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)

Fragments of foot-and-mouth disease virus RNA of decreasing size, containing the 3' poly(A) sequence have been prepared by alkali treatment and sucrose gradient centrifugation followed by oligo(dT)-cellulose affinity chromatography. Polyacrylamide gel electrophoresis of the ribonuclease T1 resistant oligonucleotides from these polyadenylated fragments has enabled us to locate the position of some of the longer oligonucleotides on the RNA. In particular the poly C tract has been shown to be near the 5' end of the RNA; The possible function of the poly(C) tract is discussed in the light of these findings.
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PMID:The location of the ploy(C) tract in the RNA of foot-and-mouth disease virus. 18 24

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

Polyacrylamide gel electrophoresis of nucleic acids extracted from porcine faecal samples revealed in several samples the presence of two discrete bands. The bands were resistant to digestion with of DNase I and RNase T1, but not with RNase A in low salt conditions, indicating that they consisted of double stranded (ds) RNA. The two bands from different samples varied in sizes, in a range between 2.4-2.6 kbp and 1.7-1.9 kbp for the slow and fast moving band respectively. The bands cosedimented in CsCl gradients at an average density of 1.415 g/ml with icosahedral virus particles of a diameter of 34 nm and a triangulation number equal to 3. Aggregates of virus, which appeared to be immunocomplexes, were seen in one sample. From 244 faecal samples collected in one farm, 27 (11.1%) were found to contain the characteristic dsRNA pattern, with a higher prevalence in samples from animals 15 to 35 days old. The agent was equally distributed among samples from diarrhoeic or non-diarrhoeic animals. These results confirm the circulation among pigs of a novel virus, possibly of vertebrates, with a bisegmented double stranded RNA genome, similar to viruses previously described in humans, wild rats, guinea pigs, pigs, and chickens, for which the name "picobirnavirus" has been proposed.
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PMID:Identification in porcine faeces of a novel virus with a bisegmented double stranded RNA genome. 200 3

I demonstrate that the U1 snRNAs of human cells are heterogeneous in sequence. Polyacrylamide gel and RNase T1 fingerprint analyses of U1 RNAs isolated from a variety of human cultured cells, including HeLa, 293, K562 and NT2/D1, show that minor variants of the human U1 RNA (hUla) comprise between 5% and 15% of the total U1 RNAs in these established cell lines. The patterns of variants are cell line specific, suggesting that expression of these minor species of hUla RNAs reflect polymorphisms of the hUla true genes rather than existence of an additional class of human embryonic U1 genes. Also, the hUla variants described here are not the products of previously identified human U1 Class I pseudogenes.
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PMID:Heterogeneity of human U1 snRNAs. 313 33

Conformational states of the ribosomal 5 S RNA molecule and its associated protein L1a in the yeast RNA-protein (RNP) complex were determined using controlled RNase T1 digestion in conjunction with fluorescence probes, ethidium bromide and bisanilinonaphthalenesulfonic acid. Fluorescence measurements indicated that the RNA molecule in the RNP complex appeared to exhibit a slightly lower degree of secondary structure than that in the free form. Controlled digestion of the intact RNP complex with RNase T1 resulted in an initial increase in ethidium fluorescence followed by a gradual decrease. In free RNA, a similar profile, except that a larger increase in ethidium fluorescence at the initial stage of digestion, was observed. During digestion of the RNP complex, increases in bisanilinonaphthalenesulfonic acid fluorescence and in light scattering were observed. These findings implied that as regions of the 5 S RNA molecule were perturbed, hydrophobic regions in the protein became exposed. Polyacrylamide gel analysis of the digestion products revealed a temporal appearance of discrete RNA fragments. Sequence analysis of these fragments generated information about the structural arrangement of the RNA molecule within the RNP complex. Results from the present investigation indicate that interactions between the 5 S RNA and protein L1a can stabilize functionally relevant conformations of the components that are individually labile. Properties of the separated components also suggest that special conditions, such as those suggested by Steitz et al. (Steitz, J. A., Berg, C., Hendrick, J. P., LaBranche-Chabot, H., Metspalu, A., Rinke, J., and Yario, T. (1988) J. Cell Biol. 106, 545-556) may be involved for these components to associate during ribosomal assembly.
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PMID:Probing the RNA structure within the yeast 5 S RNA.L1a protein complex by fluorescence and enzymatic digestion. 314 71

Polyacrylamide gel electrophoretic analysis of RNA segments of the arenaviruses Pichinde (Pic) and Tacaribe (Tac) showed them to be distinguishable in that Pic S RNA had a slower electrophoretic mobility than Tac S RNA. The L and S RNA segments of Tac virions were found to have distinct RNase T1 oligonucleotide fingerprints, indicating that they are unique RNA species. The oligonucleotide patterns of the Tac L and S RNAs were also distinct from those of the corresponding Pic RNA segments.
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PMID:Oligonucleotide fingerprint analysis of Tacaribe virion RNA. 729 70

Peptidylglycine alpha-amidating monooxygenase (PAM; EC 1.14.17.3) catalyzes the COOH-terminal alpha-amidation of peptidylglycine substrates, yielding amidated products. Growing evidence suggests that the metabolism of PAM messenger RNAs (mRNAs) can be regulated within the cytoplasm. To understand the mechanisms controlling the metabolism of PAM mRNAs, we sought to identify cis elements of the 3'-untranslated region (3'-UTR) of PAM mRNA that are recognized by cytoplasmic factors. From gel retardation assays, one sequence element is shown to form a specific RNA-protein complex. The protein-binding site of the complex was determined by ribonuclease T1 mapping, by blocking the putative binding site with antisense oligonucleotide, and by competition assays. Using 3'-end-labeled RNA in gel shift and UV cross-linking analyses, we detected in the 3'-UTR a novel 20-nucleotide cis element that interacted with a widely distributed cellular cytosolic protease-sensitive factor(s) to form a 60-kDa PAM mRNA-binding protein complex. The binding activity was redox sensitive. Tissue distribution of the protein in the rat showed a marked tissue-specific expression, with ovary, testis, lung, heart septum, anterior pituitary and hypothalamus containing large amounts compared with liver, ventricle, atrium, and neurointermediate lobe. No binding activity was detectable in pancreas, intestine, or kidney extracts. Northwestern blot analysis of AtT-20 (mouse corticotrope tumor cell line) cytoplasmic extracts revealed a protein of 46 kDa. Thus, we have identified a widely distributed cellular protein that binds to a conserved domain within the 3'-UTR of PAM mRNA from many animal species. Although these data suggest that cis element-binding activity could be a cytoplasmic regulator of PAM mRNA metabolism, the functional consequences of this binding remain to be determined.
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PMID:Identification of a novel cis-element in the 3'-untranslated region of mammalian peptidylglycine alpha-amidating monooxygenase messenger ribonucleic acid. 949 18