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)

Four plasmids containing monkey (CV-1) origin-enriched sequences (ors), which we have previously shown to replicate autonomously in CV-1, COS-7 and HeLa cells (Frappier and Zannis-Hadjopoulos (1987) Proc. Natl. Acad. Sci. USA 84, 6668-6672), were found to replicate in an in vitro replication system using HeLa cell extracts. De novo site-specific initiation of replication on plasmids required the presence of an ors sequence, soluble low-salt cytosolic extract, poly(ethylene glycol), a solution containing the four standard deoxyribonucleoside triphosphates and an ATP regenerating system. The major reaction products migrated as relaxed circular and linear plasmid DNAs, both in the presence and absence of high-salt nuclear extracts. Inclusion of high-salt nuclear extract was required to obtain closed circular supercoiled molecules. Replicative intermediates migrating slower than form II and topoisomers migrating between forms II and I were also included among the replication products. Replication of the ors plasmids was not inhibited by ddTTP, an inhibitor of DNA polymerase beta and gamma, and was sensitive to aphidicolin indicating that DNA polymerase alpha and/or delta was responsible for DNA synthesis. Origin mapping experiments showed that early in the in vitro replication reaction, incorporation of nucleotides occurs preferentially at ors-containing fragments, indicating ors specific initiation of replication. In contrast, the limited incorporation of nucleotides into pBR322, was not site specific. The observed synthesis was semiconservative and appeared to be bidirectional.
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PMID:Plasmids bearing mammalian DNA-replication origin-enriched (ors) fragments initiate semiconservative replication in a cell-free system. 165 84

The association of simian virus 40 (SV40) DNA or plasmid DNA in subcellular fractions from either infected or transfected cells was examined. In lytically infected cells, approx. 25% of viral specific DNA during the infection cycle was retained in nuclei after washing with low ionic strength buffer and 1% Triton X-100. Viral replicating DNA found in the nuclear matrix was capable of performing limited DNA synthesis by the endogenous DNA polymerase in vitro. Viral DNA synthesized in vitro hybridized preferentially to SV40 Hind-III B and C fragments which are in proximity to the origin of replication. In plasmid-transfected COS-7 cells (SV40-transformed cells), the amount of plasmid DNA found in the nuclear matrix was related to its replication efficiency in cells. More than 80% of the plasmid DNA was tightly associated with subnuclear structures. Little or no plasmid DNA was found in the cytoplasmic fraction. The results suggest that, in extrachromosomal model systems, the association of DNA with nuclear matrix is important for the regulation of DNA replication.
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PMID:Association of viral and plasmid DNA with the nuclear matrix during productive infection. 282 Apr 97

A vector which expresses the herpes simplex virus type 1 (HSV-1) (strain 17) DNA polymerase gene was constructed by ligating two separately cloned HSV DNA restriction fragments into an intermediate plasmid and then mobilizing the intact polymerase gene-encoding sequence into a pSV2 derivative. The expression vector (pD7) contains a functional simian virus 40 replication origin and early enhancer-promoter upstream from the HSV DNA polymerase-encoding sequence. COS-1 cells transfected with pD7 contained an RNA species, shown by Northern blot analysis to hybridize specifically with an HSV DNA pol probe and to be the same size (4.3 kilobases) as the pol mRNA found in HSV-1-infected COS-1 cells. A genetic complementation test was used to establish that pD7 expresses a functional pol gene product. COS-1 cells transfected with pD7 were able to partially complement the growth defect of an HSV-1 (KOS) temperature-sensitive mutant, tsC7, in the DNA polymerase gene at the nonpermissive temperature.
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PMID:Functional expression of a cloned herpes simplex virus type 1 DNA polymerase gene. 303 98

Extracts prepared from either mouse cells or monkey cells were examined for the ability to support in vitro bovine papillomavirus type 1 (BPV1) DNA replication, and they were used in parallel as a source of host replication proteins for affinity chromatography. DNA synthesis exhibited an absolute requirement for BPV1 E1 protein. In contrast to previous observations, we found that low levels of E1 were highly efficient in initiating DNA replication in the absence of the BPV1 transcription factor E2. Surprisingly, COS-1 cell extract allowed a high rate of BPV1 DNA replication, supporting an efficient production of mature circular DNA molecules, whereas in mouse cell extracts, the replication products mostly consisted of replicative intermediates. Submitting the extracts to affinity chromatography allowed specific binding of DNA polymerase alpha-primase to E1 protein, up to a total depletion of the extract, regardless of the origin of the cell extract. Furthermore, replication protein A was not retained on E1 affinity columns, even when E2 was complexed with E1. These data confirm that the interactions between E1 and DNA polymerase alpha-primase do not exhibit cell-type specificity, as had already been suggested by data from in vivo and in vitro replication assays, but they imply that other cellular proteins may affect the level of E1-dependent replication.
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PMID:Bovine papillomavirus E1 protein binds specifically DNA polymerase alpha but not replication protein A. 788 80

The amino terminus of the E2F1 transcription factor is a protein-protein interaction domain since it associates with cyclin A/cdk2. Here, the two-hybrid yeast screen was used to clone genes whose products associate with the amino terminus of E2F1. The amino-terminal 121 amino acids of E2F1 were fused to the Lex A binding domain while a partial length cDNA library from the embryo of a 12 day old mouse was fused to the VP16 activation domain. Following coexpression of these fusions in yeast, two novel genes were cloned that code for proteins that associate with E2F1. In an in vitro assay, these E2F1 Binding Proteins (EBP1 and EBP2) associate with residues 1-121 of E2F1 or with the full-length protein; however, they do not associate with its carboxy terminus (residues 88-437). When EBP1 or EBP2 were expressed in COS cells along with E2F1 and the target promoter DNA polymerase alpha, repression of transcription was observed. However, no repression of DNA polymerase alpha was seen if the cells expressed a nonassociating mutant E2F1 (residues 88-437), along with EBP1 or EBP2. Finally, expression of the EBP2 gene is up-regulated in growing NIH3T3 fibroblasts, relative to serum-starved cells. However, this up-regulation of EBP2 expression is not seen in fibroblasts constitutively expressing E2F1.
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PMID:Isolation of two novel cDNAs whose products associate with the amino terminus of the E2F1 transcription factor. 882 66

DNA polymerase alpha-primase is a replication enzyme necessary for DNA replication in all eukaryotes. Mouse DNA primase is composed of two subunits: a 46 kDa protein (p46), which is the catalytic subunit capable of RNA primer synthesis, and a 54 kDa protein (p54), whose physiological role is not clear. To understand the structure-function relationship of DNA primase, we set out to characterize these two subunits individually or in combination using a cDNA expression system in mammalian cultured cells, and determined the subcellular distribution of ectopically expressed DNA primase. The p54 expressed in COS-1 cells after transfection was predominantly localized in the nucleus, whereas p46 was retained in the cytoplasm as shown by indirect immunofluorescence analysis. Using several mutant proteins with deletions or substitutions as well as chimeric constructs, we identified the nuclear localization signal of p54 as RIRKKLR, encoded near the amino terminus (residues 6-12). Furthermore, co-expression of both p46 and p54 subunits markedly altered the subcellular distribution of p46; co-expressed p46 was transported into the nucleus as efficiently as p54. These results demonstrate that p54 has a nuclear localization signal and is able to be translocated into the nucleus independently of DNA polymerase alpha subunits. In contrast, p46 lacks a nuclear localization signal, and its nuclear translocation is facilitated by interaction with p54. We present here first evidence for a novel role of p54 in the nuclear translocation process, and a piggy-back binding transport mechanism of mouse DNA primase.
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PMID:Identification of the nuclear localization signal of mouse DNA primase: nuclear transport of p46 subunit is facilitated by interaction with p54 subunit. 893 81

Mitomycin C (MC) is a cytotoxic and mutagenic antitumor agent that alkylates and cross-links DNA. These effects are dependent on reductive bioactivation of MC. 2,7-Diaminomitosene (2,7-DAM) is the major metabolite of MC in tumor cells, generated by the reduction of MC. 2,7-DAM alkylates DNA in the cell in situ, forming an adduct at the N7 position of 2'-deoxyguanosine (2,7-DAM-dG-N7). To determine the biological effects of this adduct, we have synthesized an oligonucleotide containing a single 2,7-DAM-dG-N7 adduct and inserted it into an M13 bacteriophage genome. Replication of this construct in repair-competent Escherichia coli showed that the adduct was only weakly toxic and generated approximately 50% progeny as compared to control. No mutant was isolated after analysis of more than 4000 progeny phages from SOS-induced or uninduced host cells; therefore, we estimate that the mutation frequency of 2,7-DAM-dG-N7 was less than 2 x 10(-4) in E. coli. Subsequently, to determine if this adduct might be mutagenic in mammalian cells, it was incorporated into a single-stranded shuttle phagemid vector, pMS2, and replicated in simian kidney (COS-7) cells. Analysis of the progeny showed that mutational frequency of a site specific 2,7-DAM-dG-N7 was not higher than the spontaneous mutation frequency in simian kidney cells. In parallel experiments in cell free systems, template oligonucleotides containing a single 2,7-DAM-dG-N7 adduct directed selective incorporation of cytosine in the 5'-32P-labeled primer strands opposite the adducted guanine, catalyzed by Klenow (exo-) DNA polymerase. The adducted templates also supported full extension of primer strands by Klenow (exo-) and T7 (exo-) DNA polymerases and partial extension by DNA polymerase eta. The innocuous behavior of the 2,7-DAM-dG-N7 monoadduct in vivo and in vitro is in sharp contrast to that of the toxic MC-dG-N2 monoadduct reported earlier.
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PMID:DNA adduct of the mitomycin C metabolite 2,7-diaminomitosene is a nontoxic and nonmutagenic DNA lesion in vitro and in vivo. 1572 Jan 25

The processivity factor of the human cytomegalovirus (HCMV) DNA polymerase phosphoprotein ppUL44 plays an essential role in viral replication, showing nuclear localization in infected cells. The present study examines ppUL44's nuclear import pathway for the first time, ectopic expression of ppUL44 revealing a strong nuclear localization in transfected COS-7 and other cell types, implying that no other HCMV proteins are required for nuclear transportation and retention. We show that of the two potential nuclear localization signals (NLSs) located at amino acids 162-168 (NLS1) and 425-431 (NLS2), NLS2 is necessary and sufficient to confer nuclear localization. Moreover, using enzyme-linked immunosorbent assays and gel mobility shift assays, we show that NLS2 is recognized with high affinity by the importin (IMP) alpha/beta heterodimer. Using gel mobility shift and transient transfection assays, we find that flanking sequences containing a cluster of potential phosphorylation sites, including a consensus site for protein kinase CK2 (CK2) at Ser413 upstream of the NLS, increase NLS2-dependent IMP binding and nuclear localization, suggesting a role for these sites in enhancing UL44 nuclear transport. Results from site-directed mutagenic analysis and live-cell imaging of green fluorescent protein (GFP)-UL44 fusion protein-expressing cells treated with the CK2-specific inhibitor 4,5,6,7-tetrabromobenzotriazole are consistent with phosphorylation of Ser413 enhancing ppUL44 nuclear transport.
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PMID:A protein kinase CK2 site flanking the nuclear targeting signal enhances nuclear transport of human cytomegalovirus ppUL44. 1619 Sep 81

Fapy.dG and 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxo-dG) are formed in DNA by hydroxyl radical damage. In order to study replication past these lesions in cells, we constructed a single-stranded shuttle vector containing the lesion in 5'-TGT and 5'-TGA sequence contexts. Replication of the modified vector in simian kidney (COS-7) cells showed that Fapy.dG is mutagenic inducing primarily targeted Fapy.G-->T transversions. In the 5'-TGT sequence mutational frequency of Fapy.dG was approximately 30%, whereas in the 5'-TGA sequence it was approximately 8%. In parallel studies 8-oxo-dG was found to be slightly less mutagenic than Fapy.dG, though it also exhibited a similar context effect: 4-fold G-->T transversions (24% versus 6%) occurred in the 5'-TGT sequence relative to 5'-TGA. To investigate a possible structural basis for the higher G-->T mutations induced by both lesions when their 3' neighbor was T, we carried out a molecular modeling investigation in the active site of DNA polymerase beta, which is known to incorporate both dCTP (no mutation) and dATP (G-->T substitution) opposite 8-oxo-G. In pol beta, the syn-8-oxo-G:dATP pair showed greater stacking with the 3'-T:A base pair in the 5'-TGT sequence compared with the 3'-A:T in the 5'-TGA sequence, whereas stacking for the anti-8-oxo-G:dCTP pair was similar in both 5'-TGT and 5'-TGA sequences. Similarly, syn-Fapy.G:dATP pairing showed greater stacking in the 5'-TGT sequence compared with the 5'-TGA sequence, while stacking for anti-Fapy.G:dCTP pairs was similar in the two sequences. Thus, for both lesions less efficient base stacking between the lesion:dATP pair and the 3'-A:T base pair in the 5'-TGA sequence might cause lower G-->T mutational frequencies in the 5'-TGA sequence compared to 5'-TGT. The corresponding lesions derived from 2'-deoxyadenosine, Fapy.dA and 8-oxo-dA, were not detectably mutagenic in the 5'-TAT sequence, and were only weakly mutagenic (<1%) in the 5'-TAA sequence context, where both lesions induced targeted A-->C transversions. To our knowledge this is the first investigation using extrachromosomal probes containing a Fapy.dG or Fapy.dA site-specifically incorporated, which showed unequivocally that in simian kidney cells Fapy.G-->T substitutions occur at a higher frequency than 8-oxo-G-->T and that Fapy.dA is very weakly mutagenic, as is 8-oxo-dA.
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PMID:Genetic effects of oxidative DNA damages: comparative mutagenesis of the imidazole ring-opened formamidopyrimidines (Fapy lesions) and 8-oxo-purines in simian kidney cells. 1667 49

Fapy.dG is produced in DNA as a result of oxidative stress from a precursor that also forms OxodG. Bypass of Fapy.dG in a shuttle vector in COS-7 cells produces G --> T transversions slightly more frequently than does OxodG (Kalam, M. A., et al. (2006) Nucleic Acids Res. 34, 2305). The effect of Fapy.dG on replication in Escherichia coli was studied by transfecting M13mp7(L2) bacteriophage DNA containing the lesion within the lacZ gene in 4 local sequence contexts. For comparison, experiments were carried out side-by-side on OxodG. The efficiency of lesion bypass was determined relative to that of a genome containing native nucleotides. Fapy.dG was bypassed less efficiently than OxodG. Bypass efficiency of Fapy.dG and OxodG increased modestly in SOS-induced cells. Mutation frequencies at the site of the lesions in the originally transfected genomes were determined using the REAP assay (Delaney, J. C., Essigmann, J. M. (2006) Methods Enzymol. 408, 1). G --> T transversions were the only mutations observed above background when either Fapy.dG or OxodG was bypassed. OxodG mutation frequencies ranged from 3.1% to 9.8%, whereas the G --> T transversion frequencies observed upon Fapy.dG bypass were <or=1.9% in wild-type E. coli. In contrast to OxodG bypass, Fapy.dG mutation frequencies were unaffected by carrying out experiments in mutM/mutY cells. Overall, these experiments suggest that Fapy.dG is at most weakly mutagenic in E. coli. Steady-state kinetic experiments using the Klenow fragment of DNA polymerase I from E. coli suggest that a low dA misincorporation frequency opposite Fapy.dG and inefficient extension of a Fapy.dG:dA base pair work synergistically to minimize the levels of G --> T transversions.
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PMID:Studies on the replication of the ring opened formamidopyrimidine, Fapy.dG in Escherichia coli. 1769 20

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