Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Purified RecA protein from Escherichia coli inhibited 5-10-fold the rate of in vitro replication of both unirradiated and UV-irradiated single-stranded DNA (ssDNA) with DNA polymerase III holoenzyme. Maximal inhibition occurred at a ratio of 1 molecule of RecA per 2-4 nucleotides of DNA, and it affected primarily the initiation of elongation on primed ssDNA. Adding single-strand DNA-binding protein (SSB) caused a relief of inhibition. Under conditions when there was enough SSB to cover the ssDNA completely, RecA protein had no effect on initiation, elongation or dissociation steps of replication. These observations together with data from in vivo studies suggest a role for RecA protein in the arrest of DNA replication observed in cells exposed to UV-radiation and a variety of chemical carcinogens.
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PMID:RecA protein inhibits in vitro replication of single-stranded DNA with DNA polymerase III holoenzyme of Escherichia coli. 266 47

The T antigen specified by SV40 virus is the only viral-encoded protein required for replication of SV40 DNA. T antigen has two activities that appear to be essential for viral DNA replication: specific binding to duplex DNA at the origin of replication and helicase activity that unwinds the two DNA strands. As judged by electron microscopy, DNA unwinding is initiated at the origin of replication and proceeds bidirectionally. Either linear or circular DNA molecules containing the origin of replication are effective substrates; with closed circular DNA, a topoisomerase capable of removing positive superhelical turns is required for an efficient reaction. Presence of an origin sequence on duplex DNA and a single-strand DNA-binding protein appear to be the only requirements for T antigen to catalyze unwinding. This reaction mediated by T antigen defines a likely pathway to precise initiation of DNA replication: (i) the sequence-specific binding activity locates the origin sequence, (ii) the duplex DNA is unwound at this site, and (iii) the DNA polymerase and primase begin DNA replication. A similar pathway has been inferred for the localized initiation of DNA replication by bacteriophage lambda and by Escherichia coli in which a sequence-specific binding protein locates the origin and directs the DnaB helicase to this site. Observations with the SV40 system indicate that localized initiation of duplex DNA replication may be similar for prokaryotes and eukaryotes.
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PMID:Unwinding of duplex DNA from the SV40 origin of replication by T antigen. 282 89

Recently, a method has been developed to identify regions in the genome of herpes simplex virus type 1 (HSV-1) which contain genes required for DNA synthesis from an HSV-1 origin of DNA replication, and seven genomic loci have been identified as representing the necessary and sufficient gene set for such replication (C. A. Wu, N. J. Nelson, D. J. McGeoch, and M. D. Challberg, J. Virol. 62:435-443, 1988). Two of the loci represent the well-known genes for DNA polymerase and major DNA-binding protein, but the remainder had little or no previous characterization. In this report we present the DNA sequences of the five newly identified genes and their deduced transcript organizations and encoded amino acid sequences. These genes were designated UL5, UL8, UL9, UL42, and UL52 and were predicted to encode proteins with molecular weights of, respectively, 99,000, 80,000, 94,000, 51,000, and 114,000. All of these genes had clear counterparts in the genome of the related alphaherpesvirus varicella-zoster virus, but only UL5 and UL52 were detectably conserved in the distantly related gammaherpesvirus Epstein-Barr virus, as judged by amino acid sequence similarity. The sequence of the UL5 protein, and of its counterparts in the other viruses, contained a region closely resembling known ATP-binding sites; this could be indicative, for instance, of a helicase or primase activity.
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PMID:Structures of herpes simplex virus type 1 genes required for replication of virus DNA. 282 7

Vesicular stomatitis virus (VSV) leader RNA and a synthetic oligodeoxynucleotide of the same sequence were found to inhibit the replication of adenovirus DNA in vitro. In contrast, the small RNA transcribed by the VSV defective interfering particle DI-011 did not prevent adenovirus DNA replication. The inhibition produced by leader RNA was at the level of preterminal protein (pTP)-dCMP complex formation, the initiation step of adenovirus DNA replication. Initiation requires the adenovirus pTP-adenovirus DNA polymerase complex (pTP-Adpol), the adenovirus DNA-binding protein, and nuclear factor I. Specific replication in the presence of leader RNA was restored when the concentration of adenovirus-infected or uninfected nuclear extract was increased or by the addition of purified pTP-Adpol or HeLa cell DNA polymerase alpha-primase to inhibited replication reactions. Furthermore, the activities of both purified DNA polymerases could be inhibited by the leader sequence. These results suggest that VSV leader RNA is the viral agent responsible for inhibition of adenovirus and possibly cellular DNA replication during VSV infection.
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PMID:Inhibition of adenovirus DNA replication by vesicular stomatitis virus leader RNA. 283 88

Peptides from preselected regions of the herpes simplex virus DNA polymerase were used to generate monospecific antisera to defined regions of the enzyme. The antisera were used to localize the polymerase within the infected cell and to determine the time of synthesis during productive infection. Comparison with a neutralizing polyclonal antiserum was used to show the specificity of the peptide antisera. By using the antisera the stabilities of the DNA polymerase, the alkaline nuclease, and the major DNA-binding protein were determined, and the state of phosphorylation of the DNA polymerase was compared with each of these proteins.
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PMID:Production of antibodies of predetermined specificity against herpes simplex virus DNA polymerase and their use in characterization of the enzyme. 283 7

We have mapped the termini and determined the relative abundance and ribosome density of the major cytoplasmic transcript of the DNA polymerase (pol) gene of herpes simplex virus type 1. Nuclease protection and primer extension analyses located the 5' end of the major pol transcript at two closely spaced sites 51 and 57 nucleotides to the left of a BamHI site at map position 0.413. S1-sensitive sites corresponding to additional minor transcripts were found to map further upstream within a palindromic sequence that contains a viral replication origin. The major 3' end was found to map 90 nucleotides upstream of a KpnI site at map position 0.439. Quantitative S1 nuclease assays revealed that pol transcripts were nearly as abundant as transcripts encoded by the viral thymidine kinase gene. However, relatively few pol transcripts were found on large polysomes at 5.5 h after infection, when pol transcripts were most abundant. This was in marked contrast to the polyribosome distribution of transcripts from the thymidine kinase gene and the major DNA-binding protein gene. These results and sequence features of the pol transcript suggest that pol expression is regulated, in part, at the level of translation.
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PMID:Analysis of the transcript of the herpes simplex virus DNA polymerase gene provides evidence that polymerase expression is inefficient at the level of translation. 283 6

Adenovirus (Ad) virions contain a 55-kDa terminal protein covalently linked to both 5'-ends of the linear duplex DNA genome. The origin of DNA replication is contained within the terminal 50 base pair of the inverted terminal repeats. In the accompanying paper (Kenny, M. K., Balogh, L. A., and Hurwitz, J. (1988) J. Biol. Chem. 263, 9801-9808), it was demonstrated that synthetic oligonucleotide templates which contain the Ad origin, but lack the 55-kDa terminal protein, can serve as templates for the initiation of Ad DNA replication. Partially duplex oligonucleotides that lacked up to 14 nucleotides from the 5'-end of the nontemplate (displaced) strand supported initiation as much as 20-fold more efficiently than fully duplex oligonucleotides. The removal of 18 nucleotides or more from the 5'-end of the displaced strand resulted in a sharp decrease in the ability of the DNA templates to support initiation. The poor template efficiency of certain DNAs could be explained by their inability to bind nuclear factor I. The initiation efficiency observed with other DNAs correlated with their ability to bind the preterminal protein-Ad DNA polymerase complex. At low concentrations of the Ad DNA-binding protein, protein-primed initiation was also observed on single-stranded DNAs. The single-stranded template strand of the Ad origin was at least 5-20-fold better at supporting initiation than other single-stranded DNAs. These findings suggest a model in which the 3'-end of the template strand is rendered single-stranded as a prerequisite for initiation of Ad DNA replication.
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PMID:Initiation of adenovirus DNA replication. II. Structural requirements using synthetic oligonucleotide adenovirus templates. 283 80

Using a combination of conventional column chromatography and velocity sedimentation, we have purified the 65-kilodalton DNA-binding protein (65KDBP) encoded by herpes simplex virus (HSV) greater than 625-fold. The HSV type 1 (HSV-1)-encoded DNA polymerase (pol) cofractionated with 65KDBP through DEAE-Sephacel, Blue Sepharose, and Mono Q columns and was only separated from 65KDBP by sedimentation through a glycerol gradient. Immunoaffinity columns containing monoclonal antibody (MAb) 6898 immunoglobulin effectively bound most of the HSV-1 pol activity which coeluted with 65KDBP. The pattern of reactivities of HSV-1/HSV-2 recombinants with MAbs specific for HSV-1 65KDBP or the HSV-2-infected cell-specific protein ICSP34,35 strongly suggests that these two species are serotype equivalents of the same protein. Taken together, all these data indicate that 65KDBP is a pol-associated protein and the HSV-1 counterpart of HSV-2 ICSP34,35 previously reported to have similar properties (P. J. Vaughan, D. J. M. Purifoy, and K. L. Powell, J. Virol. 53:501-508, 1985). Purified preparations of 65KDBP were capable of binding to double-stranded DNA, as determined by filter retention and mobility shift assays. The protein-DNA complex formed with 65KDBP was distinct from that produced by pol and could be further shifted by the addition of immunoglobulin specific for 65KDBP. These results demonstrate that 65KDBP has been purified substantially free from pol and indicate that DNA binding is an inherent property of the protein.
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PMID:Purification of the herpes simplex virus type 1 65-kilodalton DNA-binding protein: properties of the protein and evidence of its association with the virus-encoded DNA polymerase. 283 6

We have undertaken a search for mammalian DNA-binding proteins that enhance the activity of DNA polymerases in a template sequence-specific fashion. In this paper, we report the extensive purification and characterization of a new DNA-binding protein from rabbit liver that selectively stimulates DNA polymerases to copy synthetic poly[d(G-C)] and the poly(dC) strand of poly(dC).poly(dG) as well as single-stranded natural DNA that contains stretches of oligo(dC). The enhancing protein, a polypeptide of 65 kDa designated factor C, stimulates the copying of the two synthetic templates by Escherichia coli DNA polymerase I, Micrococcus luteus polymerase, and eukaryotic DNA polymerases alpha and beta, but not by avian myeloblastosis virus polymerase. Factor C, however, does not affect utilization by these polymerases of the poly(dG) strand of poly(dC).poly(dG), of poly(dC) primed by oligo(dG), or of poly(dA).poly(dT) and poly[d(A-T)]. With polymerase I, Michaelis constants (Km) of poly[d(G-C)] and of the poly(dC) strand of poly(dC).poly(dG) are decreased by factor C 37- and 4.7-fold, respectively, whereas maximum velocity (Vmax) remains unchanged. By contrast, neither the Km value of the poly(dG) strand of poly(dC).poly(dG) nor the Vmax value with this template is altered by factor C. Rates of copying of activated DNA, denatured DNA, or singly primed M13 DNA are not affected significantly by factor C. However, primer extension analysis of the copying of recombinant M13N4 DNA that contains runs of oligo(dC) within an inserted thymidine kinase gene shows that factor C increases processivity by specifically augmenting the efficiency at which polymerase I traverses the oligo(dC) stretches. Direct binding of factor C to denatured DNA is indicated by retention of the protein-DNA complex on columns of DEAE-cellulose. Binding of factor C to poly[d(G-C)] is demonstrated by the specific adsorption of the enhancing protein to columns of poly[d(G-C)]-Sepharose. We propose that by binding to poly[d(G-C)] and to poly(dC).poly(dG), factor C enables tighter binding of some DNA polymerases to these templates and facilitates enzymatic activity.
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PMID:Factor C from rabbit liver. A new poly(dC) and poly[d(G-C)] template-selective stimulatory protein of DNA polymerases. 292 91

Five herpes simplex virus mutants containing temperature-sensitive mutations in the gene for the major DNA-binding protein were assayed for their sensitivities to the DNA polymerase inhibitors aphidicolin and phosphonoacetic acid (PAA). Four of the mutants (tsA1, tsA15, tsA24, and tsA42) exhibited altered sensitivity to one or both of the inhibitors relative to the wild-type parent. In tsA1, a mutation or mutations conferring aphidicolin and PAA hypersensitivity were mapped by corescue with the temperature-sensitivity marker of tsA1 to a region of the DNA-binding protein locus, between map coordinates 0.385 and 0.398. The mutation conferring PAA hypersensitivity in tsA24 similarly corescued with the tsA24 temperature-sensitivity marker, mapping to the DNA-binding protein locus between coordinates 0.398 and 0.413. Thus, mutations outside the DNA polymerase locus and within the DNA-binding protein locus can confer altered sensitivity to certain DNA polymerase inhibitors. Assays of the aphidicolin and PAA sensitivities of ts+ recombinants derived by marker rescue of the DNA-binding protein mutants revealed the presence of additional mutations, separable from the ts mutations, in each of three mutants examined. One such mutation, which contributed to the aphidicolin-hypersensitivity phenotype of tsA1, mapped between coordinates 0.422 and 0.448, and resides, most probably, within the DNA polymerase locus. These additional mutations possibly confer compensating modifications to the DNA polymerase such that functional interaction with altered DNA-binding protein is restored. These findings provide strong evidence that the major DNA-binding protein and the DNA polymerase of herpes simplex virus interact in infected cells.
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PMID:Mutations in the herpes simplex virus major DNA-binding protein gene leading to altered sensitivity to DNA polymerase inhibitors. 299 51


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