Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The sequence of DNA base pairs adjacent to the phosphodiester bonds cleaved by the RI restriction endonuclease in unmodified DNA from coliphage lambda has been determined. The 5'-terminal nucleotide labeled with (32)P and oligonucleotides up to the heptamer were analyzed from a pancreatic DNase digest. The following sequence of nucleotides adjacent to the RI break made in lambda DNA was deduced from these data and from the 3'-dinucleotide sequence and nearest-neighbor analysis obtained from repair synthesis with the DNA polymerase of Rous sarcoma virus [Formula: see text] The RI endonuclease cleavage of the phosphodiester bonds (indicated by arrows) generates 5'-phosphoryls and short cohesive termini of four nucleotides, (p)A(p)A(p)T(p)T. The most striking feature of the sequence is its symmetry.
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PMID:DNA nucleotide sequence restricted by the RI endonuclease. 434 74

To assess the factors required for integration and expression of retroviral DNA, we have examined viral DNA, RNA, and protein in NIH/3T3 mouse cells transformed by transfection with various forms of cloned Rous sarcoma virus (RSV) DNA. Linear RSV DNA molecules, derived from circular DNA containing two long terminal repeats (LTRs) and permuted by cleavage at the SacI restriction endonuclease site in the leader sequence, were integrated near the ends of the linear molecule, with the LTRs on the 3' side of the src gene. Integration of a subgenomic RSV DNA fragment containing the viral src gene without intact LTRs also occurred near the ends of the linear molecule. Head-to-tail tandem arrays of RSV DNA species were observed in some transformed cell lines that received fully digested DNA and in all cell lines that received DNA ligated to produce oligomers before transfection. Closed circular RSV DNA, with one or two LTRs, integrated without apparent specificity within several regions of the viral genome. After transfection with SacI-permuted RSV DNA still linked to arms of the lambda bacteriophage vector DNA, bacteriophage sequences were joined to host DNA. Transformed cell lines produced by transfection with the various forms of RSV DNA produced similar levels of viral src protein, although the efficiency of successful transformation varied by at least two orders of magnitude. Analyses of viral polyadenylated RNA, together with the patterns of viral DNA in transformed cells, indicated that viral DNA can be integrated and expressed without regard to LTR sequences, with adjacent host DNA presumably supplying signals required for the promotion and processing of functional src mRNA.
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PMID:Integration and expression of several molecular forms of Rous sarcoma virus DNA used for transfection of mouse cells. 609 56

Reverse transcriptase from avian retrovirus has a physically associated DNA endonuclease with novel substrate and cofactor requirements. A similar endonuclease activity copurifies with pp32, a protein from viral cores that has been identified with the non-alpha region of the beta subunit of reverse transcriptase. Several temperature-sensitive mutants of avian retrovirus with thermolabile DNA polymerase were tested for thermal sensitivity of their DNA endonuclease activity. Two pol mutants of Rous sarcoma virus, ts335 and ts337, had thermolabile DNA endonuclease; a temperature-resistant revertant of ts335 had a heat-stable DNA endonuclease. DNA endonuclease is therefore a product of the pol gene and an integral part of the reverse transcriptase. A second class of pol mutants, typified by ts568 and ts553, had thermolabile DNA polymerase, but heat-stable DNA endonuclease.
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PMID:Virus-coded DNA endonuclease from avian retrovirus. 616 35

Preparations of the alphabeta and the betabeta forms of reverse transcriptase from the Prague C strain of Rous sarcoma virus grown in chicken embryo fibroblasts, the alphabeta and the betabeta forms of the enzyme from the B77 strain of Rous sarcoma virus grown in duck embryo fibroblasts, and the alphabeta form of reverse transcriptase from avian myeloblastosis virus have been analyzed. All these enzyme preparations contain a Mn(2+) -activated endonuclease activity. The betabeta form of enzyme, in addition, contains a Mg(2+) -dependent endonuclease. Such an activity is barely detectable in the alphabeta form of enzymes. The endonuclease associated with reverse transcriptase introduces single- and double-strand breaks containing 3' OH and 5' P termini into RF I DNA. The conversion of RF I DNA to RF III DNA is more readily catalyzed by the betabeta form of reverse transcriptase. In contrast to a recently published report by Hizi et al. (J. Virol 41:974-981, 1982), we have failed to detect the conversion of RF I DNA to covalently closed relaxed circles (RF IV DNA) by any of the alphabeta form of enzymes tested. RF IV DNA was not produced by the betabeta form of reverse transcriptase either. We conclude that topoisomerization is not an intrinsic activity of reverse transcriptase. Although the conversion of RF I DNA to RF II DNA was found to be rapid, the endonuclease associated with reverse transcriptase acted slowly on RF II, RF III, and RF IV DNAs. Circular and linear single-stranded DNAs were also susceptible to cleavage by the endonuclease at a rate comparable to nicking of RF I DNA. This pattern of activity suggests that the endonuclease cleaves the RF I DNA in the single-stranded regions of the DNA induced by its supercoiling. The preference of the alphabeta and the betabeta forms of the endonuclease for viral DNA was tested with Rous-associated virus type 2 and Rous sarcoma virus transformation-defective Schmidt-Ruppin B strain DNA molecularly cloned in plasmid pBR322 and M13 DNA vectors, respectively. The rate of nicking of RF I DNA containing viral DNA or partial sequences of viral DNA with one or two tandem long terminal repeats was the same as when these sequences were not present in the host vectors. A similar lack of preference was observed with single-stranded M13 DNAs.
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PMID:Mechanism of action of the endonuclease associated with the alpha beta and beta beta forms of avian RNA tumor virus reverse transcriptase. 618 36

A cDNA transcript of Rous sarcoma virus, which contained the long terminal repeat (LTR) and some additional 3'-terminal sequences, was inserted into the plasmid pBR322. This recombinant plasmid, p53, was then used as a hybridization probe to detect viral terminal sequences in DNA from a number of tissues of birds with a variety of avian leukosis virus (ALV)-induced proliferative diseases. Using restriction endonuclease digestion and blot hybridization analysis, we detected, in addition to standard ALV genomes, viral terminal sequences linked to host DNA and not to viral genes. In DNA from bursal lymphomas and nephroblastomas, we observed small numbers of integration sites occupied by sequences in p53 and lacking most or all of the remainder of the viral genome. In DNA from osteopetrosis, we observed apparently multiple copies of molecules containing host DNA linked to viral LTR sequences. Some of these structures were contained in discrete, probably unintegrated, DNA molecules. We concluded that viral LTR sequences can be inserted as independent elements during recombination with host DNA in some forms of interaction between exogenous retroviruses and host cells. Because the LTRs have been implicated in integration and transcription of viral genes, the possibility that translocation or activation, or both, of host genes may occur as a consequence of viral infection is reinforced by these observations.
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PMID:Independent recombination between avian leukosis virus terminal sequences and host DNA in virus-induced proliferative disease. 626 28

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.
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PMID:Characterization of reticuloendotheliosis virus strain T DNA and isolation of a novel variant of reticuloendotheliosis virus strain T by molecular cloning. 627 17

Recovered avian sarcoma viruses are recombinants between transformation-defective mutants of Rous sarcoma virus and the chicken cellular gene homologous to the src gene of Rous sarcoma virus. We have constructed and analyzed molecular clones of viral deoxyribonucleic acid from recovered avian sarcoma virus and its transformation-competent progenitor, the Schmidt-Ruppin A strain of Rous sarcoma virus. A 2.0-megadalton EcoRI fragment containing the entire src gene from each of these clones was subcloned and characterized. These fragments were also used as probes to isolate recombinant phage clones containing the cellular counterpart of the viral src gene, termed cellular src, from a lambda library of chicken deoxyribonucleic acid. The structure of cellular src was analyzed by restriction endonuclease mapping and electron microscopy. Restriction endonuclease mapping revealed extensive similarity between the src regions of Rous sarcoma virus and recovered avian sarcoma virus, but striking differences between the viral src's and cellular src. Electron microscopic analysis of heteroduplexes between recovered virus src and cellular src revealed a 1.8-kilobase region of homology. In the cellular gene, the homologous region was interrupted by seven nonhomologous regions which we interpret to be intervening sequences. We estimate the minimum length of cellular src to be about 7.2 kilobases. These findings have implications concerning the mechanism of formation of recovered virus src and possibly other cell-derived retrovirus transforming genes.
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PMID:Comparison between the viral transforming gene (src) of recovered avian sarcoma virus and its cellular homolog. 628 13

Bisulfite mutagenesis techniques have been used to introduce single-point mutations within a region of the Rous sarcoma virus src gene defined by a BglI restriction endonuclease cleavage site. The mutants of Rous sarcoma virus that are produced by these techniques encode src proteins which contain single amino acid changes within a highly conserved amino acid sequence encompassing residues 430 to 433. DNA from the mutants CHpm26 ( Ala430 to Val), CHpm9 ( Pro431 to Ser), CHpm6 ( Glu432 to Lys), and CHpm65 ( Ala433 to Thr) each failed to transform chicken cells upon transfection, whereas DNA from CHpm59 (a third base alteration in the codon for Glu432 ) readily transformed chicken cells. Analysis of immune complexes containing the altered src proteins indicates that these proteins have decreased tyrosine protein kinase activity in vitro. In vivo labeling of cells infected with the mutant virus revealed diminished levels of the tyrosine-phosphorylated 34,000-molecular-weight protein. These data indicate that mutations within the sequence Ala430 - Pro431 - Glu432 - Ala433 lead to alterations in pp60src-specific tyrosine protein kinase activity and a concomitant loss of transforming potential of the mutant virus.
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PMID:Amino acid alterations within a highly conserved region of the Rous sarcoma virus src gene product pp60src inactivate tyrosine protein kinase activity. 632 73

Retroviral integrase (IN) exhibits a previously unrecognized endonuclease activity which we have termed nonspecific alcoholysis. This action occurred at every position in nonviral DNA sequences except those near 5' ends and is clearly distinguished from, and was not predicted by, the site-specific alcoholysis activity previously described for IN at the processing site near viral DNA termini. The integrases of human immunodeficiency virus type 1, visna virus, and Rous sarcoma virus exhibited different target site preferences in this new assay. The isolated central domain of human immunodeficiency virus type 1 IN preferred the same sites as the full-length protein. Nonspecific alcoholysis may provide insights into the structure and function of IN and other endonucleases and suggests that stimulators of some activities possessed by retroviral enzymes should be sought as antiviral agents.
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PMID:Nonspecific alcoholysis, a novel endonuclease activity of human immunodeficiency virus type 1 and other retroviral integrases. 864 92

Retroviral integrases catalyze four endonuclease reactions (processing, joining, disintegration, and nonspecific alcoholysis) that differ in specificity for the attacking nucleophile and target DNA sites. To assess how the two substrates of this enzyme affect each other, we performed quantitative analyses, in three retroviral systems, of the two reactions that use a variety of nucleophiles. The integrase proteins of human immuno- deficiency virus type 1, visna virus, and Rous sarcoma virus exhibited distinct preferences for water or other nucleophiles during site-specific processing of viral DNA and during nonspecific alcoholysis of nonviral DNA. Although exogenous alcohols competed with water as the nucleophile for processing, the alcohols stimulated nicking of nonviral DNA. Moreover, different nucleophiles were preferred when the various integrases acted on different DNA targets. In contrast, the nicking patterns were independent of whether integrase was catalyzing hydrolysis or alcoholysis and were not influenced by the particular exogenous alcohol. Thus, although the target DNA influenced the choice of nucleophile, the nucleophile did not affect the choice of target sites. These results indicate that interaction with target DNA is the critical step before catalysis and suggest that integrase does not reach an active conformation until target DNA has bound to the enzyme.
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PMID:Nucleophile selection for the endonuclease activities of human, ovine, and avian retroviral integrases. 1102 25


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