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)

DNA polymerase was partially purified from mitochondrial extracts of rat liver by phosphocellulose, DEAE-cellulose, heparin-Sepharose CL-6B and DNA-agarose column chromatography. By these purification steps, DNA polymerase and proliferating cell nuclear antigen (PCNA) were completely separated at the step of heparin-Sepharose CL-6B column chromatography. The isolated DNA polymerase was inhibited by ddTTP, but not by aphidicolin. The enzyme sedimented at about 8 S on 5-20% analytical sucrose density gradient centrifugation. These data showed that the DNA polymerase isolated from mitochondria is gamma in type. After the separation of DNA polymerase gamma and PCNA, the two fractions were remixed and DNA polymerase gamma activity was measured. DNA polymerase gamma activity was stimulated about three-fold or more in the presence of the PCNA fraction. This stimulation was inhibited by the addition of anti-PCNA rabbit IgG2a. In addition, highly purified human recombinant PCNA stimulated the DNA polymerase gamma activity. These results indicate that DNA polymerase gamma, like DNA polymerase delta, is activated by PCNA.
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PMID:Stimulation of DNA polymerase gamma activity by proliferating cell nuclear antigen. 748 69

During nucleotide excision repair, damaged DNA is incised on both sides of a lesion and an oligomer containing the damage is excised and replaced by repair DNA synthesis. The latter step is accomplished in vitro by proteins that include the DNA polymerase accessory factor PCNA, which binds to DNA ends to initiate repair synthesis. An increased association of PCNA with nuclei occurs after UV irradiation of nonreplicating DNA in normal human fibroblasts, probably following incision of damaged DNA. This property was used to detect the catalysis of nucleotide excision repair incisions in damaged DNA in vivo, by immunostaining of quiescent human fibroblasts with the widely available PC10 antibody. We summarize here a comprehensive survey of PCNA immunostaining in repair-defective xeroderma pigmentosum (XP) cells in comparison to normal cells. XP-A and XP-G cells were completely defective in staining for PCNA 30 min after UV irradiation. This strongly suggests that XPA and XPG proteins are absolutely required in cells before any incisions can be formed in damaged DNA. XP-B, XP-C, XP-D, and XP-F cells showed an intermediate level of staining for PCNA after UV irradiation, indicative of partial incision capacity in those cells. UV-irradiated XP-E and XP-V cells showed normal PCNA immunostaining levels, consistent with evidence that the corresponding factors are not essential for the incision step of repair. The results provide further evidence for the involvement of PCNA in the repair process in vivo and give an alternative to traditional approaches for measurement of nucleotide excision repair capability.
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PMID:Detection of nucleotide excision repair incisions in human fibroblasts by immunostaining for PCNA. 749 31

Normal rat kidney cells that reenter the cell cycle from quiescence start DNA synthesis at 12 h following serum addition and reach a maximum after 20 h. We have previously shown that the activation of DNA polymerase alpha, and the expression of the proliferating cell nuclear antigen were inhibited when the anti-calmodulin drug W13 is added to the cell cultures. Here we have analyzed the effect of W13 on the activity of DNA polymerase delta and on the expression of replication protein A. The results showed that the blockade of calmodulin by W13 produced an almost complete inhibition of DNA polymerase delta activity whereas the activity of DNA polymerase alpha was only partially inhibited. Finally, the expression of replication protein A was not affected after W13 treatment. Our data suggest that calmodulin might regulate DNA replication through the control of the activities of DNA polymerases alpha and delta and the expression of proliferating cell nuclear antigen.
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PMID:Calmodulin is involved in the induction of DNA polymerases alpha and delta activities in normal rat kidney cells activated to proliferate. 750 37

Postembryonic production of sensory hair cells occurs in both normal and aminoglycoside-damaged avian inner ears. The cellular source and mechanism that results in new differentiated hair cells were investigated in the avian vestibular epithelia using three distinct cell-cycle-specific labeling methods to identify proliferating sensory epithelial cells. First, immunocytochemical detection of the proliferating cell nuclear antigen, an auxiliary protein of DNA polymerase, allowed labeling of cells in late G1, S, and early G2 phases of the cell cycle. Second, a pulse-fix tritiated thymidine autoradiographic protocol was used to identify cells in S phase of the cell cycle. Finally, Hoechst 33342, a fluorescent DNA stain, was used to identify epithelial cells in mitosis. The distribution of cells active in the cell cycle within the normal and ototoxin-damaged vestibular epithelium suggests that supporting cells within the sensory epithelia are the cellular precursors to the regenerated hair cells. Differences between the proliferation marker densities in control and damaged end organs indicate that the upregulation of mitotic activity observed after streptomycin treatment is due primarily to an increase in the number of dividing progenitor cells. The differences between the extent of ototoxic damage and the level of reparative proliferative response suggest a generalized stimulus, such as a soluble chemical factor, plays a role in initiating regeneration. Finally, after DNA replication is initiated, progenitor cell nuclei migrate from their original location close to the basement membrane to the lumenal surface, where cell division occurs. This pattern of intermitotic nuclear migration is analogous to that observed in the developing inner ear and neural epithelium.
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PMID:Identification of hair cell progenitors and intermitotic migration of their nuclei in the normal and regenerating avian inner ear. 750 61

DNA polymerase epsilon (pol epsilon) from HeLa cells was purified to near homogeneity, utilizing Mono S fast protein liquid chromatography for complete separation from pol alpha. The purified pol epsilon preparation showed two polypeptides of > 200 and 55 kDa and a small amount of active 122-kDa proteolysis product on denaturing polyacrylamide gels. Pol epsilon (as well as pols alpha and delta) is optimally active in 100-150 mM potassium glutamate and 15 mM MgCl2. Replication factors RF-A and RF-C, proliferating cell nuclear antigen, and Escherichia coli single-stranded DNA binding protein showed no significant effect on this preparation's pol epsilon activity, processivity, or substrate specificity. The size of the pol epsilon transcript for the catalytic subunit (> 200 kDa) was investigated in both normal human fibroblasts and HeLa cells. A 7.7-kilobase transcript was detected which was 5-16-fold more prevalent in proliferating than in quiescent HeLa cells. No significant difference in the level of pol epsilon transcript in HeLa cells or fibroblasts was seen after ultraviolet irradiation. Mouse polyclonal antiserum was produced to a 144-amino acid fragment of pol epsilon fused to staphylococcal protein A. This non-neutralizing polyclonal antiserum specifically recognized the catalytic subunit of pol epsilon by immunoblotting, but not that of pol alpha, beta, or delta. In addition, mouse polyclonal antiserum raised against column-purified pol epsilon was able to recognize and to neutralize pol epsilon, and a mouse monoclonal antibody was raised which was able to recognize specifically the catalytic subunit of pol epsilon.
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PMID:Further characterization of HeLa DNA polymerase epsilon. 753 91

The entire cDNA encoding the large subunit of mouse DNA polymerase delta (mPol delta; EC 2.7.7.7) has been cloned and expressed in various bacterial expression systems. A soluble protein could only be obtained when mPol delta was produced as a glutathione S-transferase (GST) fusion protein and the incubation temperature of the expression strain was reduced to 30 degrees C. After purification over a glutathione-Sepharose column, the fractions containing the recombinant (re-) fusion protein showed both DNA Pol and 3'-->5' Exo activities. In situ activity gel analysis indicated that the Pol activity resides in the re-protein. This activity, however, was not stimulated by proliferating cell nuclear antigen (PCNA). Our data are discussed in the view of the findings of Goulian et al. [J. Biol. Chem., 265 (1990) 16402-16411] that the second mPol delta subunit, the 48-kDa protein, might play an important role in DNA Pol delta-PCNA interaction.
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PMID:Production of active mouse DNA polymerase delta in bacteria. 760 49

Although a number of transfection experiments have suggested potential targets for the action of the E2F1 transcription factor, as is the case for many transcriptional regulatory proteins, the actual targets in their normal chromosomal environment have not been demonstrated. We have made use of a recombinant adenovirus containing the E2F1 cDNA to infect quiescent cells and then measure the activation of endogenous cellular genes as a consequence of E2F1 production. We find that many of the genes encoding S-phase-acting proteins previously suspected to be E2F targets, including DNA polymerase alpha, thymidylate synthase, proliferating cell nuclear antigen, and ribonucleotide reductase, are indeed induced by E2F1. Several other candidates, including the dihydrofolate reductase and thymidine kinase genes, were only minimally induced by E2F1. In addition to the S-phase genes, we also find that several genes believed to play regulatory roles in cell cycle progression, such as the cdc2, cyclin A, and B-myb genes, are also induced by E2F1. Moreover, the cyclin E gene is strongly induced by E2F1, thus defining an autoregulatory circuit since cyclin E-dependent kinase activity can stimulate E2F1 transcription, likely through the phosphorylation and inactivation of Rb and Rb family members. Finally, we also demonstrate that a G1 arrest brought about by gamma irradiation is overcome by the overexpression of E2F1 and that this coincides with the enhanced activation of key target genes, including the cyclin A and cyclin E genes.
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PMID:Cellular targets for activation by the E2F1 transcription factor include DNA synthesis- and G1/S-regulatory genes. 762 16

The saccharomyces cerevisiae proliferating cell nuclear antigen (PCNA), encoded by the POL30 gene, is essential for DNA replication and DNA repair processes. Twenty-one site-directed mutations were constructed in the POL30 gene, each mutation changing two adjacently located charged amino acids to alanines. Although none of the mutant strains containing these double-alanine mutations as the sole source of PCNA were temperature sensitive or cold sensitive for growth, about a third of the mutants showed sensitivity to UV light. Some of those UV-sensitive mutants had elevated spontaneous mutation rates. In addition, several mutants suppressed a cold-sensitive mutation in the CDC44 gene, which encodes the large subunit of replication factor C. A cold-sensitive mutant, which was isolated by random mutagenesis, showed a terminal phenotype at the restrictive temperature consistent with a defect in DNA replication. Several mutant PCNAs were expressed and purified from Escherichia coli, and their in vitro properties were determined. The cold-sensitive mutant (pol30-52, S115P) was a monomer, rather than a trimer, in solution. This mutant was deficient for DNA synthesis in vitro. Partial restoration of DNA polymerase delta holoenzyme activity was achieved at 37 degrees C but not at 14 degrees C by inclusion of the macromolecular crowding agent polyethylene glycol in the assay. The only other mutant (pol30-6, DD41,42AA) that showed a growth defect was partially defective for interaction with replication factor C and DNA polymerase delta but completely defective for interaction with DNA polymerase epsilon. Two other mutants sensitive to DNA damage showed no defect in vitro. These results indicate that the latter mutants are specifically impaired in one or more DNA repair processes whereas pol30-6 and pol30-52 mutants show their primary defects in the basic DNA replication machinery with probable associated defects in DNA repair. Therefore, DNA repair requires interactions between repair-specific protein(s) and PCNA, which are distinct from those required for DNA replication.
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PMID:A mutational analysis of the yeast proliferating cell nuclear antigen indicates distinct roles in DNA replication and DNA repair. 762 35

Replication factor C (RFC) is a five-subunit DNA polymerase accessory protein that functions as a structure-specific, DNA-dependent ATPase. The ATPase function of RFC is activated by proliferating cell nuclear antigen. RFC was originally purified from human cells on the basis of its requirement for simian virus 40 DNA replication in vitro. A functionally homologous protein complex from Saccharomyces cerevisiae, called ScRFC, has been identified. Here we report the cloning, by either peptide sequencing or by sequence similarity to the human cDNAs, of the S. cerevisiae genes RFC1, RFC2, RFC3, RFC4, and RFC5. The amino acid sequences are highly similar to the sequences of the homologous human RFC 140-, 37-, 36-, 40-, and 38-kDa subunits, respectively, and also show amino acid sequence similarity to functionally homologous proteins from Escherichia coli and the phage T4 replication apparatus. All five subunits show conserved regions characteristic of ATP/GTP-binding proteins and also have a significant degree of similarity among each other. We have identified eight segments of conserved amino acid sequences that define a family of related proteins. Despite their high degree of sequence similarity, all five RFC genes are essential for cell proliferation in S. cerevisiae. RFC1 is identical to CDC44, a gene identified as a cell division cycle gene encoding a protein involved in DNA metabolism. CDC44/RFC1 is known to interact genetically with the gene encoding proliferating cell nuclear antigen, confirming previous biochemical evidence of their functional interaction in DNA replication.
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PMID:Characterization of the five replication factor C genes of Saccharomyces cerevisiae. 765 83

The 5'-->3'-exonuclease domain of Escherichia coli DNA polymerase I is required for the completion of lagging strand DNA synthesis, and yet this domain is not present in any of the eukaryotic DNA polymerases. Recently, the gene encoding the functional and evolutionary equivalent of this 5'-->3'-exonuclease domain has been identified. It is called FEN-1 in mouse and human cells and RTH1 in Saccharomyces cerevisiae. This 42-kDa enzyme is required for Okazaki fragment processing. Here we report that FEN-1 physically interacts with proliferating cell nuclear antigen (PCNA), the processivity factor for DNA polymerases delta and epsilon. Through protein-protein interactions, PCNA focuses FEN-1 on branched DNA substrates (flap structures) and on nicked DNA substrates, thereby stimulating its activity 10-50-fold but only if PCNA can functionally assemble as a toroidal trimer around the DNA. This interaction is important in the physical orchestration of lagging strand synthesis and may have implications for how PCNA stimulates other members of the FEN-1 nuclease family in a broad range of DNA metabolic transactions.
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PMID:Lagging strand DNA synthesis at the eukaryotic replication fork involves binding and stimulation of FEN-1 by proliferating cell nuclear antigen. 767 86

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