EC:3.1.27.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.3 (RNase T1)
1,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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 polycytidylic acid [poly(C)] tract in foot and mouth disease virus RNA has been located about 400 nucleotides from the 5' end of the RNA by analysis of the products from the digestion of the RNA with RNase H in the presence of oligodeoxyguanylic acid [oligo(dG)]. This treatment produces a small fragment (S) containing the small protein covalently linked to the RNA and a large fragment (L) that migrates faster than untreated RNA on low-percentage polyacrylamide gels, lacks the poly(C) tract as shown by RNase T1 digestion and oligo(dG)-cellulose binding, and is no longer infective. Polyacrylamide gel electrophoresis of fragment S suggests that it is about 400 nucleotides long, in agreement with the size estimated from the proportion of radioactivity in the fragment. Analysis of the RNase T1 digestion products of S shows that it contains only those oligonucleotides mapping close to the poly(C) tract that is situated near the 5' end of the virus RNA.
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PMID:More precise location of the polycytidylic acid tract in foot and mouth disease virus RNA. 20 92

Vesicular stomatitis virus (VSV) and defective interfering (DI) particle RNAs were labeled at their 3' ends by using RNA ligase and cytidine 3',5'-bis[32P]phosphate. The RNAs were subjected to partial digestion with alkali and analyzed by oligonucleotide fingerprinting in two dimensions. VSV and DI particle RNAs have complete sequence homology for the first eight bases from the 3' end. The following four positions contain three mismatched nucleotides in which guanosine residues in one strand are replaced by uridine residues in the other. There is again complete homology for the next five bases (positions 13-17). The locations of purine residues within the sequence were confirmed by partial digestion with RNase T1 and RNase U2 and separation by size on 20% acrylamide gels. The latter method also indicated that sequences of VSV and DI particle RNAs diverge beyond the 18th nucleotide from the 3' termini.
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PMID:Nucleotide sequence homology at the 3' termini of RNA from vesicular stomatitis virus and its defective interfering particles. 21 Apr 54

Three RNA fractions with molecular weights of 200,000, 280,000, and 360,000, have been identified as the major polyadenylylated transcription products in a transplantable rat pancreatic islet cell tumor that synthesizes insulin. These three RNAs share sequence homology as demonstrated by comparisons of both partial and complete RNase T1 digestion products. The 200,000 and 280,000 molecular weight species hybridize primarily with three EcoRI restriction fragments of the rat genome having molecular weights of 1.4 X 10(6), 1.6 X 10(6), and 6.0 X 10(6). The 360,000 molecular weight species hybridizes preferentially with the 6.0 X 10(6) molecular weight DNA fragment.
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PMID:Identification of the major polyadenylylated transcription products and the genes active in their synthesis in a rat insulinoma. 21 Apr 56

Avian sarcoma virus (ASV)-specific RNA was purified from ASV-infected cells by using hybridization techniques which employ polydeoxycytidylic acid-elongated DNA complementary to ASV RNA as well as chromatography on polyinosinic acid-Sephadex columns. The purity and nucleotide sequence composition of purified, virus-specific RNA were established by rehybridization experiments and analysis of labeled RNase T1-resistant oligonucleotides by two-dimensional polyacrylamide gel electrophoresis. Polyadenylic acid-containing RNA purified from ASV-infected cells contained approximately 1 to 4% virus-specific RNA, compared with 0.06 to 0.15% observed in uninfected cells. Sucrose gradient analysis of virus-specific RNA isolated from ASV-infected cells revealed two major classes of polyadenylated viral RNA with sedimentation values of 36S and 26-28S. Cells infected with transformation-defective ASV (virus containing a deletion of the sarcoma gene) contained 34S and 20-22S viral RNA species. Double-label experiments employing infected cells labeled initially for 48 h with [3H]uridine and then for either 30, 60, or 240 min with [32P]phosphate showed that the intracellular accumulation of genome-length RNA (36S) was significantly faster than that of the 26-28S viral RNA species.
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PMID:Purification of virus-specific RNA from chicken cells infected with avian sarcoma virus: identification of genome-length and subgenome-leghth viral RNAs. 21 Dec 52

Current studies were undertaken to compare the genomes of Kirsten murine sarcoma virus (Ki-MuSV), Harvey murine sarcoma virus (Ha-MuSV), and the replication-defective endogenous rat virus to understand the function of these viral RNAs. Genome organization and sequence homology were studied by fingerprinting large RNase T1-resistant oligonucleotides and by cross-protecting homologous oligonucleotides against RNase A and T1 digestion with complementary DNA prepared from each of the other viral RNA. Ki-MuSV and Ha-MuSV were found to share an extensive series of rat-derived oligonucleotides begining ca. 1 kilobase (kb) from the 3' end and extending to within 1.5 kb of the 5'end of Ki-MuSV RNA. The total map distance covered in ca. 5.5 kb. The eight oligonucleotides covering the 1.5 kb at the 5' end of Ki-MuSV RNA were not found in Ha-MuSV RNA. Five out of these eight oligonucleotides, however, could be designated with certainty to be of rat virus origin. Since Ha-MuSV is 6.5 kb in size and Ki-MuSV is 8 kb in size, the major difference between them is the 1.5 kb from the replication-defective endogenous rat virus sequences at the 5' end of Ki-MuSV not present in Ha-MuSV. Consistent with the difference in the genome structure, these two sarcoma viral RNA'S yielded distinct major translation products in cell-free systems, I.E., A 50,000-dalton polypeptide (P50) from Ki-MuSV and a 22,000-dalton polypeptide (p22) from Ha-MuSV. These polypeptides may provide the necessary protein makers for identifying in vivo virus-coded proteins.
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PMID:Comparison of the genomic organization of Kirsten and Harvey sarcoma viruses. 21 Dec 54

A protein similar to that previously demonstrated on poliovirus RNA and replicative intermediate RNA (VPg) was found on all sizes of nascent viral RNA molecules and on the polyuridylic acid isolated from negative-strand RNA. 32P-labeled nascent chains were released from their template RNA and fractionated by exclusion chromatography on agarose. Fingerprint analysis using two-dimensional polyacrylamide gels of RNase T1 oligonucleotides derived from nascent chains of different lengths showed that a size fractionation of nascent chains was achieved. VPg was recovered from nascent chains varying in length from 7,500 nucleotides (full-sized RNA) to about 500 nucleotides. No other type of 5' terminus could be demonstrated on nascent RNA, and the yield of VPg was consistent with one molecule of the protein on each nascent chain. These results are consistent with the concept that the protein is added to the 5' end of the growing RNA chains at a very early stage, possibly as a primer of RNA synthesis. Analysis of the polyuridylic acid tract isolated from the replicative intermediate and double-stranded RNAs indicated that a protein of the same size as that found on the nascent chains and virion RNA is also linked to the negative-strand RNAs. It is likely that a similar mechanism is responsible for initiation of synthesis of both plus- and minus-strand RNAs.
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PMID:Identification of a protein linked to nascent poliovirus RNA and to the polyuridylic acid of negative-strand RNA. 21 Dec 65

A previous study of the infectivity of visna virus proviral DNA suggested that the genetic information of the virus is distributed over at least two of the RNA subunits. Because the genetic complexity of visna virus corresponds to the size of one subunit, this result may imply that sequence redundancies exist within each subunit. In the present article we have examined this question by constructing a map of the large RNase T1-resistant oligonucleotides of the viral genome. Our principal results are as follows: (i) all 36S RNA subunits have the same genetic content regardless of their polyadenylic acid [poly(A)] content; (ii) the poly(A) tract is present at the 3' end of the molecule; and (iii) the recoveries of 19 large RNase T1-resistant oligonucleotides from poly(A)-tagged RNA fragments of various sizes demonstrate that the oligonucleotides are organized in the same linear order within all subunits. Our results, therefore, exclude the existence of large sequence redundancies in the genome of visna virus.
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PMID:Absence of circularly permuted and largely redundant sequences in the genome of visna virus. 21 77

The cell-free synthesis of three major proteins from virion RNA of nondefective Rous sarcoma virus (RSV), but not from RNA of transformation-defective deletion mutants, has been observed. The apparent molecular weights of these transformation-specific proteins are approximately 60,000 (60K), 25K, and 17K. Tryptic maps of methionine-containing peptides revealed the 17K, 25K, and 60K proteins to be overlapping in sequence. However, only partial homology was observed between the 17K, 25K and 60K proteins synthesized from Schmidt-Ruppin strain, subgroup D, RSV RNA and those synthesized from Prague strain, subgroup B, RSV, RNA. About half of the methionine peptides in the Schmidt-Ruppin strain, subgroup D, 60K protein were shared with the Prague strain, subgroup D, 60K protein, and the rest were distinct to each. The virion RNAs coding for the 60K, 25K, and 17K proteins were found to be polyadenylated and to sediment with maximal mRNA activity at about 23, 19 to 20, and 18S, respectively. In addition, transformation-specific proteins with molecular weights of 39K and 33K were observed by in vitro synthesis. These proteins are also related to the 60K, 25K, and 17K proteins and were synthesized from polyadenylated RSV RNA of approximately 21 to 22S. RNase T1-resistant oligonucleotides were analyzed in parallel, and the src-specific oligonucleotides were found to be first present in equimolar amounts in those gradient fractions sedimenting at 21 to 22S. Our data suggest that synthesis of the 60K protein is initiated near the 5' terminus of the src gene, whereas the 39K, 33K, 25K, and 17K proteins are initiated internally in the src gene. All of these proteins appear to be initiated independently, but they may have a common termination site.
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PMID:Characterization of Rous sarcoma virus src gene products synthesized in vitro. 21 78

The small protein (VPg) covalently linked to the 5' end of poliovirus Type 1 (PV-1) RNA has been labeled in vitro with 125I using the Bolton and Hunter reagent. The RNA is not degraded under the conditions used and nearly all the label enters VPg and not the poly-nucleotide chain. When this 125I-labeled RNA is cleaved with RNase III at low monovalent salt concentrations, one major 125I-labeled fragment, approximately 100 nucleotides long, is produced. The corresponding fragment from similar digests of 32P-labeled RNA has also been identified. The 32P-labeled fragment changes electrophoretic mobility after protease treatment indicating that it contains VPg. Furthermore, the RNase T1 oligonucleotide known to be at the 5' terminus of poliovirus RNA is found in T1 digests of the purified fragment. These results confirm that the fragment is derived from the 5' end of the RNA. This fragment will be useful in studies concerning the initiation of protein synthesis during poliovirus infection.
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PMID:Identification of specific fragments containing the 5' end of poliovirus RNA after ribonuclease III digestion. 21 65

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