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)

The gene coding for Escherichia coli arginyl-tRNA synthetase (argS) was isolated as a fragment of 2.4 kb after analysis and subcloning of recombinant plasmids from the Clarke and Carbon library. The clone bearing the gene overproduces arginyl-tRNA synthetase by a factor 100. This means that the enzyme represents more than 20% of the cellular total protein content. Sequencing revealed that the fragment contains a unique open reading frame of 1734 bp flanked at its 5' and 3' ends respectively by 247 bp and 397 bp. The length of the corresponding protein (577 aa) is well consistent with earlier Mr determination (about 70 kd). Primer extension analysis of the ArgRS mRNA by reverse transcriptase, located its 5' end respectively at 8 and 30 nucleotides downstream of a TATA and a TTGAC like element (CTGAC) and 60 nucleotides upstream of the unusual translation initiation codon GUG; nuclease S1 analysis located the 3'-end at 48 bp downstream of the translation termination codon. argS has a codon usage pattern typical for highly expressed E. coli genes. With the exception of the presence of a HVGH sequence similar to the HIGH consensus element, ArgRS has no relevant sequence homologies with other aminoacyl-tRNA synthetases.
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PMID:Isolation and characterization of the gene coding for Escherichia coli arginyl-tRNA synthetase. 266 91

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

Casein kinase II purified from nuclei of Xenopus laevis oocytes is inhibited by several specific nucleic acids. This kinase, the main phosphorylating activity of the oocyte nucleus, is markedly inhibited by poly U at 10 micrograms/ml, and this polymer is a competitive inhibitor of the phosphorylation of the substrate casein (Kiapp 80 nM). M 13 phage ssDNA and unfractionated yeast tRNA also inhibit between 50 and 200 micrograms/ml. Poly C, poly A, poly AG, dsDNA and Escherichia coli rRNA do not alter activity significantly at similar concentrations. Inhibitions are reversed by RNase (poly U, tRNA) or S1 nuclease (ssDNA). Oocyte casein kinase I or rabbit cAMP-dependent protein kinase are not inhibited by poly U at 200 micrograms/ml. The sensitivity of the casein kinase II to these inhibitors suggests a regulatory role for nucleic acids in nuclear phosphorylation reactions.
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PMID:Nucleic acids can regulate the activity of casein kinase II. 279 84

The sequence of two fragments derived from the variable region of the kinetoplast maxicircle of Trypanosoma brucei has been determined. One fragment (1334 nucleotides, situated immediately upstream of the 12S and 9S ribosomal RNA genes) consists of non-repetitious DNA, which does not hybridize to other maxicircle regions. The other (844 nt, located between 1.7 and 2.55 kb downstream of the NADH-dehydrogenase subunit 5 gene) contains arrays of repetitive sequences which are also found outside this area. Hybridization analysis suggests that approximately 60% of the remaining part of the divergent region, which has not yet been fully analyzed, consists of similar sequences. Neither segment contains genes for mitochondrial proteins or tRNAs, as judged from computer analysis. This conclusion is supported by the fact that maxicircle DNA of trypanosome species other than T. brucei does not cross-hybridize to either fragment. Northern blot analysis and S1 nuclease experiments demonstrate, however, that both maxicircle regions are transcribed into RNAs of varying length (100-3000 nt), albeit at a low level. The function of these transcripts, that are derived from both DNA strands, and the likely absence of protein and tRNA genes from the variable region of the T. brucei maxicircle is discussed.
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PMID:The variable region of the Trypanosoma brucei kinetoplast maxicircle: sequence and transcript analysis of a repetitive and a non-repetitive fragment. 283 May 10

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

The metZ gene of Escherichia coli, which encodes the tRNA(f1Met), was cloned. Using the nucleotide sequence, in vitro transcription, and S1 nuclease mapping analyses, we identified the promoter region, transcriptional start point, the two tandem tRNA(f1Met) structural genes separated by an intergenic space of 33 bp, and the two Rho-independent transcriptional termination sites, in that order. We compared the promoter region of the metZ gene with that of the metY gene, which encodes the tRNA(f2Met) and is located in the promoter-proximal portion of the nusA operon. A G + C-rich sequence (5'-GCGCATCCAC-3'), similar to the corresponding sequence of the rrn promoters that are under stringent control, was found between the Pribnow box and the transcriptional start point of the metZ promoter, but not in the metY promoter region. We therefore examined the effect of guanosine 3'-diphosphate, 5'-diphosphate (ppGpp), the chemical mediator of stringent control, and found that ppGpp inhibited the transcription of the metZ gene, but not that of the metY gene. These data suggested that the promoters for metZ and metY have different physiological functions and are regulated by different mechanisms.
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PMID:Differential transcriptional control of the two tRNA(fMet) genes of Escherichia coli K-12. 284 39

The mitochondrial genome of Chlamydomonas reinhardtii, a unicellular green alga, is a linear 15.8 kilobase pair (kbp) molecule. In gene arrangement and mode of expression, as well as in size, it differs radically from the large (200-2400 kbp) mitochondrial genomes of higher plants. Heterologous hybridization experiments and nucleotide sequence analysis have revealed that C. reinhardtii mitochondrial DNA (mtDNA) is a compactly organized genome specifying at least eight proteins, a minimum of three transfer RNAs, and large subunit (LS) and small subunit (SS) ribosomal RNAs. Both strands of the mtDNA encode genetic information, with genes organized into perhaps a single transcriptional unit on each strand. Stable transcripts have been identified by Northern hybridization analysis, and transcript termini have been mapped by primer extension and S1 nuclease protection experiments. The results suggest that mature RNAs, which virtually saturate the genome, are generated by precise endonucleolytic cleavage of long precursors, with specific motifs (both primary sequence and secondary structure) implicated as processing signals. Codon usage in C. reinhardtii mitochondria is highly biased, with eight codons entirely absent from all protein-coding genes; however, even though codon usage is restricted, it appears that C. reinhardtii mtDNA cannot encode the minimum number of tRNAs needed to support mitochondrial protein synthesis. The most striking feature of C. reinhardtii mtDNA is the division of SS and LS rRNA genes into a number of separate subgenic coding segments ('modules') that are interspersed with one another and with protein-coding and tRNA genes. We have identified abundant small RNAs, transcribed from these modules, that approximate to the latter in size. This indicates that splicing of rRNA 'pieces' does not occur in this system. Rather, the mature rRNAs apparently exist and function as non-covalent complexes of small RNAs (four in SS rRNA, at least eight in LS rRNA), held together by intermolecular base pairing. These complexes contain all the conserved elements of the minimal secondary structures that define the functional core of conventional LS and SS rRNAs.
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PMID:Organization and expression of algal (Chlamydomonas reinhardtii) mitochondrial DNA. 290 63

We have used RNA gel transfer hybridization, S1 nuclease mapping and primer extension to analyze transcripts derived from several genes in Neurospora crassa mitochondria. The transcripts studied include those for cytochrome oxidase subunit III, 17S rRNA and an unidentified open reading frame. In all three cases, initial transcripts are long, include tRNA sequences, and are subsequently processed to generate the mature RNAs. We find that endpoints of the most abundant transcripts generally coincide with those of tRNA sequences. We therefore conclude that tRNA sequences in long transcripts act as primary signals for RNA processing in N. crassa mitochondria. The situation is somewhat analogous to that observed in mammalian mitochondrial systems. The difference, however, is that in mammalian mitochondria, noncoding spacers between tRNA, rRNA and protein genes are very short and in many cases non-existent, allowing no room for intergenic RNA processing signals whereas, in N. crassa mtDNA, intergenic non-coding sequences are usually several hundred nucleotides long and contain highly conserved GC-rich palindromic sequences. Since these GC-rich palindromic sequences are retained in the processed mature RNAs, we conclude that they do not serve as signals for RNA processing.
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PMID:RNA processing in Neurospora crassa mitochondria: use of transfer RNA sequences as signals. 299 Aug 93

Histidine-tRNA synthetase is one of the smallest bacterial aminoacyl-tRNA synthetases. It is less than one-half the size of the largest aminoacyl-tRNA synthetases. The entire nucleotide sequence of the Escherichia coli hisS locus was determined. The coding region is comprised of 424 codons, and the sequence was determined for 200 nucleotides on the 5'- and 3'-sides of the coding region. The translated nucleotide sequence was confirmed extensively by independent amino acid sequence information obtained by Edman degradations of purified peptides and by measurements of peptide masses by fast atom bombardment mass spectrometry. A significant sequence alignment of four bacterial aminoacyl-tRNA synthetases was reported recently (Webster, T., Tsai, H., Kula, M., Mackie, G., and Schimmel, P. (1984) Science 226, 1315-1317). Although the four enzymes vary considerably in length, this match occurs within the first 100 amino acids of each of the four enzymes and is in the segment believed to be part of the catalytic core. But no strong alignment could be found of the histidine sequence with these four tRNA synthetase sequences. This enzyme may be derived, therefore, from a different progenitor. Previous work suggested that three places in the hisS 5'-noncoding sequence could be promoter sites for RNA polymerase (Eisenbeis, S. J., and Parker, J. (1982) Gene 18, 107-114). We detected a 1400-nucleotide RNA species by RNA blot analysis with a hisS-specific probe. S1 nuclease mapping demonstrated a 5'-end to the RNA species occurs at -67 +/- 1, relative to the first nucleotide of the coding region. This position coincides with the predicted start site for transcription from one of the previously proposed promoter sites.
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PMID:Primary structure of histidine-tRNA synthetase and characterization of hisS transcripts. 299 Dec 72

During senescence in the filamentous fungus Podospora anserina, specific regions of the mitochondrial genome, termed senDNA are excised, ligated and amplified. We have cloned in their entirety three such autonomously replicating plasmids, alpha, beta and epsilon senDNA. None of these plasmids displayed cross-hybridization nor did we detect any significant DNA homology by computer analysis. The complete DNA sequence of the 2.5 kb alpha, the 5.5 kb epsilon and about 3.4 kb of the 9.8 kb beta senDNA is presented (kb = 10(3) base-pairs). These sequences were analyzed for the presence of consensus sequences common to introns, and it was found that alpha senDNA has the characteristics of a group II intron, epsilon senDNA contains three group I introns, and beta senDNA did not show relevant sequences in the 3.4 kb examined. Comparison of the 5' and 3'-flanking sequences of alpha senDNA with oxi 3 (Co I) amino acid sequences from Neurospora crassa and Saccharomyces cerevisiae revealed significant homology and provided strong support that the excised alpha senDNA itself consists entirely of an intron. Upstream from the oxi 3 gene a transfer RNA cysteine sequence was detected. beta senDNA contained four tRNA sequences, aspartic acid, serine, valine and tryptophan, and sequences homologous to URFC (untranslated reading frame C) as well as two new URFs. epsilon senDNA contained sequences homologous to ATPase 8 and URFl; URFl was interrupted by three group I introns. The excision site sequences, as located by S1 nuclease mapping were unique for each senDNA. Analysis for repeated units showed that each plasmid contained elements which could be involved in secondary structure required for the alignment of distal ends preparatory to excision. These results are interpreted in terms of the structural requirements of mobile elements including the possible involvement of reverse transcriptase in the excision-ligation-amplification process.
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PMID:Excision-amplification of mitochondrial DNA during senescence in Podospora anserina. DNA sequence analysis of three unique "plasmids". 299 55

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