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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)

Replication of human adenovirus type 12 DNA is blocked in abortively infected baby hamster kidney cells. The activity and accumulation of adenovirus 12 DNA polymerase is equivalent in infected hamster and human cell extracts. However, the accumulation of adenovirus type 12 DNA-binding protein is approximately 120-fold lower in extracts from infected hamster cells when compared to infected permissive human cells. This difference in accumulation is not due to replication of viral DNA during productive infection, since this difference is observed in the presence of hydroxyurea. The DNA-binding protein from infected hamster cells retains the ability to bind denatured DNA-cellulose. An adenovirus 5 early region 1 transformed hamster cell line competent to complement the adenovirus 12 DNA replication defect also stimulates accumulation of the DNA-binding protein even when the cells are treated with hydroxyurea. Thus, the reduced expression of the viral DNA-binding protein may play a role in the mechanism of abortive infection of hamster cells by adenovirus 12.
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PMID:Altered expression of adenovirus 12 DNA-binding protein but not DNA polymerase during abortive infection of hamster cells. 153 51

Transcriptional regulation of the bacteriophage T4 late genes requires the participation of three DNA polymerase accessory proteins that are encoded by T4 genes 44, 62, and 45, and that act at an enhancer-like site. Transcriptional activation by these DNA replication proteins also requires the function of an RNA polymerase-bound coactivator protein that is encoded by T4 gene 33 and a promoter recognition protein that is encoded by T4 gene 55. Transcriptional activation in DNA constructs, in which the enhancer and a T4 late promoter can be segregated on two rings of a DNA catenane, has now been analyzed. The ability of an interposed DNA-binding protein to affect communication between the enhancer and the promoter was also examined. Together, these experiments demonstrate that this transcription-activating signal is conveyed between its enhancer and a T4 late promoter by a DNA-tracking mechanism. Alternative activation mechanisms relying entirely on through-space interactions of enhancer-bound and promoter-bound proteins are excluded.
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PMID:A transcriptional enhancer whose function imposes a requirement that proteins track along DNA. 159 72

Most DNA polymerases are multifunctional proteins that possess both polymerizing and exonucleolytic activities. For Escherichia coli DNA polymerase I and its relatives, polymerase and exonuclease activities reside on distinct, separable domains of the same polypeptide. The catalytic subunits of the alpha-like DNA polymerase family share regions of sequence homology with the 3'-5' exonuclease active site of DNA polymerase I; in certain alpha-like DNA polymerases, these regions of homology have been shown to be important for exonuclease activity. This finding has led to the hypothesis that alpha-like DNA polymerases also contain a distinct 3'-5' exonuclease domain. We have introduced conservative substitutions into a 3'-5' exonuclease active site homology in the gene encoding herpes simplex virus DNA polymerase, an alpha-like polymerase. Two mutants were severely impaired for viral DNA replication and polymerase activity. The mutants were not detectably affected in the ability of the polymerase to interact with its accessory protein, UL42, or to colocalize in infected cell nuclei with the major viral DNA-binding protein, ICP8, suggesting that the mutation did not exert global effects on protein folding. The results raise the possibility that there is a fundamental difference between alpha-like DNA polymerases and E. coli DNA polymerase I, with less distinction between 3'-5' exonuclease and polymerase functions in alpha-like DNA polymerases.
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PMID:Polymerization activity of an alpha-like DNA polymerase requires a conserved 3'-5' exonuclease active site. 165 64

The gene for the mammalian DNA repair enzyme DNA polymerase beta (beta-pol) is constitutively expressed in most cells, but is regulated in a tissue-specific fashion and can be induced in response to some types of DNA damaging agents. The promoter for the human beta-pol gene has been characterized and found to be TATA-less, but it does have multiple GC boxes and one ATF/CRE-binding site located within 50 residues 5' of the major mRNA start site. The ATF/CRE-binding site has been found to be essential for activity of the cloned promoter. We report that a bovine testes DNA-binding protein with specificity for the beta-pol promoter ATF/CRE-binding site is phosphorylated in vivo and contains several phosphorylation sites. Sequence specific DNA-binding by the purified protein is reduced when the natural protein is dephosphorylated or when it is hyperphosphorylated by protein kinase A (cKA) in vitro. These results suggest the possibility that phosphorylation systems may change binding of this ATF/CRE-binding protein to the beta-pol promoter and in turn modulate the promoter. Possible correlation of the results with transient expression activity of the cloned beta-pol promoter fusion gene was obtained in 293 cells. Cotransfection with a cKA expression plasmid to elevate phosphorylation was found to strongly reduce promoter activity.
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PMID:Mammalian beta-polymerase promoter: phosphorylation of ATF/CRE-binding protein and regulation of DNA binding. 182 17

We used indirect immunofluorescence to examine the factors determining the intranuclear location of herpes simplex virus (HSV) DNA polymerase (Pol) in infected cells. In the absence of viral DNA replication, HSV Pol colocalized with the HSV DNA-binding protein ICP8 in nuclear framework-associated structures called prereplicative sites. In the presence of viral DNA replication, HSV Pol colocalized with ICP8 in globular intranuclear structures called replication compartments. In cells infected with mutant viruses encoding defective ICP8 molecules, Pol localized within the cell nucleus but showed a general diffuse intranuclear distribution. In uninfected cells transfected with a plasmid expressing Pol, Pol similarly showed a diffuse intranuclear distribution. Therefore, Pol can localize to the cell nucleus without other viral proteins, but functional ICP8 is required for Pol to localize to prereplicative sites. In cells infected with mutant viruses encoding defective Pol molecules, ICP8 localized to prereplicative sites. Thus, Pol or the portions of Pol not expressed by the mutant viruses are not essential for the formation of prereplicative sites or the localization of ICP8 to these structures. These results demonstrate that a specific nuclear protein can influence the intranuclear location of another nuclear protein.
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PMID:Correct intranuclear localization of herpes simplex virus DNA polymerase requires the viral ICP8 DNA-binding protein. 184 37

Herpesviruses are helper viruses for productive adeno-associated virus (AAV) replication. To analyze the herpes simplex virus type 1 (HSV-1) functions mediating helper activity, we coinfected HeLa cells with AAV type 2 (AAV-2) and different HSV-1 mutants defective in individual HSV replication genes. AAV replication was fully accomplished in the absence of HSV DNA replication and thus did not require expression of late HSV genes. In addition, HSV mutants lacking either the origin-binding protein or the functional DNA polymerase fully maintained the capacity to replicate AAV. Cotransfection of the cloned, replication-competent AAV-2 genome together with the seven HSV replication genes (UL5, UL8, UL9, UL29, UL30, UL42, and UL52) led to productive AAV replication. Cotransfections with different combinations of these genes demonstrated that a subset of four of them, coding for the HSV helicase-primase complex (UL5, UL8, UL52) and the major DNA-binding protein (UL29), was already sufficient to mediate the helper effect. Thus, the HSV helper activity for productive AAV replication seems to consist of DNA replication functions. This appears to be different from the helper effect provided by adenovirus, which predominantly modulates AAV gene regulation.
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PMID:A subset of herpes simplex virus replication genes provides helper functions for productive adeno-associated virus replication. 185 24

Protein p5 is a Bacillus subtilis phage phi 29-encoded protein required for phi 29 DNA replication in vivo. Protein p5 has single-stranded DNA binding (SSB) capacity and stimulates in vitro DNA replication severalfold when phi 29 DNA polymerase is used to replicate either the natural phi 29 DNA template or primed M13 single-stranded DNA (ssDNA). Furthermore, other SSB proteins, including Escherichia coli SSB, T4 gp32, adenovirus DNA-binding protein, and human replication factor A, can functionally substitute for protein p5. The stimulatory effect of phi 29 protein p5 is not due to an increase of the DNA replication rate. When both phi 29 DNA template and M13 competitor ssDNA are added simultaneously to the replication reaction, phi 29 DNA replication is strongly inhibited. This inhibition is fully overcome by adding protein p5, suggesting that protein p5-coated M13 ssDNA is no longer able to compete for replication factors, probably phi 29 DNA polymerase, which has a strong affinity for ssDNA. Electron microscopy demonstrates that protein p5 binds to M13 ssDNA forming saturated complexes with a smoothly contoured appearance and producing a 2-fold reduction of the DNA length. Protein p5 also binds to ssDNA in the phi 29 replicative intermediates produced in vitro, which are similar in structure to those observed in vivo. Our results strongly suggest that phi 29 protein p5 is the phi 29 SSB protein active during phi 29 DNA replication.
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PMID:Mechanism of stimulation of DNA replication by bacteriophage phi 29 single-stranded DNA-binding protein p5. 189 35

In the presence of a single-stranded-DNA-binding protein (SSB), the elongation of primed DNA templates by DNA polymerase delta (pol delta) is dependent on ATP and two protein factors, activator 1 (A1) and proliferating cell nuclear antigen (PCNA). We have examined the interaction of these proteins with (dA)4500.(dT)12-18 by measuring their ability to form stable complexes with this DNA. In the presence of ATP, A1, PCNA, and pol delta formed a stable complex with DNA that could be isolated by gel filtration. Incubation of the isolated complex with dTTP resulted in the synthesis of poly(dT). While ATP was required for the formation of this complex, it was not required for the subsequent elongation of DNA. The temporal requirements for complex formation were determined. A1 was found to bind first, followed by the ATP-dependent addition of PCNA to the A1.DNA complex, while pol delta was added last. Each of these complexes could be isolated by gel filtration, indicating that they possessed a high degree of stability. The binding of PCNA to the A1-SSB-coated primed DNA occurred with adenosine 5'-[gamma-thio]triphosphate as well as ATP. However, the binding of pol delta to the PCNA.A1-DNA complex was observed only when the latter complex was formed in the presence of ATP. The complete complex was formed after incubation at 37 degrees C for 2 min, whereas no complex was detected after incubation at 0 degree C. These results indicate that these proteins act in a manner analogous to the accessory proteins that play critical roles in the elongation reaction catalyzed by T4 phage DNA polymerase and Escherichia coli DNA polymerase III.
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PMID:Mechanism of elongation of primed DNA by DNA polymerase delta, proliferating cell nuclear antigen, and activator 1. 197 50

Seven point mutations were introduced into region I of the herpes simplex virus type 1 DNA polymerase, which is most highly conserved among DNA polymerases and has no drug sensitivity markers mapped to it. The functional consequences of these mutations were studied in an in vitro transcription-translation system in which T7 transcripts of cloned polymerase genes were used to generate enzymatically active polypeptides in reticulocyte lysate. Analysis of labeled polypeptides on sodium dodecyl sulfate-polyacrylamide gel electrophoresis failed to show any alterations of stability caused by these mutations. The mutations G885R, D886N, T887K, D888A, and G896V lacked polymerase activity and failed to be stimulated by cotranslation of the herpes simplex virus 65-kilodalton DNA-binding protein, whereas R881G and S889A retained both polymerase activity and the capacity to be stimulated by the 65-kilodalton DNA-binding protein.
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PMID:Site-specific mutagenesis of a highly conserved region of the herpes simplex virus type 1 DNA polymerase gene. 215 19

Herpes simplex virus (HSV) induces within the host cell genome DNA amplification which can be suppressed by coinfection with adeno-associated virus (AAV). To characterize the AAV functions mediating this effect, cloned AAV type 2 wild-type or mutant genomes were transfected into simian virus 40 (SV40)-transformed hamster cells together with the six HSV replication genes (encoding UL5, UL8, major DNA-binding protein, DNA polymerase, UL42, and UL52) which together are necessary and sufficient for the induction of SV40 DNA amplification (R. Heilbronn and H. zur Hausen, J. Virol. 63:3683-3692, 1989). The AAV rep gene was identified as being responsible for the complete inhibition of HSV-induced SV40 DNA amplification. Likewise, rep inhibited origin-dependent HSV replication. rep neither killed the transfected host cells nor interfered with gene expression from the cotransfected amplification genes. This points to a specific interference with HSV-induced DNA amplification.
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PMID:The adeno-associated virus rep gene suppresses herpes simplex virus-induced DNA amplification. 215 59

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