EC:3.1.30.2 - FACTA Search

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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 a variety of uninfected chicken cell types has been analyzed by using restriction endonuclease digestion and RPC-5 ion-exchange chromatography followed by agarose gel electrophoresis. Endogenous retrovirus sequences were detected by using a 32P-labeled avian leukosis viral RNA probe. One simple pattern was identified in an individual containing unexpressed endogenous proviral genes (gs-chf-phenotype for group-specific antigens and chicken helper factor) that was common to all individuals studied. A tentative restriction has been derived for this and one other gs-chf-endogenous provirus. Other gs-chf-individuals and individuals with other phenotypes (e.g., gs+ chf+ and gsl chlfhE) showed more complicated patterns that often included additional bands and thus probably additional proviruses. RNA from an avian sarcoma virus was used to detect cellular sequences (sarc) homologous to the viral transforming gene (src). Results have revealed that a single restriction endonuclease EcoRI fragment of 13 x 10(6) daltons contains the majority of these sequences and confirm that they are not adjacent to the endogenous provirus.
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PMID:Structural studies on oncornavirus-related sequences in chicken genomic DNA: two-step analyses of EcoRI and Bgl I restriction digests and tentative mapping of a ubiquitous endogenous provirus digests and tentative mapping of a ubiquitous endogenous provirus. 22 17

The cellular sites of integration of avian sarcoma virus (ASV) have been examined in clones of duck embryo cells infected with the Bratislava 77 strain of ASV using restriction endonuclease digestion, agarose gel electrophoresis, Southern blotting, and hybridization with labeled ASV complementary DNA probes. DNA prepared from 11 clones of duck embryo cells infected with the Bratislava 77 strain of ASV was digested with the restriction enzymes HpaI, which cleaves once within the viral genome, and Hind III, which cleaves twice within the viral genome, and the virus-cell DNA juncture fragments were resolved by agarose gel electrophoresis. Analysis of the virus-cell junctures present in individual ASV-infected duck embryo clones revealed that all clones contain at least one copy of nondefective proviral DNA with some clones containing as many as 5 to 6 copies of proviral DNA. A comparison of the virus-cell juncture fragments present in different ASV-infected clones showed that each clone contains a unique set of virus-cell junctures. These data suggest that ASV DNA can integrate at multiple sites within the duck embryo cell genome and that these sites appear to be different as defined by digestion with the restriction enzymes HpaI and HindIII.
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PMID:Analysis of cellular integration sites in avian sarcoma virus infected duck embryo cells. 22 65

The avian retroviral pol gene-encoded DNA endonuclease (pol-endo) has been shown to selectively cleave the viral long terminal repeat sequences (LTRs) in single-stranded DNA substrates in a region known to be joined to host DNA during integration (G. Duyk, J. Leis, M. Longiaru, and A.M. Skalka, Proc. Natl. Acad. Sci. USA 80:6745-6749, 1983). The preferred sites of cleavage were mapped to the unique U5/U3 junctions found only in covalently closed circular DNA molecules containing two tandem LTRs. The cuts occurred three nucleotides 5' to the axis of symmetry of the 12-of-15-base-pair nearly perfect inverted repeat which marks the LTR junction. Experiments with double-stranded supercoiled DNA substrates revealed a similar specificity for nicking. Also, the endonuclease associated with the pol cleavage product, pp32, has the same specificity as the alpha beta form. The limits of sequence required for site-selective cleavage near the U5/U3 junction were established with single-stranded DNA substrates. A domain no larger than 44 base pairs allowed site-selective cleavage in each strand in vitro. Recognition of either strand appeared to be independent of the other, and in each case, the critical sequence was asymmetrically distributed with respect to the U5/U3 junction. The predominant contribution was from the U5 domain; this is consistent with its conservation in the LTR sequences of a number of avian sarcoma and leukosis viruses.
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PMID:Circles with two tandem long terminal repeats are specifically cleaved by pol gene-associated endonuclease from avian sarcoma and leukosis viruses: nucleotide sequences required for site-specific cleavage. 241 65

Eucaryotic expression vectors have been used to study transient expression of the avian sarcoma-leukosis retrovirus pol-endo protein in COS cells. The constructs encode proteins with N termini identical to that of authentic viral pp32 endonuclease with the exception of a single met residue encoded by the initiator AUG. The C termini correspond to unprocessed viral pol protein, authentic processed pp32, or a derivative which includes eight amino acids from the unprocessed portion. All three proteins localize to the nucleus. However, when the pol-endo domain is fused to a secretory signal peptide, the protein is found in medium and appears also to localize in the Golgi bodies and the cell membrane. These and derivative vectors will make it possible to assess the consequence of retroviral pol gene expression in eucaryotic cells.
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PMID:Avian sarcoma-leukosis virus pol-endo proteins expressed independently in mammalian cells accumulate in the nucleus but can be directed to other cellular compartments. 244 17

The virion proteins encoded by the avian retroviral pol gene (reverse transcriptase and endonuclease) are formed by the proteolytic processing of a gag-pol fusion protein precursor. Recent studies have predicted that the avian sarcoma-leukosis virus pol precursor protein undergoes a previously undetected processing event resulting in the formation of common C termini for the endonuclease (pp32) and the beta subunit of reverse transcriptase (F. Alexander, J. Leis, D. A. Soltis, R. M. Crowl, W. Danho, M. S. Poonian, Y.-C. E. Pan, and A. M. Skalka, J. Virol. 61:534-542, 1987; D. Grandgenett, T. Quinn, P. J. Hippenmeyer, and S. Oroszlan, J. Biol. Chem. 260:8243-8249, 1985). This processing event removes 37 amino acids, thus defining a new pol domain. In this report, we present evidence that this C-terminal domain is translated as part of the gag-pol precursor but is not required for replication of the virus in tissue culture cells.
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PMID:A C-terminal domain in the avian sarcoma-leukosis virus pol gene product is not essential for viral replication. 244 90

Restriction endonuclease cleavage analysis and blotting hybridization of nuclear DNA and RNA to cloned avian sarcoma and murine leukemia virus genes (pol, scr and abl) demonstrated the presence and expression in baker's yeast cells of retrovirus-specific sequences. The relationship exists between the pol-specific yeast sequences and Ty cloned fragments. The results obtained are discussed in the light of evolutionary role of retroviral genes in cell division control and transposition.
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PMID:[Detection of nucleotide sequences specific for retroviruses in Saccharomyces cells]. 302 7

Integration of retroviral DNA is a site-specific reaction involving an endonuclease encoded by the viral pol gene (pol-endo). In vitro the pol-endo from avian sarcoma and leukosis viruses (ASLVs) cleaves both DNA strands near the U5-U3 junction of tandem long terminal repeats (LTR-LTR junction) in single-stranded and replicative form (RF)-I substrates. We have reported previously that the sequences that are required for cleavage of single-stranded substrates by the alpha beta form of the pol-endo differ for the plus and minus strands (G. Duyk, M. Longiaru, D. Cobrinik, R. Kowal, P. deHaseth, A. M. Skalka, and J. Leis, J. Virol. 56:589-599, 1985). This is not the case with RF-I substrates, in which a maximum of 22 base pairs of U5 and 8 base pairs of U3 were required for alpha beta pol-endo cleavage in each strand. Insertion of a palindromic octanucleotide (CATCGATG) at the LTR-LTR junction abolished cleavage in RF-I but not in single-stranded DNA substrates. Deletion of the four nucleotides (TTAA) at the junction prevented cleavage in the plus strand of RF-I DNA, but did not affect cleavage of single-stranded DNA. Furthermore, the alpha beta form of ASLV pol-endo did not recognize heterologous LTR-LTR junction sequences from the reticuloendotheliosis virus or Moloney murine leukemia virus in either substrate form, despite their sequence and structural similarities to the ASLV junction. These results support a role for a sequence-specific interaction between the ASLV pol-endo and the LTR-LTR junction domains that are required for cleavage. By using the infectious Rous sarcoma virus clone pATV8-K, we introduced a set of deletions into the U5 region that would be incorporated into the LTR-LTR junction on viral replication. In the unintegrated provirus, the deletions started 43 base pairs from the LTR-LTR junction and extended various lengths toward the junction. Results of transfection studies with these clones indicated that the U5 sequences that are required for virus production in vivo correspond to those that are required for cleavage of RF-I DNA in vitro.
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PMID:Avian sarcoma and leukosis virus pol-endonuclease recognition of the tandem long terminal repeat junction: minimum site required for cleavage is also required for viral growth. 303 27

M13 recombinant DNA clones containing a 350-base sequence derived from the EcoRI fragment of two tandemly linked Rous-associated virus 2 (RAV-2) long terminal repeat (LTR) sequences have been used to map reverse transcriptase-associated endonuclease (RT-endonuclease) cleavage sites by primer extension studies. Under appropriate conditions, the alpha beta form of RT-endonuclease (composed of both the alpha and beta subunits) purified from Avian sarcoma virus (Pr-C and B-77 strains) introduces a specific break in the inverted complementary repeat sequence found at the junction of the LTRs. The cleavage sites occur in the same nucleotide sequence in (-) and (+) DNA strands; together they have the potential of generating a 6-base-pair staggered overlap that spans the junction. This supports the notion that the enzyme is involved in viral DNA integration. Other RT-endonuclease sites were analyzed. A second site, which occurs in the lac region of the M13 vector DNA upstream from the unique EcoRI cloning site, bears no apparent sequence homology to the site at the junction of the LTRs. However, it also lies within an inverted complementary repeat and, as is the case for the site in the LTR, the break occurs to the 5' side of the axis of symmetry. Cleavage at this second site is suppressed when the vector contains the RAV-2 LTR insert. Thus, the viral LTR appears to exert a cis effect that can influence a region over 300 base pairs away.
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PMID:Selective cleavage in the avian retroviral long terminal repeat sequence by the endonuclease associated with the alpha beta form of avian reverse transcriptase. 619 75

We have examined the arrangement of integrated avian sarcoma virus (ASV) DNA sequences in several different avian sarcoma virus transformed mammalian cell lines, in independently isolated clones of avian sarcoma virus transformed rat liver cells, and in morphologically normal revertants of avian sarcoma virus transformed rat embryo cells. By using restriction endonuclease digestion, agarose gel electrophoresis, Southern blotting, and hybridization with labeled avian sarcoma virus complementary DNA probes, we have compared the restriction enzyme cleavage maps of integrated viral DNA and adjacent cellular DNA sequences in four different mouse and rat cell lines transformed with either Bratislava 77 or Schmidt-Ruppin strains of avian sarcoma virus. The results of these experiments indicated that the integrated viral DNA resided at a different site within the host cell genome in each transformed cell line. A similar analysis of several independently derived clones of Schmidt-Ruppin transformed rat liver cells also revealed that each clone contained a unique cellular site for the integration of proviral DNA. Examination of several morphologically normal revertants and spontaneous retransformants of Schmidt-Ruppin transformed rat embryo cells revealed that the internal arrangement and cellular integration site of viral DNA sequences was identical with that of the transformed parent cell line. The loss of the transformed phenotype in these revertant cell lines, therefore, does not appear to be the result of rearrangement or deletions either within the viral genome or in adjacent cellular DNA sequences. The data presented support a model for ASV proviral DNA integration in which recombination can occur at multiple sites within the mammalian cell genome. The integration and maintenance of at least one complete copy of the viral genome appear to be required for continuous expression of the transformed phenotype in mammalian cells.
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PMID:Arrangement of integrated avian sarcoma virus DNA sequences within the cellular genomes of transformed and revertant mammalian cells. 625 Dec 47

We have previously described a nonconditional mutant of avian sarcoma virus (SE21Q1b) which fails to package viral RNA (Gallis et al., Virology 94:146-161, 1979; Linial et al., Cell 15:1371-1381, 1978). Quail cells transformed by SE21Q1b contain normal amounts of intracellular viral mRNA's for src, env, and gag-pol and release particles with the density of normal virus containing a typical complement of virion proteins, including reverse transcriptase. These virions are noninfectious for both chicken and quail cells and contain primarily cellular rather than viral RNA. Analysis by gel electrophoresis of the cellular DNA of quail cells transformed by SE21Q1b after restriction endonuclease digestion indicated the presence of a single provirus. The provirus was located at one site in the genome of the host cell and was flanked by the characteristic terminally repeated sequences derived from the 3' and 5' ends of viral RNA. The only defect detected in the SE21Q1b provirus was a deletion of ca. 150 base pairs of DNA somewhere between 300 and 600 bases from the left (gag-pol) end of the provirus. Analyses of the proviral DNA of cells transformed by wild-type recombinants between SE21Q1b and leukosis viruses reveal that the recombinants no longer contain this deletion. The deletion, therefore, defines a region on the viral RNA which is required for correct packaging of the virion RNA.
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PMID:Avian oncovirus mutant (SE21Q1b) deficient in genomic RNA: characterization of a deletion in the provirus. 625 70

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