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:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influence of physical and chemical treatments upon the immunologically effective subcellular fractions (5,000 X g supernatant and 105,000 X g sediment), which were prepared from the spleen cells of Yoshida sarcoma (YS)-resistant Donryu rats, was studied. The immunological activity of the 5,000 X g supernatant was stable to heating at 80 degrees C for 30 min. It was stable to alkali (pH 10) and less stable to acid (pH 2). It was labile to a ten-day storage at 4 degrees C, but relatively stable to a 30-day storage at -20 degrees C. When the 105,000 X g sediment was lyophilized and stored at -20 degrees C for 95 days, its immunological activity was well maintained. It was labile to 95% ethanol, 90% phenol and 2 M NaNO2, but relatively stable to 10% as well as 100% acetone, 10% phenol and 10% ethanol. It was labile to 0.1 M NaIO4 and relatively stable to 0.1 M K2Cr2O7 solution. It was labile to RNase but relatively stable to DNase.
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PMID:Studies on the properties of the immunologically effective anti-tumor substance from spleen cells of tumor-resistant rats. 1 16

The Moloney murine sarcoma-leukemia virus [M-MSV (MuLV)], propagated at high multiplicity of infection (MOI), was demonstrated previously to contain a native genome mass of 4 X 10(6) daltons as contrasted to a mass of 7 X 10(6) daltons for Moloney murine leukemia virus (M-MuLV). The 4 X 10(6)-dalton classof RNA from M-MSV (MuLV) was examined for base sequence homology with DNA complementary to the 7 X 10(6)-dalton M-MuLV RNA genome. Approximately 86% of the M-MSV (MuLV) was protected from RNase digestion by hybridization, whereas 95% of M-MuLV was protected under identical conditions. These results indicate that the small RNA class of high-MOI M-MSV (MuLV) contains little (perhaps 10%) genetic information not present in M-MuLV. Virtually all of the 1.8 X 10(6)-dalton subunits of M-MSV (MuLV) RNA contained regions of poly(A) since 94% of the RNA bound to oligo(dT) cellulose in 0.5 M KCl. This suggests that the formation of the 1.8 X 10(6)-dalton subunits occurs before their packaging into virions and does not result from hydrolysis of intact 3.5 X 10(6)-dalton subunits by a virion-associated nuclease.
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PMID:Sequence homology between Moloney murine sarcoma virus and Moloney leukemia virus RNA. 5 17

Envelope-specific and sarcoma-specific nucleotide sequences have been located within the 10,000 nucleotides of the RNA of nondefective Schmidt-Ruppin Rous sarcoma virus (nd SR). For this purpose, about 30 RNase-T1-resistant oligonucleotides were ordered relative to the 3'-poly(A) terminus of the RNA, to construct an oligonucleotide map of the nd SR RNA. A cluster of seven envelope-specific oligonucleotides, identified by their absence from an otherwise very similar oligonucleotide map of an envelop-defective deletion mutant (which lacks the major viral glycoprotein), mapped at a distance of 2800-5000 nucleotides from the poly(A) end of nd SR RNA. A cluster of two sarcoma-specific oligonucleotides, identified by their absence from an otherwise nearly identical oligonucleotide map of a transformation-defective deletion mutant, mapped at a distance of 1000-2000 nucleotides from the poly(A) end of nd SR RNA. The oligonucleotide maps of nd SR and of the two deletion mutants were the same from the poly(A) end up to 650 nucleotides and included one terminal oligonucleotid, termed C, which is found in all avian tumor viruses tested so far. A possible gene order consistent with our data suggests that sarcoma-specific nucleotide sequences map between envelope-specific nucleotide sequences and the poly(A) end of the RNA.
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PMID:Location of envelope-specific and sarcoma-specific oligonucleotides on RNA of Schmidt-Ruppin Rous sarcoma virus. 17 8

The distribution of leukosis-virus- and sarcoma-virus-specific oligonucleotide sequences was investigated in the RNAs of viral recombinants selected for an envelope gene (env) from a leukosis parent and a sarcoma gene (src) from a sarcoma parent. For this purpose 20 to 30 RNase-T1-resistant oligonucleotides were chemically analyzed and mapped within the 10,000 nucleotides of each viral RNA relative to the 3'-poly(A) end. The resulting oligonucleotide maps were compared. Proceeding from the 3' to the 5' end, the maps of four recombinants contained: (i) in a segment of 2000 nucleotides, three to four src-specific oligonucleotides, so identified because they were shared only with the sarcoma parent; and (ii) in a segment of 8000 nucleotides, 20 oligonucleotides shared with the leukosis parent, of which six to seven were also shared with the sarcoma parent. Two other recombinants contained: (1) in a segment of 2000 (one) or 3000 (the other) nucleotides, three src-specific oligonucleotides; (ii) in a segment of 3000 (one) or 2000 (the other) nucleotides, five (one) or four (the other) oligonucleotides, all or some of which are env-specific, because they were shared with the leukosis parent; (iii) in a segment of 5000 nucleotides (both), 11 functionally unidentified sarcoma-virus-derived oligonucleotides, of which seven were also shared with the leukosis parent. The map locations of parental oligonucleotides were not changed in recombinants and all viral strains tested shared six to eight highly conserved oligonucleotides at equivalent map locations. The partial map -env-src-poly(A) emerged from the analyses of these recombinants.
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PMID:Distribution of envelope-specific and sarcoma-specific nucleotide sequences from different parents in the RNAs of avian tumor virus recombinants. 17 72

The RNase-T1-resistant oligonucleotides of two Prague Rous sarcoma viruses with temperature-sensitive (ts) DNA polymerases (DNA nucleotidyltransferases), termed ts LA 337 and 335 of one leukosis virus, RAV-6, and 20 of their recombinant progeny have been mapped relative to the 3' poly (A) terminus of the viral RNA. The resulting oligonucleotide maps have been ocrrelated with markers of the four known viral genetic elements encoded in the RNA of 10,000 nucleotides. In accord with previous results recombinant RNAs contained (i) oligonucleotides characteristic of the src gene, coding for sarcoma formation, between the poly(A) end and 2000 nucleotides and (ii) olignucleotides characteristic of the env gene, coding for the envelope glycoprotein, between 2500 and 5000 nucleo tides from the poly(A) end. (iii) A cluster of four oligonucleotides that mapped between 6000 and 8000 nucleotides from the 3' poly(A) end of each RNA was shared by both parental viruses and all recombinants. Since all other map segments of our recombinants failed to segregate with the ts- or wild-type markers of the parental DNA polymerase gene (pol), it was concluded that the ts pol lesion maps in this RNA segment. (iv) The 5' segment of each recombinant RNA contained a cluster of four to five oligonucleotides whose parental origin correlated with an electrophoretic marker of one of the parental virion proteins, p27, a major product of the viral gag gene. The gene order 5'-gag-pol-env-src-poly(A) is consistent with our data.
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PMID:Mapping oligonucleotides of Rous sarcoma virus RNA that segregate with polymerase and group-specific antigen markers in recombinants. 18 81

Following ribonuclease digestion of methyl-3H-labeled B77 avian sarcoma virus RNA subunits, methylated oligonucleotides were isolated by diethylaminoethylcellulose chromotogrpahy. Partial nucleotide sequences were deduced from the known enzymatic specificities of the ribonucleases. In addition to methylated nucleosides in the 5'-terminal cap structure, m7G(5')GmpCp, N6-methyladenosine(m6A) was found to be present in only two internal sequences of the RNA molecule, Gpm6ApC and Apm6ApC. The average numbers of methylated nucleosides per RNA subunit are about 12-13 in Gpm6ApC, 1-2 in Apm6ApC, and 2 in m7GpppGmpCp. The sequences containing m6A in B77 sarcoma virus RNA are identical to m6A-containing sequences previously reported for the bulk mRNA from HeLa cells (Wei, C.M., Gershowitz, A., and Moss, B. (1976), Biochemistry 15, 397-401). Analysis of the oligonucleotides produced by RNase A digestion indicated that the sequence of bases on the 5' side of these trinucleotides is not specific. The oligonucleotide profile, however, was highly reproducible in different virus preparations. This suggests that the methylations occur at specific positions on the RNA molecule. Some of the methylated oligonucleotides produced by RNase A digestion appear to be present in less than molar amounts. Several hypotheses are proposed to explain this result.
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PMID:Sequence specificity of internal methylation in B77 avian sarcoma virus RNA subunits. 18

The genome size of 20 transformation-defective (td) viruses derived from different strains of Rous sarcoma viruses [Prague (subgroups A and C), Schmidt-Ruppin (subgroups A and D) (SR-D), Bratislava 77, and Carr-Zilber subgroup D)] was examined by polyacrylamide gel electrophoresis. All of the td viruses except td SR-D have 35S RNA of the same size-i.e., class b RNA. Two of five td SR-D viruses examined have a slightly larger RNA, corresponding to a td deletion that is about 25% smaller than that of class b RNA. However, the RNase T(1)-oligonucleotide fingerprints of all the td SR-D viruses are identical, lacking two sarcoma-specific oligonucleotides. The fingerprints of these viruses also showed a minor oligonucleotide present at very low concentration. A study of heteroduplex molecules formed between genome-length cDNA made from wild-type SR-D and 35S RNA of td SR-D showed a deletion loop of 2.0 and 1.5 kilobases, respectively, at the map position of the src gene for these two classes of td SR-D viruses, confirming the results of polyacrylamide gel electrophoresis. In addition, some heteroduplex molecules with a substitution loop of 0.6-0.7 kilobase at the same site as the deletion loop were observed in all five of the td SR-D viruses. We conclude that some of the td SR-D viruses have a partially deleted src gene and that all of the td SR-D viruses have incorporated heterologous sequences of distinct length in some RNA molecules at the position of the src gene. The nature and origin of these heterologous sequences are discussed.
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PMID:Occurrence of partial deletion and substitution of the src gene in the RNA genome of avian sarcoma virus. 20 Sep 31

The ribonuclease activity of peripheral lymphocytes from Balb/c mice was studied at various intervals subsequent to infection of mice by oncornavirus. Lymphocytes from mice infected with Friend leukemia virus possessed elevation of RNase activity within 8 days subsequent to infection. Balb/c mice infected with Moloney sarcoma virus demonstrated an analogous elevation of RNase activity with 7-9 days postinfection. Diminishment of cellular RNase activity occurred in the Friend leukemia model concomitant to the occurrence of significant numbers of erythroblasts in the peripheral blood, while ribonuclease activity in lymphocytes from mice infected with Molney sarcoma virus returned to normal 1-2 weeks subsequent to host rejection of tumor. It is concluded that elevation of RNase activity within the lymphocyte represents an early event in oncogenic viral infection within these two tumor models. The possible meaning of elevation of RNase activity is a target (the lymphocyte) not predestined to undergo neoplastic transformation is discussed.
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PMID:Alteration of cellular ribonucleases associated with murine oncogenic virus infection. 20 72

A clone, YS-T22, of cells from Yoshida sarcoma cell line, YSSF-212T, grown in "serum-free" culture medium produced factors stimulating differentiation of mouse myeloid leukemia cells (M1) to macrophages and granulocytes. The formation of macrophages and granulocytes was accompanied by induction of phagocytosis, locomotive activity, and lysosomal enzyme activities. The rates of induction of these differentiated phenotypes were proportional to the concentration of the factor added and the period of treatment. The factor stimulating differentiation of M1 cells was a heat-labile, nondialyzable proteinaceous substance that was inactivated by trypsin but not by ribonuclease or glycosidases. On diethylaminoethyl cellulose chromatography, the factor stimulating differentiation of M1 cells from conditioned medium of YS-T22 cells was eluted in various fractions with or without activity of the colony-stimulating factor.
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PMID:Characterization of factors stimulating differentiation of mouse myeloid leukemia cells from a Yoshida sarcoma cell line cultured in serum-free medium. 31 74

A new species of RNA has been isolated from several different cell lines, both oncornavirus producing and non-producing. This RNA, which we designate 5.9-S RNA is present in the cellular cytoplasmic fraction at very low concentration (approximately 1% of the quantity of 4-S RNA), but it accumulates to much higher levels in two murine oncornaviruses, Moloney murine sarcoma leukemia virus complex and Gross leukemia virus, where it represents as much as 10% of the low-molecular-weight RNA fraction associated with the 70-S RNA genome. The electrophoretic mobility and fingerprint analysis of T1 RNase digest products show that this species of RNA is approximately 160-165-residues long, and can be unequivocally distinguished from all previously described species of RNA in this size range.
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PMID:5.9-S RNA, a new RNA characterized in several mammalian cell lines. 40 71


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