EC:3.1.30.1 - FACTA Search

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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)

Transcription start sites of chicken mitochondrial DNA have been mapped in the control region by direct sequencing of in vitro capped mitochondrial RNA species, by primer extension and by S1 nuclease protection analysis. Transcription of the heavy strand initiates predominantly at a site 156 nucleotides upstream of the tRNA(Phe) gene, i.e. about 135 nucleotides further upstream than the corresponding sites in amphibia and mammals. On the opposite strand, transcription starts predominantly one nucleotide removed from the site in the heavy strand. The L-strand position start site is similar to that found in other vertebrates. The chicken mitochondrial DNA control region thus contains one major transcriptional promoter, whose bidirectional capacity is similar to the situation in amphibia but which contrasts to the mainly unidirectional capacity of mammalian promoters. In chicken mitochondria, the sequence comprising the start sites is A + T rich and contains an almost perfect inverted repeat which can be folded into a cruciform structure. The heavy and light strand initiation sites are flanked on their respective 3' ends by an octanucleotide sequence matching those surrounding the start sites in Xenopus laevis (5'-ACPuTTATA-3'). This motif is found associated with the H-strand start sites in mouse but is not present in human nor bovine mitochondrial DNA promoters.
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PMID:The transcription of DNA in chicken mitochondria initiates from one major bidirectional promoter. 171 Feb 14

The primary structure of nuclease P1, which cleaves both RNA and single-stranded DNA, from Penicillium citrinum was elucidated. The complete amino acid sequence consisting of 270 residues was determined by analysis of peptides obtained by digestion with Achromobacter protease I of the reduced and S-aminoethylated protein and by digestion with Staphylococcus aureus V8 protease of the reduced and S-carboxymethylated protein. Four half-cystine residues were assigned to Cys72-Cys217 and Cys80-Cys85. N-Glycosylated asparagine residues were identified at positions 92, 138, 184 and 197. Fast-atom-bombardment and laser-ionization MS were successfully used to confirm the determined amino acid sequences of peptides and to estimate the molecular mass of this glycoprotein having heterogenous sugar moieties, respectively. Comparison of the amino acid sequence of nuclease P1 with other nucleases revealed that the protein has a high degree of sequence identity (50%) with nuclease S1 from Aspergillus oryzae. The His-Phe-Xaa-Asp-Ala sequence (positions 60-64) is similar to the sequence (His-Phe-Asp-Ala) involving the active-site His119 of bovine pancreatic RNase A, and the Pro-Leu-His sequence (positions 124-126) is identical with the sequence involving the active-site His134 of porcine pancreatic DNase I.
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PMID:Primary structure of nuclease P1 from Penicillium citrinum. 191 39

The promoter, operator, and 5' and 3' ends of the mRNA of the Escherichia coli gene aroG (encoding the phenylalanine-sensitive 3-deoxy-arabinoheptulosonate-7-phosphate synthase) were located. Primer extension analysis and nuclease S1 mapping of in vivo transcripts were used to determine the 5' and 3' ends, respectively, of the mRNA. Both ends exhibited some heterogeneity with respect to length. The 3' end of the major molecular species was located within a region that has structural homology with known rho-independent terminators. The location of the aroG promoter was identified in both strands of the DNA by in vitro DNase I footprinting and methylation protection experiments with RNA polymerase. In these experiments, a region of up to 80 base pairs (bp) was protected by the binding of RNA polymerase. The location of the aroG operator was also identified in both strands of the DNA by in vitro DNase I footprinting with pure TyrR. TyrR protected 26 to 28 bp of DNA containing a 22-bp palindrome (TYR R box) and overlapping the -35 region of the promoter. Mutations in the aroG regulatory DNA were isolated by site-directed mutagenesis and cloned in a low-copy-number plasmid to generate aroG-lac fusions. The effects of the mutations on the regulation of aroG expression were determined by measuring the beta-galactosidase activities of the fusions in strains with tyrR, tyrR+, and multicopy tyrR+ genotypes. The results of this mutant analysis confirmed that the aroG operator contains a single TYR R box.
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PMID:Identification of the promoter, operator, and 5' and 3' ends of the mRNA of the Escherichia coli K-12 gene aroG. 197 May 63

The +1 site for transcription initiation of the inducible 23 S rRNA adenine methylase encoded by plasmid pE194 was determined experimentally by nuclease S1 mapping of mRNA synthesized in vivo, and by nuclease T1 mapping of (5'-gamma-32P)-end-labeled transcripts synthesized in vitro. By partial digestion of the in vitro transcripts using S1 and cobra venom nuclease as probes of mRNA conformation, the analysis was extended to reveal single-stranded and double-stranded regions, respectively, which correspond to the critical stems and loops postulated for active and inactive conformations of the nascent mRNA. According to the model for induction, the transition from inactive to active conformation involves disruption of mRNA secondary structure which, in turn, is predicated on protracted occupancy by ribosomes complexed with erythromycin of one of the critical stem sequences. Ribosome occupancy of the critical stem sequence is due to the presence of an open reading frame that encodes part of a 19 amino acid residue "leader" peptide. The existence of this peptide, deduced from the nucleotide sequence of the control region upstream from the methylase structural gene, was demonstrated in vivo as part of a translational fusion with Escherichia coli beta-galactosidase in which the first four amino acid residues of the N-terminal sequence of the fusion protein, analyzed directly by the microsequencing method, were found to comprise N-terminal amino acids 2 through 5, Gly-Ile-Phe-Ser, predicted for the leader peptide.
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PMID:Messenger RNA from Staphylococcus aureus that specifies macrolide-lincosamide-streptogramin resistance. Demonstration of its conformations and of the leader peptide it encodes. 241 56

Transcription of the spo0B gene and genes downstream of it was investigated by S1 nuclease protection experiments. The spo0B gene was transcribed from a single promoter, and this transcript extended through a gene, obg, coding for a 47,668 Mr protein. Transcription of this operon ended in a stem-loop structure. The sequence of the deduced obg protein contained a region with homology to known GTP-binding proteins in the nucleotide-binding regions. The amino-terminal portion of this protein showed homology to mammalian collagen, suggesting a structural role. The purified obg protein was shown to bind [alpha-32P]GTP in vitro. Several attempts to inactivate the obg gene were unsuccessful, indicating that the obg gene product was essential for growth. The possible function of this protein and its relationship to RAS-like proteins and sporulation was discussed. Immediately downstream of the obg gene were two genes involved in phenylalanine biosynthesis, pheB and pheA. The pheA gene coded for monofunctional prephenate dehydratase, on the basis of the high homology of the deduced amino acid sequence to prephenate dehydratases of bacterial origin. The sequence of the pheB gene product was not homologous to chorismate mutase, and its function remains unknown. Transcription of the phe genes was shown to begin at the stem-loop structure between obg and pheB. The possibility was entertained that phe gene transcription arises from processing or antitermination of the spo0B transcript.
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PMID:The Bacillus subtilis spo0B stage 0 sporulation operon encodes an essential GTP-binding protein. 253 15

Yeast tRNA(Phe) and tRNA(Phe-Y) are cleaved by single strand-specific endonuclease S1 at the same positions within the anticodon loop (phosphates 34, 36 and 37) and at the 3'-terminus (phosphates 75 and 76). The efficiency of the anticodon loop hydrolysis is much higher in tRNA(Phe-Y) while the cutting at the 3'-terminus is not influenced considerably by the Y-base1 removal from yeast tRNA(Phe). The effect of the Y-base excision on the structure of the anticodon loop is discussed on the basis of the S1 digestion studies as well as other relevant results.
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PMID:Probing the anticodon loop structure in yeast tRNA(Phe-Y) with single strand-specific nuclease S1. 261 44

Total RNA from Ehrlich ascites mitochondria pretreated with RNase-free DNase was capped in vitro with [alpha-32P]GTP and guanylyl transferase. The cappable RNAs representing the primary transcripts show a heterogeneous size distribution with four major species of 46, 63, 94, and 152 nucleotides and four minor species of 19, 24, 104, and 790 nucleotides in size. Hybridization with the D-loop DNA probes shows that the 19-nucleotide-long capped RNA is coded by the H-strand of mitochondrial DNA while the rest are coded by the L-strand. S1 nuclease mapping and primer extension analyses suggest the occurrence of a transcription initiation of H-strand at about 19 nucleotides upstream from the start of the tRNA(Phe) gene. All of the L-strand cappable RNAs have a common 5' end mapping to nucleotide 16,183 +/- 5 of the genome. The 3' ends of four major cappable RNA species line up to the conserved sequence boxes, putative start sites of DH-DNA; and in fact about 2% of these cappable species are found to exist as DNA-linked RNA under steady-state conditions. The 3' end of the 790-nucleotide cappable RNA lies close to the start of the tRNA(Pro) gene, suggesting that it may be the true precursor of L-strand transcript endonucleolytically processed at the 3' end. The level of L-strand-coded cappable RNAs varies markedly under different growth conditions. Treatment with cycloheximide results in a reduction while chloramphenicol caused over 3-fold induction, suggesting that these "primer" RNAs may have an additional regulatory function.
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PMID:Characterization of primary transcripts and identification of transcription initiation sites on the heavy and light strands of mouse mitochondrial DNA. 271 42

A new method for the measurement of DNA damage in individual cells treated with alkylating agents is described. The method is based on the binding of anti-DNA monoclonal antibody to DNA in situ. Monoclonal antibody F7-26 was obtained by fusion of mouse myeloma cells with spleen cells isolated from a mouse immunized with DNA treated by nitrogen mustard (HN2). Binding of antibody was evaluated by flow cytometry with indirect immunofluorescence. No binding of antibody to DNA in non-treated HeLa S3 cells was detected. Treatment of cells with HN2 or L-phenylalanine mustard induced binding of antibody to DNA in situ. Binding of antibody was observed after treating cells with doses of drugs which reduced the surviving fraction below 20%. Intensity of binding increased in proportion to the drug dose. Two-parameter analysis for the antibody binding and DNA content showed no binding of antibody to replicating DNA in control cells. In HN2-treated cells a cell subset with the lowest antibody binding was observed among cells in G1 phase. Binding of antibody to DNA in HN2-treated cells was eliminated by single-strand (ss) specific S1 nuclease. In competition assay, antibody was inhibited by thermally denatured DNA, but not by native double-stranded (ds) DNA, RNA, nucleosides and deoxyribohomopolymers. Binding of monoclonal antibody specific for the determinants expressed on ssDNA to the cells treated with alkylating agents may be attributed to local DNA denaturation. Potentiation of L-phenylalanine mustard cytotoxicity by buthionine sulfoximine or hyperthermia was accompanied by increased antibody binding to cellular DNA. Immunoreactivity of cells with the monoclonal antibody F7-26 may be a useful probe for the assessment of cell damage induced by alkylating agents, especially in heterogeneous cell populations.
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PMID:Detection of DNA damage in individual cells by flow cytometric analysis using anti-DNA monoclonal antibody. 303 52

The nucleotide sequence of the tyrP promoter region from Escherichia coli has been determined. Two TYR R boxes have been identified, and one of these was shown to overlap the -35 region of a major tyrP promoter (p1). S1 nuclease mapping of in vivo transcripts revealed that transcription from p1 is stimulated by phenylalanine and to a lesser extent by leucine. The demonstration that mutants in which TyrR-tyrosine-mediated repression of tyrP has been abolished have single base changes in the TYR R box which overlaps p1 suggests that TyrR-tyrosine-mediated repression of tyrP also involves p1. TyrR-independent stimulation of tyrP expression by Casamino Acids involves a second promoter 140 bases upstream of p1. There are no TYR R boxes in this region. The sequences of 10 TYR R boxes preceding the genes tyrP, tyrR, and aroG and the operons aroF tyrA and aroL aroM are compared and discussed.
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PMID:Molecular analysis of the promoter operator region of the Escherichia coli K-12 tyrP gene. 352 16

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

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