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)

High (HD) and low (LD) density cells were separated on 25% BSA gradient from tonsils of 3-6 years old children. Early B lymphocyte markers and sIg-s were found on the surface of 59-82% of the LD cells. This cell population was 5-6 times more active in DNA synthesis (3H-thymidine incorporation, DNA polymerase activity) than the HD cells. The total uptake of 3H-deoxycytidine was about the same as that of 3H-thymidine. As long as practically all thymidine taken up by the cells was immediately incorporated into DNA (90-95%), only 10-15% of deoxycytidine was incorporated into DNA under the same conditions, indicating different pool sizes for the DNA precursors. The majority of deoxycytidine (70%) was converted and incorporated as dTMP. A considerable part of labeled deoxycytidine could be detected in the soluble pool in form of nucleotides (3-8%), and in an unknown form, called substance X (8-14%). Substance X was purified by TL chromatography and identified by HPLC as deoxycytidine containing liponucleotides, probable precursors for plasmamembranes. The preferential utilisation of deoxycytidine for DNA and membrane synthesis in immature B lymphocytes draws the attention to its function in early events of lymphocyte maturation.
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PMID:DNA synthesis and nucleoside metabolism in human tonsillar lymphocyte subpopulations. 322 43

Yeast cells from a wild type or protease-deficient strain were lysed in the absence or presence of protease inhibitors and the extracts analyzed by analytical high pressure liquid chromatography on diethylaminoethyl silica gel. Conditions that inhibited protease action caused elution of a novel DNA polymerase activity at a position in the gradient distinct from the elution positions of both DNA polymerase I and II. In large scale purifications, this DNA polymerase, called DNA polymerase III, copurified with a single-stranded DNA dependent 3'-5' exonuclease activity, exonuclease III, to near homogeneity. Glycerol gradient centrifugation partially dissociated the complex to yield two peaks of exonuclease III activity, one at 7.7 S together with the DNA polymerase, and one at 4.0 S without polymerase activity. Gel filtration indicated that the complex has a molecular mass greater than 400 kDa. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicated that the complex consists of several subunits: 140, 62, 55, and 53 kilodaltons, some of which may be proteolysis products. The exonuclease component of the complex can excise single nucleotide mismatches providing a base-paired primer-template which can be elongated by the DNA polymerase. Under replication conditions, the complex exhibits a measurable turnover rate of dTTP to dTMP and it contains no primase activity. The enzymatic activities of the 3'-5' exonuclease are consistent with a proofreading function during in vivo DNA replication. A second exonuclease activity, exonuclease IV, separated from the complex late in the purification scheme. It degrades both single-stranded and double-stranded DNA in the 5'----3' direction.
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PMID:DNA polymerase III from Saccharomyces cerevisiae. I. Purification and characterization. 327 61

We have utilized an electrophoretic assay of misincorporation to investigate the possibility that ionization of 5-bromouracil (BU) may play a role in its mispairing during DNA synthesis in vitro. We examined the effects of increasing pH on the relative rates of formation of BU.G and T.G mispairs during chain elongation catalyzed by various DNA polymerases. For the Klenow fragment of Escherichia coli DNA polymerase I, increasing pH facilitated BU.G mispair formation (relative to T.G mispairing) when BU was present in the template strand. This effect showed a strong dependence on sequence context. Increasing pH had little effect on the relative rate of misincorporation of BrdUMP versus dTMP (at template G) by the Klenow polymerase. Misincorporation opposite template BU residues catalyzed by Maloney murine leukemia virus DNA polymerase and DNA polymerase beta (Novikoff hepatoma) also increased with pH, but for these two enzymes, there was no apparent dependence on sequence context. With T4 DNA polymerase and E. coli DNA polymerase III holoenzyme, a similar occurrence of BU.G and T.G mispairing during polymerization was observed, whether BU was present in the template or in the incoming nucleotide, and there was little effect of pH. The results reported here are consistent with a mispairing mechanism for template BU wherein the anionic form of the base mispairs with G.
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PMID:Effect of pH on the base-mispairing properties of 5-bromouracil during DNA synthesis. 328 89

Racemic carbocyclic analogues of dTTP [(+/-)-C-dTTP] and its ribo counterpart, 5-methyl-UTP [(+/-)-C-m5UTP] were synthesized and examined, in comparison with dTTP and UTP (and m5UTP), as potential substrates of E. coli DNA and RNA polymerases, respectively. Unexpectedly, only a very low (terminal) incorporation of C-dTMP into DNAs of different structure was observed, C-dTTP did not serve as a substrate for chain elongation by the Klenow DNA polymerase. Inhibition of DNA replication was, however, observed in the presence of (+/-)-C-dTTP. The UTP analogue, (+/-)-C-m5UTP proved neither a substrate nor an inhibitor of the RNA polymerase enzyme.
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PMID:Carbocyclic analogues of dTTP and UTP: properties in polymerase enzyme-catalyzed reactions. 332 Sep 75

Porcine liver DNA polymerase gamma has been demonstrated to preferentially incorporate dTMP over dUMP during in vitro DNA synthesis. When polymerase activity was measured in standard reactions containing saturating levels of either dTTP or dUTP, the polymerization rate was slightly faster in the reaction containing dTTP. However, under conditions where both dTTP and dUTP competed, at an equal molar concentration, approximately 3-times more thymine residues were incorporated than uracil residues into DNA. Similarly, preferential incorporation of dTMP was observed on several substrates including poly (dA).oligo p(dT), poly (rA).oligo p(dT) and poly (dA-dT). The discrimination against dUMP incorporation was even more apparent with reduced levels of dUTP. These observations were consistent with the finding that the Km for DNA polymerase gamma was about 3-fold lower for dTTP (0.4 microM) than for dUTP (1.1 microM). On the other hand, the Vmax for these two reactions was very similar. Discrimination against dUMP incorporation was also observed during inhibition of polymerase gamma by dideoxyribonucleoside triphosphates. Dideoxythymidine triphosphate preferentially inhibited dUMP incorporation compared to that of dTMP, whereas ddATP, ddCTP and ddGTP inhibited both reactions equally.
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PMID:Purification and characterization of porcine liver DNA polymerase gamma: utilization of dUTP and dTTP during in vitro DNA synthesis. 338 42

The mechanism of binding and elongation of the oligothymidylate primers in the systems of the DNA polymerase alpha from human placenta and DNA polymerase I from E. coli with the poly(dA) as a template was investigated. Both dTMP and dTTP were shown to be the minimal primers of DNA polymerase alpha, the affinity and V increasing 1.8- and 1.4-fold respectively upon lengthening the primer by each unit from dTMP to d(Tp)9T. Further elongation is accompanied by 1.3-fold affinity enhancement and a decrease in V. For the E. coli enzyme, a similar dependence of affinity of primer d(Tp)4T-d(Tp)14T was observed with the inflexion point corresponding to d(Tp)8T. The individual diastereomers of oligothymidylate ethyl esters (with p' and p'' corresponding to enantiomeric configuration) such as d[Tp'(Et)Tp]3Tp'(Et)T, d[Tp''(Et)Tp]3Tp''(Et)T, d(Tp)8Tp'(Et)T, d(Tp)8Tp''(Et)T, d(Tp)8Tp'(Et)TpT, d(Tp)8 X X Tp''(Et)TpT and completely esterified analogues d[Tp(Et)]7T, d[Tp(Et)]14T were shown to initiate the poly (dA)-dependent polymerization catalyzed by both enzymes. A sum of the obtained results provided the basis for a number of conjectures on the mode of primer and template binding to the enzyme, possible role of their preformed complex, as well as electrostatic interactions and hydrogen bonding.
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PMID:[Prokaryotic and eukaryotic DNA-polymerase. I. The role of internucleotide phosphate groups in the binding of a primer with the enzyme]. 355 63

The interaction of deoxyribonucleoside 5'-mono-, di- and triphosphates with human placenta DNA polymerase alpha was examined. Dissociation constants of enzyme complex formation with dNMP, dNDP and dNTP were determined from the data on enzyme affinity modification by imidazolide of dTMP. The basic role of the primary template-primer interaction with the enzyme in dNTP complex formation is shown. The template-dependent nucleotide interaction does not occur in the case of dNMP and dNDP in comparison with dNTP. The significant contribution of the gamma-phosphate of dNTP in this process is demonstrated.
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PMID:The efficiency of dNTP complex formation with human placenta DNA polymerase alpha as demonstrated by affinity modification. 358 73

The modification of the human placenta DNA polymerase alpha by the imidazolides of dNMP was investigated. The modification was shown to occur only in the simultaneous presence of the template and the primer. This process, however, doesn't depend on the complementary interaction of the nucleotide base with the template. The Kd values of the complexes between the different nucleotides and DNA polymerase alpha were estimated. The affinity of Im-dTMP was determined from the dependence of the Kapp of the enzyme inactivation rate on the reagent concentration. The Kd values for dNMP, dNDP, dNTP were estimated using the protective effect of these nucleotides under the enzyme modification by Im-dTMP. The comparison of the interaction efficiency between the polymerase and dNMP, dNDP, dNTP (complementary or non-complementary to the template) allow to conclude that the nucleotide discrimination occurs on the dNTP level, i. e. dNMP and dNDP upon forming the complex with the enzyme, don't interact complementarily with the template. The additional contacts between the enzyme and the nucleotide terminal phosphate were supposed to form only for the complementary dNTP. The studies allowed to put forward a hypothetical model of the template complementary dNTP binding to the polymerases. The role of the hydrophobic interaction of the nucleotides with the enzyme as well as the possible influence of the nucleotide gamma-phosphate group on the template--dNTP complement formation. The Watson-Crick bound formation of the nucleotide with the template was supposed to be followed by the additional conformational rearrangement of the nucleotide triphosphate chain. The latter process leads to the formation of additional contacts between the enzyme and the nucleotide gamma-phosphate.
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PMID:[Effectiveness of complex-formation of nucleotides with human DNA polymerase alpha from data of enzyme modification by reactive nucleotide analogs]. 365 80

Cr(VI) irreversibly inhibited DNA synthesis in cultured mouse L cells to 50% of controls at 10 microM; 3.3 mM Cr(III) did not. At 0.3 mM, Cr(III) and Cr(VI) inhibited DNA synthesis in permeabilized L cells to 50% of control values. Cr(III) was a stronger inhibitor of DNA synthesis in the DNA-Escherichia coli DNA polymerase I system than was Cr(VI). The inhibitory effect of Cr(VI) depended on the ratio of Cr/DNA and Cr/enzyme; on the other hand, the increase in the concentration of DNA polymerase did not affect the inhibition of Cr(III), Cr(III), below the inhibitory concentration, produced an increase in the incorporation of [3H]dTMP into DNA; this was not observed with Cr(VI).
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PMID:Inhibition of DNA synthesis by chromium compounds. 389 22

The initial rates of incorporation of dTTP and thymidine 5'-O-(3-thiotriphosphate) (dTTP alpha S) into poly(dA) X oligo(dT) during template-directed synthesis by the large fragment of DNA polymerase I have been measured by using a rapid-quench technique. The rates were initially equal, indicating a nonrate-limiting chemical step. However, the rate of thionucleotide incorporation steadily diminished to 10% of its initial value as the number of consecutive dTMP alpha S residues in the primer strand increased. This anomalous behavior can be attributed to the helix instability inherent in phosphorothioate-containing duplexes. Positional isotope exchange experiments employing the labeled substrate [alpha-18O2]dATP have revealed negligible alpha, beta-bridging----beta-nonbridging isotope exchange in template-directed reactions of Escherichia coli DNA polymerase I (Pol I) both in the presence and in the absence of added inorganic pyrophosphate (PPi), suggesting rapid PPi release following the chemical step. These observations are consistent with a rate-limiting step that is tentatively assigned to a conformational change of the E X DNA X dNTP complex immediately preceding the chemical step. In addition, the substrate analogue (Sp)-dATP alpha S has been employed to examine the mechanism of the PPi exchange reaction catalyzed by Pol I. The net retention of configuration at the alpha-P is interpreted in terms of two consecutive inversion reactions, namely, 3'-hydroxyl attack, followed by PPi attack on the newly formed primer terminus. Kinetic analysis has revealed that while alpha-phosphorothioate substitution has no effect upon the initial rate of polymerization, it does attenuate the PPi exchange reaction by a factor of 15-18 fold.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Rate-limiting steps in the DNA polymerase I reaction pathway. 390 78

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