EC:3.1.26.5 - FACTA Search

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Query: EC:3.1.26.5 (RNase P)
1,348 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ribonuclease P (RNase P) is a ribonucleoprotein enzyme which participates in processing precursor tRNAs. The RNA subunit contains the catalytic site and is capable of catalysis in the absence of the protein subunit. RNase P RNAs from various eubacteria consist of a core of conserved sequence and secondary structure which is evolutionarily modified in different organisms by the presence of discrete helical elements at various sites in the RNAs. The variable occurrence of these helical elements suggests that they have no important functional role in the enzyme. The Escherichia coli RNase P RNA contains four such elements. It has been shown that simultaneous deletion of all four of them produces an RNA that is functional but has several significant defects which could arise from general disruption of the RNA or from the loss of element-specific functions. This paper describes a more detailed analysis of the role of the variable elements in E. coli RNase P RNA. Removal of one of the elements had no apparent effect on RNase P activity in vitro. Two other elements are required for correct folding of the RNA: their absence confers a requirement for extremely high monovalent salt concentrations, apparently to reduce intramolecular electrostatic repulsion. The fourth element that was tested participates in a long-range structural interaction (pseudoknot) which contributes to the structural stability of the enzyme and affects substrate binding affinity. In the absence of this helix, the RNA becomes temperature-sensitive, and the KM increases 100-fold.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contributions of phylogenetically variable structural elements to the function of the ribozyme ribonuclease P. 137 Jun 27

Mammalian MRP (for mitochondrial RNA processing) RNA, also known as 7-2 RNA, is a nuclear encoded small RNA which has been reported to function in two different cellular compartments: in the mitochondria and in the nucleus. The ribonucleoprotein particle which contains the 7-2/MRP RNA, called RNase MRP, has ribonucleolytic activity and shares some structural similarity with RNase P. It has been proposed that in mitochondria, the RNase MRP is responsible for endonucleolytic cleavage of primer RNA during DNA replication. We have characterized the gene and cDNAs encoding 7-2/MRP-like RNA in Arabidopsis and tobacco, and found that in plants this RNA is enriched in nucleoli but is undetectable in purified mitochondria isolated from tobacco leaves or cells grown in suspension. In glycerol gradients tobacco 7-2/MRP RNA cosediments with large approximately 80S structures possibly representing ribosomal precursors. Fractionation of HeLa cells has also revealed that 7-2/MRP resides in the nucleolus and that most of it is associated with complexes sedimenting at approximately 80S, similar to those containing the U3 nucleolar RNA which is known to participate in pre-rRNA processing. These results indicate that the 7-2/MRP ribonucleoparticle may be involved in ribosome biogenesis, in both plant and mammalian cells.
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PMID:7-2/MRP RNAs in plant and mammalian cells: association with higher order structures in the nucleolus. 138 78

In order to facilitate studies of the assembly and transport of the site-specific RNase mitochondrial RNA processing (MRP) ribonucleoprotein, we have characterized it from Xenopus laevis cells. X. laevis RNase MRP displayed a similar spectrum of cleavage activity to that produced by previously isolated mammalian nuclear enzymes. A 277-nucleotide RNA component of the ribonucleoprotein was identified; the gene for the RNA was isolated, sequenced, and found to be 66 and 63% similar to mouse and human RNase MRP RNAs, respectively. Despite the evolutionary distance from its mammalian counterparts, X. laevis RNase MRP RNA contains five regions of homology to the mammalian RNase MRP RNA. Four of these regions correspond to those previously identified as conserved between RNase MRP and RNase P RNAs; the fifth encompasses nucleotides recently discovered to be sufficient for autoantigen binding. The expression and assembly of Xenopus RNase MRP RNA were examined in frog oocytes and developing embryos. RNase MRP RNA was expressed throughout oogenesis; it started to accumulate at stage I and reached a maximum in stage IV. During embryogenesis RNase MRP RNA expression began to elevate at approximately stage 22 and continued to rise through the swimming tadpole stage. When injected into the nucleus of mature oocytes, the X. laevis RNase MRP RNA gene was expressed accurately, and transcripts were packaged into immunoprecipitable particles.
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PMID:Characterization of a Xenopus laevis ribonucleoprotein endoribonuclease. Isolation of the RNA component and its expression during development. 138 27

1. The presence of polyamines in the growth medium of Escherichia coli can modulate the activity of the RNA-processing enzyme, ribonucleoprotein ribonuclease P (RNase P), by altering the expression of the rnpA and rnpB genes, which encode its C5 protein and M1 RNA subunits, respectively. 2. Following growth in the presence of 1 mM spermidine the levels of C5 protein mRNA and catalytic M1 RNA were significantly elevated in the wild type E. coli K-12 strain MG1655. 3. The rnpA mRNA, together with the ribosomal protein L34 (rpmH) mRNA, was found to constitute a dicistronic rpmH-rnpA message whose half-life did not change upon Escherichia coli growth in the presence of spermidine. 4. This suggests that the spermidine effect is on the transcriptional level. 5. Increased expression of the rnpA and rnpB genes was reflected in the activity of RNase P, which almost doubled. 6. These results identify yet another component of the protein synthetic machinery which is specifically affected by polyamines.
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PMID:Modulation of ribonuclease P expression in Escherichia coli by polyamines. 139 90

Rat liver ribonuclease P was isolated from a cytosolic fraction and shown to have optimal activity in the presence of 1 mM MgCl2 and 150-200 mM KCl using Escherchia coli pre-tRNA(Tyr) as substrate. In cesium sulfate isopycnic density gradients, the enzyme had a buoyant density of 1.36 g/ml, indicating that it is a ribonucleoprotein complex. Analysis of the RNAs in the enzyme sample purified through two successive Cs2SO4 density gradient steps revealed the copurification of two major species of RNA (RRP1 and RRP2) along with several less abundant RNAs. Rat liver ribonuclease P activity was insensitive to micrococcal nuclease pretreatment. However, the nuclease-treated preparations contained several incompletely degraded RNA species that may have been sufficient to support the ribonuclease P activity. When RNase A was substituted for micrococcal nuclease, the ribonuclease P activity was diminished by greater than 90%, suggesting the requirement for an RNA subunit for activity.
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PMID:Characterization of ribonuclease P isolated from rat liver cytosol. 160 34

Ribonuclease P RNA is the catalytic moiety of the ribonucleoprotein enzyme that removes precursor sequences from 5'-ends of pre-tRNAs. A photoaffinity cross-linking agent was coupled to the substrate phosphate on which RNase P acts and used to map nucleotides in the vicinity of the catalytic site of this ribozyme. Mature tRNA(Phe) containing a 5'-thiophosphate was synthesized by transcription in vitro using phage T7 RNA polymerase in the presence of guanosine 5'-phosphorothioate. The photoagent (azidophenacyl) was coupled uniquely to the 5'-thiophosphate of the tRNA, the site of action by RNase P. The photoagent-containing tRNA binds to RNase P RNA and is cross-linked by UV irradiation to it at high efficiency (10-30%). Cross-linked conjugates are enzymatically inactive, consistent with the occupancy of the active site of the RNase P RNA by the tRNA. Reversal of the cross-link by phenylmercuric acetate restores activity. The sites of cross-linking in RNase P RNA were determined by primer extension. In order to identify generalities and detect idiosyncrasies, analyses were carried out using RNase P RNAs from three phylogenetically diverse organisms: Bacillus subtilis, Chromatium vinosum and Escherichia coli. In the context of a phylogenetic structure model, two regions of cross-linking are observed in all three RNAs. Two of the RNAs cross-link to a lesser extent at a third structural region and one of the RNAs is cross-linked to a small extent to a fourth region. All the sites of cross-linking between the substrate phosphate in tRNA and the RNase P RNAs are in the conserved core of the structure model, consistent with the importance of the cross-linked residues to the action of this RNA enzyme.
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PMID:Mapping the active site of ribonuclease P RNA using a substrate containing a photoaffinity agent. 170 Nov 42

The biosynthesis of some mitochondrial enzymes requires contributions of both the mitochondrial and nuclear genomes. The ribonucleoprotein enzyme Ribonuclease P (RNase P) is composed of a mitochondrial encoded RNA and nuclear coded protein in many yeasts, including C. glabrata. We have determined that there are at least two sites of transcription initiation that contribute to the expression of the mitochondrial RNase P RNA. A nonanucleotide promoter sequence is located upstream of the initiator tRNA while the other site of initiation of transcription is at an undetermined upstream site. An analysis of the transcripts from the region of the RNase P gene demonstrates directly that the RNase P RNA is present in large primary transcripts and located between the precursors to the initiator tRNAf(Met) and tRNA(Pro) genes. Thus this enzyme subunit is synthesized with some of its substrate tRNAs. An activity with cleavage site specificity like a previously described endonuclease that cleaves near the 3' end of tRNAs, RNase P activity and one or more additional endonucleases or exonucleases not described previously are required to convert the primary transcript to its final functional RNAs.
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PMID:RNase P RNA in Candida glabrata mitochondria is transcribed with substrate tRNAs. 195 82

RNA components have been identified in preparations of RNase P from a number of eucaryotic sources, but final proof that these RNAs are true RNase P subunits has been elusive because the eucaryotic RNAs, unlike the procaryotic RNase P ribozymes, have not been shown to have catalytic activity in the absence of protein. We previously identified such an RNA component in Saccharomyces cerevisiae nuclear RNase P preparations and have now characterized the corresponding, chromosomal gene, called RPR1 (RNase P ribonucleoprotein 1). Gene disruption experiments showed RPR1 to be single copy and essential. Characterization of the gene region located RPR1 600 bp downstream of the URA3 coding region on chromosome V. We have sequenced 400 bp upstream and 550 bp downstream of the region encoding the major 369-nucleotide RPR1 RNA. The presence of less abundant, potential precursor RNAs with an extra 84 nucleotides of 5' leader and up to 30 nucleotides of 3' trailing sequences suggests that the primary RPR1 transcript is subjected to multiple processing steps to obtain the 369-nucleotide form. Complementation of RPR1-disrupted haploids with one variant of RPR1 gave a slow-growth and temperature-sensitive phenotype. This strain accumulates tRNA precursors that lack the 5' end maturation performed by RNase P, providing direct evidence that RPR1 RNA is an essential component of this enzyme.
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PMID:Characterization of RPR1, an essential gene encoding the RNA component of Saccharomyces cerevisiae nuclear RNase P. 199 Feb 78

Sera from certain patients with systemic lupus erythematosus (SLE) and related rheumatic diseases contain antibodies that selectively deplete extracts of HeLa cells of RNase P activity. Most of the sera that recognize RNase P, an endoribonuclease with an essential RNA subunit, also contain antibodies against another small ribonucleoprotein known as the Th antigen. A species of RNA about 400 nucleotides in length is the only RNA species found in common in all immunoprecipitates prepared with anti-RNase P antibodies. The discovery of antibodies against RNase P defines a major class of antibodies produced by patients with autoimmune disease.
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PMID:Antibodies in human serum that precipitate ribonuclease P. 245 70

Ribonuclease P (RNase P) RNA is the catalytic moiety of the ribonucleoprotein enzyme that removes precursor sequences from the 5' ends of pre-transfer RNAs in eubacteria. Phylogenetic variation according to recently proposed secondary structure models was used to identify structural elements of the RNase P RNA that are dispensable for catalysis. A simplified RNase P RNA that consists only of evolutionarily conserved features was designed, synthesized, and characterized. Although the simplified RNA (Min 1 RNA) is only 263 nucleotides in length, in contrast to the 354 to 417 nucleotides of naturally occurring RNase P RNAs, its specificity of pre-tRNA cleavage is identical to that of the native enzymes. Moreover, the catalytic efficiencies of the Min 1 RNA and the native RNA enzymes are similar. These results focus the search for the catalytic elements of RNase P RNAs to their conserved structure.
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PMID:The design and catalytic properties of a simplified ribonuclease P RNA. 247 71

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