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)

In general mammalian cells recover from DNA synthesis inhibition by ultraviolet light (u.v.) before most of the pyrimidine dimers have been removed from the genome. This is a complex phenomenon whose biological significance has not been fully assessed. In Chinese hamster V79 cells this recovery seems to be directly coupled to an enhanced rate of double-stranded DNA elongation. The presence of the DNA polymerase alpha inhibitor, aphidicolin, after u.v. irradiation produces two different responses. At low concentration, sufficient to inhibit 95% of DNA replication but having no effect on excision repair, the drug has no effect on the recovery. This shows that ongoing replicative DNA synthesis is not required for recovery. At higher concentrations of aphidicolin, sufficient to block excision repair, the recovery phenomenon was prevented. The recovery was also prevented by actinomycin D at a concentration that inhibits 60% of RNA synthesis. In quantitative autoradiography experiments in which previously irradiated cells were fused with unirradiated cells the nuclei of the latter exhibited a higher resistance to inhibition by u.v. than nuclei from non-fused cells. These results indicate that: (1) even the low repair rate exhibited by V79 cells (relative to human cells) is important for recovery; although most of the dimers remain in the V79 genome after recovery of DNA synthesis, either the removal of lesions from some important region of chromatin or the activity of the repair process itself is important for the recovery; (2) the recovery mechanism is induced and depends on RNA synthesis and the production of specific factors. Finally, we have observed that cells previously treated with fluorodeoxyuridine become more resistant to inhibition by u.v. After irradiation these cells replicate DNA faster than untreated cells. Since it has been shown that this drug activates unused origins of replication in Chinese hamster cells, reducing the average replicon size, we assume that the acquired resistance has to do with the operation of a larger number of smaller replicons. This may also be the mechanism whereby recovery from inhibition occurs after u.v. irradiation.
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PMID:Recovery of DNA synthesis from inhibition by ultraviolet light in mammalian cells. 244 19

The kinetics of forming all possible single base substitution errors are measured for Drosophila melanogaster DNA polymerase alpha and avian myeloblastosis virus reverse transcriptase. Seventeen sites along bacteriophage M13 DNA are investigated so that effects of nearest neighbor base stacking on misinsertion kinetics can be evaluated. Polymerase alpha appears to be more error prone than reverse transcriptase. Polymerase alpha forms transversion mispairs at rates comparable to transition mispairs with two exceptions; A.A and C.C are formed with significantly higher and lower efficiencies, respectively. Reverse transcriptase forms transversions with lower efficiencies than transitions, especially low being A.G, G.G, and C.C. For both enzymes, misinsertion frequencies vary typically by 10-fold for the same mispair in different locations. Misinsertion frequency can be expressed as a product of two components, one based on Km and the other on Vmax. DNA polymerase alpha appears to use primarily Km discrimination (100-5000-fold) to achieve insertion fidelity while reverse transcriptase shows a greater balance between Km and Vmax discrimination. Nearest-neighbor base stacking interactions appear to have opposite effects on the two discrimination components. The 5'-nearest neighbor influence on Km is greater for correct insertions than for incorrect, while the influence on Vmax is greater for the incorrect base. Target sites that have pyrimidine as the 5'-nearest neighbor to incoming nucleotides show a higher than average misinsertion component based on Km, but a lower than average component based on Vmax. Conversely, target sites with nearest neighbor purines have a higher than average Vmax component. These results imply that nucleotide misinsertion "hot spots" will occur next to pyrimidines when Km discrimination is dominant and next to purines when Vmax discrimination is dominant. When Vmax and Km discrimination components have similar magnitudes, nearest neighbor effects tend to cancel thereby reducing the effects of base stacking on insertion error rates.
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PMID:Nearest neighbor influences on DNA polymerase insertion fidelity. 247 45

Cloning of the phi X174 viral origin of replication into phage M13mp8 produced an M13-phi X174 chimera, the DNA of which directed efficient replicative-form----single-strand rolling-circle replication in vitro. This replication assay was performed with purified phi X174-encoded gene A protein, Escherichia coli rep helicase, single-stranded DNA-binding protein, and DNA polymerase III holoenzyme. The nicking of replicative-form I (RFI) DNA by gene A protein was essentially unaffected by the presence of UV lesions in the DNA. However, unwinding of UV-irradiated DNA by the rep helicase was inhibited twofold as compared with unwinding of the unirradiated substrate. UV irradiation of the substrate DNA caused a strong inhibition in its ability to direct DNA synthesis. However, even DNA preparations that contained as many as 10 photodimers per molecule still supported the synthesis of progeny full-length single-stranded DNA. The appearance of full-length radiolabeled products implied at least two full rounds of replication, since the first round released the unlabeled plus viral strand of the duplex DNA. Pretreatment of the UV-irradiated DNA substrate with purified pyrimidine dimer endonuclease from Micrococcus luteus, which converted photodimer-containing supercoiled RFI DNA into relaxed, nicked RFII DNA and thus prevented its replication, reduced DNA synthesis by 70%. Analysis of radiolabeled replication products by agarose gel electrophoresis followed by autoradiography revealed that this decrease was due to a reduction in the synthesis of progeny full-length single-stranded DNA. This implies that 70 to 80% of the full-length DNA products produced in this system were synthesized on molecules that carried photodimers. Thus, similarly to its activity on UV-irradiated single-stranded DNA, DNA polymerase III holenzyme can bypass pyrimidine photodimers in the more complex replicative form --->single-strand replication, which involves, in addition to the polymerizing activity, the unwinding of the duplex by the rep helicase and the participation of a more complex multiprotein replisome.
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PMID:Rolling-circle replication of UV-irradiated duplex DNA in the phi X174 replicative-form----single-strand replication system in vitro. 252 71

Unique single-stranded regions of simian virus 40 DNA, phage M13 virion DNA, and several homopolymers were used as templates for the synthesis of (p)ppRNA-DNA chains by CV-1 cell DNA primase-DNA polymerase alpha. Intact RNA primers, specifically labeled with an RNA capping enzyme, were typically 6 to 8 ribonucleotides long, although their lengths ranged from 1 to 9 bases. The fraction of intact RNA primers 1 to 4 ribonucleotides long was 14 to 73%, depending on the template used. RNA primer length varied among primers initiated at the same nucleotide, as well as with primers initiated at different sites. Thus, the size of an RNA primer depended on template sequence. Initiation sites were identified by mapping 5' ends of nascent RNA-DNA chains on the template sequence, identifying the 5'-terminal ribonucleotide, and partially sequencing one RNA primer. A total of 56 initiation events were identified on simian virus 40 DNA, an average of 1 every 16 bases. Some sites were preferred over others. A consensus sequence for initiation sites consisted of either 3'-dCTTT or 3'-dCCC centered within 7 to 25 pyrimidine-rich residues; the 5' ends of RNA primers were complementary to the dT or dC. High ATP/GTP ratios promoted initiation of RNA primer synthesis at 3'-dCTTT sites, whereas low ATP/GTP ratios promoted initiation at 3'-dCCC sites. Similarly, polydeoxythymidylic acid and polydeoxycytidylic acid were the only effective homopolymer templates. Thus, both template sequence and ribonucleoside triphosphate concentrations determine which initiation sites are used by DNA primase-DNA polymerase alpha. Remarkably, initiation sites selected in vitro were strikingly different from initiation sites selected during simian virus 40 DNA replication in vivo.
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PMID:DNA primase-DNA polymerase alpha from simian cells: sequence specificity of initiation sites on simian virus 40 DNA. 258 40

The cycling time of DNA polymerase III holoenzyme during replication of UV-irradiated single-stranded (ss) DNA was longer than with unirradiated DNA (8 versus 3 min, respectively), most likely due to slow dissociation from lesion-terminated nascent DNA strands. Initiation of elongation on primed ssDNA was not significantly inhibited by the presence of UV lesions as indicated by the identical distribution of replication products synthesized at early and late reaction times and by the identical duration of the initial synthesis bursts on both unirradiated and UV-irradiated DNA templates. When replication was performed with DNA polymerase III* supplemented with increasing quantities of purified beta 2 subunit, the cycling time on UV-irradiated DNA decreased from 14.8 min at 1.7 nM beta 2 down to 6 min at 170 nM beta 2, a concentration in which beta 2 was in large excess over the polymerase. In parallel to the reduction in cycling time, also the bypass frequency of cyclobutane-photodimers decreased with increasing beta 2 concentration, and at 170 nM beta 2, bypass of photodimers was essentially eliminated. It has been shown that polymerase complexes with more than one beta 2 per polymerase molecule were formed at high beta 2 concentrations (Lasken, R. S., and Kornberg, A. (1987) J. Biol. Chem. 262, 1720-1724). It is plausible that polymerase complexes obtained under high beta 2 concentration dissociate from lesion-terminated primers faster than polymerase complexes formed at a low beta 2 concentration. This is expected to favor termination over bypass at pyrimidine photodimers and thus decrease their bypass frequency. These results suggest that the beta 2 subunit might act as a sensor for obstacles to replication caused by DNA damage, and that it terminates elongation at these sites by promoting dissociation. The intracellular concentration of beta 2 was estimated to be 250 nM (Kwon-Shin, O., Bodner, J. B., McHenry, C. S., and Bambara, R. A. (1987) J. Biol. Chem. 262, 2121-2130) and is 15-fold higher than the estimated intracellular concentration of DNA polymerase III holoenzyme (15 nM). This high concentration of beta 2 may be responsible for the observation that very little (if any) bypass of pyrimidine photodimers occurred in vivo when the SOS system was not induced. Moreover, it predicts that bypass synthesis under SOS conditions might be associated with an altered form of the beta subunit.
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PMID:The beta subunit modulates bypass and termination at UV lesions during in vitro replication with DNA polymerase III holoenzyme of Escherichia coli. 266 56

Ultraviolet light induced pyrimidine dimers in DNA are recognized and repaired by a number of unique cellular surveillance systems. At the highest level of complexity Escherichia coli (E. coli) has a uvr DNA repair system comprising the UvrA, UvrB and UvrC proteins responsible for incision. There are several preincision steps governed by this pathway which includes an ATP-dependent UvrA dimerization reaction required for UvrAB nucleoprotein formation. This complex formation driven by ATP binding, is associated with localized topological unwinding of DNA. This protein complex can catalyze an ATP-dependent 5'----3' directed strand displacement of D-loop DNA or short single strands annealed to a single stranded circular or linear DNA. This putative translocational process is arrested when damaged sites are encountered. The complex is now primed for dual incision catalyzed by UvrC. The remainder of the repair process involves UvrD (helicase II) and DNA polymerase I for a coordinately controlled "excision resynthesis" step accompanied by UvrABC turnover. Furthermore, it is proposed that levels of repair proteins can be regulated by proteolysis. UvrB is converted to truncated UvrB* by a stress induced protease which also acts at similar sites on the E. coli Ada protein. Although UvrB* can bind with UvrA to DNA it cannot participate in helicase or incision reactions. It is also a DNA-dependent ATPase.
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PMID:Dynamics of the Escherichia coli nucleotide excision repair system. 266 5

A photoaffinity analogue of dATP, 8-azido-2'-deoxyadenosine 5'-triphosphate (8-azido-dATP), was used to probe the nucleotide binding site of the non-template-directed DNA polymerase terminal deoxynucleotidyl transferase (EC 2.7.7.31). The Mg2+ form of 8-azido-dATP was shown to be an efficient enzyme substrate with a Km of 53 microM. Loss of enzyme activity occurred during UV photolysis only in the presence of 8-azido-dATP. At saturation (120 microM 8-azido-dATP), 54% of the protein molecules were modified as determined by inhibition of enzyme activity. Kinetic analysis of enzyme inhibition induced by photoincorporation of 8-azido-dATP indicated an apparent Kd of approximately 38 microM. Addition of 2 mM dATP to 120 microM 8-azido-dATP resulted in greater than 90% protection from photoinduced loss of enzyme activity. In contrast, no protection was observed with the addition of 2 mM dAMP. Enzyme inactivation was directly correlated with incorporation of radiolabeled 8-azido-dATP into the protein and UV-induced destruction of the azido group. Photoincorporation of 8-azido-dATP into terminal transferase was reduced by all purine and pyrimidine deoxynucleoside triphosphates of which dGTP was the most effective. The alpha and beta polypeptides of calf terminal transferase were specifically photolabeled by [gamma-32P]-8-azido-dATP, and both polypeptides were equally protected by all four deoxynucleoside triphosphates. This suggests that the nucleotide binding domain involves components from both polypeptides.
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PMID:Photoaffinity labeling of terminal deoxynucleotidyl transferase. 1. Active site directed interactions with 8-azido-2'-deoxyadenosine 5'-triphosphate. 271 38

Nitroxide-labeled thymidine substrates (dL) for Escherichia coli DNA polymerase I (pol I) were used to synthesize spin-labeled alternating double-stranded copolymers with (dA-dT)n as a template. All dL substrates use an alkane or alkene tether substituted into the 5-position of the pyrimidine ring to link a five- or six-membered ring nitroxide to the pyrimidine base. The kinetics of dL incorporation show some tether dependence with respect to tether length and tether geometry. The electron spin resonance (ESR) spectra of (dA-dT,dL)n duplexes directly formed by polymerization with pol I are compared with the ESR spectra of (dA)n(dT,dL)n duplexes, which are obtained after annealing of nitroxide-labeled single strands with complementary unlabeled single strands. The ESR spectra indicate that nitroxide-labeled analogues with tethers short enough to let the nitroxide ring reside in the major groove are excellent reporter groups for monitoring hybridization. A small difference between the ESR line shapes of the alternating duplexes (dA-dT,dL)n and the homopolymer duplexes (dA)n(dT,dL)n containing the same dL is detectable, suggesting the presence of subtle differences in the base dynamics between both systems. Computer simulation of the ESR spectra of the (dA-dT,dL)n duplexes was successful with the same motional model reported earlier [Kao, S.-C., & Bobst, A.M. (1985) Biochemistry 24, 5465-5469]. The thymidine motion arising from tilting and torsion of base pairs and base twisting in (dA-dT)n is similar to that in (dA)n(dT)n and is of the order of 4 ns.
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PMID:Base dynamics of nitroxide-labeled thymidine analogues incorporated into (dA-dT)n by DNA polymerase I from Escherichia coli. 282 51

Preliminary studies of the biochemical basis for the antiviral activity of the pyrrolo[2,3-d]pyrimidine nucleoside ara-tubercidin were conducted. Herpes simplex virus DNA synthesis was 3-fold more sensitive to inhibition by ara-tubercidin than was cellular DNA synthesis. Partially purified herpes DNA polymerases were more sensitive to inhibition by ara-tubercidin 5'-triphosphate than were cellular polymerases alpha and beta. Inhibition of viral DNA polymerase was competitive with dATP and noncompetitive with dTTP. The results suggest that the viral DNA polymerase plays a significant role in the antiviral activity of ara-tubercidin.
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PMID:Inhibition of herpes simplex virus DNA replication by ara-tubercidin. 283 Aug 47

In tissues obtained from patients undergoing gastrectomy, the activities of 12 enzymes involved in pyrimidine nucleotide synthesis: cytidine triphosphate (CTP) synthetase, deoxycytidine monophosphate (dCMP) deaminase, thymidine monophosphate (dTMP) kinase, uridine (Urd), deoxycytidine (dCyd) and thymidine (dThd) kinases, Urd, deoxyuridine (dUrd) and dThd phosphorylases, cytidine (Cyd) and dCyd deaminases, and DNA polymerase were examined in the eight-well-differentiated and 12 poorly differentiated gastric cancer tissues and the ten normal tissues. These cases were clinically advanced and serosal invasions were evident. Activities of these enzymes were higher in the poorly differentiated tissues than the well differentiated type and in the normal tissues. Significant differences were noted between the poorly differentiated and well-differentiated types, in dTMP kinase (P less than 0.02), dThd kinase (P less than 0.05), dThd phosphorylase (P less than 0.01), and DNA polymerase (P less than 0.05). The authors' findings show that the level of pyrimidine nucleotide synthesis, in both de novo and salvage pathways, is higher in the poorly differentiated gastric cancer tissues than in the well-differentiated type and suggest that antitumor drugs have an increased susceptibility in cases of poorly differentiated gastric carcinoma.
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PMID:Pyrimidine nucleotide synthesis is more extensive in poorly differentiated than in well-differentiated human gastric carcinoma. 291 Apr 29


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