Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vaccinia virus-dependent CAT expression was observed in virus-infected cells cotransfected with a promoterless CAT gene. Restriction endonuclease resection of the CAT plasmid indicated that expression was due to recognition by vaccinia virus RNA polymerase of sequences within the CAT gene itself, probably located within the 5' untranslated region of the gene. This observation is relevant to the design of reverse-genetic systems which use CAT as a reporter gene to detect replication of negative-strand RNA virus pseudogenomes.
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PMID:Tn9 CAT gene contains a promoter for vaccinia virus transcription: implications for reverse-genetic techniques. 131 41

Foreign DNA was inserted into unique restriction endonuclease cleavage sites (Sma I or Not I) of the 200,000-base-pair vaccinia virus genome by direct molecular cloning. The modified vaccinia virus DNA was packaged in fowlpox virus-infected avian cells, and chimeric vaccinia virus was isolated from mammalian cells not supporting the growth of the fowlpox helper virus. In contrast to the classical "in vivo" recombination technique, chimeric viruses with inserts in both possible orientations and families of chimeras with multiple inserts were obtained. The different genomic configurations of chimeric viruses provide a broader basis for screening of optimal viruses. In addition to packaging in avian cells, a second packaging procedure for vaccinia DNA, based on the abortive infection of mammalian cells with the fowlpox helper virus, was developed. This procedure permits simultaneous packaging and host-range selection for the packaged virus. The cloning/packaging procedure allows the direct insertion of foreign DNA without the need for plasmids having flanking regions homologous to viral nonessential regions and is independent of inefficient in vivo recombination events. By direct cloning and packaging, about 5-10% of the total vaccinia virus yield consisted of chimeras. The procedure is, therefore, a useful tool in molecular virology.
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PMID:Construction of chimeric vaccinia viruses by molecular cloning and packaging. 143 47

HindIII-O/N DNA fragments of vaccinia virus (VV) of the LIVP strain were mapped using thirteen restriction endonucleases. Nucleotide sequences of the HindIII-O fragment (1530 bp) as well as of a site of the HindIII-N genome fragment 353 bp in size were determined. Comparison of restriction maps and nucleotide sequences of VV strains (WR and LIVP) demonstrated that DNA of VV LIVP contained % deletions and 2 insertions. "Reliable" short direct repeats were localized and their possible role in formation of DNA deletions was shown. It was suggested that VV endonuclease and DNA-ligase participate in replication and repair processes. Mechanism of formation of variable sequences of viral genomes is discussed.
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PMID:[5-Variable genome sequence of the LIVP vaccinia virus. A possible role for short direct repeats in the formation of deletions]. 164 23

A DNA fragment from fowlpox virus cloned on a plasmid vector was modified to contain foreign DNA inserts within an intergenic region. In a first step, a 32-base-pair intergenic region from the fowlpox virus genome corresponding to the position of the thymidine kinase locus in the vaccinia virus genome was enlarged to 55 base pairs by site-directed mutagenesis. A unique restriction endonuclease site introduced upstream of the intergenic region was then used to insert various foreign DNA fragments. The lacZ gene encoding beta-galactosidase and the measles virus gene encoding the fusion protein were positioned downstream of two vaccinia virus p7.5 promoter elements in either a direct repeat or inverted repeat orientation. Foreign DNA inserts contained within the fowlpox virus sequence were transferred to the viral genome by homologous recombination occurring in cells infected with a fowlpox virus temperature-sensitive mutant and transfected with both wild-type viral DNA and plasmid DNA. Recombinant viruses were selected for the expression of beta-galactosidase activity by screening for blue plaques in the presence of a chromogenic substrate. Stable recombinants expressing both the lacZ gene and the unselected measles gene were obtained when the p7.5 promoter was present as an inverted repeat. However, when the p7.5 promoter was in the direct repeat orientation, viral recombinants which initially expressed both gene inserts readily deleted the lacZ gene flanked by the promoter repeat. The methods described enable precise insertion and deletion of foreign genes in the fowlpox virus genome and could be applied to other intergenic regions of the same virus as well as other poxviruses.
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PMID:Construction of fowlpox virus vectors with intergenic insertions: expression of the beta-galactosidase gene and the measles virus fusion gene. 215 22

The synthesis and steady state level of immediate early vaccinia virus-specific RNAs in interferon-treated chick embryo fibroblasts were determined by blot hybridization analysis using the cloned restriction endonuclease fragment pEJ 18 containing the gene of vaccinia virus WR-specific DNA polymerase as a probe. Even though early vaccinia virus WR RNA was still synthesized, accumulation of immediate early viral RNAs was strongly inhibited. Accumulation of beta-actin RNA was not affected. This indicated an enhanced degradation of vaccinia virus WR-specific early RNAs in interferon-treated chick embryo fibroblasts. This notion was supported by Northern blot analysis which revealed degradation of residual RNA of vaccinia virus WR-specific DNA polymerase. In contrast to interferon-treated mouse L 929 cells, ribosomal RNA is not degraded in interferon-treated vaccinia WR-infected chick embryo fibroblasts.
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PMID:Increased turnover of vaccinia virus-specific immediate early RNAs in interferon-treated chick embryo fibroblasts. 244 63

During vaccinia virus (VV) assembly a major polypeptide migrating with an apparent MW of 35K, designated Ag35, is expressed as an early function and becomes an integral component of the lipoprotein envelope surrounding the mature virion. In a previous study evaluating humoral immunity to VV, a prominent response against Ag35 was invariably detected in immunized mice. In the context of our continuing investigations of the structure and function of the vaccinia envelope, with a view to alteration in antigenicity of this agent when used as a vaccine vector for foreign antigens, we carried out detailed mapping of the Ag35 gene, as well as determination of the nucleotide sequence. Use of hybridization-arrested translation, coupled with immunoprecipitation, located this gene within a 2.7-kbp EcoRI fragment of the larger 8.7-kbp HindIII H fragment. By means of S1 endonuclease resistance analysis a viral transcript was identified at the site of the Ag35 gene, where the occurrence of an open reading frame (ORF), corresponding to the transcript, was deduced from DNA sequence determination. However, the ORF encodes a polypeptide of only 22,300 Da predicted MW, which is much lower than the apparent MW estimated from SDS-polyacrylamide gel electrophoresis. The size discrepancy is not due to glycosylation or phosphorylation of Ag35 but may result from a proline-rich sequence which occurs in this polypeptide. To confirm that the ORF recognized in this study does, indeed, encode Ag35, the gene was expressed as a beta-galactosidase fusion protein in pUC19; Escherichia coli transformed with the relevant clones expressed a polypeptide of the appropriate molecular weight and antigenicity, when tested by Western blots. Regarding secondary structure and hydropathicity it can be predicted from the DNA sequence that Ag35 is highly hydrophilic but contains a hydrophobic region at the carboxy terminus, perhaps providing the stretch involved in membrane insertion. Computer search of a bank of protein sequences revealed an unusually strong similarity of 68% between the Ag35 at amino acid positions 44-121 and the G glycoprotein of respiratory syncytial virus at positions 189-264.
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PMID:Molecular characterization of a prominent antigen of the vaccinia virus envelope. 246 5

The vaccinia virus nicking-joining (NJ) enzyme has been purified to homogeneity from a preparation of virus cores. The virus-specific DNA-dependent enzyme, which does not require ATP, is a single polypeptide of Mr 50,000 and possesses both endonuclease and ligase activities. The principal end product of the enzyme activity, following incubation with closed circular DNA of sufficient linking deficiency, is a linear DNA in which one of the termini has become cross-linked by the in vitro formation of a hairpin. The ability of the NJ enzyme to cross-link DNA is significantly enhanced by in vitro proteolysis. The enzymatic properties of the proteolytic digestion product, a 44-kDa polypeptide, differ in several other ways from the intact NJ enzyme. In particular, the specific activity is enhanced and the ionic strength optimum is shifted toward higher salt concentrations. It is suggested that the purified 50-kDa species is a pronuclease that is activated by proteolytic processing.
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PMID:Activation of the vaccinia virus nicking-joining enzyme by trypsinization. 290 31

Mice previously latently infected with the F strain of herpes simplex virus type 1 (HSV-1) can be successfully colonized with a second virus strain if HSV-2 is introduced at the same peripheral site as HSV-1. On the other hand, HSV-1 strains seemed able mutually to exclude establishment of latency with each other. Mice (3 months or 3 years after nasal infection) latently infected with HSV-1 were thus superinfected with HSV-2. The mice were sacrificed 2 days post-infection when HSV-2 replication in the ganglia was found to have commenced. Ganglia were homogenized immediately and virus was plaqued on permissive cells. HSV-1 plaques were regularly obtained among HSV-2 plaques as assessed by staining with an enzyme-linked immunosorbent using a type-specific monoclonal antibody recognizing glycoprotein C of HSV-1. DNA from this virus had identical restriction endonuclease patterns (EcoRI, BamHI and HindIII) to the F strain used to infect the animals latently. HSV-1 was not retrieved from ganglia of controls superinfected with a neuroadapted vaccinia virus or were mock-superinfected. The results suggest that it is possible to superinfect a latently infected ganglionic neuronal cell with a heterotypic HSV strain and that the subsequently introduced HSV-2 can act in trans to induce reactivation of latent HSV-1.
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PMID:Retrieval of latent herpes simplex virus type 1 genetic information from murine trigeminal ganglia by superinfection with heterotypic virus in vivo. 299 39

Five strains of Shope fibroma virus (SFV), a strain of rabbit myxoma virus, and a strain of vaccinia virus were compared by restriction endonuclease digestion of their viral DNAs. Restriction digest patterns revealed that SFV and rabbit myxoma, both members of the Leporipoxvirus genus, were distinct from vaccinia, an Orthopoxvirus. All strains of SFV examined had a high degree of nucleotide sequence homology as shown by conservation of restriction sites within their genomes. However, restriction patterns of SFV and myxoma were quite different from one another suggesting that the genomes from these two viruses of the Leporipoxvirus genus do not share a large, highly conserved region of homology as do the viruses belonging to the Orthopoxvirus genus. Restriction mapping identified inverted terminal repeats of approximately 12 kb in length. Restriction fragments representing all but 400 bp of the termini were cloned in plasmid vectors.
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PMID:Characterization, molecular cloning, and physical mapping of the Shope fibroma virus genome. 299 33

Rifampicin has been shown to inhibit the maturation of poxviruses at a discrete step in envelope formation (Moss et al., 1969; Pennington et al., 1970; Nagayama et al., 1970; Grimley et al., 1970). A rifampicin-resistant vaccinia virus mutant (RifR) was selected for its ability to grow in the presence of 100 micrograms/ml of rifampicin. Utilizing intact DNA or endonuclease restricted cloned DNA subfragments derived from the RifR mutant virus, the locus specifying rifampicin resistance was physically mapped by marker rescue analysis leftward of the unique XhoI site within the HindIII D fragment. DNA sequencing of a 445 bp fragment encompassing this region revealed an AT to GC transition when compared with the equivalent wild-type DNA fragment. Analysis of the six potential open reading frames within the 445-bp fragment indicated only one available open reading frame. On this basis, the rifampicin-resistant vaccinia virus mutant was shown to have a codon transition from asparagine to aspartic acid.
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PMID:Physical mapping and DNA sequence analysis of the rifampicin resistance locus in vaccinia virus. 300 72


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