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 activities of orotate phosphoribosyltransferase (OPRT), cytidine triphosphate (CTP) synthetase, deoxycytidine monophosphate (dCMP) deaminase, thymidine monophosphate (dTMP) kinase, uridine (Urd) kinase, thymidine (dThd) kinase, Urd and dThd phosphorylases, and DNA polymerase were examined in the eight human lung squamous cell carcinomas and five lung adenocarcinomas, and five tumor-adjacent normal lung tissues. All of these enzymes are involved in pyrimidine nucleotide synthesis. The metabolism of 5-fluorouracil (5-FU) was determined. The levels of these enzymes, except for OPRT, were high in tumor tissues and almost the same between lung squamous cell carcinomas and adenocarcinomas, with no statistical difference. The activities for phosphorylation and degradation of 5-FU were similar in each tissue type of tumor. As 5-FU is incorporated into tumor cells and is metabolized actively to 5-FU nucleotides in squamous cell carcinoma tissues, at almost the same level seen in adenocarcinoma tissues, this drug should have a wide clinical application.
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PMID:Comparison of pyrimidine nucleotide synthetic enzymes involved in 5-fluorouracil metabolism between human adenocarcinomas and squamous cell carcinomas. 216 41

The DNA polymerase III holoenzyme of Escherichia coli contains a potent 3'----5' exonuclease that removes the terminal nucleotide from a synthetic deoxyoligonucleotide primer with a half-life of approximately 2 s. Degradation of primers could not be effectively prevented by permitting the holoenzyme to "idle" at the primer terminus in the presence of limited deoxynucleoside triphosphates. To further characterize this exonuclease and to develop stable primers to facilitate experimental manipulations, we synthesized a series of twelve 25-mer oligonucleotides that differed only in the two 3'-terminal residues. The penultimate position contained either a CMP or a dCMP residue, while at the terminal position either AMP, dAMP, 2',3'-dideoxyAMP, cordycepin (3'-dAMP), dAMP alpha S, or 2',3'-dideoxyAMP alpha S was incorporated. No single change at either the 3'-penultimate or 3'-terminal positions resulted in a decrease in the exonuclease rate greater than 10-fold; however, combined changes at these two sites resulted in a strong synergistic effect. Placing a ribonucleotide at the penultimate position coupled by a phosphorothioate linkage to a terminal 2',3'-dideoxynucleotide reduced the rate of exonucleolytic activity almost 30,000-fold (half-life approximately 16 h). If only the ribonucleotide and phosphorothioate substitutions were made, a primer capable of being efficiently elongated was generated that exhibited a 500-fold increase in stability (half-life = 40 min). The elemental effect observed by substituting a nonbridging oxygen in the terminal phosphodiester bond for sulfur increased from 1.5 to 200 as other substitutions were made that decreased the exonuclease rate. This was consistent with a change in the rate-limiting step of the exonuclease reaction from a conformational change to the chemical step where the covalent bond is cleaved. At least part of this effect appears to be due to perturbations within the enzyme's active site and not solely due to changes in electrophilicity.
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PMID:Reduction of the potent DNA polymerase III holoenzyme 3'----5' exonuclease activity by template-primer analogues. 217 42

A new procedure has been developed for the efficient cloning of complex PCR mixtures, resulting in libraries exclusively consisting of recombinant clones. Recombinants are generated between PCR products and a PCR-amplified plasmid vector. The procedure does not require the use of restriction enzymes, T4 DNA ligase or alkaline phosphatase. The 5'-ends of the primers used to generate the cloneable PCR fragments contain an additional 12 nucleotide (nt) sequence lacking dCMP. As a result, the amplification products include 12-nt sequences lacking dGMP at their 3'-ends. The 3'-terminal sequence can be removed by the action of the (3'----5') exonuclease activity of T4 DNA polymerase in the presence of dGTP, leading to fragments with 5'-extending single-stranded (ss) tails of a defined sequence and length. Similarly, the entire plasmid vector is amplified with primers homologous to sequences in the multiple cloning site. The vector oligos have additional 12-nt tails complementary to the tails used for fragment amplification, permitting the creation of ss-ends with T4 DNA polymerase in the presence of dCTP. Circularization can occur between vector molecules and PCR fragments as mediated by the 12-nt cohesive ends, but not in mixtures lacking insert fragments. The resulting circular recombinant molecules do not require in vitro ligation for efficient bacterial transformation. We have applied the procedure for the cloning of inter-ALU fragments from hybrid cell-lines and human cosmid clones.
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PMID:Ligation-independent cloning of PCR products (LIC-PCR). 223 90

Baby hamster kidney (BHK-21) cells do not allow replication of human adenovirus type 12 (Ad12) DNA during abortive infection by this virus. However, we have determined that crude extracts of BHK-21 cells abortively infected with Ad12 support in vitro the initiation reaction of Ad12 DNA replication. Synthesis of the Ad12 pTP-dCMP initiation complex by BHK extracts is two- to five-fold less than when crude infected human (KB) cell extracts are used in the reaction. Combining infected KB cytoplasmic and uninfected BHK nuclear extracts in the reaction indicates that the decreased efficiency is probably due to a lesser ability of hamster nuclear extracts to support the initiation reaction, rather than to decreased synthesis of Ad12 pTP and DNA polymerase during abortive infection, or to the presence of an inhibitor in BHK cells.
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PMID:Extracts of hamster cells abortively infected with human adenovirus type 12 are competent to support initiation of viral DNA replication. 233 Jun 76

Reverse transcriptase from the human immunodeficiency virus type I (HIV-1) was expressed in E. coli and purified to near homogeneity. The enzyme was shown to contain reverse transcriptase, DNA polymerase and ribonuclease H activities. The DNA polymerase activity converted singly-primed phi X174 (+) DNA into the double-stranded form. Two third of the replication product is ligatable to covalently closed circular DNA (RFIV-form DNA) indicating that DNA synthesis by HIV reverse transcriptase can proceed until the enzyme matches the 5'-end of a pre-existing primer molecule. The in vitro accuracy of HIV reverse transcriptase was measured with the phi X174am16 reversion assay to be 1/7,400. Reversion rates for the individual mispairs were determined from pool bias studies to be 1/8,000 for the dGMP:T template mismatch, 1/35,000 for the dGMP:A template mismatch, 1/45,000 for the dAMP:G template mismatch, 1/73,000 for the dCMP:T template mispair, 1/140,000 for the dCMP:A template mispair, and 1/180,000 for the dGMP:G template mismatch. The dTMP:T template mispair was below the detection limit of the assay indicating a reversion rate of less than 1/300,000 for this particular mispair.
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PMID:Fidelity of human immunodeficiency virus type I reverse transcriptase in copying natural DNA. 246 38

DNA polymerase-primase complex, isolated with an apparently undegraded alpha-subunit, was immunoaffinity-purified to near homogeneity from the human lymphoblast line HSC93. The undegraded state of the alpha-subunit was monitored by Western-blot analysis of crude cellular extracts and all active fractions obtained during purification. The human polymerase-primase consists of four subunits with molecular weights of 195, 68, 55 and 48 kd. The fidelity of the polymerase-primase in copying bacteriophage phi X174am16 DNA in vitro was determined by measuring the frequency of production of different revertent phages. The overall accuracy was between 4 x 10(-6) and 10 x 10(-6). This value reflects the spontaneous mutation frequency of phi X174am16 phages in Escherichia coli, and is 10- to 20-fold higher than the accuracy of a conventionally purified enzyme from calf thymus. The frequencies of base pairing mismatches, estimated from pool bias measurements, were 3.5 x 10(-7) (1/2 880,000) for dGMP:Ttemplate mispairs, between 10(-7) and 10(-8) for dCMP:Ttemplate (1/35,000,000), dCMP:Atemplate (1/18,200,000) and dAMP:Gtemplate mispairs (1/16,500,000), and below 10(-8) (1/100,000,000) for dTMP:Ttemplate, dGMP:Atemplate and dGMP:Gtemplate mispairs. In contrast to previous preparations, the intact polymerase-primase possesses a 3'----5' exonuclease activity. This exonuclease removes both matched and mismatched 3'-OH ends, with a preference for mismatched bases. Fidelity was reduced 8-fold by increasing the concentration of the next nucleotide following the incorporated mismatch nucleotide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Exonucleolytic proofreading increases the accuracy of DNA synthesis by human lymphocyte DNA polymerase alpha-DNA primase. 252 47

Acyclovir triphosphate (ACVTP) was a substrate for herpes simplex virus type 1 (HSV-1) DNA polymerase and was rapidly incorporated into a synthetic template-primer designed to accept either dGTP or ACVTP followed by dCTP. HSV-1 DNA polymerase was not inactivated by ACVTP, nor was the template-primer with a 3'-terminal acyclovir monophosphate moiety a potent inhibitor. Potent inhibition of HSV-1 DNA polymerase was observed upon binding of the next deoxynucleoside 5'-triphosphate coded by the template subsequent to the incorporation of acyclovir monophosphate into the 3'-end of the primer. The Ki for the dissociation of dCTP (the "next nucleotide") from this dead-end complex was 76 nM. In contrast, the Km for dCTP as a substrate for incorporation into a template-primer containing dGMP in place of acyclovir monophosphate at the 3'-primer terminus was 2.6 microM. The structural requirements for effective binding of the next nucleotide revealed that the order of potency of inhibition of a series of analogs was: dCTP much greater than arabinosyl-CTP greater than 2'-3'-dideoxy-CTP much greater than CTP, dCMP, dCMP + PPi. In the presence of the next required deoxynucleotide (dCTP), high concentrations of dGTP compete with ACVTP for binding and thus retard the formation of the dead-end complex. This results in a first-order loss of enzyme activity indistinguishable from that expected for a mechanism-based inactivator. The reversibility of the dead-end complex was demonstrated by steady-state kinetic analysis, analytical gel filtration, and by rapid gel filtration through Sephadex G-25. Studies indicated that potent, reversible inhibition by ACVTP and the next required deoxynucleoside 5'-triphosphate also occurred when poly(dC)-oligo(dG) or activated calf thymus DNA were used as the template-primer.
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PMID:Herpes simplex virus type 1 DNA polymerase. Mechanism of inhibition by acyclovir triphosphate. 254 Jan 93

Poly(2'-fluoro-2'-deoxyadenylic acid) (poly(dAfl)) and poly(2'-deoxycytidylic acid) (poly(dCfl)) were tested as templates in DNA synthesis reactions catalyzed by Xenopus laevis oocytes DNA polymerase alpha, mouse cell DNA polymerase gamma and avian myeloblastis virus (AMV) reverse transcriptase. Poly(dAfl).(dT)12 can fully substitute for poly(rA).(dT)12 as template with DNA polymerase gamma, to 50% with reverse transcriptase, but was poorly recognized by DNA polymerase alpha. DNA synthesis by reverse transcriptase with poly(dCfl).(dG)12 as template was 50% of that with poly(rC).(dG).(dG)12. The use of 2'-fluoropolymers as templates was more efficient at 37 degrees C than at 25 degrees C. No appreciable differences on the fidelity of DNA synthesis by reverse transcriptase were observed when dCMP misincorporation was measured with poly(dAfl).(dT)12 or poly(rA).(dT)12 as template primers. Poly(C) and poly-2'-O-methylcytidylic acid had no significant effect on the reaction catalyzed by DNA polymerase gamma and reverse transcriptase, independent of the synthetic polynucleotide complex utilized as template. On the other hand, poly(dCfl) was an inhibitor when poly(rA).(dT)12 or poly(dA).(dT)12 were used as templates, but not when poly(dAfl).(dT)12 was employed. Analogous results have been obtained with activated DNA and AMV 70 S RNA as templates in the reverse transcriptase reaction. The inhibition by poly(dCfl) was noncompetitive with regard to TTP, poly(dA) and poly(rA). Xenopus laevis oocytes DNA polymerase alpha was not inhibited by poly(dCfl).
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PMID:2'-Fluoro-2'-deoxypolynucleotides as templates and inhibitors for RNA- and DNA-dependent DNA polymerases. 257 20

Occurrence of the transversion mutation A.T to C.G is specifically enhanced in Escherichia coli mutT mutants. With the aid of the cloned mutT gene, the MutT protein, which has a molecular mass of 15 kilodaltons, was overproduced and purified to near homogeneity. The protein catalyzes hydrolysis of dGTP to dGMP. dGDP and GTP were also hydrolyzed by the protein, but at a lower rate than seen with dGTP. No other deoxynucleoside triphosphates were hydrolyzed. Using poly(dA).(dT)20 as a template-primer, we investigated the misincorporation of dGMP, dCMP, and dAMP by the alpha subunit and the core of E. coli DNA polymerase III. When the polymerization reaction was performed with the alpha subunit, both dCMP and dGMP were misincorporated. The core, composed of alpha, epsilon, and theta subunits, misincorporated only dGMP. This would imply that the proofreading function of the epsilon subunit of DNA polymerase III may correct the dC.dA mispair but not the dG.dA mispair. Misincorporation of dAMP was not observed in reactions with the alpha subunit or core. The misincorporation of dGMP, but not dCMP, was almost completely suppressed by adding purified MutT protein to the reaction mixture. Under these conditions, only a portion of dGTP present in the reaction mixture was degraded. It is therefore likely that the MutT protein may prevent dGMP misincorporation by degrading a specific form of dGTP, probably the syn form, which can pair with deoxyadenosine.
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PMID:A specific role of MutT protein: to prevent dG.dA mispairing in DNA replication. 265 30

We measured the insertion fidelity of DNA polymerases alpha and beta and yeast DNA polymerase I at a template site that was previously observed to yield a high frequency of T----G transversions when copied by DNA polymerase beta but not by the other two polymerases. The results provide direct biochemical evidence that base substitution errors by DNA polymerase beta can result from a dislocation mechanism governed by DNA template-primer misalignment. In contrast to DNA polymerase beta, neither Drosophila DNA polymerase alpha nor yeast DNA polymerase I appear to misinsert nucleotides by a dislocation mechanism in either the genetic or kinetic fidelity assays. Dislocation errors by DNA polymerase beta are characterized primarily by a substantial reduction in the apparent Km for inserting a "correct," but ultimately errant, nucleotide compared to the apparent Km governing direct misinsertion. For synthesis by DNA polymerase beta, dislocation results in a 35-fold increase in dCMP incorporation opposite template T (T----G transversion) and a 20-35-fold increase in dTMP incorporation opposite T (T----A transversion); these results are consistent with parallel genetic fidelity measurements. DNA polymerase beta also produces base substitution errors by direct misinsertion. Here nucleotide insertion fidelity results from substantial differences in both Km and Vmax for correct versus incorrect substrates and is influenced strongly by local base sequence.
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PMID:Kinetic analysis of base substitution mutagenesis by transient misalignment of DNA and by miscoding. 266 58

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