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)

Proteins from herpes simplex virus (HSV)-infected cells were used to reconstitute DNA synthesis in vitro on a preformed replication fork. The preformed replication fork consisted of a nicked, double-stranded, circular DNA molecule with a 5' single-strand tail that was noncomplementary to the template. The products of DNA synthesis on this substrate were rolling-circle molecules, as demonstrated by electron microscopy and alkaline agarose gel electrophoresis. The tails contained double-stranded regions, indicating that both leading- and lagging-strand DNA syntheses occurred. Rolling-circle DNA replication was dependent upon HSV DNA polymerase and ATP and was stimulated by a crude fraction containing ICP8 (HSV DNA-binding protein). Similar protein fractions from mock-infected cells were unable to support rolling-circle DNA replication. This in vitro DNA replication system should prove useful in the identification and characterization of the enzymatic activities required at the HSV replication fork.
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PMID:Herpes simplex virus DNA synthesis at a preformed replication fork in vitro. 216 79

Using indirect immunofluorescence, well-characterized monoclonal and polyclonal antibodies, and temperature-sensitive (ts) mutants of herpes simplex virus type 1, we demonstrated that the 65-kilodalton DNA-binding protein (65KDBP), the major DNA-binding protein (infected cell polypeptide 8 [ICP8]), and the viral DNA polymerase (Pol) colocalize to replication compartments in the nuclei of infected cells under conditions which permit viral DNA synthesis. When viral DNA synthesis was blocked by incubation of the wild-type virus with phosphonoacetic acid, the 65KDBP, Pol, and ICP8 failed to localize to replication compartments. Instead, ICP8 accumulated nearly exclusively to prereplication sites, while the 65KDBP was only diffusely localized within the nuclei. Although some of the Pol accumulated in prereplication sites occupied by ICP8 in the presence of phosphonoacetic acid, a significant amount of Pol also was distributed throughout the nuclei. Examination by double-labeling immunofluorescence of DNA- ts mutant virus-infected cells revealed that the 65KDBP also did not colocalize with ICP8 to prereplication sites at temperatures nonpermissive for virus replication. These results are in disagreement with the hypothesis that ICP8 is the major organizational protein responsible for attracting other replication protein to prereplication sites in preparation for viral DNA synthesis (A. de Bruyn Kops and D. M. Knipe, Cell 55:857-868, 1988), and they suggest that other viral proteins, perhaps in addition to ICP8, or replication fork progression per se are required to organize the 65KDBP.
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PMID:Localization of the herpes simplex virus type 1 65-kilodalton DNA-binding protein and DNA polymerase in the presence and absence of viral DNA synthesis. 217 66

Initiation of adenovirus DNA replication is strongly enhanced by two transcription factors, nuclear factor I (NFI) and nuclear factor III (NFIII/oct-1). These proteins bind to two closely spaced recognition sequences in the origin. We produced NFI and NFIII/oct-1, as well as their biologically active, replication-competent DNA-binding domains (NFI-BD and the POU domain), in a vaccinia virus expression system and purified these polypeptides to apparent homogeneity. By DNase I footprinting and gel retardation, we show that the two proteins, as well as their purified DNA-binding domains, bind independently and without cooperative effects to their recognition sequences. By using a reconstituted system consisting of the purified viral proteins (precursor terminal protein-DNA polymerase complex (pTP-pol) and DNA-binding protein, we show that NFIII/oct-1 or the POU domain stimulates DNA replication in the absence of NFI or NFI-BD and vice versa. When added together, the enhancing effect of the two transcription factors was independent and nonsynergistic. Interestingly, stimulation by NFI or NFI-BD was strongly dependent on the concentration of the pTP-pol complex. At low pTP-pol concentrations, NFI or NFI-BD stimulated up to 50-fold, while at high concentrations, the stimulation was less than twofold, indicating that the need for NFI can be overcome by high pTP-pol concentrations. In contrast, stimulation by NFIII/oct-1 or the POU domain was much less dependent on the pTP-pol concentration. These data support a model in which NFI enhances initiation through an interaction with pTP-pol. Glutaraldehyde cross-linking experiments indicate contacts between pTP-pol and NFI but not NFIII/oct-1. The site of interaction is located in the NFI-BD domain.
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PMID:Transcription factors NFI and NFIII/oct-1 function independently, employing different mechanisms to enhance adenovirus DNA replication. 221 23

The distribution of three adenovirus-encoded DNA replication proteins in the nucleus of human 293 cells was studied by immunogold electron microscopy. The infected nuclei contained four morphologically distinct inclusions. They were highly electron-dense granules (type I), compact fibrogranular masses of medium electron density (type II), filamentous masses of low electron density (type III) and large polygonal crystals (type IV). In immunogold labelling studies, antibodies to the adenovirus single-stranded DNA-binding protein (DBP) and antibodies to single-stranded DNA showed extensive binding to the type III inclusions. The antibodies to the adenovirus DNA polymerase (AdPol) and terminal protein (TP) predominantly labelled type II inclusions. Double immunogold labelling studies detected low levels of AdPol and TP in type III inclusions and DBP in type II inclusions. The selective distribution of DNA replication proteins suggests that the type II and III inclusions represent two functionally different entities that may be involved in two different aspects of adenovirus DNA replication, i.e. chain initiation and elongation.
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PMID:Localization of adenovirus-encoded DNA replication proteins in the nucleus by immunogold electron microscopy. 227 86

The 65-kilodalton DNA-binding protein (65KDBP) of herpes simplex virus type 1, encoded by gene UL42, is required for herpes simplex virus origin-dependent DNA replication (C.A. Wu, N.J. Nelson, D.J. McGeoch, and M.D. Challberg, J. Virol. 62:435-443, 1988). We found by indirect immunofluorescence with monoclonal antibody to 65KDBP that the protein was first detectable at 3 h postinfection. It localized first to the inner periphery of the nucleus, but accumulated in large globular compartments within the nucleus by 6 h postinfection in a pattern similar to that displayed by the major DNA-binding protein ICP8. Immune electron microscopy revealed that 65KDBP was associated with the marginated heterochromatin at the early times, but migrated further into the nucleus at late times when the only discernible areas devoid of 65KDBP were the nucleoli and heterochromatin. The 65KDBP gene is a member of the beta kinetic class as determined by the ability of the mRNA to be expressed at significant levels even in the absence of viral DNA synthesis. Furthermore, in the presence or absence of the DNA polymerase inhibitor phosphonoacetic acid, the patterns of accumulation of protein as well as mRNA were virtually indistinguishable from those displayed by the model beta genes encoding ICP8 and thymidine kinase. Nuclear run-on experiments demonstrated that maximum rates of 65KDBP gene transcription occurred prior to the maximum rate of progeny viral DNA synthesis and confirmed that the expression of the 65KDBP gene is regulated at the level of transcriptional initiation.
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PMID:Kinetics of expression of the gene encoding the 65-kilodalton DNA-binding protein of herpes simplex virus type 1. 253 21

A DNA-binding protein has been identified that recognizes runs of deoxyadenines and/or deoxythymines (dA/dT sequences) and purified from a chromatographic fraction containing the multiprotein DNA polymerase alpha-primase complex of HeLa cells by successive steps of chromatography on oligo(dT)-cellulose and Q-Sepharose. Polyacrylamide gel electrophoresis of the purified dA/dT sequence-binding protein in the presence of NaDodSO4 showed a single protein band of 62 kDa. Nitrocellulose filter binding assays using homopolydeoxynucleotides indicated that the purified protein preferentially binds to dA/dT sequences in single-stranded or duplex DNAs. Gel mobility shift assays with a variety of DNAs showed that the purified protein specifically binds to a fragment of simian virus 40 DNA containing the minimal (core) origin for replication. The binding occurred in a protein-dependent manner and in the presence of a vast excess of competing DNAs lacking the simian virus replication origin. The origin binding was reduced, however, when DNA fragments from simian virus 40 deletion mutants containing deletions within the 17-base-pair A + T-rich tract in the core DNA replication origin were used in the assays. These results indicate that the dA/dT sequence-binding protein preferentially binds to the 17-base-pair A + T-rich tract and suggest a possible role for the protein in the initiation of DNA replication.
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PMID:Sequence recognition protein for the 17-base-pair A + T-rich tract in the replication origin of simian virus 40 DNA. 253 62

Mononuclear phagocytes exhibit different patterns of intrinsic resistance to herpes simplex virus type 1 (HSV-1) that are related to the heterogeneity of macrophage populations and may reflect the particular differentiation or maturation state of the macrophages. In this study, we characterized the molecular basis for the block in HSV-1 replication in resident peritoneal macrophages from B6C3F1 mice. Infected resident peritoneal macrophages were analyzed for the presence of virus-specific mRNA by Northern (RNA) blotting and in situ hybridization and for proteins by immunofluorescence. The data were compared with those obtained in HSV-1-infected permissive Vero cells. The immediate-early genes ICP4, ICP0, ICP22, and ICP27 were transcribed in resident peritoneal macrophages, as was the early gene tk. Virus-specific mRNA for the major DNA-binding protein ICP8 was barely detectable, and that for another early gene, the viral DNA polymerase, was not detected. In addition, transcripts for the delayed-early gene glycoprotein D and the true late gene glycoprotein C (gC) were not detectable in resident peritoneal macrophages. In situ hybridization and immunofluorescence studies confirmed that transcripts and proteins for the immediate-early and some early HSV-1 genes were present. These data also established that 14% of the resident peritoneal macrophages were positive for RNA and polypeptide specific for the immediate-early gene ICP4 and that 7 to 11% were positive for RNA or polypeptides specific for the early genes tk and ICP8. The fact that only a few cells expressed viral products emphasizes the heterogeneity that exists even in this relatively homogeneous resident peritoneal macrophage population. Consistent with the Northern blot analysis, no RNA specific for the early DNA polymerase gene or the late gC gene was detected by in situ hybridization nor could the polypeptide for the gC gene be seen by immunofluorescence. Thus, while early transcriptional events were initiated in some resident peritoneal macrophages, there was a block in replication localized at the level of expression of the early to delayed-early viral genes.
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PMID:Molecular localization of abortive infection of resident peritoneal macrophages by herpes simplex virus type 1. 253 19

Herpes simplex virus (HSV) induces DNA amplification of target genes within the host cell chromosome. To characterize the HSV genes that mediate the amplification effect, combinations of cloned DNA fragments covering the entire HSV genome were transiently transfected into simian virus 40 (SV40)-transformed hamster cells. This led to amplification of the integrated SV40 DNA sequences to a degree comparable to that observed after transfection of intact virion DNA. Transfection of combinations of subclones and of human cytomegalovirus immediate-early promoter-driven expression constructs for individual open reading frames led to the identification of six HSV genes which together were necessary and sufficient for the induction of DNA amplification: UL30 (DNA polymerase), UL29 (major DNA-binding protein), UL5, UL8, UL42, and UL52. All of these genes encode proteins necessary for HSV DNA replication. However, an additional gene coding for an HSV origin-binding protein (UL9) was required for origin-dependent HSV DNA replication but was dispensible for SV40 DNA amplification. Our results show that a subset of HSV replication genes is sufficient for the induction of DNA amplification. This opens the possibility that HSV expresses functions sufficient for DNA amplification but separate from those responsible for lytic viral growth. HSV infection may thereby induce DNA amplification within the host cell genome without killing the host by lytic viral growth. This may lead to persistence of a cell with a new genetic phenotype, which would have implications for the pathogenicity of the virus in vivo.
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PMID:A subset of herpes simplex virus replication genes induces DNA amplification within the host cell genome. 254 92

The Escherichia coli rho-15 mutant, which is highly defective in transcription termination, was examined to see whether its reduced DNA superhelicity could be explained by altered expression of proteins that may affect DNA structure. Levels of DNA gyrase and topoisomerase I were normal; levels of single-stranded-DNA-binding protein, DNA polymerase I, and a protein tentatively identified as Lon were significantly altered.
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PMID:Levels of DNA topoisomerases, single-stranded-DNA-binding protein, and DNA polymerase I in rho+ and rho-15 strains of Escherichia coli. 254 16

The 65-kilodalton DNA-binding protein (65KDBP) of herpes simplex virus type 1 (HSV-1), the product of the UL42 gene, is required for DNA replication both in vitro and in vivo, yet its actual function is unknown. By two independent methods, it was shown that the 65KDBP stimulates the activity of the HSV-1-encoded DNA polymerase (Pol). When Pol, purified from HSV-1-infected cells, was separated from the 65KDBP, much of its activity was lost. However, addition of the 65KDBP, purified from infected cells, stimulated the activity of Pol 4- to 10-fold. The ability of a monoclonal antibody to the 65KDBP to remove the Pol-stimulating activity from preparations of the 65KDBP confirmed that the activity was not due to a trace contaminant. Furthermore, the 65KDBP did not stimulate the activity of other DNA polymerases derived from T4, T7, or Escherichia coli. The 65KDBP gene transcribed in vitro from cloned DNA and translated in vitro in rabbit reticulocyte lysates also was capable of stimulating the product of the pol gene when the RNAs were cotranslated. The product of a mutant 65KDBP gene missing the carboxy-terminal 28 amino acids exhibited wild-type levels of Pol stimulation, while the products of two large deletion mutants of the gene could not stimulate Pol activity. These experiments suggest that the 65KDBP may be an accessory protein for the HSV-1 Pol.
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PMID:The essential 65-kilodalton DNA-binding protein of herpes simplex virus stimulates the virus-encoded DNA polymerase. 255 39

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