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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 large T1 ribonuclease fragments of 18S ribosomal RNA from four mammalian species, rat, mouse, hamster and man, were compared by two-dimensional homochromatography fingerprinting. The nucleotide sequences of the large T1 ribonuclease fragments, polypyrimidines and polypurines which were different among the four mammalian species were determined and compared. The method used for determining nucleotide sequences utilizes 32p-labeling of oligonucleotides at their 5'-termini by polynucleotide kinase, partial digestion by ribonucleases and analysis of labeled spots by homochromatography-fingerprinting. Several examples of point mutations were detected. It was of interest that the 18S rRNA of Chinese hamster has more oligonucleotide sequences in common with those of man that rat or mouse.
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PMID:Evolutionary trends in 18S ribosomal RNA nucleotide sequences of rat, mouse, hamster and man. 18 15

The method employed to determine the sequence of a T1 RNase fragment, A-A-A-A-A-U-A-A-C-A-A-U-A-C-A-Gp, from Novikoff rat hepatoma 18S ribosomal RNA is described. This method is applicable to any oligoribonucleotide produced by specific endonucleases that leave the newly cleaved 5'-end free for labeling with polynucleotide kinase and gamma-(32p)-ATP. The (32p)-labeled oligoribonucleotide is subjected to partial endonucleolytic digestion and fractionated by two-dimensional homochromatography fingerprinting. The nucleotide sequence is determined by following mobility shifts of the labeled and partially digested oligoribonucleotides in homochromatography fingerprinting.
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PMID:Sequence analysis of T1 ribonuclease fragments of 18S ribosomal RNA by 5'-terminal labeling, partial digestion, and homochromatography fingerprinting. 19 May 90

A second major species of leucine tRNA, tRNA Leu UAG (formerly designated tRNA Leu CUA) was purified from baker's yeast in a three-step procedure entailing BD-cellulose chromatography in the presence and absence of Mg2+ and Sephadex G-100 gel filtration. Results of aminoacylation and partial RNase T1 digestion experiments showed that this tRNA retains a native conformation under conditions that denature yeast tRNA Leu m5CAA (tRNA3 Leu). The primary structure of baker's yeast tRNA Leu UAG was elucidated by application of sensitive radioactive isotope derivative ("postlabeling") methods. Complete RNase T1 and A and partial RNase U2 fragments, prepared from non-radioactive tRNA and 5'-half and 3'-half molecules, were separated by two-dimensional polyethyleneimine-cellulose anion-exchange thin-layer chromatography and isolated by a novel micropreparative procedure affording high yields of these compounds in sufficient purity for subsequent tritium derivative analysis. Base composition and sequence of oligonucleotides were analyzed by tritium derivative methods. Molar ratios of the fragments were determined from the radioactivity of 3H-labeled nucleoside trialcohols in combination with base analysis. 2'-O-Methylated guanosine was characterized using the [gamma-32P]ATP/polynucleotide kinase reaction. The analysis of classical complete and partial RNase digests by the tritium derivative methods yielded the complete nucleotide sequence of the tRNA. A total of about 20 A260 units of the RNA was used for analysis, i.e. considerably less material than required for conventional spectrophotometric analysis. A different sequencing approach, consisting of a combination of "readout sequencing" with tritium sequencing of complete RNase T1 and A fragments, was applied to the 3'-half molecule. The 3'-half molecule was labeled with 32P at its 5' terminus, partially degraded with RNase T1, U2, and Phy1 and with alkali, and subjected to polyacrylamide gel electrophoresis. The sequence was read off the gel on the basis of cleavage patterns and size of the fragments. While the readout procedure provided only the positions of A, U, C, and G residues in the chain, additional information from tritium derivative analysis was utilized to define the positions of the modified nucleosides. The readout sequencing procedure was found to require less than 0.01 A260 unit of RNA and the analysis of the complete fragments about 6 A260 units. Interesting structural features of tRNA Leu UAG are (a) the location of unique, leucine tRNA iso-acceptor-specific sequences next to U-8, a constant nucleotide participating in synthetase recognition, (b) the occurrence of 1-methyladenosine in the T loop, a modification not present in the structurally related tRNA Leu m5CAA, and (c) the unusual presence of an unmodified uridine in the first position of the anticodon, which may be related to the unusual coding properties reported for this tRNA.
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PMID:Yeast tRNA Leu UAG. Purification, properties and determination of the nucleotide sequence by radioactive derivative methods. 37 75

A modification of the known method for obtaining radioactive fingerprints from non-radioactive nucleic acids by labelling a digest with 5'-hydroxyl polynucleotide kinase and [gamma-32P]-ATP has been applied to RNase T1 digests from various high molecular weight virus RNAs and to ovalbumin mRNA. Fractionation of the resultant [32P]-labelled T1 RNase digests by two-dimensional polyacrylamide electrophoresis demonstrates that in the case of virus RNAs, the fingerprints thus obtained are very similar to those derived from uniformly labelled RNAs. The value of this technique is that it requires only 1-5 microgram of purified virus RNA and at least three orders of magnitude less radioactivity than is routinely employed in preparing uniformly labelled RNA.
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PMID:Oligonucleotide mapping of non-radioactive virus and messenger RNAs. 41 3

The sequence of the 5' noncoding region of tobacco mosaic virus RNA has been determined. The noncoding region is 68 nucleotides long and is unusual in that it contains no internal guanosine residues. The long T1 oligonucleotide containing the guanosine-free tract was isolated from a T1 ribonuclease digest of tobacco mosaic virus RNA and sequenced by labelling techniques in vitro using polynucleotide kinase. The guanosine-free tract is terminated by the first potential initiation codon in the RNA molecule and several lines of evidence suggest that this AUG triplet is operational in initiating viral protein synthesis (see following paper). The 5'-noncoding region cannot base-pair extensively with the 3'-terminal sequence of 18-S ribosomal RNA from rabbit reticulocytes.
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PMID:Nucleotide sequence at the 5' extremity of tobacco-mosaic-virus RNA. 1. The noncoding region (nucleotides 1-68). 63

When 25-S tobacco mosaic virus (TMV) protein aggregate and TMV RNA, which has been partially digested by T1 RNase, are mixed under conditions suitable for reconstitution, only a few RNA fragments are encapsidated. These fragments were isolated and purified by polyacrylamide gel electrophoresis. The sequence of the three main fragments, the longest of which (fragment 1) was estimated to contain 103 nucleotides, has been determined. The two smaller fragments are portions of the longer chain produced by an additional specific scission. Because of the great affinity of 25-S TMV protein for this nucleotide sequence, it will be referred to as the "specifically encapsidated RNA fragment". The occurrence of a "hidden break" in the sequence has been demonstrated: fragment 1, purified by electrophoresis on a polyacrylamide gel without 8 M urea, gives rise upon further electroporesis in the presence of urea to two new bands corresponding to the two halves of the molecule. A stable hair-pin secondary structure has been derived from the base sequence which can account for the specificity of action of the enzyme. Because of its properties, we have suggested elsewhere that the sequence of fragment 1 might correspond to the disk recognition site for reconstitution, which is known to be located at the 5' end of the intact RNA. But experiments with TMV RNA whose 5'-OH end has been radioactively phosphorylated with polynucleotide kinase show that this is not the case. Analysis of the amino acid coding capacity of the fragment has instead revealed that fragment 1 is a portion of the TMV coat protein cistron.
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PMID:Sequence of a specifically encapsidated RNA fragment originating from the tobacco-mosaic-virus coat-protein cistron. 114 44

Upon reverse transcription and cloning manipulations with virion RNAs of several plant viruses, namely beet yellows virus, brome mosaic virus, and potato virus X, we came across a significant background synthesis of cDNA on the virion RNA template in vitro independent of exogenous primers added. When tested with beet yellow virus RNA template, several commercial preparations of avian myeloblastosis virus (AMV) reverse transcriptase showed the background activity monitored by the [alpha-32P]dNTP incorporation in vitro, while the enzyme from murine moloney leukemia virus (MMLV) was found strictly exogenous-primer-dependent. To detect possible nucleic acid contaminations in reverse transcriptase, the enzyme preparations from several commercial sources were incubated with [gamma-32P]ATP and polynucleotide kinase. The labeled material from AMV reverse transcriptase preparations comigrated with a tRNA marker in polyacrylamide gels and was found to be RNase-sensitive. The MMLV reverse transcriptase preparations were free from such a contamination. These results indicate that the exogenous-primer-independent cDNA synthesis by some AMV reverse transcriptases could be due to a contaminating tRNA (or its low-molecular-weight degradation products) serving as an endogenous primer.
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PMID:Exogenous primer-independent cDNA synthesis with commercial reverse transcriptase preparations on plant virus RNA templates. 138 74

A fragment of 16S RNA, cross-linked to S7 protein by UV irradiation of the 30S subunit of E. coli ribosome, was obtained by the action of T1 ribonuclease on the irradiated nucleoprotein. The digest was treated with polynucleotide kinase in the presence of [gamma-32P]ATP and the S7-cross-linked oligonucleotides were isolated. An individual oligonucleotide attached to S7 protein was obtained after proteinase treatment of the respective spot followed by electrophoresis. Sequencing of this oligonucleotide established its structure as 1233-1240 fragment of 16S RNA, the U1239 residue being the site of the S7 cross-linking. The developed general approach can be used for localizing protein - cross-linked residues in polynucleotides, whatever is the procedure employed for cross-linking.
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PMID:[General method of isolation and analysis of polynucleotide fragments cross-linked with proteins]. 241 22

Variation in the length of the 5' non-coding region of mitochondrial gene transcripts could result from multiple transcription initiation sites or post-transcriptional processing events. To distinguish between these possibilities, we have utilized the in vitro capping reaction catalyzed by guanylyl transferase to specifically label the 5' end of primary, unprocessed transcripts. Hybridization of in vitro capped mtRNA to immobilized DNA from the 5' flanking regions of 26 S, 18 S and 5 S rRNA genes and two protein-coding genes, ATP synthase subunit 9 (atp9) and apocytochrome b (cob), identified regions where transcription initiates. Single-strand specific RNase treatment of in vitro capped RNA hybridized to immobilized DNA containing the 5' flanking sequences from cob and atp9 suggests that these genes have multiple transcription initiation sites. Direct mapping of transcription initiation sites for the rRNA genes indicated that single major transcription initiation sites exist at approximately 180 and 230 nucleotides upstream from the mature 26 S and 18 + 5 S rRNA genes, respectively. Labeling of processed transcripts bearing a 5' hydroxyl moiety with T4 polynucleotide kinase and subsequent hybridization to the rRNA genes indicated that the mature forms of the rRNA are processed.
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PMID:RNA processing and multiple transcription initiation sites result in transcript size heterogeneity in maize mitochondria. 289 71

poly(A)+ RNA was isolated from maize by affinity chromatography on columns of oligo(dT)-cellulose. A modified nucleotide ('X') was detected in ribonuclease T2 digests of the RNA as part of a resistant dinucleotide. The dinucleotide was detected by means of the polynucleotide kinase-mediated transfer of a radioactive phosphate atom from adenosine triphosphate to the 5'-OH position of the dinucleotide. Intact poly(A) tracts were released from poly(A)+ RNA by digestion with ribonuclease T1 and A in a high salt buffer and were isolated by oligo(dT)-cellulose chromatography. The poly(A) preparation was found to consist of a series of polyadenylate fragments which varied in chain length from approximately 17 to greater than 70. The modified nucleotide was shown to occupy an internal position in these poly(A) tracts.
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PMID:A modified nucleotide in the poly(A) tract of maize RNA. 616 65


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