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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)

DNA from Molluscum contagiosum virus (MCV) isolates was analysed by restriction endonuclease cleavage, revealing two virus subtypes. Physical maps of cleavage sites for BamHI, ClaI and HindIII were constructed, and found to differ extensively between the two subtypes. MCV DNA was similar to Orthopoxvirus DNA with respect to size, terminal cross-linking and the presence of inverted terminal repetitions, but did not hybridize with vaccinia virus DNA. The genomes of the two MCV subtypes cross-hybridized and were colinear except for two small regions. There was sequence homology between DNA from corresponding map regions of the MCV subtypes but, in contrast to Orthopoxvirus DNA, no conservation of restriction sites. A synthetic oligonucleotide probe representing a conserved domain of epidermal growth factor, alpha-transforming growth factor and the vaccinia growth factor identified equivalent regions of both MCV genomes as having the potential to encode this domain. This locus is similar to the position of the vaccinia growth factor gene in vaccinia virus DNA. Thus MCV may induce epidermal cell proliferation and tumourigenesis by expression of an epidermal growth factor-like polypeptide.
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PMID:Characterization and physical mapping of Molluscum contagiosum virus DNA and location of a sequence capable of encoding a conserved domain of epidermal growth factor. 302 97

The localization of KpnI, SacI, XhoI, AvaI, PstI, BglI, BamHI, EcoRI, PmiI, SalI, BglII, restriction endonuclease cleavage sites in HindIII-F-fragments of DNA from vaccinia strains WR, Copenhagen, LIVP and neurovaccine has been detected. The fragments have been shown to differ in the number of AvaI, EcoRI and BamHI sites. The fragments also differ from the analogue of Tian Tan vaccinia strain in the pattern of restriction by AvaI, XhoI, PstI, EcoRI and BamHI endonucleases.
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PMID:[Comparative restriction analysis of HindIII-F-fragments of DNA from 4 strains of vaccinia virus]. 302 79

Mycophenolic acid, an inhibitor of purine metabolism, was shown to block the replication of vaccinia virus in normal cell lines. This observation led to the development of a dominant one-step plaque selection system, based on expression of the Escherichia coli gpt gene, for the isolation of recombinant vaccinia viruses. Synthesis of xanthine-guanine phosphoribosyltransferase enabled only the recombinant viruses to form large plaques in a selective medium containing mycophenolic acid, xanthine, and hypoxanthine. To utilize the selection system efficiently, we constructed a series of plasmids that contain the E. coli gpt gene and allow insertion of foreign genes into multiple unique restriction endonuclease sites in all three reading frames between the translation initiation codon of a strong late promoter and synthetic translation termination sequences. The selection-expression cassette is flanked by vaccinia virus DNA that directs homologous recombination into the virus genome. The new vectors allow high-level expression of complete or partial open reading frames and rapid construction of recombinant viruses by facilitating the cloning steps and by simplifying their isolation. The system was tested by cloning the E. coli beta-galactosidase gene; in 24 h, this enzyme accounted for approximately 3.5% of the total infected-cell protein.
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PMID:Escherichia coli gpt gene provides dominant selection for vaccinia virus open reading frame expression vectors. 313 Apr 92

Attempts to construct hybrid proteins that are transported to the plasma membrane are frequently unsuccessful because of perturbations in polypeptide folding. In seeking to minimize this problem, we have used the less common type of integral membrane protein, which has an uncleaved signal-anchor domain and an extracellular carboxyl portion, to transport a peptide sequence of interest to the cell surface. A set of plasmids was constructed that contained the gene encoding respiratory syncytial virus glycoprotein G (RSVG) interrupted immediately after one of several proline codons by a synthetic sequence containing unique restriction endonuclease sites and a stop codon. The shortened RSVG gene was flanked by vaccinia virus DNA to permit cloning and expression in a vaccinia virus vector. An open reading frame encoding four copies of the immunodominant repeating epitope of the circumsporozoite protein of Plasmodium falciparum was inserted into the tails of the truncated RSVG genes. Recombinant vaccinia viruses were isolated and shown to express hybrid proteins that reacted with a monoclonal antibody directed to the repeating circumsporozoite epitope. Moreover, immunofluorescence studies indicated that the peptide was on the external cell surface and available to react with antibodies. Expression of the hybrid protein also occurred in rabbits inoculated with the live recombinant vaccinia virus, as demonstrated by the generation of antibodies that bound to P. falciparum sporozoites in vitro.
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PMID:Transport to the cell surface of a peptide sequence attached to the truncated C terminus of an N-terminally anchored integral membrane protein. 338 95

The genome of vaccinia virus is a linear duplex molecule of approximately 185 kb with hairpins at each end that link the complementary strands. The hairpins, which exist in two forms that are inverted and complementary in sequence, were isolated as XbaI restriction fragments and converted to a linear intermolecular duplex structure by denaturation and reannealing. The latter was then stably cloned as a 142-bp imperfect palindrome in an Escherichia coli plasmid. The insert was excised from the plasmid and the palindrome was extended on both sides by ligating it to the adjacent vaccinia virus DNA segment. The resulting fragment was cloned as a 278-bp imperfect palindrome. Restriction endonuclease analysis and DNA sequencing indicated the absence of any deletions or rearrangements. After excision from the plasmid, the palindrome was converted by heating and rapid cooling to the original two hairpin forms. In this manner, large quantities of vaccinia virus telomeres may be obtained for physical and biochemical studies.
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PMID:Molecular cloning of the terminal hairpin of vaccinia virus DNA as an imperfect palindrome in an Escherichia coli plasmid. 390 72

The endonucleolytic action of a deoxyribonuclease activity in rabbitpox and vaccinia virus was established by change in sedimentation rate of denatured (3)H-lambda deoxyribonucleic acid substrate. The presence of two deoxyribonuclease activities in pox-virus is confirmed. Exo- and endonuclease activities are unmasked by treatment of purified virus with the detergent Nonidet P-40 and further enhanced by treatment of viral "cores" with trypsin.
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PMID:Virus-associated nucleases: evidence for endonuclease and exonuclease activity in rabbitpox and vaccinia viruses. 501 15

Two DNases, both hydrolizing single-stranded DNA, were identified within highly purified particles of vaccinia virus. One of these, active optimally at pH 5.0, is an exonuclease and the other, most active at pH 7.8, is an endonuclease. These two activities were localized more specifically within the virus cores. Upon elimination of the envelopes, followed by removal of the lateral bodies of vaccinia, both DNases were activated, suggesting that a specific inhibitor of these enzymes may be present in the lateral bodies.
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PMID:Two deoxyribonuclease activities within purified vaccinia virus. 525 66

In interferon-treated mouse L cells, following infection with a DNA-containing virus, vaccinia, synthesis of unique 2'-5'-linked oligonucleotides of the general formula ppp5'A2'(p5'A)n, abbreviated as 2-5A, was detected by competition radiobinding assay. In addition, degradation of rRNA into discrete and characteristic products, similar to those produced by 2-5A-activated endonuclease, was observed. The degradation of rRNA may represent a significant component of antiviral action of interferon in vaccinia virus-infected cells.
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PMID:Degradation of rRNA in interferon-treated vaccinia virus-infected cells. 619 24

It is well established that vaccinia virus infection induces the synthesis of virus-specific DNA in cytoplasmic 'factories', which are sites of virus-specific transcription. The present study demonstrates that vaccinia virus-specific DNA is synthesized also in the nuclei of infected cells with a similar time course. Direct observation and radiolabelling confirm the integrity of isolated nuclei. Reconstitution experiments and inhibitor studies demonstrate that virus-induced DNA is synthesized de novo within nuclei and does not result from cytoplasmic contamination. Cell-specific DNA synthesis is inhibited completely after infection and nuclei of infected cells then synthesize DNA which co-sediments with virus genomic DNA in denaturing gradients. Restriction endonuclease cleavage and hybridization with a virus-specific probe indicate that this is full-length, virus genomic DNA. The biological implications of this are discussed.
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PMID:Synthesis of full-length, virus genomic DNA by nuclei of vaccinia-infected HeLa cells. 622 2

A tandemly repeated sequence within the genome of vaccinia virus is cut to fragments of approximately 70 bp by Hinf I, Taq I or Mbo II. The 70 bp repetition was localized within the much larger (10,300 bp) inverted terminal repetition by restriction analysis of cloned DNA fragments and by hybridization of the purified 70 bp repeat to vaccinia virus DNA restriction fragments. The molar abundance of the 70 bp fragment corresponds to a 30 fold repetition at each end of the genome. The repeating restriction endonuclease sites were mapped by agarose gel electrophoresis of partial Hinf I digests of the terminally labeled cloned DNA fragment. The first of 13 repetitive Hinf I sites occurred approximately 150 bp from the end of the cloned DNA. After an intervening sequence of approximately 435 bp, a second series of 17 repetitive Hinf I sites occurred. The DNA between the two blocks of repetitions has a unique sequence containing single Dde I, Alu I and Sau 3A sites. Tandem repeats within the inverted terminal repetition could serve to accelerate self-annealing of single strands of DNA to form circular structures during replication.
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PMID:Tandem repeats within the inverted terminal repetition of vaccinia virus DNA. 625 Jul 16


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