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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)

Calf thymus DNA polymerase alpha (pol alpha) and bacteriophage T4 DNA polymerase (pol T4) were exploited as model enzymes to investigate the molecular mechanism of inhibitory action of N2-(p-n-butylphenyl)dGTP (BuPdGTP) and 2-(p-n-butyl-anilino)dATP (BuAdATP) on the BuPdNTP-susceptible alpha polymerase family. Kinetic analysis of inhibition of pol alpha with mixtures of complementary and noncomplementary template:primers indicated that both nucleotides induced the formation of a polymerase: inhibitor:primer-template complex. Primer extension experiments using the guanine form as the model analog indicated that pol alpha cannot utilize these nucleotides to extend primer termini. In contrast, pol T4 polymerized BuPdGTP, indicating that resistance to polymerization is not a common feature of the inhibitor mechanism among the broad membership of the alpha polymerase family.
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PMID:The molecular mechanism of inhibition of alpha-type DNA polymerases by N2-(butylphenyl)dGTP and 2-(butylanilino)dATP: variation in susceptibility to polymerization. 202 70

The catalytic core protomer of calf thymus DNA polymerase delta (pol delta) was purified to apparent homogeneity by a modified procedure, and its enzymologic mechanism was investigated using a combination of steady-state kinetics and semiquantitative sedimentation binding analyses. Like DNA polymerase alpha (pol alpha), in the absence of a primer, pol delta was able to bind single-stranded but not double-stranded DNA. This, in conjunction with the observation of induced substrate (dNTP) inhibition of pol delta in the presence of a correctly base-paired 2',3'-dideoxyribonucleotide-terminated primer, suggests that pol delta follows an ordered sequential ter-reactant mechanism of substrate recognition and binding similar to that elucidated for pol alpha. Pol delta binds template first followed by primer and then template-directed dNTP. With suitable substrates, addition to incubations of proliferating cell nuclear antigen, the pol delta auxiliary factor, leads to a reduction in Km and increase in Vmax. This suggests that proliferating cell nuclear antigen enhances the processivity of pol delta by increasing both the residence time of pol delta on the DNA template-primer and the rate at which individual nucleotides are incorporated.
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PMID:Enzymologic mechanism of calf thymus DNA polymerase delta. 205 Jun 71

Synthesis of a 25-mer oligonucleotide template containing O4-methylthymine (m4T) at a unique site is reported. The sequence used is analogous to that studied previously to determine the mutation frequency of O6-methylguanine in vitro and in vivo. The templates containing m4T or unmodified T were used in a primer-extension gel assay to determine kinetic parameters for incorporation by DNA polymerases of dGTP and dATP opposite either m4T or T. Both Escherichia coli DNA polymerase I (Klenow fragment, Kf) and Drosophila melanogaster polymerase alpha-primase complex (pol alpha) were used. On the basis of the Vmax/Km ratios, the pairing of m4T.G was preferred over that of both m4T.A and T.G by more than 10-fold. The two polymerases gave almost identical values for the frequency of formation of all pairs investigated including m4T.G pairs, suggesting that the 3'----5' exonuclease activity of the Klenow fragment does not efficiently edit such pairs. Extension beyond m4T.G was demonstrated with both Klenow and pol alpha. In similar kinetic experiments, bacteriophage T4 DNA polymerase, which has a very high 3'----5' exonuclease activity, allows stable incorporation of G opposite m4T in contrast to G opposite T. This kinetic approach allows quantitation of the mutagenic potential in the absence of alkylation repair and additionally provides qualitative data on mutagenesis that are in accord with our previous in vivo studies showing that replication of m4T causes T----C transitions.
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PMID:Comparative efficiency of forming m4T.G versus m4T.A base pairs at a unique site by use of Escherichia coli DNA polymerase I (Klenow fragment) and Drosophila melanogaster polymerase alpha-primase complex. 211 81

The synthesis of oligoribonucleotides by DNA primase in the presence of duplex DNA containing the simian virus 40 (SV40) origin of replication was examined. Small RNA chains (10-15 nucleotides) were synthesized in the presence of the four common ribonucleoside triphosphates, SV40 large tumor antigen (T antigen), the human DNA polymerase alpha (pol alpha)-DNA primase complex, the human single-stranded DNA-binding protein (HSSB), and topoisomerase I isolated from HeLa cells. The DNA primase-catalyzed reaction showed an absolute requirement for T antigen, HSSB, and pol alpha. The requirement for HSSB was not satisfied by other SSBs that can support the T-antigen-catalyzed unwinding of DNA containing the SV40 origin of replication. Oligoribonucleotide synthesis occurred with a lag that paralleled the lag observed in DNA synthesis. These results indicate that the specificity for the HSSB in the SV40 replication reaction is due to the pol alpha-primase-mediated synthesis of the Okazaki fragments. In contrast to this specificity, the elongation of Okazaki fragments can be catalyzed by a variety of different DNA polymerases, including high levels of pol alpha, the polymerase delta holoenzyme, T4 polymerase holoenzyme, the Escherichia coli polymerase III holoenzyme, and other polymerases. These observations suggest that leading-strand synthesis in the in vitro SV40 replication system can be nonspecific.
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PMID:Studies on the initiation and elongation reactions in the simian virus 40 DNA replication system. 217 12

The dnaX gene (previously called dnaZX) of Escherichia coli has only one open reading frame for a 71-kDa polypeptide from which two distinct DNA polymerase III holoenzyme subunits, tau (71 kDa) and gamma (47 kDa), are produced. To determine how the gamma subunit is generated, we examined the influence of mutations in the dnaX gene on the pattern of tau and gamma production in overproducing cells. Important structural elements in dnaX mRNA include a stretch of six adenines (nucleotides 1425-1430), a stable hairpin structure (nucleotides 1437-1466), and a UGA stop codon in a -1 frame (nucleotides 1434-1436) between the stretch of adenines and the hairpin structure. Disruption of this stop codon generates a slightly larger gamma subunit, indicative of the use of a -1 stop codon farther downstream (nucleotides 1470-1472). These results suggest that a -1 frameshift during translation allows the use of this UGA codon to terminate translation of the gamma polypeptide. The amino acid composition, sequence, and mass spectra of a C-terminal peptide from mild digestion of the purified gamma protein with endoproteinase Lys-C confirms that this frameshift occurs at either of the two lysine codons in the region of the adenine stretch. Remarkable features of this frameshifting are its high frequency (i.e., about 80% in an overproducing cell) and the striking structural similarity to the frameshifting signal responsible for expression of the pol and pro genes in many retroviruses.
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PMID:Translational frameshifting generates the gamma subunit of DNA polymerase III holoenzyme. 218 40

Both Escherichia coli DNA polymerase I (pol I) and the large fragment of pol I (Klenow) were found to bypass a site-specific cis-syn thymine dimer, in vitro, under standard conditions. A template was constructed by ligating d(pCGTAT[c,s]TATGC), synthesized via a cis-syn thymine dimer phosphoramidite building block, to a 12-mer and 19-mer. The site and integrity of the dimer were verified by use of T4 denV endonuclease V. Extension of a 15-mer on the dimer-containing template by either pol I or Klenow led to dNTP and polymerase concentration dependent formation of termination and bypass products. At approximately 0.15 unit/microL and 1-10 microM in each dNTP, termination one prior to the 3'-T of the dimer predominated. At 100 microM in each dNTP termination opposite the 3'-T of the dimer predominated and bypass occurred. Bypass at 100 microM in each dNTP depended on polymerase concentration, reaching a maximum of 20% in 1 h at approximately 0.2 unit/microL, underscoring the importance of polymerase binding affinity for damaged primer-templates on bypass. Seven percent bypass in 1 h occurred under conditions of 100:10 microM dATP:dNTP bias, 1% under dTTP bias, and an undetectable amount under either dGTP or dCTP bias. At 100 microM in each dNTP, the ratio of pdA:pdG:pdC:pdT terminating opposite the 3'-T of the dimer was estimated to be 37:25:10:28. Sequencing of the bypass product produced under these conditions demonstrated that greater than 95% pdA was incorporated opposite both Ts of the dimer and that little or no frame shifting took place.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:cis-syn thymine dimers are not absolute blocks to replication by DNA polymerase I of Escherichia coli in vitro. 218 42

During the past few years significant progress has been made in our understanding of the structure and function of the proteins involved in eukaryotic DNA replication. Data from several laboratories suggest that, in contrast to prokaryotic DNA replication, two distinct DNA polymerases are required for eukaryotic DNA replication, i.e. DNA polymerase delta for the synthesis of the leading strand and DNA polymerase alpha for the lagging strand. Several accessory proteins analogous to prokaryotic replication factors have been identified and some of these are specific for pol delta whereas others affect both DNA replicases. The replicases and their accessory proteins appear to be highly conserved in eukaryotes, as homologous proteins have been found in species ranging from humans to yeast.
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PMID:DNA polymerase delta: a second eukaryotic DNA replicase. 219 53

With the great availability of sequences from RNA- and DNA-dependent RNA and DNA polymerases, it has become possible to delineate a few highly conserved regions for various polymerase types. In this work a DNA polymerase sequence from bacteriophage SPO2 was found to be homologous to the polymerase domain of the Klenow fragment of polymerase I from Escherichia coli, which is known to be closely related to those from Staphylococcus pneumoniae, Thermus aquaticus and bacteriophages T7 and T5. The alignment of the SPO2 polymerase with the other five sequences considerably narrowed the conserved motifs in these proteins. Three of the motifs matched reasonably all the conserved motifs of another DNA polymerase type, characterized by human polymerase alpha. It is also possible to find these three motifs in monomeric DNA-dependent RNA polymerases and two of them in DNA polymerase beta and DNA terminal transferases. These latter two motifs also matched two of the four motifs recently identified in 84 RNA-dependent polymerases. From the known tertiary architecture of the Klenow fragment of E. coli pol I, a spatial arrangement can be implied for these motifs. In addition, numerous biochemical experiments suggesting a role for the motifs in a common function (dNTP binding) also support these inferences. This speculative hypothesis, attempting to unify polymerase structure at least locally, if not globally, under the pol I fold, should provide a useful model to direct mutagenesis experiments to probe template and substrate specificity in polymerases.
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PMID:An attempt to unify the structure of polymerases. 219 57

Rat DNA polymerase beta (beta-pol) is a 39-kDa protein organized in two tightly folded domains, 8-kDa N-terminal and 31-kDa C-terminal domains, connected by a short protease-sensitive region. The 8-kDa domain contributes template binding to the intact protein, and we now report that the 31-kDa C-terminal domain contributes catalytic activity. Our results show that this domain as a purified proteolytic fragment conducts DNA synthesis under appropriate conditions but the kcat is lower and primer extension properties are different from those of the intact enzyme. A proteolytic truncation of the 31-kDa catalytic domain fragment, to remove a 60-residue segment from the NH2-terminal end, results in nearly complete loss of activity, suggesting the importance of this segment. Overall, these results indicate that the domains of beta-pol have distinct functional roles, template binding and nucleotidyltransferase, respectively; yet, the intact protein is more active for each function than the isolated individual domain fragment.
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PMID:Identification and properties of the catalytic domain of mammalian DNA polymerase beta. 220 97

Though DNA polymerase I (poll) of Escherichia (E.) coli is understood to play a role in repair synthesis of excision repair, it is still obscure whether DNA polymerase beta (pol beta) plays a similar role in eukaryotic cells. To estimate the role of pol beta in excision repair processes, we inserted the rat pol beta gene into several mutant E. coli defective in a diverse set of enzymatic activities of poll. UV resistance was seen only when the 5'----3' exonuclease (exo) activity of poll molecules remained. Therefore it is suggested that 5'----3' exo activity as well as pol beta activity are essential for repair synthesis of excision repair in eukaryotic cells.
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PMID:Rat DNA polymerase beta gene can join in excision repair of Escherichia coli. 221 61

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