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)

2-Chloro-9-(2-deoxy-2-fluoro-beta-D-arabinofuranosyl)-adenine (Cl-F-ara-A) has activity against the P388 tumor in mice on several different schedules. Biochemical studies with a chronic myelogenous leukemia cell line (K562) grown in cell culture have been done in order to better understand its mechanism of action. Cl-F-ara-A was a potent inhibitor of K562 cell growth. Only 5 nM inhibited K562 cell growth by 50% after 72 h of continuous incubation. The 5'-triphosphate of Cl-F-ara-A was detected by strong anion exchange chromatography of the acid-soluble extract of K562 cells incubated with Cl-F-ara-A. Competition studies with natural nucleosides suggested that deoxycytidine kinase was the enzyme responsible for the metabolism to the monophosphate. Incubation of K562 cells for 4 h with 50 nM Cl-F-ara-A inhibited the incorporation of [3H]thymidine into the DNA by 50%. Incubation with 0.1, 1, or 10 microM Cl-F-ara-A for 4 h depressed dATP, dCTP, and dGTP pools but did not affect TTP pools. Similar inhibition of deoxyribonucleoside triphosphate pools was seen after incubation with 2-chloro-2'-deoxyadenosine. Both Cl-F-ara-ATP and Cl-dATP potently inhibited the reduction of ADP to dADP in crude extracts of K562 cells (concentration producing 50% inhibition, 65 nM). The effect of Cl-F-ara-ATP on human DNA polymerases alpha, beta, and gamma isolated from K562 cells grown in culture was determined and compared with those of Cl-dATP and 9-beta-D-arabinofuranosyl-2-fluoroadenine triphosphate (F-ara-ATP). Cl-F-ara-ATP was a potent inhibitor of DNA polymerase alpha. Inhibition of DNA polymerase alpha was competitive with respect to dATP (Ki of 1 microM). The three analogue triphosphates were incorporated into the DNA by DNA polymerase alpha as efficiently as dATP. The incorporation of Cl-F-ara-AMP inhibited the further elongation of the DNA chain, similarly to that seen after the incorporation of F-ara-AMP. Extension of the DNA chain after the incorporation of Cl-dAMP was not inhibited as much as it was with either Cl-F-ara-AMP or F-ara-AMP. Cl-F-ara-ATP was not a potent inhibitor of DNA polymerase beta, DNA polymerase gamma, or DNA primase.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of 2-chloro-9-(2-deoxy-2-fluoro-beta-D-arabinofuranosyl)adenine on K562 cellular metabolism and the inhibition of human ribonucleotide reductase and DNA polymerases by its 5'-triphosphate. 170 52

Genetic and electrophoretic assays of misincorporation were used to assess the effect of DNA sequence on mutagenesis arising from in vitro DNA synthesis within the lacI gene of Escherichia coli. The viral strand of a derivative of phage M13 containing the entire lacI gene was annealed with a series of synthetic oligonucleotides complementary to the N-terminal region of the lacI gene. Each primer-template was incubated with E. coli DNA polymerase I (Klenow fragment) under conditions favoring misincorporation, wherein one of the 4 dNTPs was lacking ('minus' reaction) or present at very low concentration ('micro' reaction). The extent of elongation of each primer was assessed by gel electrophoresis, and lacI mutants arising during the misincorporation reactions were detected by a transfection assay in which i- base substitutions within the in vitro synthesized strand were selectively recovered by the use of uracil-containing templates. Direct dideoxy sequencing of the '-A' reaction products and sequence analysis of i- mutant progeny revealed a vast predominance of single and non-tandem multiple base transitions. The addition of small quantities of dATP to a '-A' reaction increased the mutation yield and broadened the distribution of base substitutions along the template. We detected a general bias towards increased base substitution at template positions flanked by G.C base pairs or 5'-pyrimidine, 3'-purine nearest neighbors, although considerable site-to-site variation in the occurrence of base substitutions was seen, even within identical nearest neighbor contexts.
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PMID:Influence of neighboring base sequence on mutagenesis induced by in vitro misincorporation in the lacI gene of Escherichia coli. 172 Aug 71

Ultraviolet-induced DNA repair synthesis was measured in saponin-permeabilized normal human fibroblasts by the incorporation of [alpha-32P]dTMP into DNA. The involvement of DNA polymerases alpha, beta, delta, and epsilon in excision repair of pyrimidine dimers was examined using specific inhibitors. Dose-response curves resulting from experiments with up to 12 different inhibitor concentrations were analyzed by linear regression. Inhibitor concentrations at which repair activity was reduced to 50% were calculated. The following K50 values were found: aphidicolin, 0.2 microM; ddTTP, 12.5 microM; butylphenyl-dGTP, 7.6 microM; butylanilino-dATP, 6.0 microM. Comparison of K50 values with in vitro Ki values of DNA polymerases revealed that in permeabilized human fibroblasts reparative DNA synthesis is catalyzed by DNA polymerase delta and by DNA polymerase epsilon.
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PMID:The function of DNA polymerases in DNA repair synthesis of ultraviolet-irradiated human fibroblasts. 173 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 previously reported purification of two forms of DNA polymerase epsilon from calf thymus (Crute, J. J., Wahl, A. F., and Bambara, R. A. (1986) Biochemistry 25, 26-36). We have now used the "polymerase trap" photolabeling method to identify the polypeptides containing the polymerase active site in each enzyme preparation. The molecular mass of these polypeptides are 210 and 145 kDa for the polymerases now designated epsilon and epsilon*, respectively. Renaturation of polymerase activity from denaturing gel electrophoresis corroborates the polymerase trap results. Photolabeling of polymerase fractions suggests that the smaller subunit is derived by proteolysis of the larger subunit during purification. Native sedimentation coefficient measurements of polymerase-containing column fractions further suggest a precursor/product relationship between the two polymerases. Response of polymerization activity to a battery of inhibitors normally used to distinguish mammalian nuclear DNA polymerases was found to be essentially identical for polymerases epsilon, epsilon*, and the epsilon* generated in fractions initially containing epsilon. These latter results demonstrate that the loss of the protease-sensitive domain of the active site subunit does not affect catalytic function as measured in a standard DNA polymerase assay. The sole apparent functional difference observed here between the epsilon and epsilon* forms is evidence that only the full-length epsilon form can be directly photocrosslinked to dATP, independent of DNA synthesis. Photolabeling of the post-microsomal supernatant fraction from thymus glands obtained from fetal calves reveals the presence of both the epsilon and epsilon* polypeptide.
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PMID:Structural relationships between two forms of DNA polymerase epsilon from calf thymus. 174 Apr 47

An exonuclease-deficient mutant of T7 DNA polymerase was constructed and utilized in a series of kinetic studies on misincorporation and next correct dNTP incorporation. By using a synthetic oligonucleotide template-primer system for which the kinetic pathway for correct incorporation has been solved [Patel, S.S., Wong, I., & Johnson, K. A. (1991) Biochemistry (first of three papers in this issue)], the kinetic parameters for the incorporation of the incorrect triphosphates dATP, dCTP, and dGTP were determined, giving, respectively, kcat/Km values of 91, 23, and 4.3 M-1 s-1 and a discrimination in the polymerization step of 10(5)-10(6). The rates of misincorporation in all cases were linearly dependent on substrate concentration up to 4 mM, beyond which severe inhibition was observed. Competition of correct incorporation versus dCTP revealed an estimated Ki of approximately 6-8 mM, suggesting a corresponding kcat of 0.14s-1. Moderate elemental effects of 19-, 17-, and 34-fold reduction in rates were measured by substituting the alpha-thiotriphosphate analogues for dATP, dCTP, and dGTP, respectively, indicating that the chemistry step is partially rate-limiting. The absence of a burst of incorporation during the first turnover places the rate-limiting step at a triphosphate binding induced conformational change before chemistry. In contrast, the incorporation of the next correct triphosphate, dCTP, on a mismatched DNA substrate was saturable with a Km of 87 microM for dCTP, 4-fold higher than the Kd for the correct incorporation on duplex DNA, and a kcat of 0.025 s-1. A larger elemental effect of 60, however, suggests a rate-limiting chemistry step. The rate of pyrophosphorolysis on a mismatched 3'-end is undetectable, indicating that pyrophosphorolysis does not play a proofreading role in replication. These results show convincingly that the T7 DNA polymerase discriminates against the incorrect triphosphate by an induced-fit conformational change and that, following misincorporation, the enzyme then selects against the resultant mismatched DNA by a slow, rate-limiting chemistry step, thereby allowing sufficient time for the release of the mismatched DNA from the polymerase active site to be followed by exonucleolytic error correction.
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PMID:An induced-fit kinetic mechanism for DNA replication fidelity: direct measurement by single-turnover kinetics. 184 99

The acyclic adenosine analogue (S)-9-(3-hydroxy-2-phosphonylmethoxypropyl)adenine [HPMPA] belongs to a class of nucleoside analogues originally described as having potent activity against a broad spectrum of DNA viruses. We examined the effects of this class of drugs on the growth of cultured Plasmodium falciparum. Strong inhibition was observed by HPMPA (ID50 = 47 nM) at concentrations more than 1000-fold less than the cytotoxic dose for human cells. 3-deaza-HPMPA was even more strongly inhibitory (ID50 = 8 nM), whereas several other acyclic nucleosides were not effective. In mice infected with Plasmodium berghei, increase of parasitaemia can be blocked for 4-6 days by a single injection of HPMPA. Repeated drug administration blocks parasite growth for prolonged periods at doses that are clinically feasible. We also determined the inhibition of several purified Plasmodium DNA polymerases by diphosphorylated HPMPA (HPMPApp). DNA polymerase alpha-like enzymes of P. falciparum and P. berghei are inhibited with an IC50 = 40 microM and a gamma-like DNA polymerase from P. falciparum is even 40-fold more sensitive to the drug. The inhibition by HPMPApp is competitive with dATP, strongly suggesting that Plasmodium DNA polymerases are targets for this class of nucleotide analogue.
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PMID:Inhibition of the growth of Plasmodium falciparum and Plasmodium berghei by the DNA polymerase inhibitor HPMPA. 185 84

We have purified a DNA helicase from calf thymus to apparent homogeneity by monitoring the activity with a strand displacement assay. DNA helicase followed the DNA polymerase alpha-primase complex through chromatography on phosphocellulose and hydroxylapatite. Separation from DNA polymerase alpha-primase complex as well as from the bulk of another DNA-dependent ATPase was achieved on heparin-Sepharose. Further purification steps included ATP-agarose and fast protein liquid chromatography-Mono S. A 47-kDa polypeptide cosedimented with the DNA helicase activity in a glycerol gradient as well as in gel filtration on Superose 6. The calf thymus DNA helicase had a sedimentation coefficient of 4-7 S and Stokes radius of about 45 A suggesting that the enzyme might be monomer in its functional form. DNA helicase activity requires a divalent cation with Mg2+ being more efficient than Mn2+ or Ca2+. Hydrolysis of ATP is required since the two nonhydrolyzable ATP analogs adenosine 5'-O-(3-thiotriphosphate) and adenylyl (beta, gamma-methylene)diphosphonate cannot substitute for ATP or dATP in the displacement reaction. Calf thymus DNA helicase is able to use ATP, dATP, dideoxy-ATP, CTP, and dCTP with Km for ATP and dATP of 0.2 and 0.25 mM, respectively. The enzyme can displace a fragment of 24 bases completely in an enzyme concentration- and time-dependent manner. The DNA helicase appears to bind to single-stranded DNA and to move to single-strand double-strand transition. The directionality of unwinding is 3'----5' with respect to the single-stranded DNA to which the enzyme is bound.
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PMID:DNA helicase from calf thymus. Purification to apparent homogeneity and biochemical characterization of the enzyme. 197 96

To study the mechanism of arrest of DNA synthesis at d(TC)n and d(GA)n sequences, single-stranded DNA molecules including d(TC)27 or d(TC)31 tracts or a d(GA)27 tract were used as templates for in vitro assays of complementary DNA synthesis performed by extension of a primer with the Klenow polymerase or the Taq polymerase (Thermus aquaticus DNA polymerase). Electrophoresis of the products revealed that arrests occurred around the middle of these tracts. The arrests in the d(TC)n sequences were eliminated when dATP or dGTP was replaced with the analogue 7-deaza dATP or 7-deaza dGTP, respectively, or when the templates were preincubated with the Escherichia coli single-strand binding protein (SSB). Preincubation of the template including a d(GA)27 tract with SSB has also eliminated the arrests at this sequence. Furthermore, arrests did not occur at d[G(7-deaza A)]27 or d[(7-deaza G)A]27 tracts when molecules including such tracts were used as templates. These results are compatible with the notion that the arrests were caused by formation of d(TC)i.d(GA)i.d(TC)i and d(GA)i.d(GA)i.d(TC)i triplexes, in which the bases in the uncopied portions of the d(TC)n tracts, or of the d(GA)27 tract, and the purine bases in the newly synthesized d(TC)i.d(GA)i duplexes were bound by hydrogen bonds. In the assays performed with the Taq polymerase, the pH dependence (in the range of 6.0-9.0) and the temperature dependence of the arrests were determined. As the pH was lowered, the arrests in the d(TC)27 tract were enhanced, in line with the expected properties of d(TC)i.d(GA)i.d(TC)i triplexes. The arrests in the d(GA)27 tract were enhanced by an increase in the pH. At pH 7.2 the arrests in the d(GA)27 tract persisted up to 80 degrees C, whereas the arrests in the d(TC)27 tract were eliminated at 50 degrees C; these results presumably reflect the relative stabilities of the two triplexes mentioned above at this physiological pH value and could be biologically significant.
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PMID:Formation of DNA triplexes accounts for arrests of DNA synthesis at d(TC)n and d(GA)n tracts. 198 50

Inhibition of the pre-steady-state burst of nucleotide incorporation by a single incorrect nucleotide (nucleotide discrimination) was measured with the Klenow fragment of DNA polymerase I [KF(exo+)]. For the eight mispairs studied on three DNA sequences, only low levels of discrimination ranging from none to 23-fold were found. The kinetics of dNTP incorporation into the 9/20-mer at low nucleotide concentrations was also determined. A limit of greater than or equal to 250 s-1 was placed on the nucleotide off-rate from the KF(exo+)-9/20-dTTP complex in accord with nucleotide binding being at equilibrium in the overall kinetic sequence. The influence of the relatively short length of the 9/20-mer on the mechanism of DNA replication fidelity was determined by remeasuring important kinetic parameters on a 30/M13-mer with high homology to the 9/20-mer. Pre-steady-state data on the nucleotide turnover rates, the dATP(alpha S) elemental effect, and the burst of dAMP misincorporation into the 30/M13-mer demonstrated that the kinetics were not affected by the length of the DNA primer/template. The effects on fidelity of two site-specific mutations, KF(polA5) and KF(exo-), were also examined. KF(polA5) showed an increased rate of DNA dissociation and a decreased rate of polymerization resulting in less processive DNA synthesis. Nevertheless, with at least one misincorporation event, that of dAMP into the 9/20-mer, KF(polA5) displays an increased replication fidelity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism of DNA replication fidelity for three mutants of DNA polymerase I: Klenow fragment KF(exo+), KF(polA5), and KF(exo-). 199 Nov 25

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