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:3.1.27.3 (RNase T1)
1,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three overlapping RNA fragments containing the pseudoknot, as found in the tRNA-like structure of turnip yellow mosaic virus (TYMV) RNA, have been isolated and purified. Site-directed cleavage of TYMV RNA by RNase H, followed by ammonium sulphate precipitation and ion-exchange HPLC, yielded a pure preparation of a 3'-terminal, 112-nucleotide TYMV RNA fragment. Transcription of TYMV cDNA by T7 RNA polymerase, resulted in the isolation of an 88-nucleotide fragment. Finally, a 44-nucleotide fragment containing the TYMV RNA pseudoknot and strongly resembling the aminoacyl acceptor arm of the viral RNA was also synthesised using T7 RNA polymerase. The three fragments were isolated in milligram amounts and used for biochemical structure mapping, ultraviolet melting studies and NMR spectroscopy. Chemical modification with diethyl pyrocarbonate and sodium bisulphite and enzymatic digestion with RNase T1 confirmed the presence of the pseudoknot in the 44-nucleotide fragment. Also the analogue of the T-stem and T-loop of the tRNA-like structure of TYMV RNA was found. The results of modification at various temperatures in Mg2+-containing buffers were in general agreement with optical melting studies. Ultraviolet melting analysis of the longer fragments revealed their greater complexity and the results appear similar to those obtained for some tRNA species. To obtain direct biophysical evidence for base-pairing and stacking interactions in the pseudoknot, NMR studies were initiated. The first proton-NMR spectra ever obtained for plant viral RNA fragments are presented. NMR spectra were recorded at various buffer conditions and at various temperatures. The spectra for the 112-nucleotide and 88-nucleotide fragment are too complicated to be solved at present. In the case of the 44-nucleotide fragment, however, the imino proton resonances are well separated and this system turns out to be most promising for structural studies.
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PMID:Biochemical and biophysical analysis of pseudoknot-containing RNA fragments. Melting studies and NMR spectroscopy. 277 53

In this paper we report on the thermal unfolding of the tRNA-like structure present at the 3' end of turnip yellow mosaic virus (TYMV) RNA. Diethyl pyrocarbonate (DEP), sodium bisulphite, nuclease S1 and ribonuclease T1 were used as structure probes at a broad range of temperatures. In this way most of the nucleotides present in the tRNA-like moiety were analysed. The melting behaviour of both secondary and tertiary interactions could be followed on the basis of the temperature dependent accessibility of the individual nucleotides or bases towards the various probes. The three-dimensional model of the tRNA-like domain (Dumas et al., J. Biomol. Struct. and Dyn. 4, 707 (1987] was supported by the results to a large extent. The interactions occurring between the T- and D-loop appear to be more complex than proposed in the latter model. Additional evidence for the presence of the RNA pseudoknot (Rietveld et al., Nucleic Acids Res. 10, 1929 (1982] was derived from the fact that the three coaxially stacked helical segments in the aminoacylacceptor arm displayed different melting transitions under certain experimental conditions. Aspects of melting behaviour and thermal stability of double helical regions within the tRNA-like structure are discussed, as well as the applicability of nucleases and modifying reagents at various temperatures in the analysis of RNA structure.
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PMID:Temperature dependent chemical and enzymatic probing of the tRNA-like structure of TYMV RNA. 283 23

A bacteriophage lambda clone containing a 15.4-kb human DNA fragment was isolated and found to contain a glycine tRNA gene and, 758 bp away, a pseudogene, both with an anticodon of GCC. The nucleotide (nt) sequence of a 1362-bp segment of this clone, encompassing the gene, pseudogene, and their flanking regions, was determined. The gene and pseudogene have an identical sequence of eight nt (5'-CAGCTGGA-3') in their 5'-flanking regions immediately preceding the coding regions, as well as characteristic transcription termination sites of five consecutive T nt in the 3'-flanking regions. Neither of these genes has intervening sequences. Only one of the two genes was efficiently transcribed in vitro by RNA polymerase III in a HeLa cell-free system. During the course of transcription, primary transcripts of one gene were processed to yield mature-sized products. In contrast, the level of transcription of the second gene was significantly less than that of the first, and no mature-sized products could be detected. The nt sequence of the inefficiently transcribed gene has two base substitutions compared to the sequence of the efficiently transcribed gene, and the DNA sequence predicted from the human placental tRNAGlyGCC sequence. One of these nt substitutions is a C to T transition in the TTCG sequence within the B block of the characteristic internal split promoter sequence. The precursor-product relationships of the tRNA transcripts were established by comparing the RNase T1 and RNase A fingerprints of the precursors and products.
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PMID:Nucleotide sequence and transcription of a human glycine tRNAGCC gene and nearby pseudogene. 301 33

The nucleotide sequence of T. utilis tRNATyr has been modified to have a deletion or substitution of the "conserved" nucleotide sequence Gm18-G19 in the D-loop by enzymatic procedures in vitro. Conformations of the variant tRNAs were analyzed by measuring melting profiles and electrophoretic mobilities in "native" polyacrylamide gels, and by examining the RNase T1 digestion patterns in sequencing gels. The results obtained shed light on the importance of the interaction between the sequence Gm18-G19 and nucleotides in the T psi C-loop (probably psi 57-C58) for the maintenance of the total conformation of tRNATyr in solution. The association of D-loop and T psi C-loop regions in the variant tRNATyrs is slightly relaxed even at room temperature and melting occurred at temperatures higher than 40 degrees C. The relationship between the tertiary structure of the variant tRNA and its aminoacylation capacity was assayed at various temperatures. The results indicate that highly ordered tertiary structure is needed for tRNATyr to be fully aminoacylated.
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PMID:Studies on T. utilis tRNATyr variants with enzymatically altered D-loop sequences. II. Relationship between the tertiary structure and tyrosine acceptance. 308 99

The accessibility of nucleotides in Escherichia coli tRNAfMet to chemical and enzymatic probes in the presence and absence of methionyl-tRNA synthetase has been investigated. Dimethyl sulfate was used to probe the reactivity of cytosine and guanosine residues. The N-3 position of the wobble anticodon base, C34, was strongly protected from methylation in the tRNA-synthetase complex. A synthetase-induced conformational change in the anticodon loop was suggested by the enhanced reactivity of C32 in the presence of enzyme. Cytosine residues in the dihydrouridine loop and in the 3'-terminal CCA sequence showed little or no change in reactivity. Methylation of the N-7 position of guanosine residues G42, G52, and G70 was partially inhibited by the synthetase. Nuclease digestion of tRNAfMet with alpha-sarcin in the presence of 1-2 mM Mg2+ resulted in cleavage mainly at C71 in the acceptor stem and was strongly inhibited by synthetase. Other nuclease digestion experiments using the single strand specific nucleases RNase A and RNase T1 revealed weak protection of nucleotides in the D loop and strong protection of nucleotides in the anticodon on complex formation. The present data, together with previous structure-function studies on this system, indicate strong binding of methionyl-tRNA synthetase to the anticodon of tRNAfMet, leading to a change in the conformation of the anticodon loop and stem. We propose that this, in turn, produces more distant, and possibly relatively subtle, conformational changes in other parts of the tRNA structure that ultimately lead to proper orientation of the 3' terminus of the tRNA with respect to the active site of the enzyme.
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PMID:Study of the interaction of Escherichia coli methionyl-tRNA synthetase with tRNAfMet using chemical and enzymatic probes. 309 57

A bacteriophage lambda clone containing a 20-kb human DNA segment was isolated and found to harbor a cluster of four tRNA genes. An 8.2-kb HindIII subfragment encompassing the genes was cloned into pBR322 for restriction mapping and DNA sequence analysis. The genes were found to be arranged as two tandem pairs, separated by 3 kb. A proline tRNAAGG gene is separated from a leucine tRNAAAG gene by a 724-bp intergenic region in the first pair, and a second proline tRNAAGG gene is 316 bp from a threonine tRNAUGU gene in the second pair, with the leucine tRNA gene being of opposite polarity to the other three genes. A putative Alu-like element was found to occur within a 2.0-kb DNA fragment, at least 0.7 kb from the tRNA gene cluster. The coding sequences of the two proline tRNAAGG genes are identical. The coding regions of all four tRNA genes contain consensus internal split promoter sequences and do not have intervening sequences nor the CCA trinucleotide found in mature tRNAs. The 3'-flanking regions of these four tRNA genes have normal RNA polymerase III termination sites of at least four consecutive T nucleotides. No apparent homologies occur between the 5'-flanking regions of these genes. All four tRNA genes are accurately transcribed in an in vitro HeLa cell-free system, and the RNase T1 fingerprints of the mature-sized tRNA transcripts were found to be consistent with the DNA sequences of the genes.
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PMID:Nucleotide sequence and transcription of a human tRNA gene cluster with four genes. 355 25

A DNA fraction enriched in tRNA genes has been prepared by CsCl density gradient centrifugation of Xenopus laevis DNA in the presence of actinomycin D. This DNA fraction was cut with the restriction endonuclease EcoRI and the fragments 800-900 base pairs in size were cloned into the plasmid pBR325. Recombinant DNAs were screened by hybridization to labeled tRNA and for the ability to support transcription in vitro. The entire sequence of one fragment was determined by sequencing the ends of an overlapping set of deletion fragments. A sequence homologous to tRNAVal from mammalian sources was found in this fragment and it was shown that this sequence corresponds to the region of the fragment that is transcribed. The cloned fragment was also transcribed in vivo after injection into X. laevis oocytes. The RNA that was synthesized in the oocytes was digested with ribonuclease T1 and the oligonucleotides were separated to produce a two-dimensional fingerprint. The results of the analysis of the oligonucleotides are consistent with the sequence determined for the tRNAVal gene. The X. laevis genome has 200-250 copies of the 892 base pair EcoRI fragment and additional copies of a 4100 base pair EcoRI fragment that each contain a tRNAVal gene. Digestion of X. laevis DNA with several other restriction endonucleases reveals that the cloned fragment that contains the tRNAVal gene is part of a longer sequence element that is tandemly repeated in the genome.
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PMID:Sequence and transcription of tRNAVal gene from Xenopus laevis. 380 87

The site of Escherichia coli 16S ribosomal RNA cross-linked to the 5'-anticodon base of A site bound E. coli valyl-tRNA was identified. Cross-linking was via the affinity probe 6-[(2-nitro-4-azidophenyl)amino]caproate (NAK) or 3-[[2-[(2-nitro-4-azidophenyl)amino]ethyl]dithio]propionate (SNAP) attached to the carboxyl group of the 5'-anticodon base 5-(carboxyethoxy)uridine via an ethylenediamine spacer [Gornicki, P., Ciesiolka, J., & Ofengand, J. (1985) Biochemistry (preceding paper in this issue)]. With both probes, RNase T1 digestion of the isolated 16S RNA-tRNA covalent complex, 5'-32P postlabeling, and gel electrophoresis yielded two oligonucleotides larger than any fragments from non-cross-linked tRNA or rRNA. Appearance of the oligomers was dependent on the presence of the probe on the tRNA. Unmodified tRNA in the A and/or P sites did not yield any product. The presence of elongation factor Tu in the incubation mixture was also required. Dithiothreitol (DDT) treatment of the SNAP-induced covalent complex prior to electrophoresis also abolished the oligomers. Only the larger of the two oligomers (present in a 3:1 ratio) was sequenced. The SNAP dimer was cleaved with DTT, and the rRNA and tRNA oligomers were separated and sequenced as monomers. The NAK dimer was sequenced without cleavage by taking advantage of the differences in electrophoretic mobility among sequence and/or composition isomers of the same length. In both cases, the rRNA oligomer was identified as UACACACCG1401, and the nucleotide cross-linked was shown to be the C1400 residue. The expected tRNA modification site was also identified.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Identification of the site of cross-linking in 16S rRNA of an aromatic azide photoaffinity probe attached to the 5'-anticodon base of A site bound tRNA. 390 96

T4 mutants lacking polynucleotide kinase (pnk-) or RNA ligase (rli-) do not grow on E. coli CTr5x. During the abortive infections there accumulate host tRNA fragments that match into two species severed 3' to the anticodon. The CTr5x-specific fragments appear only transiently with wt phage, implicating the affected enzymes in phosphoryl group rearrangement and religation [David et al. (1982) Virol. 123, 480]. In a search for the vulnerable host tRNAs and putative religation products, tRNA ensembles from uninfected E. coli CTr5x or cells infected with various phage strains were fractionated and compared. A tRNA species absent from rli- infected cells but present in uninfected cells or late in wt infection was thus detected. RNase T1 finger prints of this species, isolated before or after wt infection, were compared with that of an in vitro ligated pair of CTr5x-specific fragments. The results indicated that this tRNA is cleaved upon infection and later on restored to it's original or to a very similar form, by polynucleotide kinase and RNA ligase reactions. It is suggested that depletion of such vulnerable host tRNA species underlies the restriction of pnk- or rli- phage on E. coli CTr5x.
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PMID:Host transfer RNA cleavage and reunion in T4-infected Escherichia coli CTr5x. 392 39

Yeast tRNAPhe was photoreacted with [3H]8-methoxypsoralen and the product was digested with ribonuclease T1, ribonuclease A or a combination of the two or cleaved with sodium borohydride/aniline. The oligonucleotides from these digestions were analyzed by polyacrylamide gel electrophoresis or high-pressure liquid chromatography and the psoralen-containing fragments were identified. The results indicate that one major and two minor photoreaction sites for 8-methoxypsoralen exist in yeast tRNAPhe. The major site (containing about 55% of the label) was determined as U50 in the T psi arm of the tRNA molecule while the minor sites were assigned to U59 (30% of the label) and C70 (15%) respectively. Our results suggest that psoralens may be used as photoprobes for studying conformational changes in tRNA molecules.
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PMID:Photoreaction of 8-methoxypsoralen with yeast-tRNAPhe. Identification of the major reaction sites. 393 70


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