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:3.1.30.1 (S1 nuclease)
3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A method was developed for large scale isolation of AGY-specific serine tRNA (tRNASerAGY) from bovine heart mitochondria. By this method, 5 A260 units of tRNASerAGY were recovered from 6.3 kg of bovine hearts. The nucleotide sequence was identical to that reported previously. tRNASerAGY showed abnormal melting profiles, as was predicted from its unique primary sequence. Its secondary and/or tertiary structure was analyzed by nuclease digestion method. It was suggested that three extra base pairs could occur in the anticodon stem region, with one adenosine residue protruding. The T loop was quite sensitive to nuclease S1, suggesting that the T loop doesn't interact with other regions. This finding is consistent with the model proposed by Sundaralingam (1980). tRNASerAGY was aminoacylated in vitro with only mitochondrial enzyme but not with the enzymes from E. coli and yeast. The aminoacylation rate of tRNASerAGY with mitochondrial enzyme was much faster than that of cytosolic tRNASerUCN, perhaps reflecting differences due to the presence and absence of the D arm of the tRNAs.
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PMID:Large scale isolation and some properties of AGY-specific serine tRNA from bovine heart mitochondria. 385 62

Deletions in cDNA clones covering the 3' 201 nucleotides of brome mosaic virus RNA 3 were produced by S1 nuclease treatment of cloned DNA linearized at several different restriction sites. Transcription of these clones yielded RNAs containing structural alterations in the 3'-terminal tRNA-like structure that is involved in aminoacylation and replication. Replicase template activity, but not aminoacylation activity, was especially sensitive to deletions in arm C, which contains a tyrosyl anticodon. Deletions in arm B were detrimental to aminoacylation, but the proportion of replicase template activity lost depended on the site of the deletion. Removal of arm D had little effect on aminoacylation and, in some instances, resulted in a 2-fold stimulation of replicase template activity.
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PMID:Deletions in the 3'-terminal tRNA-like structure of brome mosaic virus RNA differentially affect aminoacylation and replication in vitro. 386 87

Sat-RNA is one of several replicating satellite RNAs which have been isolated from RNA encapsidated in cucumber mosaic virus (CMV) and which are totally dependent on CMV for replication. The 336 residue sequence of Sat-RNA obtained using the dideoxynucleotide chain termination and partial enzymic digestion procedures shows only a few short stretches (up to 11 residues) of sequence homology with one of the three CMV genomal RNAs so far sequenced. Sat-RNA has 88% sequence homology with another, previously sequenced, satellite RNA of CMV, CARNA 5. Analysis of partial digests of 5'- or 3' -32P-Sat-RNA with nuclease S1 or RNase T1 under non-denaturing conditions showed that only about 10% of the residues in Sat-RNA were cleaved. Further data on base-paired segments of Sat-RNA were obtained using digestion with RNase T1 followed by electrophoretic fractionation of the resulting fragments under both non-denaturing and denaturing conditions. On the basis of this data, a complete secondary structure model is proposed for Sat-RNA with 52% of its residues involved in base pairs. A prominent hairpin at the 3'-terminus of Sat-RNA shows considerable sequence and structural homology with parts of the 3'-terminal tRNA-like structure of the CMV genomal RNAs.
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PMID:Satellite RNA of cucumber mosaic virus forms a secondary structure with partial 3'-terminal homology to genomal RNAs. 618 89

A model is presented according to which cauliflower mosaic virus (CaMV) DNA is replicated via an RNA intermediate. The model explains the typical S1 nuclease-sensitive sites in mature CaMV DNA, the occurrence of the large, terminally redundant transcript, the local separation of CaMV transcription and CaMV assembly, the abundance of knotted CaMV DNA forms, and the high recombination frequency. A site of perfect homology to plant tRNA was detected. Extracts from a mixture of nuclei and inclusion bodies can be separated into fast-sedimenting complexes elongating endogenous CaMV RNA, and slow-sedimenting ones elongating endogenous CaMV DNA. The CaMV DNA synthesis can be partly inhibited both by RNAase and actinomycin D, suggesting the presence of a mixture of RNA- and DNA-templates.
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PMID:Involvement of reverse transcription in the replication of cauliflower mosaic virus: a detailed model and test of some aspects. 619 68

Methidiumpropyl-EDTA.Fe(II) [MPE.Fe(II)] in the presence of dithiothreitol, is shown to cleave phenylalanine-accepting tRNA (tRNAPhe) in a structure-specific fashion. Molar ratios of MPE.Fe(II) to tRNAPhe of less than 1 preferentially cleave phosphodiester bonds known to occur in double-stranded regions of the tRNAPhe molecule. Microdensitometric analysis of autoradiograms of MPE.Fe(II) cleavage products following gel electrophoresis reveals a correspondence between preferred sites of MPE.Fe(II) cleavage and sites in tRNAPhe most sensitive to cobra venom ribonuclease, a double-strand-specific endoribonuclease. Conversely, sites of cleavage by the single-strand-specific S1 nuclease correspond to those nucleotides that are least susceptible to MPE.Fe(II) hydrolysis. Sensitive helical regions in tRNAPhe include the dihydrouracil and the "T psi C" stems, which cannot be detected by cobra venom ribonuclease because of steric constraints. Phosphodiester bonds within the T psi C and dihydrouracil loop regions, which are not detected by S1 nuclease under rigorously controlled digestion conditions, are revealed by inference from their relative insensitivity to MPE.Fe(II). These results demonstrate the utility of MPE.Fe(II) as a general small molecular weight probe of RNA structure, having a greater accessibility to base-paired regions than do the more bulky enzymic probes.
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PMID:RNA structure analysis using methidiumpropyl-EDTA.Fe(II): a base-pair-specific RNA structure probe. 620 9

Ribonuclease T2, nuclease S1, and snake venom phosphodiesterase were used as a structural probe for investigation of the interaction between Escherichia coli tRNAfMet and methionyl-tRNA synthetase, and the cleavage sites were analyzed by a rapid sequencing gel electrophoresis of 5'-32P-labeled tRNA. Both endonucleases cleaved the D-loop of synthetase-bound tRNA much more extensively than that of the free tRNA. Positions of A14, G15, A22, and G23 in the D-loop and C35 in the anticodon of the synthetase-bound tRNA were more susceptible to RNase T2. The synthetase-bound tRNA was predominantly cleaved by nuclease S1 at position of G15, G19, G20, and G23 in the D-loop and G2 in the acceptor stem. In contrast, the synthetase-bound tRNA was more resistant to the 3'-exonuclease, snake venom phosphodiesterase, than was the free tRNA molecule. These results suggest conformational change of the tRNA by the synthetase binding which weakened tertiary interaction between the D-loop and T psi C-loop/extra-loop. Production of acid-soluble radioactivity was also examined in the limited digestion of 5'-32P-labeled tRNA or 3'-14C-labeled methionyl-tRNA. The synthetase enhanced the release of acid-soluble oligonucleotides from the 5'-end of the tRNA but suppressed that from the 3'-end of the molecule. These results are consistent with that obtained by gel electrophoresis.
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PMID:Methionyl-tRNA synthetase-induced conformational change of Escherichia coli tRNAfMet. 626 70

Rat liver 5S rRNA and 5.8S rRNA were end-labelled with 32P at 5'-end or 3'-end of the polynucleotide chain and partially digested with single-strand specific S1 nuclease and double-strand specific endonuclease from the cobra Naja naja oxiana venom. The parallel use of these two structure-specific enzymes in combination with rapid sequencing technique allowed the exact localization of single-stranded and double-stranded regions in 5S RNA and 5.8 S RNA. The most accessible regions to S1 nuclease in 5S RNA are regions 33-42, 74-78, 102-103 and in 5.8 S RNA 16-20, 26-29, 34-36, 74-80 and a region around 125-130. The cobra venom endonuclease cleaves the following areas in 5S RNA: 7-8, 17-20, 28-30, 49-51, 56-57, 60-64, 69-70, 81-82, 95-97, 106-112. In 5.8S RNA the venom endonuclease cleavage sites are 4-7, 10-13, 21-22, 33-35, 43-45, 51-55, 72-74, 85-87, 98-99, 105-106, 114-115, 132-135. According to these results the tRNA binding sequences proposed by Nishikawa and Takemura [(1974) FEBS Lett. 40, 106-109], in 5S RNA are located in partly single-stranded region, but in 5.8S RNA in double-stranded region.
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PMID:Location of single-stranded and double-stranded regions in rat liver ribosomal 5S RNA and 5.8S RNA. 627 19

We have determined the DNA sequence surrounding the transcription terminator following rpoC, the gene that codes for the beta' subunit of RNA polymerase in E. coli K12. The 2044 bp sequence obtained contains the distal 335 codons of rpoC followed by a 212 bp non-coding region and a second open reading frame (ORFa) of 179 codons. The final 181 nucleotides of the sequence form the 5' end of a third open reading frame (ORFb). The in vivo 3' end of the rpoC mRNA was located by analysis of RNA/DNA hybrids cleaved with nuclease S1 (S1 mapping). These results indicated that the major transcription termination of the rplJL-rpoBC transcription unit occurs a short distance past the translation stop codon for rpoC. Four regions of symmetry, suggesting secondary structure in the mRNA, were found in the DNA sequence near the rpoC translation termination codon. The last of these hairpin structures is similar to other rho-independent transcription terminators and its 3' end coincides with the end of the rpoC mRNA as predicted by S1-mapping. Inspection of the open reading frames indicates that rpoC uses a high percentage of codons that are recognized by the major tRNA species of E. coli while ORFa and ORFb contain many codons recognized by minor tRNA species. ORFa specifies a very basic peptide.
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PMID:Nucleotide sequence at the end of the gene for the RNA polymerase beta' subunit (rpoC). 627 50

A combination of several enzymes, RNase-T1, nuclease S1, T4-polynucleotide kinase and T4-RNA ligase were used to prepare and modify different fragments of yeast tRNAAsp (normal anticodon G U C). This allowed us to reconstitute, in vitro, a chimeric tRNA that has any of the four bases G, A, U or C, as the first anticodon nucleotide, labelled with (32p) in its 3' position. Such reconstituted (32p) labelled yeast tRNAAsp were microinjected into the cytoplasm or the nucleus of the frog oocyte and checked for their stability as well as for their potential to work as a substrate for the maturation (modifying) enzymes under in vivo conditions. Our results indicate that the chimeric yeast tRNAsAsp were quite stable inside the frog oocyte. Also, the G34 was effectively transformed inside the cytoplasm of frog oocyte into Q34 and mannosyl-Q34; U34 into mcm5s2U and mcm5U. In contrast, C34 and A34 were not transformed at all neither in the cytoplasm nor in the nucleus of the frog oocyte. The above procedure constitutes a new approach in order to detect the presence of a given modifying enzyme inside the frog oocyte; also it provides informations about its cellular location and possibility about its specificity of interaction with foreign tRNA.
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PMID:Enzymatic replacement in vitro of the first anticodon base of yeast tRNAAsp: application to the study of tRNA maturation in vivo, after microinjection into frog oocytes. 628 19

The oxi2 gene of yeast mitochondrial DNA was previously shown to code for subunit 3 of cytochrome oxidase (Thalenfeld, B.E., and Tzagoloff, A. (1980) J. Biol. Chem. 255, 6173-6180). In Saccharomyces cerevisiae D273-10B, a 3.6-kilobase (kb) transcript has been mapped to the oxi2 region of mitochondrial DNA. This transcript, presumed to be the messenger RNA of subunit 3, has been characterized by Northern hybridization analysis and by S1 nuclease mapping. The 3.6-kb transcript has a 5' untranslated leader of 490 nucleotides followed by a 807-nucleotide long coding sequence and a 3' extension of approximately 2450 nucleotides. The nucleotide sequence of the coding region in the 3.6-kb transcript is identical with the gene sequence, thus excluding the presence of introns in the oxi2 gene. Analysis of mitochondrial RNA in cytoplasmic petite mutants containing the oxi2 gene, but with varying lengths of flanking sequences, suggest the presence of a common promoter for oxi2 and the upstream valine tRNA. The promoter has been mapped to a 400-nucleotide long region located on the 5' side of the tRNA gene. Generation of the mature subunit 3 mRNA must, therefore, involve the excision of the tRNA from the primary transcript.
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PMID:Assembly of the mitochondrial membrane system. Characterization of the oxi2 transcript and localization of its promoter in Saccharomyces cerevisiae D273-10B. 629 16


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