EC:3.1.27.3 - FACTA Search

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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)

A method is described for the initial steps of sequence analysis of RNase T1-and pancreatic RN-ase-resistant oligonucleotides of RNA containing cytidylate residues labeled in vitro with 125I. In many cases an oligonucleotide sequence can be deduced from a consideration of (i) its relative position in the two-dimensional fingerprint (with DEAE thin layer homochromatographic second dimension), (ii) its electrophoretic mobility on DEAE paper at pH 1.9, and (iii) identification of its products of further enzymatic digestion by comparison with a set of marker oligonucleotides. Additional methods including analysis of oligonucleotides following chemical blocking of uridylate residues with CMCT and analysis of products of incomplete enzymatic digestion are also discussed.
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PMID:Approaches to sequence analysis of 125I-labeled RNA. 10 69

Antibodies specific for N6-methyladenosine (m6A) and for 7-methylguanosine (m7G) were immobilized on Sepharose and the resulting immunoadsorbents tested for their ability to retain specific oligonucleotides possessing the corresponding antigenic haptens (i.e. m6A and m7G). Results obtained with oligonucleotides derived from ribonuclease T1 digests of Escherichia coli tRNA (previously labeled with [methyl-3H]methionine) indicated that each immunoadsorbent quantitatively and exclusively retained those methyl-3H-labeled oligonucleotides possessing [methyl-3H]m6A and [methyl-3H]m7G. Elution and subsequent characterization of the retained methyl-3H-labeled oligonucleotides via DEAE-cellulose chromatography revealed the presence of several small oligonucleotides containing m7G and a single, larger oligonucleotide containing m6A. These findings are in accord with previously sequenced structures which indicate that numerous bacterial tRNA species possess m7G while only tRNAVal contains m6A.
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PMID:Immunospecific retention of oligonucleotides possessing N6-methyladenosine and 7-methylguanosine. 32 62

Isolated HeLa cell nuclei synthesize ribosomal 5S RNA of very nearly correct sequence and size. The in vitro product was resolved according to size on formamide-containing polyacrylamide gels and the fractions were subsequently hybridized to recombinant DNA containing the 5S genes from Xenopus mulleri. It could be shown that the 5S RNA synthesized in vitro differed only very slightly in size from the mature species labeled in vivo and contained a few extra nucleotides in some of the molecules. Analysis of the 3'-terminal base of molecules synthesized independently with four different nucleotides showed that the chains were almost exclusively terminated with uridine. Digestion of the in vitro product with ribonuclease T1 and analysis of the oligonucleotides on DEAE-Sephadex A-25 in the presence of 7 M urea revealed that the molar yield of the internal fragments agreed well with the expected theoretical values. The 3'-terminal fragments, however, were found to be present in three different species with the sequences CUUOH, CUUUOH, CUUUUOH which occurred with a frequency of about 60%, 20%, and 20%, respectively. From these data we conclude that 5S RNA synthesis in isolated HeLa cell nuclei was correctly initiated but that termination occurred with a slight ambiguity, adding either one or two uridine residues to some of the chains.
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PMID:Heterogeneity in the 3'-terminal sequence of ribosomal 5S RNA synthesized by isolated HeLa cell nuclei in vitro. 62 1

The methionine acceptor activity of a crude tRNA from bakers' yeast was resolved into two peaks (I and II) by column chromatography on DEAE-Sephadex A-25 with a 1 M phosphate system. Methionine tRNA from peak II was not formylated by E. coli methionyl-tRNA transformylase [EC 2.1.2.9.] after being charged with methionine, whereas that from peak I was formylatable under the same conditions. A substantial amount of unlabelled methionine tRNA, tRNAMetm, was highly purified from the peak II fraction by successive chromatographic procedures. The purified tRNAMetm was digested with pancreatic ribonuclease A [EC 3.1.4.22] and ribonuclease T1 [EC 3.1.4.8]. The digestion products were isolated into individual components and completely sequenced. The results of sequence analysis of the two RNase digests were in good agreement and indicated that the chain length of this tRNA is 76, including 13 modified nucleotides. These oligonucleotide fragments can be constructed into a unique total sequence, assuming a few conventional features of clover leaf structure for the tRNA was established by analyses of partial digestion products with RNase T1, as reported in the accompanying paper.
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PMID:The primary structure of non-initiator methionine transfer ribonucleic acid from Bakers' yeast. I. Purification and complete digestion with ribonuclease T1 and pancreatic ribonuclease A. 82 24

A novel method for isolation and concentration of RNase T1 from Taka-Diastase is developed. It is a combination method of bentonite adsorption with dialysis desorption. In the present method, RNase T1 can be concentrated about ten-fold, the recovery of total activity was greater than 95%, and specific activity was raised 8-10 folds. Further purification with ammonium sulfate precipitation and chromatography on DEAE-cellulose and DEAE-Sephadex yields a RNase T1 which contains no pMase. pDase nor RNase T2 activities and a 750 fold increase in specific activity. Our method is more simple, rapid, and efficient than previous methods.
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PMID:A novel method for isolation and concentration of ribonuclease T1 from Taka-Diastase. 212 67

An improved method for purifying ribonuclease T1 from Aspergillus oryzae is described. The method uses gradient elution from DEAE-cellulose and sulfopropyl-Sephadex columns followed by gel filtration on Sephadex G-50 to give almost 100 mg (50% yield) of ribonuclease T1 from 100 g of starting material in less than 5 days.
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PMID:Purification of ribonuclease T1. 312 77

Escherichia coli initiator methionine tRNA labeled in vivo with 5-fluorouracil (FUra) has been isolated and characterized. The tRNA, with essentially all its uracil and uracil-derived minor bases replaced by FUra, was purified by sequential chromatography, first on diethylaminoethylcellulose (DEAE-cellulose), at pH 8.9, followed by chromatography on Sepharose 4B, using a reverse salt gradient, then on DEAE-Sephadex A-50, and finally on benzoylated DEAE-cellulose. The last step resolved two FUra-substituted tRNAfMet-iso-accepting species, each with a specific activity over 1500 pmol/A260. Kinetic analysis shows both are aminoacylated at the same rate; apparent KmS for the two are 0.92 and 0.94 microM, compared with 1.7 microM for normal tRNAfMet. Chromatographic differences between the two forms of fluorinated tRNAfMet persist after aminoacylation, and the two tRNAs are not interconverted by denaturation and renaturation. The isoacceptors have nearly identical nucleoside composition, and both contain 7-methylguanosine and 2'-O-methylcytidine as the only modified nucleosides. Analysis of complete RNase T1 digests of the two methionine tRNAs shows that they differ in only one oligonucleotide. The sequence 20FpApGp, derived from the dihydrouridine loop and stem region, which is found in one of the isoaccepting forms of the tRNA, is replaced by an oligonucleotide containing adenine and guanine, but no FUra in the other. A modified FUra, with the properties of a 5-fluoro-5,6-dihydrouracil derivative, is detected in this tRNA. 19F NMR spectra of the two species of FUra-substituted initiator tRNA show 9-10 resolved resonances for the 12 FUra residues incorporated. The spectra differ primarily in the shift of one peak in the form lacking the sequence 20FpApGp, from 4.8 ppm downfield from free FUra (= 0 ppm) to 14.9 ppm upfield from the standard.
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PMID:Isolation and characterization of two 5-fluorouracil-substituted Escherichia coli initiator methionine transfer ribonucleic acids. 618 84

By chromatography on columns of DEAE-Sephadex A-50 and Sephadex G-100, and electrophoresis on polyacrylamide gel, 5S rRNA was purified from a low-molecular-weight RNA fraction extracted from the total tissues of Lingula anatina. Complete digests of the 5S rRNA with RNase T1 [EC 3.1.4.8] and pancreatic RNase [EC 3.1.4.22] were sequenced by conventional column chromatography procedures. The nucleotide sequence of this RNA was determined mainly by a chemical method for sequencing the RNA 3' end-labeled with 32P (1), with the complement of the oligonucleotide catalog obtained by the complete RNase digestions of the RNA. By comparing the sequences of several invertebrate, vertebrate, and Chlorella 5S rRNAs, a phylogenic tree of the rRNAs was constructed and the time of divergence of Lingula was estimated.
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PMID:Nucleotide sequence of 5S ribosomal RNA from Lingula anatina. A study on the molecular evolution of 5S ribosomal RNA from a living fossil. 678 May 39

The purification procedure of ribonuclease T1 was greatly improved by introducing affinity chromatography with a new adsorbent, guanosine 5'-phosphate-aminohexyl-Sepharose 4B. The enzyme was purified by only four steps with a high yield (68%) from Taka-Diastase powder. The purified enzyme preparation gave a single peak of protein with a small shoulder on DEAE-cellulose column chromatography. The peak fraction, amounting to approximately 90% of total proteins, was homogeneous ribonuclease T1. Moreover the shoulder fraction was shown to contain another form of ribonuclease T1 electrophoretically distinguishable from the original one. Comparison of the properties of the fraction containing almost equal amounts of both components with those of original ribonuclease T1 shows that the other form of T1 is identical with the original one in respect to amino acid composition and base specificity. We propose to designate this new form and original one as ribonuclease T1-B and T1-A, respectively.
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PMID:Purification of ribonuclease T1 by affinity chromatography. 678 36

The 3'-terminal structures of ribosomal 28S RNA and its precursors from rat and mouse were analyzed by means of periodate oxidation followed by reduction with 3H-borohydride. 3'-terminal labeled nucleoside derivatives produced by RNase T2 digestion were determined by thin-layer chromatography and oligonucleotides generated by RNase T1 digestion were analyzed by DEAE-Sephadex chromatography. In the rat, the major 3'-terminal sequences of ribosomal 28S RNA, nucleolar 28S, 32S, 41S, and 45S RNAs were YGUoh, GZ2Uoh, GZ12Uoh, GZ2Uoh, and GZ7Goh, respectively, whereas in the mouse corresponding sequences were YGUoh, GZ1,2, or 3Uoh, Goh, Uoh and GZ 13Uoh, respectively. (Y: pyrimidine nucleoside, Z: any nucleoside other than guanosine) These results suggest that a "transcribed spacer" sequence is present at the 3'-terminus of the 45S pre-ribosomal RNA, which is gradually removed during the steps of processing.
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PMID:3'-terminal processing of ribosomal RNA precursors in mammalian cells. 743 19

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