated with T4 DNA polymerase. This procedure does not require restriction enzymes, alkaline phosphatase, or DNA ligase. The primers used for amplification contain an additional 12-nucleotide sequence at their 5' ends that is complementary in the vector- and insert-specific primers. The (3'-->5') exonuclease activity of T4 DNA polymerase is used in combination with a predetermined dNTP (dGTP for the inserts and dCTP for the vector) to specifically remove 12 nucleotides from each 3' end of the PCR fragments. Because of the complementarity of the ends that are generated, circularization can occur between vector and insert. The recombinant molecules do not require in vitro ligation for efficient bacterial transformation. To make this technique widely applicable, we have simplified the handling of the PCR fragments prior to LIC. The PCR products do not need further purification following the T4 DNA polymerase treatment. Incubation of vector and insert PCR fragments for as little as 5 min is sufficient for a high yield of recombinants. Comparison of the transformation efficiencies using different-length LIC tails revealed that using 12-nucleotide cohesive ends produced four times more transformants than were obtained with the LIC with 10-nucleotide cohesive ends. When the LIC tails were 8 nucleotides long, no transformants were obtained. PCR fragment purification, T4 DNA polymerase treatment, and LIC is complete in < 1 hr.
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PMID:Minimal length requirement of the single-stranded tails for ligation-independent cloning (LIC) of PCR products. 758 Sep 2

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