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: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated three aspects of RNA turmor virus replication and cell transformation: (1) the properties of the purified avian and mammalian viral RNA-directed DNA polumerase, (2) some characteristics of the viral 60-70S RNA genome, 30-40S RNA subunits and intracellular viral RNA species, and (3) the interaction of the viral DNA polymerase with its RNA template early during infection and cell transformation by the murine sarcoma-leukemia virus (MSV[MLV]). Avian myeloblastosis virus (AMV) contains two forms of RNA-directed DNA polymerase, alpha, consisting of a single polypeptide of molecular weight 65,000, and alphabeta, consisting of two polypeptides of molecular weights 65,000 and 105,000. The alpha and alphabeta forms of AMV DNA polymerase both possess RNase H activity that requires free end termini on the ribopolymer and can degrade the RNA of the RNA-DNA hybrid in the 3' to 5' and 5' to 3' directions. But, alpha and alphabeta possess a different mode of exoribonuclease activity. While alphabeta RNase H is a processive exoribonuclease that degrades the polynucleotide chain to a core residue before attacking a second chain, alpha RNase H is a random exoribonuclease that releases the polynucleotide after each scission. Highly purified Moloney-MSV(MLV) DNA polymerase has both RNase H activity and the ability to read viral 60-70S RNA. These activities comigrate through five different steps of purification and are present at levels comparable to those found in purified AMV DNA polymerase. The MSV(MLV) 60-70S RNA genome and 35S RNA subunits were shown by periodate oxidationtritiated borohydride reduction to contain adenosine as the major 3'-terminal nucleoside. Poly (A) segments were isolated from viral 60-70S and 35S RNA by treatment with RNase A or RNase T1 and purified by afinity chromatography and gel electrophoresis. Viral poly(A) was shown to be present at the 3' terminus as -G(C,U)A190AOH. The similar sequence reported for poly(A) present in mammalian mRNA suggests that similar mechanisma are involved in the transcription and processing of both cellular and viral DNA sequences. Within transformed cells replicating MSV(MLV), viral 35S and 20S RNA were found in membrane-bound polyribosomes, whereas only 35S RNA was detected in free polyribosomes. The origin and function of 20S RNA is unknown. The early events during rapid infection and cell transformation of mouse 3T6 cells by the Harvey strain of MSV(MLV) were studied. By both autoradiographic analysis and molecular hybridization, viral DNA synthesis was detected in the cytoplasm by 1 hour after infection, reached a maximum at 2 hours, and subsequently decreased. Cytological chase experiments produced evidence that cytoplasmic viral DNA was transported to the nucleus. In situ hybridization experiments using radioactive viral DNA product as a probe demonstrated the rapid association of viral DNA sequences with the chromocenters of interphase nuclei and with the centromeric heterochromatin regions of some chromosomes.
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PMID:Properties of oncornavirus RNA-directed DNA polymerase, the RNA template, and the intracellular products formed early during infection and cell transformation. 5 Sep 2

The genetic complexities of several ribodeoxyviruses were measured by quantitative analysis of unique RNase T1-resistant oligonucleotides from 60-70S viral RNAs. Moloney murine leukemia virus was found to have an RNA complexity of 3.5 x 10(6) daltons, whereas Moloney murine sarcoma virus had a significantly smaller genome size of 2.3 x 10(6). Reticuleondotheliosis and visna virus RNAs had complexities of 3.9 x 10(6), respectively. Analysis of RNase A-resistant oligonucleotides of Rous sarcoma virus RNA gave a complexity of 3.6 x 10(6), similar to that previously obtained with RNase T1-resistant oligonucleotides. Since each of these viruses was found to have a unique sequence genomic complexity near the molecular weight of a single 30-40S viral RNA subunit, it was concluded that ribodeoxyvirus genomes are at least largely polyploid.
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PMID:Genomic complexities of murine leukemia and sarcoma, reticuloendotheliosis, and visna viruses. 17 29

We used two-dimensional gel electrophoresis to obtain fingerprints of RNase T1-resistant oligonucleotides of a B-tropic murine leukemia virus from BALB/c and five NB-tropic viruses independently derived from this B virus by passage through NIH Swiss mouse embryo cells in vitro. The fingerprints of the B- and NB-tropic viruses were very similar: approximately 33 of 35 large T1-resistant oligonucleotides appeared to be shared by these viruses. However, the five NB-tropic viruses possessed an apparently common alteration relative to their B virus progenitor. This change involved the acquisition of one oligonucleotide and, tentatively, the loss of one oligonucleotide. We do not know whether these changes represent an alteration responsible for the change from B- to NB-tropism. Fingerprints of B- and NB-tropic viruses were not affected when the viruses were grown in cells of different Fv-1 type.
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PMID:RNase T1-resistant oligonucleotides of B-tropic murine leukemia virus from BALB/c and five of its NB-tropic derivatives. 19 2

We used two-dimensional gel electrophoresis to obtain fingerprints of 32P-labeled RNase T1-resistant oligonucleotides derived from the genomes of an N- and a B-tropic murine leukemia virus of BALB/c. These viruses share approximately 30 large T1-resistant oligonucleotides. In addition, there are eight large oligonucleotides unique to the N-tropic virus, and there are six B-trophic virus-specific oligonucleotides. Viruses, designated XLP-N, which appear by biological criteria and analysis of virion proteins to be recombinants between these N- and B-tropic viruses, possess some but not all of the N or B virus-specific oligonucleotides.
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PMID:RNase T1-resistant oligonucleotides of an N- and a B-tropic murine leukemia virus of BALB/c: evidence for recombination between these viruses. 19 43

From analysis of the large RNase T1-resistant oligonucleotides of Kirsten sarcoma virus (Ki-SV), a physical map of the virus genome was deduced. Kirsten murine leukemia virus (Ki-MuLV) sequences were detected in T1 oligonucleotides closest to the 3' end of the viral RNA and extended approximately 1,000 nucleotides into the genome. The rat genetic sequences started at this point and extended all the way to the very 5' end of the RNA molecules, where a small stretch of Ki-MuLV sequence was detected. By comparison of the fingerprints of Ki-SV RNA and the RNA of the endogenous rat src genetic sequences, it was found that more than 50% of the T1 oligonucleotides were similar between Ki-SV and the endogenous rat src RNA, suggesting an identical primary nucleotide sequence in over 50% of the viral genomes. The results indicate that Ki-SV arose by recombination between the 5' and 3' ends of Ki-MuLV and a large portion of the homologous sequences of the endogenous rat src RNA.
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PMID:Physical map of the Kirsten sarcoma virus genome as determined by fingerprinting RNase T1-resistant oligonucleotides. 20 38

We previously described and characterized RNase T1 RNA fingerprints of an N-, a B-, and five B leads to NB-tropic murine leukemia viruses derived from BALB/c mice (Faller and Hopkins, J. Virol. 23:188-195, 1977, and J. Virol. 24:609-617, 1977). These viruses share the majority of their large RNase T1-resistant oligonucleotides, but each possesses some "unique" oligonucleotides relative to the others. We have ordered the large T1-resistant oligonucleotides of the N-, the B-, and one NB-tropic virus relative to the 3' end of their genomes to obtain oligonucleotide maps. These maps indicate that (i) the large T1 oligonucleotides shared by the N-, B-, and NB-tropic viruses probably occupy the same relative positions on their genomes; (ii) the 14 T1 oligonucleotides that differ between the N- and B-tropic viruses are derived from regions scattered along the genomes; and (iii) an oligonucleotide that is present in five NB-tropic viruses but not in their B-tropic virus progenitors lies toward the 5' end of the NB-tropic virus oligonucleotide map.
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PMID:T1 oligonucleotide maps of N-, B-, and B leads to NB-tropic murine leukemia viruses derived from BALB/c. 20 21

We have analyzed large RNase T1-resistant oligonucleotides derived from the genomes of 16 recombinants between N- and B-tropic murine leukemia viruses of BALB/c. The parental viruses, designated SP-N and LP-B, differ in several phenotypic or biochemically defined properties: N- or B-tropism; XC plaque morphology, electrophoretic mobility of three virion proteins (p15, p30, and gp70); ability to induce GIX antigen on infected cells; presence of 6 to 8 (out of 36 to 38 analyzable) large T1 oligonucleotides. One SP-N-specific T1 oligonucleotide was inherited by all 16 N-tropic recombinants and, thus, appears to be linked to N-tropism. This oligonucleotide lies in the 5' third of the oligonucleotide map of SP-N. One LP-B-specific T1 oligonucleotide was inherited by all 11 recombinants whose gp70 has an electrophoretic mobility like that of LP-B gp70 and that, like LP-B, fail to induce GIX antigen. This oligonucleotide lies in the 3' third of the oligonucleotide map of LP-B.
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PMID:T1 oligonucleotides that segregate with tropism and with properties of gp70 in recombinants between N- and B-tropic murine leukemia viruses. 20 22

The genome of the defective, murine spleen focus-forming Friend virus (SFFV) was identified as a 50S RNA complex consisting of 32S RNA monomers. Electrophoretic mobility and the molecular weights of unique RNase T1-resistant oligonucleotides (T1-oligonucleotides) indicated that the 32S RNA had a complexity of about 7.4 kilobases. Hybridization with DNA complementary to Friend murine leukemia virus (Fr-MLV) has distinguished two sets of nucleotide sequences in 32S SFFV RNA, 74% which were Fr-MLV related and 26% which were SFFV specific. By the same method, SFFV RNA was 48% related to Moloney MLV. We have resolved 23 large T1-oligonucleotides of SFFV RNA and 43 of Fr-MLV RNA. On the basis of the relationship between SFFV and Fr-MLV RNAs, the 23 SFFV oligonucleotides fell into four classes: (i) seven which had homologous equivalents in Fr-MLV RNA; (ii) six more which could be isolated from SFFV RNA-Fr-MLV cDNA hybrids treated with RNases A and T1; (iii) eight more which were isolated from hybrids treated with RNases A and T1; and (iv) two which did not have Fr-MLV-related counterparts. Surprisingly, the two class iv oligonucleotides had homologous counterparts in the RNA of six amphotropic MLV's including mink cell focus-forming and HIX-MLVs analyzed previously. The map locations of the 23 SFFV T1-oligonucleotides relative to the 3' polyadenylic acid coordinate of SFFV RNA were deduced from the size of the smallest polyadenylic acid-tagged RNA fragment from which a given oligonucleotide was isolated. The resulting oligonucleotide map could be divided roughly into three segments: two terminal segments which are mosaics of oligonucleotides of classes i, ii, and iii and an internal segment between 2 and 2.5 kilobases from the 3' end containing the two oligonucleotides shared with amphotropic MLVs. Since SFFV RNA consists predominantly of sequence elements related to ecotropic and amphotropic helper-independent MLVs, it would appear that the transforming gene of SFFV is not a major specific sequence unrelated to genes of helper viruses, as is the case with Rous sarcoma and probably withe other defective sarcoma and acute leukemia viruses.
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PMID:Spleen focus-forming Friend virus: identification of genomic RNA and its relationship to helper virus RNA. 50 95

The site of recombination of a mink cell focus-inducing strain (Mo-MuLV83) derived from an ecotropic Moloney murine leukemia virus (Mo-MuLV) was mapped by fingerprint analysis of the large RNase T1-resistant oligonucleotides, employing a two-dimensional gel electrophoresis method. Mo-MuLV83, in contrast to the ecotropic Mo-MuLV, demonstrated a broadened host range, i.e., growth not only on mouse cells but also on mink cells, and recombination involved the env gene function. The genomic RNA of these two viruses shared 42 out of a total of 51 to 53 large T1 oligonucleotides (81%) and possessed a similar subunit size of 36S. Most of these T1 oligonucleotides were mapped in their relative order to the 3' polyadenylic acid end of the viral RNA molecules. There were 10 common oligonucleotides immediately next to the 3' termini. A cluster of 7 (in Mo-MuLV83) or 10 (in Mo-MuLV) unique T1 oligonucleotides were mapped next to the common sequences at the 3' end, and they all appeared concomitantly in a polyadenylic acid-containing RNA fraction with a sedimentation coefficient slightly larger than 18S. Therefore, the env gene of Mo-MuLV was situated at a location approximately 2,000 to 4,000 nucleotides from the 3' end of the genomic RNA, and the gene order of Mo-MuLV appeared to be similar to that of the more rigorously determined avian oncornaviruses. cDNA(SFFV) specific for the xenotropic sequences in the spleen focus-forming virus RNA hybridized to the cluster of unique oligonucleotides of Mo-MuLV83 RNA. This suggests that the loci of recombination involve the homologous env gene region of a xenotropic virus.
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PMID:Mapping host range-specific oligonucleotides within genomes of the ecotropic and mink cell focus-inducing strains of Moloney murine leukemia virus. 56 26

The genome of the Moloney strain of murine leukemia virus (Mo-MuLV) has been analyzed by digestion with ribonuclease T1 and separation of the digestion products by two-dimensional gel electrophoresis. Thirty large oligonucleotides isolated from such a fingerprint have been characterized. One of these oligonucleotides (number 21) was found to be present in twice the molar yield of the rest. The 30 oligonucleotides were mapped on the genome by determining their yields in various size classes of 3' terminal fragments of Mo-MuLV RNA. The physical map obtained in this way suggested that oligonucletoide 21 was present very near the 3' end of the geome as well as in another location near or at the 5' end. The genome structure suggested by these results was confirmed by analyzing oligonucleotides in Mo-Mulv RNA complementary to strong stop DNA, which is shown to be a copy of the 5' terminal 134 nucleotides of the MoMuLV genome. Some of the oligonucleotides in the RNA protected from RNAase digestion by hybridization to this DNA, including oligonucleotide 21, were present near both the 3' and 5' ends. Comparison of these with the nucleotide sequence of strong stop DNA shows that there is a terminal redundancy of 49-60 nucleotides in the Mo-MuLV genome RNA.
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PMID:Structure of the genome of Moloney murine leukemia virus: a terminally redundant sequence. 65 74


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