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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)
The pattern of integration for the infectious DNA of two avian
reticuloendotheliosis
viruses whose DNA is not inactivated by digestion with the restriction
endonuclease
, Eco RI was determined. High molecular weight DNA from infected chicken, turkey and pheasant cells was digested with Eco RI, electrophoresed through agarose gels and assayed for infectivity. The same patterns of integration of infectious viral DNA were found for these species of avian cells infected at high or low multiplicities with two
reticuloendotheliosis
viruses. There were multiple sites of integration in acutely infected cells with concomitant cell death. There was a single site of integration in chronically infected cells with no cell death. There were more integrated infectious viral DNA molecules per cell in acutely infected cells than in chronically infected cells. These results are consistent with the hypotheses that the cell death in the acute phase of infection is a result of the integration of the infectious viral DNA at multiple sites, and that only those cells survive that have the infectious viral DNA integrated exclusively at the single site.
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PMID:Sites of integration of infectious DNA of avian reticuloendotheliosis viruses in different avian cellular DNAs. 20 6
The expression of the v-rel oncogene of avian
reticuloendotheliosis
virus (REV-T) transforms and immortalizes very immature avian lymphoid cells. In REV-T-transformed lymphoid cells which were persistently infected with
reticuloendotheliosis
-associated virus (REV-A), the REV-T proviral copy number increases after the initial integration event. In 23 independently derived REV-T-transformed cell lines, 15 of the 18 virus-producing cell lines had acquired additional proviruses. The rate at which the newly acquired proviral sequences accumulated differed for various cell lines. In some cell lines, additional REV-T proviral copies could be detected as early as 8 months after the initial integration event. A correlation exists between the number of REV-T proviral sequences and the length of time which a given cell line had been propagated in culture. The integration sites occupied by the newly acquired REV-T proviruses were distinct. In contrast,
reticuloendotheliosis
-associated virus proviral sequences in these REV-T-transformed virus-producing lymphoid cells did not increase during in vitro culture. Furthermore, the acquisition of additional REV-T proviral sequences did not occur in non-virus-producing cell lines. Two of the newly acquired proviral sequences were molecularly cloned and analyzed by restriction
endonuclease
mapping. Although the newly acquired REV-T proviruses have not sustained major deletions, the viral sequences and the v-rel oncogene display numerous restriction enzyme polymorphisms. The cellular flanking sequences of two newly acquired REV-T proviruses analyzed were unique and shared no homology with flanking sequences of the other REV-T proviruses in these transformed cells. The nucleotide sequence of the virus-cellular DNA junctions of one newly acquired provirus and its cellular sequence prior to proviral integration were defined. A 5-base-pair direct repeat of cellular origin was present on each side of the long terminal repeat, indicating that the mechanism of acquisition of additional REV-T proviral sequences used reverse transcription and integration of new REV-T proviral copies.
...
PMID:Acquisition of new proviral copies in avian lymphoid cells transformed by reticuloendotheliosis virus. 246 2
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.
...
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
Reticuloendotheliosis
virus strain T (REV-T) is a highly oncogenic avian retrovirus which causes a rapid neoplastic disease of the lymphoreticular system. Upon infection, this virus gives rise to two species of unintegrated linear viral DNA, which are 8.3 and 5.5 kilobase pairs long and represent the helper virus (REV-A) and the oncogenic component (REV-T), respectively. Restriction
endonuclease
cleavage maps of these two DNA components indicate that REV-T DNA has a large portion of the genome deleted with respect to REV-A DNA and a substitution about 0.8 to 1.5 kilobase pairs long that is unrelated to REV-A DNA. These additional sequences comprise the putative transforming region of REV-T (rel). A chicken spleen cell line transformed by REV-T produced virus which upon infection gives rise to three species of unintegrated linear viral DNA (8.3, 5.5, and 3,3 kilobase pairs). We isolated the proviruses of the 8.3- and 3.3-kilobase pair species from this cell line by cloning in the phage vector Charon 4A. Restriction enzyme mapping showed that the two proviral clones are proviruses of REV-A and a variant of REV-T, respectively. A subclone of the variant REV-T provirus specific for the rel sequences of REV-T was used as a hybridization probe to demonstrate that the rel sequences are different from the putative transforming sequences of Schmidt-Ruppin Rous sarcoma virus strain A, avain myelocytomatosis virus, avian myeloblastosis virus, avian erythroblastosis virus, Abelson murine leukemia virus, and Friend erythroleukemia virus. In addition, the rel-specific hybridization probe was used to identify a specific set of sequences which are present in uninfected avian DNAs digested with several restriction enzymes. The corresponding cell sequences are not arranged like rel in REV-T.
...
PMID:Characterization of reticuloendotheliosis virus strain T DNA and isolation of a novel variant of reticuloendotheliosis virus strain T by molecular cloning. 627 17
Reticuloendotheliosis
virus is an avian type C retrovirus that is capable of transforming fibroblasts and hematopoietic cells both in vivo and in vitro. This virus is highly related to the three other members of the
reticuloendotheliosis
virus group, including spleen necrosis virus, but it is apparently unrelated to the avian leukosis-sarcoma virus family. Previous studies have shown that it consists of a replication-competent helper virus (designated REV-A) and a defective component (designated REV) that is responsible for transformation. In this study we used restriction
endonuclease
mapping and heteroduplex analysis to characterize the proviral DNAs of REV-A and REV. Both producer and nonproducer transformed chicken spleen cells were used as sources of REV proviral DNA; this genome was mapped in detail, and fragments of it were cloned in lambdagtWES.lambdaB. The infected canine thymus line Cf2Th(REV-A) was used as a source of REV-A proviral DNA. The restriction maps and heteroduplexes of the REV and REV-A genomes showed that (proceeding from 5' to 3') (i) REV contains a large fraction of the REV-A gag gene (assuming a gene order of gag-pol-env and gene sizes similar to those of other type C viruses), for the two genomes are very similar over a distance of 2.1 kilobases beginning at their 5' termini; (ii) most or all of REV-A pol is deleted in REV; (iii) REV contains a 1.1 kilobase segment derived from the 3' end of REV-A pol or the 5' end of env or both; (iv) this env region in REV is followed by a 1.9-kilobase segment which is unrelated to REV-A; and (v) the helper-unrelated segment of REV extends essentially all of the way to the beginning of the 3' long terminal repeat. Therefore, like avian myeloblastosis virus but unlike the other avian acute leukemia viruses and most mammalian and avian sarcoma viruses, REV appears to be an env gene recombinant. We also found that the REV-specific segment is derived from avian DNA, for a cloned REV fragment was able to hybridize with the DNA from an uninfected chicken. Therefore, like the other acute transforming viruses, REV appears to be the product of recombination between a replication-competent virus and host DNA. Two other defective genomes in virus-producing chicken cells were also cloned and characterized. One was very similar to REV in its presumptive gag and env segments, but instead of a host-derived insertion it contained additional env sequences. The second was similar (but not identical) to the first in its gag and env regions and appeared to contain an additional 1-kilobase inversion of REV-A sequences.
...
PMID:Genome of reticuloendotheliosis virus: characterization by use of cloned proviral DNA. 628 42
