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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)

In this report, we describe the isolation, molecular genetic mapping, and phenotypic characterization of vaccinia virus mutants resistant to cytosine arabinoside (araC) and phosphonoacetic acid (PAA). At 37 degrees C, 8 microM araC was found to prevent macroscopic plaque formation by wild-type virus and to cause a 10(4)-fold reduction in viral yield. Mutants resistant to 8 microM araC were selected by serial passage of a chemically mutagenized viral stock in the presence of drug. Because recovery of mutants required that initial passages be performed under less stringent selective conditions, and because plaque-purified isolates were found to be cross-resistant to 200 micrograms of PAA per ml, it seemed likely that resistance to araC required more than one genetic lesion. This hypothesis was confirmed by genetic and physical mapping of the responsible mutations. PAAr was accorded by the acquisition of one of three G-A transitions in the DNA polymerase gene which individually alter cysteine 356 to tyrosine, glycine 372 to aspartic acid, or glycine 380 to serine. AraCr was found to require one of these substitutions plus an additional T-C transition within codon 171 of the DNA polymerase gene, a change which replaces the wild-type phenylalanine with serine. Congenic viral stocks carrying one of the three PAAr lesions, either alone or in conjunction with the upstream araCr lesion, in an otherwise wild-type background were generated. The PAAr mutations conferred nearly complete resistance to PAA, a slight degree of resistance to araC, hypersensitivity to aphidicolin, and decreased spontaneous mutation frequency. Addition of the mutation at codon 171 significantly augmented araC resistance and aphidicolin hypersensitivity but caused no further change in mutation frequency. Several lines of evidence suggest that the PAAr mutations primarily affect the deoxynucleoside triphosphate-binding site, whereas the codon 171 mutation, lying within a conserved motif associated with 3'-5' exonuclease function, is postulated to affect the proofreading exonuclease of the DNA polymerase.
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PMID:Genetic characterization of the vaccinia virus DNA polymerase: cytosine arabinoside resistance requires a variable lesion conferring phosphonoacetate resistance in conjunction with an invariant mutation localized to the 3'-5' exonuclease domain. 838 30

Vaccinia virus infection induces expression of a protein which can catalyze joint molecule formation between a single-stranded circular DNA and a homologous linear duplex. The kinetics of appearance of the enzyme parallels that of vaccinia virus DNA polymerase and suggests it is an early viral gene product. Extracts were prepared from vaccinia virus-infected HeLa cells, and the strand exchange assay was used to follow purification of this activity through five chromatographic steps. The most highly purified fraction contained three major polypeptides of 110 +/- 10, 52 +/- 5, and 32 +/- 3 kDa. The purified protein requires Mg2+ for activity, and this requirement cannot be satisfied by Mn2+ or Ca2+. One end of the linear duplex substrate must share homology with the single-stranded circle, although this homology requirement is not very high, as 10% base substitutions had no effect on the overall efficiency of pairing. As with many other eukaryotic strand exchange proteins, there was no requirement for ATP, and ATP analogs were not inhibitors. Electron microscopy was used to show that the joint molecules formed in these reactions were composed of a partially duplex circle of DNA bearing a displaced single-strand and a duplex linear tail. The recovery of these structures shows that the enzyme catalyzes true strand exchange. There is also a unique polarity to the strand exchange reaction. The enzyme pairs the 3' end of the duplex minus strand with the plus-stranded homolog, thus extending hybrid DNA in a 3'-to-5' direction with respect to the minus strand. Which viral gene (if any) encodes the enzyme is not yet known, but analysis of temperature-sensitive mutants shows that activity does not require the D5R gene product. Curiously, v-SEP appears to copurify with vaccinia virus DNA polymerase, although the activities can be partially resolved on phosphocellulose columns.
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PMID:DNA strand exchange catalyzed by proteins from vaccinia virus-infected cells. 841 69

A series of adenovirus type 5 precursor terminal protein (pTP) and DNA polymerase (Ad pol) genes with linker insertion mutations were separately introduced into the vaccinia virus genome under the control of a late vaccinia virus promoter. The recombinant viruses were used for overexpression of the mutant genes in HeLa cells. In total, 22 different mutant pTP and 10 different Ad pol vaccinia virus recombinants were constructed, including some that expressed carboxyl-terminus-truncated forms of both proteins and one that produced the mutant H5ts149 Ad pol. To investigate the structure-function relationships of both proteins, extracts from cells infected with the recombinant viruses were tested for in vitro complementation of the initiation and elongation steps in adenovirus DNA replication. The results were in accordance with those of earlier in vivo experiments with these insertion mutants and indicate that multiple regions of both proteins are essential for adenovirus DNA replication. The carboxyl termini of both pTP and Ad pol were shown to be essential for proper functioning of these proteins during initiation of adenovirus DNA replication. Three different DNA replication-negative pTP mutants were shown to have residual activity in the initiation assay, suggesting not only that pTP is required for initiation but also that it may play a role in DNA replication after the deoxycytidylation step.
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PMID:Analysis of the adenovirus type 5 terminal protein precursor and DNA polymerase by linker insertion mutagenesis. 841 72

Biological activities of many of the eukaryotic DNA replication proteins are modulated by protein phosphorylation. Investigations of the phosphorylation of adenovirus DNA polymerase (AdPol) have been difficult mainly because of its low level of synthesis in adenovirus-infected HeLa cells. However, when AdPol was overproduced using the recombinant vaccinia virus (RV-AdPol) and the baculovirus expression systems, or by a large scale metabolic labeling of adenovirus 2-infected HeLa cells (native AdPol), in vivo phosphorylation of AdPol could be demonstrated. Phosphoamino acid analysis of [32P]AdPol indicated the presence of phosphoserine independent of the source of AdPol. Comparison of tryptic peptide maps of native AdPol and RV-AdPol revealed that the majority of phosphopeptides were common. Fractionation by high performance liquid chromatography and sequencing of one of the major phosphopeptides revealed serine 67 as a site of phosphorylation. Interestingly, this site is located close to the nuclear localization signal of AdPol and has a consensus substrate recognition sequence for histone H1 (cdc2-related) kinases and mitogen-activated protein kinases. Dephosphorylation of AdPol with calf intestinal alkaline phosphatase resulted in significant decrease in its activity in the in vitro DNA replication initiation assay, suggesting that phosphorylation is important for its biological activity.
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PMID:Adenovirus DNA polymerase is a phosphoprotein. 841 49

The 7.5k promoter of vaccinia virus Tiantan strain has been cloned by DNA polymerase chain reaction (PCR) method. Results of DNA sequencing analysis showed that in comparison with P7.5k of WR strain, three site mutations and 7 bp of natural deletion existed in the 155 bp fragment of P7.5k of Tiantan strain; four of 7 base pairs deleted were in the late transcriptional initiation region. Although the total mutation rate was high to 6.45%, these two 7.5k promoters of Tiantan strain & WR strain were all early-late promoters and not obviously different in their activities and functional phases. The results above confirmed further that it is a mechanism to keep their genetic stability that some genes of vaccinia virus have multiple transcriptional initiation sites and produce many mRNA with heterologous 5' ends.
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PMID:Cloning and structural-functional studies for 7.5k promoter of Tiantan strain of vaccinia virus. 850 87

Degenerate oligonucleotides representing conserved regions of various DNA polymerases hybridized to a region located 26 kb from the left end of the orf virus (OV) strain NZ-2 genome. DNA sequence analysis of this region revealed a 3024 bp open reading frame able to encode a protein with 56 percent amino acid identity to the DNA polymerase of vaccinia virus (VAC) and with significant homology to other DNA polymerases. Early transcripts derived from the open reading frame were detected in RNA purified from OV-infected cells, and 5' ends were mapped to a region 8-19 nt downstream from an A/T-rich sequence that resembles VAC early promoters. Unlike the VAC gene, the OV DNA polymerase makes almost exclusive use of G/C coding options. Attempts to substitute the activity of the OV DNA polymerase for its VAC counterpart were unsuccessful. This may indicate that the OV DNA polymerase is incompatible with VAC accessory proteins.
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PMID:Location, DNA sequence and transcriptional analysis of the DNA polymerase gene of orf virus. 875

The purpose of this review is to summarize information published since 1990 on DNA replication, recombination and repair of vaccinia virus, a poxvirus. Temperature-sensitive mutations reveal four essential genes related to viral DNA replication: the E9L DNA polymerase, B1R protein kinase, D5R protein, and D4R uracil DNA glycosylase. Other proteins are likely to be also involved in viral DNA replication: the H6R DNA topoisomerase, I3L single stranded-DNA binding protein, H5R virosome-associated protein, and A50R DNA ligase. In addition, several viral-encoded proteins do regulate the level of the deoxyribonucleoside triphosphate pool: the J2R thymidine kinase, A48R thymidylate kinase, 14L and F4L subunits of ribonucleotide reductase, and F2L dUTPase. Despite the apparent simplicity of the mechanism of vaccinia virus DNA replication, several important questions related to the three Rs remain unsolved.
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PMID:Vaccinia virus DNA replication: a short review. 882 74

Molluscum contagiosum virus (MCV) is a member of the family Poxviridae and pathogenic to humans. MCV causes benign epidermal tumors mainly in children and young adults and is a common pathogen in immunecompromised individuals. The viral DNA polymerase is the essential enzyme involved in the replication of the genome of DNA viruses. The identification and characterization of the gene encoding the DNA polymerase of molluscum contagiosum virus type 1 (MCV-1) was carried out by PCR technology and nucleotide sequence analysis. Computer-aided analysis of known amino acid sequences of DNA polymerases from two members of the poxvirus family revealed a high amino acid sequence homology of about 49.7% as detected between the DNA polymerases of vaccinia virus (genus Orthopoxvirus) and fowlpoxvirus (genus Avipoxvirus). Specific oligonucleotide primers were designed and synthesized according to the distinct conserved regions of amino acid sequences of the DNA polymerases in which the codon usage of the MCV-1 genome was considered. Using this technology a 228 bp DNA fragment was amplified and used as hybridization probe for identifying the corresponding gene of the MCV-1 genome. It was found that the PCR product was able to hybridize to the BamHI MCV-1 DNA fragment G (9.2 kbp, 0.284 to 0.332 map units). The nucleotide sequence of this particular region of the MCV-1 genome (7267 bp) between map coordinates 0.284 and 0.315 was determined. The analysis of the DNA sequences revealed the presence of 22 open reading frames (ORFs-1 to -22). ORF-13 (3012 bp; nucleotide positions 6624 to 3612) codes for a putative protein of a predicted size of 115 kDa (1004 aa) which shows 40.1% identity and 35% similarity to the amino acid sequences of the DNA polymerases of vaccinia, variola, and fowlpoxvirus. In addition significant homologies (30% to 55%) were found between the amino acid sequences of the ORFs 3, -5, -9, and -14 and the amino acid sequences of the E6R, E8R, E10R, and a 7.3 kDa protein of vaccinia and variola virus, respectively. Comparative analysis of the genomic positions of the loci of the detected viral genes including the DNA polymerases of MCV-1, vaccinia, and variola virus revealed a similar gene organization and arrangement.
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PMID:Strategy for identifying the gene encoding the DNA polymerase of molluscum contagiosum virus type 1. 893 77

A fluorogenic 5' nuclease PCR assay was evaluated for its ability to specifically detect and differentiate DNA of two Orthopoxvirus species. A pair of consensus primers that target a DNA segment of the Orthopoxvirus haemagglutinin gene, and two oligonucleotide probes; each labelled with a different fluorescent reporter dye and the same quencher dye, were used in a single-tube assay. The assay is based on the 5'-->3' nuclease activity of AmpliTaq DNA polymerase that cleaves a fluorescein-labelled hybridized probe. Probe cleavage generates specific fluorescent signals whose intensity can be quantified by fluorometry. After evaluating the effects of various annealing temperatures and probe concentrations and normalizing the emission intensities of the reporter dyes, it was possible to detect and differentiate monkeypox and vaccinia virus DNAs on the basis of a single-base polymorphism. The sensitivity of the 5' nuclease PCR assay is comparable to the sensitivity of ethidium bromide-stained gels, but the assay provides higher specificity and virtually eliminates the need for laborious post-PCR processing.
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PMID:The potential of 5' nuclease PCR for detecting a single-base polymorphism in Orthopoxvirus. 916 Mar 29

We have previously shown that the purified, 116-kDa DNA polymerase encoded by vaccinia virus is inherently distributive, synthesizing only a few nucleotides per template binding event under moderate reaction conditions (W. F. McDonald and P. Traktman, J. Biol. Chem. 269, 31190-31197). These properties would be incompatible with efficient DNA replication in vivo and suggest that the polymerase most probably interacts with accessory proteins that stabilize the template/polymerase interaction. Here we show that a highly processive form of the enzyme is indeed present with cytoplasmic lysates prepared from infected cells, and demonstrate that this form of the enzyme is likely to comprise the DNA polymerase in association with an early viral protein with a native molecular weight of approximately 48K.
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PMID:Characterization of a processive form of the vaccinia virus DNA polymerase. 923 58

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