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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)

Vibrio ordalii is a major cause of vibriosis in wild and cultured marine salmonids and carries pMJ101, a 30-kb cryptic plasmid that replicates in the absence of DNA polymerase I without producing single-stranded intermediates. A recombinant derivative harboring the pMJ101 replication region proved to be compatible with pJM1, a plasmid containing the iron acquisition system required for the virulence of V. anguillarum 775, another important pathogen that causes vibriosis. Sequence analysis of a 1.56-kb fragment harboring the pMJ101 replication region revealed the presence of typical features found in DNA origins including an AT-rich region, 11 dam-methylation sites of which 5 are within the putative ori region, and five copies of the 9-bp consensus sequence for DnaA binding. Gel retardation assays demonstrated that the latter replication element indeed binds DnaA purified from Escherichia coli. A potential open reading frame encoding a hydrophilic protein with a predicted pI of 10.3 and an M(r) of 33,826 was found adjacent to the ori region. Although these properties are typical of DNA-binding proteins, no significant homology was found between this predicted protein, named RepM, and other previously characterized proteins. Reverse transcriptase-polymerase chain reaction analysis of total RNA demonstrated the presence of repM mRNA in V. ordalii. The major initiation site of this mRNA was located 187 nucleotides upstream of the GTG initiation codon as determined by nuclease S1 protection assays. This transcription initiation site is preceded by putative -10 and -35 promoter sequences that control the expression of the repM replication gene. These results demonstrate that the replication region of pMJ101 shares some structural and sequence similarities with other DNA replication regions, which include DnaA binding and methylation sites and an open reading frame encoding a distinct protein required for its replication.
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PMID:Analysis of the replication elements of the pMJ101 plasmid from the fish pathogen Vibrio ordalii. 1041 62

The epsilon subunit is the 3'-->5' proofreading exonuclease that associates with the alpha and theta subunits in the E. coli DNA polymerase III. Two fragments of the epsilon protein were prepared, and binding of these epsilon fragments with alpha and theta was investigated using gel filtration chromatography and exonuclease stimulation assays. The N-terminal fragment of epsilon, containing amino acids 2-186 (epsilon186), is a relatively protease-resistant core domain of the exonuclease. The purified recombinant epsilon186 protein catalyzes the cleavage of 3' terminal nucleotides, demonstrating that the exonuclease domain of epsilon is present in the N-terminal region of the protein. The absence of the C-terminal 57 amino acids of epsilon in the epsilon186 protein reduces the binding affinity of epsilon186 for alpha by at least 400-fold relative to the binding affinity of epsilon for alpha. In addition, stimulation of the epsilon186 exonuclease by alpha using a partial duplex DNA is about 50-fold lower than stimulation of the epsilon exonuclease by alpha. These results indicate that the C-terminal region of epsilon is required in the epsilonalpha association. To directly demonstrate that the C-terminal region of epsilon contains the alpha-association domain fusion protein, constructs containing the maltose-binding protein (MBP) and fragments of the C-terminal region of epsilon were prepared. Gel filtration analysis demonstrates that the alpha-association domain of epsilon is contained within the C-terminal 40 amino acids of epsilon. Also, the epsilon186 protein forms a tight complex with theta, demonstrating that the association of theta with epsilon is localized to the N-terminal region of epsilon. Association of epsilon186 and theta is further supported by the stimulation of the epsilon186 exonuclease in the presence of theta. These data support the concept that epsilon contains a catalytic domain located within the N-terminal region and an alpha-association domain located within the C-terminal region of the protein.
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PMID:Two functional domains of the epsilon subunit of DNA polymerase III. 1062 68

We have isolated the genomic DNA fragment spanning the 5-end and the first four exons encoding the 68 kDa subunit (p68) of the mouse DNA polymerase alpha-primase complex [corrected]. The p68 promoter region lacks TATA and CAAT boxes, but contains a GC-rich sequence, two palindrome sequences and two putative E2F-binding sites [corrected]. A series of transient expression assays using a luciferase reporter gene indicated that a region from nucleotide position -89 to -30 (-89/-30) with respect to the transcription initiation site is crucial for basal transcription of the p68 gene in proliferating NIH 3T3 cells. In particular, part of the GC-rich sequence (-57/-46) and the palindrome (-81/-62) elements were necessary for promoter activity, both of which share homology with the E-box sequence. Gel mobility shift assays using NIH 3T3 nuclear extracts revealed that the upstream stimulatory factor, known as an E-box-binding protein, binds to these sites. Moreover, we observed binding of E2F to two sites near the transcription initiation site (-11/-3 and +9/+16). A transient luciferase expression assay using synchronized NIH 3T3 cells in G(0)phase revealed that these E2F sites are essential for transcription induction of the p68 gene after serum stimulation, but are dispensable for basal transcription. These results indicate that growth-dependent regulation of transcription of the mouse p68 and p180 genes is mediated by a common factor, E2F; however, basal transcription of the genes, interestingly, is regulated by different transcription factors.
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PMID:Cloning and characterization of the 5'-upstream sequence governing the cell cycle-dependent transcription of mouse DNA polymerase alpha 68 kDa subunit gene. 1071 Apr 18

Saccharomyces cerevisiae DNA polymerase epsilon (pol epsilon) is essential for chromosomal replication. A major form of pol epsilon purified from yeast consists of at least four subunits: Pol2p, Dpb2p, Dpb3p, and Dpb4p. We have investigated the protein/protein interactions between these polypeptides by using expression of individual subunits in baculovirus-infected Sf9 insect cells and by using the yeast two-hybrid assay. The essential subunits, Pol2p and Dpb2p, interact directly in the absence of the other two subunits, and the C-terminal half of POL2, the only essential portion of Pol2p, is sufficient for interaction with Dpb2p. Dpb3p and Dpb4p, non-essential subunits, also interact directly with each other in the absence of the other two subunits. We propose that Pol2p.Dpb2p and Dpb3p.Dpb4p complexes interact with each other and document several interactions between individual members of the two respective complexes. We present biochemical evidence to support the proposal that pol epsilon may be dimeric in vivo. Gel filtration of the Pol2p.Dpb2p complexes reveals a novel heterotetrameric form, consisting of two heterodimers of Pol2p.Dpb2p. Dpb2p, but not Pol2p, exists as a homodimer, and thus the Pol2p dimerization may be mediated by Dpb2p. The pol2-E and pol2-F mutations that cause replication defects in vivo weaken the interaction between Pol2p and Dpb2p and also reduce dimerization of Pol2p. This suggests, but does not prove, that dimerization may also occur in vivo and be essential for DNA replication.
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PMID:Subunit interactions within the Saccharomyces cerevisiae DNA polymerase epsilon (pol epsilon ) complex. Demonstration of a dimeric pol epsilon. 1087 5

5-Formyluracil (fU) is a major oxidative thymine lesion generated by ionizing radiation and reactive oxygen species. In the present study, we have assessed the influence of fU on DNA replication to elucidate its genotoxic potential. Oligonucleotide templates containing fU at defined sites were replicated in vitro by Escherichia coli DNA polymerase I Klenow fragment deficient in 3'-5'-exonuclease. Gel electrophoretic analysis of the reaction products showed that fU constituted very weak replication blocks to DNA synthesis, suggesting a weak to negligible cytotoxic effect of this lesion. However, primer extension assays with a single dNTP revealed that fU directed incorporation of not only correct dAMP but also incorrect dGMP, although much less efficiently. No incorporation of dCMP and dTMP was observed. When fU was substituted for T in templates, the incorporation efficiency of dAMP (f(A) = V(max)/K(m)) decreased to (1/4) to (1/2), depending on the nearest neighbor base pair, and that of dGMP (f(G)) increased 1.1-5.6-fold. Thus, the increase in the replication error frequency (f(G)/f(A) for fU versus T) was 3.1-14.3-fold. The misincorporation rate of dGMP opposite fU (pK(a) = 8.6) but not T (pK(a) = 10.0) increased with pH (7.2-8.6) of the reaction mixture, indicating the participation of the ionized (or enolate) form of fU in the mispairing with G. The resulting mismatched fU:G primer terminus was more efficiently extended than the T:G terminus (8.2-11.3-fold). These results show that when T is oxidized to fU in DNA, fU promotes both misincorporation of dGMP at this site and subsequent elongation of the mismatched primer, hence potentially mutagenic.
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PMID:Oxidation of thymine to 5-formyluracil in DNA promotes misincorporation of dGMP and subsequent elongation of a mismatched primer terminus by DNA polymerase. 1127 25

The tau and gamma proteins of the DNA polymerase III holoenzyme DnaX complex are products of the dnaX gene with gamma being a truncated version of tau arising from ribosomal frameshifting. tau is comprised of five structural domains, the first three of which are shared by gamma (Gao, D., and McHenry, C. (2001) J. Biol. Chem. 276, 4433-4453). In the absence of the other holoenzyme subunits, DnaX exists as a tetramer. Association of delta, delta', chi, and psi with domain III of DnaX(4) results in a DnaX complex with a stoichiometry of DnaX(3)deltadelta'chipsi. To identify which domain facilitates DnaX self-association, we examined the properties of purified biotin-tagged DnaX fusion proteins containing domains I-II or III-V. Unlike domain I-II, treatment of domain III-V, gamma, and tau with the chemical cross-linking reagent BS3 resulted in the appearance of high molecular weight intramolecular cross-linked protein. Gel filtration of domains I-II and III-V demonstrated that domain I-II was monomeric, and domain III-V was an oligomer. Biotin-tagged domain III-V, and not domain I-II, was able to form a mixed DnaX complex by recruiting tau, delta, delta', chi, and psi onto streptavidin-agarose beads. Thus, domain III not only contains the delta, delta', chi, and psi binding interface, but also the region that enables DnaX to oligomerize.
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PMID:tau binds and organizes Escherichia coli replication proteins through distinct domains: domain III, shared by gamma and tau, oligomerizes DnaX. 1146 87

A compensatory mutation (M230I) in the primer grip of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) restores the replication capacity of virus having a Y115W mutation in their RT coding region. The Y115W substitution impairs DNA polymerase activity and produces an enzyme with a lower fidelity of DNA synthesis. Gel-based fidelity assays with the double mutant Y115W/M230I revealed that the M230I substitution increased the accuracy of mutant Y115W. Y115W/M230I showed wild-type misinsertion fidelity in assays performed with DNA/DNA templates. However, when present alone, M230I conferred reduced fidelity as determined in misinsertion and mispair extension fidelity assays, as well as in primer extension assays carried out with three dNTPs. The mutant M230I showed a 3.3-16-fold increase in misinsertion efficiency for G, C and T opposite T, compared with the wild-type enzyme. Its fidelity was not influenced by nucleotide substitutions in the template/primer around the incorporation site. However, its accuracy was apparently affected by the structure of the 5'-overhang of the template strand. Unlike wild-type HIV-1 RT, nucleotide selectivity of mutant M230I at dT:dG, dT:dC and dT:dT mispairs was almost exclusively dependent on the K(m) values for correct and incorrect dNTPs, a characteristic that has not been described for other low fidelity mutants of HIV-1 RT.
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PMID:A mutation in the primer grip region of HIV-1 reverse transcriptase that confers reduced fidelity of DNA synthesis. 1181 26

DNA primase synthesizes short RNA primers used by DNA polymerases to initiate DNA synthesis. Two proteins of approximately 60 and 50 kD were recognized by specific antibodies raised against yeast primase subunits, suggesting a high degree of analogy between wheat and yeast primase subunits. Gel-filtration chromatography of wheat primase showed two active forms of 60 and 110 to 120 kD. Ultraviolet-induced cross-linking with radioactive oligothymidilate revealed a highly labeled protein of 60 kD. After limited trypsin digestion of wheat (Triticum aestivum L.) primase, a major band of 48 kD and two minor bands of 38 and 17 kD were observed. In the absence of DNA polymerases, the purified primase synthesizes long RNA products. The size of the RNA product synthesized by wheat primase is considerably reduced by the presence of DNA polymerases, suggesting a modulatory effect of the association between these two enzymes. Lowering the primase concentration in the assay also favored short RNA primer synthesis. Several properties of the wheat DNA primase using oligoadenylate [oligo(rA)]-primed or unprimed polythymidilate templates were studied. The ability of wheat primase, without DNA polymerases, to elongate an oligo(rA) primer to long RNA products depends on the primer size, temperature, and the divalent cation concentration. Thus, Mn2+ ions led to long RNA products in a very wide range of concentrations, whereas with Mg2+ long products were observed around 15 mM. We studied the ability of purified wheat DNA polymerases to initiate DNA synthesis from an RNA primer: wheat DNA polymerase A showed the highest activity, followed by DNA polymerases B and CII, whereas DNA polymerase CI was unable to initiate DNA synthesis from an RNA primer. Results are discussed in terms of understanding the role of these polymerases in DNA replication in plants.
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PMID:Wheat DNA Primase (RNA Primer Synthesis in Vitro, Structural Studies by Photochemical Cross-Linking, and Modulation of Primase Activity by DNA Polymerases). 1223 87

Single-stranded DNA-binding proteins and their functional homologs, replication protein A, are essential components of cellular DNA replication, repair and recombination. We describe here the isolation and characterization of multiple replication protein A homologs, RPA1, RPA2, and RPA3, from the archaeon Methanosarcina acetivorans. RPA1 comprises four single-stranded DNA-binding domains, while RPA2 and RPA3 are each composed of two such domains and a zinc finger domain. Gel filtration analysis suggested that RPA1 exists as homotetramers and homodimers in solution, while RPA2 and RPA3 form only homodimers. Unlike the multiple RPA proteins found in other Archaea and eukaryotes, each of the M. acetivorans RPAs can act as a distinct single-stranded DNA-binding protein. Fluorescence resonance energy transfer and fluorescence polarization anisotropy studies revealed that the M. acetivorans RPAs bind to as few as 10 single-stranded DNA bases. However, more stable binding is achieved with single-stranded DNA of 18-23 bases, and for such substrates the estimated Kd was 3.82 +/- 0.28 nM, 173.6 +/- 105.17 nM, and 5.92 +/- 0.23 nM, for RPA1, RPA2, and RPA3, respectively. The architectures of the M. acetivorans RPAs are different from those of hitherto reported homologs. Thus, these proteins may represent novel forms of replication protein A. Most importantly, our results show that the three RPAs and their combinations highly stimulate the primer extension capacity of M. acetivorans DNA polymerase BI. Although bacterial SSB and eukaryotic RPA have been shown to stimulate DNA synthesis by their cognate DNA polymerases, our findings provide the first in vitro biochemical evidence for the conservation of this property in an archaeon.
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PMID:Functional analysis of multiple single-stranded DNA-binding proteins from Methanosarcina acetivorans and their effects on DNA synthesis by DNA polymerase BI. 1467 14

1,N(2)-Etheno(epsilon)guanine is a mutagenic DNA lesion derived from lipid oxidation products and also from some chemical carcinogens. Gel electrophoretic analysis of the products of primer extension by Sulfolobus solfataricus P2 DNA polymerase IV (Dpo4) indicated preferential incorporation of A opposite 3'-(1,N(2)-epsilon-G)TACT-5', among the four dNTPs tested individually. With the template 3'-(1,N(2)-epsilon-G)CACT-5', both G and A were incorporated. When primer extension was done in the presence of a mixture of all four dNTPs, high pressure liquid chromatography-mass spectrometry analysis of the products indicated that (opposite 3'-(1,N(2)-epsilon-G)CACT-5') the major product was 5'-GTGA-3' and the minor product was 5'-AGTGA-3'. With the template 3'-(1,N(2)-epsilon-G)TACT-5', the following four products were identified by high pressure liquid chromatography-mass spectrometry: 5'-AATGA-3', 5'-ATTGA-3', 5'-ATGA-3', and 5'-TGA-3'. An x-ray crystal structure of Dpo4 was solved (2.1 A) with a primer-template and A placed in the primer to be opposite the 1,N(2)-epsilon-G in the template 3'-(1,N(2)-epsilon-G)TACT 5'. The added A in the primer was paired across the template T with classic Watson-Crick geometry. Similar structures were observed in a ternary Dpo4-DNA-dATP complex and a ternary Dpo4-DNA-ddATP complex, with d(d)ATP opposite the template T. A similar structure was observed with a ddGTP adjacent to the primer and opposite the C next to 1,N(2)-epsilon-G in 3'-(1,N(2)-epsilon-G)CACT-5'. We concluded that Dpo4 uses several mechanisms, including A incorporation opposite 1,N(2)-epsilon-G and also a variation of dNTP-stabilized misalignment, to generate both base pair and frameshift mutations.
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PMID:DNA adduct bypass polymerization by Sulfolobus solfataricus DNA polymerase Dpo4: analysis and crystal structures of multiple base pair substitution and frameshift products with the adduct 1,N2-ethenoguanine. 1596 31

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