EC:3.1.26.9 - FACTA Search

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Query: EC:3.1.26.9 (ribonuclease)
6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The repertoire of 4,431 open reading frames (ORFs), eight rRNA operons and 98 tRNA genes of Chromobacterium violaceum must be expressed in a regulated manner for successful adaptation to a wide variety of environmental conditions. To accomplish this feat, the organism relies on protein machineries involved in transcription, RNA processing and translation. Analysis of the C. violaceum genome showed that transcription initiation, elongation and termination are performed by the five well-known RNA polymerase subunits, five categories of sigma 70 factors, one sigma 54 factor, as well as six auxiliary elongation and termination factors. RNA processing is performed by a variety of endonucleases and exonucleases, such as ribonuclease H, ribonuclease E, ribonuclease P, and ribonuclease III, in addition to poly(A) polymerase and specific methyltransferases and pseudouridine synthases. ORFs for all ribosomal proteins, except S22, were found. Only 19 aminoacyl-tRNA synthetases were found, in addition to three aminoacyl-tRNA synthetase-related proteins. Asparaginyl-tRNA (Asn) is probably obtained by enzymatic modification of a mischarged aminoacyl-tRNA. The translation factors IF-1, IF-2, IF-3, EF-Ts, EF-Tu, EF-G, RF-1, RF-2 and RF-3 are all present in the C. violaceum genome, although the absence of selB suggests that C. violaceum does not synthesize selenoproteins. The components of trans-translation, tmRNA and associated proteins, are present in the C. violaceum genome. Finally, a large number of ORFs related to regulation of gene expression were also found, which was expected, considering the apparent adaptability of this bacterium.
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PMID:Gene expression in Chromobacterium violaceum. 1510 Sep 88

Dicer is a multidomain ribonuclease that processes double-stranded RNAs (dsRNAs) to 21 nt small interfering RNAs (siRNAs) during RNA interference, and excises microRNAs from precursor hairpins. Dicer contains two domains related to the bacterial dsRNA-specific endonuclease, RNase III, which is known to function as a homodimer. Based on an X-ray structure of the Aquifex aeolicus RNase III, models of the enzyme interaction with dsRNA, and its cleavage at two composite catalytic centers, have been proposed. We have generated mutations in human Dicer and Escherichia coli RNase III residues implicated in the catalysis, and studied their effect on RNA processing. Our results indicate that both enzymes have only one processing center, containing two RNA cleavage sites and generating products with 2 nt 3' overhangs. Based on these and other data, we propose that Dicer functions through intramolecular dimerization of its two RNase III domains, assisted by the flanking RNA binding domains, PAZ and dsRBD.
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PMID:Single processing center models for human Dicer and bacterial RNase III. 1524 44

Drosha is a member of the ribonuclease (RNase) III family that selectively processes RNAs with prominent double-stranded features. Drosha plays a key role in the generation of precursor microRNAs from primary microRNA (pri-miRNA) transcripts in animal cells, yet how Drosha recognizes its RNA substrates remains incompletely understood. Previous studies have indicated that, within the context of a larger pri-miRNA, an approximately 80-nucleotide-long RNA hairpin structure is necessary for processing by Drosha. Here, by performing in vitro Drosha processing reactions with RNA substrates of various sizes and structures, we show that Drosha function also requires single-stranded RNA extensions located outside the pri-miRNA hairpin. The sequence of these RNA extensions was largely unimportant, but a strong secondary structure within the extension or a blunt-ended pri-miRNA hairpin blocked Drosha cleavage. The requirement for single-stranded extensions on the pri-miRNA hairpin substrate for Drosha processing is currently unique among the RNase III enzymes.
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PMID:Efficient processing of primary microRNA hairpins by Drosha requires flanking nonstructured RNA sequences. 1593 81

RNA interference (RNAi) is broadly defined as a gene silencing pathway that is triggered by double-stranded RNA (dsRNA). Many variations have been described on this theme. The dsRNA trigger can be supplied exogenously, as an experimental tool, or can derive from the genome in the form of microRNAs. Gene silencing can be the result of nucleolytic degradation of the mRNA, or by translational suppression. At the heart of the pathway are two ribonuclease machines. The ribonuclease III enzyme Dicer initiates the RNAi pathway by generating the active short interfering RNA trigger. Silencing is effected by the RNA-induced silencing complex and its RNaseH core enzyme Argonaute. This review describes the discovery of these machines and discusses future lines of work on this amazing biochemical pathway.
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PMID:Dicing and slicing: the core machinery of the RNA interference pathway. 1621 39

Despite the large differences in their length and nucleotide composition, comparative analyses of the internal transcribed spacer 1 (ITS1) of widely divergent eukaryotes have suggested a simple core structure consisting of a central extended hairpin and lesser hairpin structures at the maturing junctions [Lalev, A. I., and Nazar, R. N. (1998) J. Mol. Biol. 284, 1341-1351]. In this study, the ITS1 in the pre-rRNA transcripts of Schizosaccharomyces pombe cells was examined with respect to structural features that underlie rRNA maturation. When plasmid-associated rRNA genes were expressed in vivo, a deletion of any major hairpin structure significantly reduced or eliminated both small and large subunit RNAs. Only changes in the central extended hairpin or junction regions, however, entirely eliminated plasmid-derived RNAs or resulted in elevated precursor levels. Structure-disrupting base substitutions within the RAC protein complex binding site in the extended hairpin indicated that the secondary structure was critical for rRNA maturation; composition or other changes with respect to the binding site had only modest effects. A similar disruption at the junction with the 18S rRNA also had striking effects on rRNA maturation, including a highly elevated level of unprocessed precursor and a surprisingly critical effect on 5.8S rRNA production. As previously observed with the 3' external transcribed spacer, the results are consistent with a maturation mechanism in which an initial cleavage in the 5' junction region may be directed by the RAC protein complex. Although not critical to rRNA processing, analyses of termini based on S1 nuclease protection as well as cleavage studies, in vitro, with Pac1 ribonuclease raise the possibility that in eukaryotes, as previously observed in bacteria, the RNase III homologues normally initiate the separation of the subunit RNAs.
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PMID:Parallels in rRNA processing: conserved features in the processing of the internal transcribed spacer 1 in the pre-rRNA from Schizosaccharomyces pombe. 1636 11

The specialized ribonuclease Dicer initiates RNA interference by cleaving double-stranded RNA (dsRNA) substrates into small fragments about 25 nucleotides in length. In the crystal structure of an intact Dicer enzyme, the PAZ domain, a module that binds the end of dsRNA, is separated from the two catalytic ribonuclease III (RNase III) domains by a flat, positively charged surface. The 65 angstrom distance between the PAZ and RNase III domains matches the length spanned by 25 base pairs of RNA. Thus, Dicer itself is a molecular ruler that recognizes dsRNA and cleaves a specified distance from the helical end.
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PMID:Structural basis for double-stranded RNA processing by Dicer. 1641 May 17

Human eosinophil cationic protein (ECP)/ ribonuclease 3 (RNase 3) is a protein secreted from the secondary granules of activated eosinophils. Specific properties of ECP contribute to its cytotoxic activities associated with defense mechanisms. In this work the ECP cytotoxic activity on eukaryotic cell lines is analyzed. The ECP effects begin with its binding and aggregation to the cell surface, altering the cell membrane permeability and modifying the cell ionic equilibrium. No internalization of the protein is observed. These signals induce cell-specific morphological and biochemical changes such as chromatin condensation, reversion of membrane asymmetry, reactive oxygen species production and activation of caspase-3-like activity and, eventually, cell death. However, the ribonuclease activity component of ECP is not involved in this process as no RNA degradation is observed. In summary, the cytotoxic effect of ECP is attained through a mechanism different from that of other cytotoxic RNases and may be related with the ECP accumulation associated with the inflammatory processes, in which eosinophils are present.
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PMID:The cytotoxicity of eosinophil cationic protein/ribonuclease 3 on eukaryotic cell lines takes place through its aggregation on the cell membrane. 1808 74

The study of type III RNases constitutes an important area in molecular biology. It is known that the pac1+ gene encodes a particular RNase III that shares low amino acid similarity with other genes despite having a double-stranded ribonuclease activity. Bioinformatics methods based on sequence alignment may fail when there is a low amino acidic identity percentage between a query sequence and others with similar functions (remote homologues) or a similar sequence is not recorded in the database. Quantitative structure-activity relationships (QSAR) applied to protein sequences may allow an alignment-independent prediction of protein function. These sequences of QSAR-like methods often use 1D sequence numerical parameters as the input to seek sequence-function relationships. However, previous 2D representation of sequences may uncover useful higher-order information. In the work described here we calculated for the first time the spectral moments of a Markov matrix (MMM) associated with a 2D-HP-map of a protein sequence. We used MMMs values to characterize numerically 81 sequences of type III RNases and 133 proteins of a control group. We subsequently developed one MMM-QSAR and one classic hidden Markov model (HMM) based on the same data. The MMM-QSAR showed a discrimination power of RNAses from other proteins of 97.35% without using alignment, which is a result as good as for the known HMM techniques. We also report for the first time the isolation of a new Pac1 protein (DQ647826) from Schizosaccharomyces pombe strain 428-4-1. The MMM-QSAR model predicts the new RNase III with the same accuracy as other classical alignment methods. Experimental assay of this protein confirms the predicted activity. The present results suggest that MMM-QSAR models may be used for protein function annotation avoiding sequence alignment with the same accuracy of classic HMM models.
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PMID:MMM-QSAR recognition of ribonucleases without alignment: comparison with an HMM model and isolation from Schizosaccharomyces pombe, prediction, and experimental assay of a new sequence. 1825 16

The interaction between human immunodeficiency virus type 1 (HIV-1) and RNA silencing pathways is complex and multifaceted. Essential for efficient viral transcription and supporting Tat-mediated transactivation of viral gene expression, the trans-activation responsive (TAR) element is a structured RNA located at the 5' end of all transcripts derived from HIV-1. Here, we report that this element is a source of microRNAs (miRNAs) in cultured HIV-1-infected cell lines and in HIV-1-infected human CD4+ T lymphocytes. Using primer extension and ribonuclease (RNase) protection assays, we delineated both strands of the TAR miRNA duplex deriving from a model HIV-1 transcript, namely miR-TAR-5p and miR-TAR-3p. In vitro RNase assays indicate that the lack of a free 3' extremity at the base of TAR may contribute to its low processing reactivity in vivo. Both miR-TAR-5p and miR-TAR-3p down-regulated TAR miRNA sensor activity in a process that required an integral miRNA-guided RNA silencing machinery. miR-TAR-3p exerted superior gene downregulatory effects, probably due to its preferential release from HIV-1 TAR RNA by the RNase III Dicer. Our study suggests that the TAR element of HIV-1 transcripts releases functionally competent miRNAs upon asymmetrical processing by Dicer, thereby providing novel insights into viral miRNA biogenesis.
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PMID:Identification of functional microRNAs released through asymmetrical processing of HIV-1 TAR element. 1829 84

The pst operon of Escherichia coli is composed of five genes that encode a high-affinity phosphate transport system. pst belongs to the PHO regulon, which is a group of genes and operons that are induced in response to phosphate limitation. The pst operon also has a regulatory role in the repression of PHO genes' transcription under phosphate excess conditions. Transcription of pst is initiated at the promoter located upstream to the first gene, pstS. Immediately after its synthesis, the primary transcript of pst is cleaved into shorter mRNA molecules in a ribonuclease E-dependent manner. Other ribonucleases, such as RNase III and MazF, do not play a role in pst mRNA processing. RNase E is thus at least partially responsible for processing the pst primary transcript.
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PMID:Transcriptional processing of the pst operon of Escherichia coli. 1901 89

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