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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)
Several enzymatic and chemical reagents were used to probe the secondary structure of Saccharomyces cerevisiae nuclear
RNase P
RNA in the presence and absence of its protein components. Double-stranded regions were detected with
RNase
V1 and single-stranded regions with
RNase
ONE (Escherichia coli
RNase I
). Nucleotides not paired at Watson-Crick positions were monitored with dimethyl sulfate, kethoxal, and 1-cyclohexyl-3-[2-(N-methylmorpholinio)ethyl]carbodiimide p-toluenesulfonate. The results supported most aspects of the previously proposed, phylogenetically-derived RNA secondary structure, although minor refinements allowed incorporation of both the biochemical and phylogenetic data. Digestion of the
RNase P
protein(s) with proteinase K gave enhanced reactivities to structure probes at selected positions, indicating regions of the RNA made inaccessible by the presence of the protein subunit(s). The regions of RNA protected in the yeast nuclear holoenzyme were considerably more extensive than that seen in the Escherichia coli holoenzyme, consistent with the observation that the protein moiety generally comprises a larger percentage of the
RNase P
holoenzyme in eukaryotes than in eubacteria.
...
PMID:Structure-sensitive RNA footprinting of yeast nuclear ribonuclease P. 811 Jul 80
We show that the Th/To ribonucleoprotein is defined by (i) the co-immunoprecipitation of two RNAs, (ii) the co-immunoprecipitation of four major polypeptides and (iii) the quantitative immune recognition of both
RNase P
and
RNase
MRP. No serum was found that recognizes either one of these two enzymes exclusively. The specific co-immunoprecipitation of
RNase
MRP and
RNase P
by all Th/To ribonucleoprotein autoantibodies indicates that the anti-Th/To autoimmune response is directed against both enzymes in a quantitatively indistinguishable manner. Thus the Th/To ribonucleoprotein is defined by
RNase P
and
RNase
MRP.
...
PMID:Definition of the Th/To ribonucleoprotein by RNase P and RNase MRP. 823 91
The ribozyme
ribonuclease
(
RNase
) P cleaves precursor transcripts to produce the mature 5'-end of tRNAs. This hydrolysis reaction has a divalent cation requirement that is primarily catalytic, rather than structural;
RNase P
can be considered a metalloenzyme. Kinetic analysis shows that the
RNase P
catalytic mechanism has a cooperative dependence upon Mg2+ concentration. At least three Mg2+ ions are required for optimal activity, suggesting a multiple metal ion mechanism. The 2'-OH at the site of substrate cleavage may act as a ligand for a catalytically important Mg2+: deoxyribose substitution reduces the apparent number of Mg2+ bound from three to two and increases the apparent dissociation constant for Mg2+ from the micromolar to the millimolar range. In addition to these cation effects, the deoxyribose substitution reduces the rate of catalysis by 3400-fold; substitution with 2'-O-methyl at the cleavage site reduces the catalytic rate 10(6)-fold. If we presume no significant conformational effects of the substitutions, these results suggest that the 2'-OH serves as hydrogen-bond donor. The kinetic analysis of the catalytic mechanism is based upon the characterization of the pH dependence of the reaction. There is a hyperbolic (saturable) dependence on hydroxide concentration, with the half-maximal rate achieved at pH 8.0-8.5. The rate of the cleavage step is about 200 min-1 at pH 8.0, which is 500-fold faster than the steady-state parameter kcat.
...
PMID:Multiple magnesium ions in the ribonuclease P reaction mechanism. 849 32
RNase
MRP and
RNase P
ribonucleoproteins are structurally and functionally similar across a large evolutionary distance. To better characterize possible complex interrelationships between these two enzymes, we have employed the fission yeast Schizosaccharomyces pombe. Unlike Saccharomyces cerevisiae, S. pombe is believed to harbour only one genetic locus for the RNA component of
RNase P
and does not contain a known mitochondrially encoded
RNase P
RNA. We have identified the single nuclear gene for the RNA component of
RNase
MRP in S. pombe, mrp-1, by homology to vertebrate
RNase
MRP RNAs. The mrp-1 gene encodes an RNA of maximum mature length 400 nucleotides that shares a high degree of identity, in evolutionarily conserved regions, to both vertebrate
RNase
MRP RNAs and S. pombe
RNase P
RNA. Disruption of mrp-1 in the diploid strain SP826 and sporulation of tetrads resulted in a 2 dead:2 viable segregation, consistent with the gene being essential. Lethality is rescued by a plasmid-borne copy of mrp-1. Partially purified ribonucleoprotein
RNase
MRP activity correctly and efficiently processed all previously characterized heterologous mitochondrial RNA substrates. The compact mitochondrial genome of S. pombe contains sequence elements with > 50% identity to mammalian D-loop CSBI and CSBII elements. The identification of mrp-1 in S. pombe should facilitate not only comparisons between the related ribonucleoproteins
RNase
MRP and
RNase P
, but should also provide an opportunity for genetic elucidation of
RNase
MRP function in a situation reflective of the animal kingdom.
...
PMID:Schizosaccharomyces pombe RNase MRP RNA is homologous to metazoan RNase MRP RNAs and may provide clues to interrelationships between RNase MRP and RNase P. 855 96
Mitochondrial
ribonuclease
(
RNase
) P from Aspergillus nidulans was purified to near homogeneity using whole-cell extract as the starting material. A 4400-fold purification with a yield of 5.2% was achieved by ammonium sulfate fractionation, heat treatment, and five types of column chromatography, including tRNA-affinity column chromatography. This enzyme, which has a molecular mass of 232 kDa determined by glycerol gradient sedimentation analysis, appears to be composed of seven polypeptides and an RNA moiety. These seven polypeptides consistently copurified with the
RNase P
activity through two ion-exchange chromatography columns and in a glycerol gradient. As judged by nuclease sensitivity, the enzyme requires an RNA component for its activity. The 3'-end-labeled RNAs that copurified with the enzyme displayed identical sequences but had variable lengths for the 5' end, indicating that they originated from a common RNA molecule, the putative RNA component of
RNase P
. The purified enzyme cleaved mitochondrial precursor tRNAHis, resulting in an 8-bp acceptor stem. This implies that the purified
RNase P
is a mitochondrial enzyme and that an additional guanylate residue (at position -1) of tRNAHis in A. nidulans mitochondria is generated by a mode that is analogous to the generation of their counterparts in prokaryotes and chloroplasts.
...
PMID:Purification and characterization of mitochondrial ribonuclease P from Aspergillus nidulans. 863 44
Several RNA molecules that copurified with Aspergillus nidulans mitochondrial
ribonuclease
(
RNase
) P were identified [Lee, Y C., Lee, B. J., Hwang, D. S. & Kang, H. S. (1996) Eur J. Biochem. 235, 289-296], and their partial sequences were determined. Using an oligonucleotide probe, we cloned and mapped the gene encoding this putative RNA component of
RNase P
(
RNase P
-RNA), situated between URFA3 (unidentified reading frame A3) and cobA (apocytochrome b) genes in the mitochondrial genome of A. nidulans. The gene is extremely (A+T)-rich and contains two regions of sequence similarity conserved among the known mitochondrial
RNase P
-RNAs and the eubacterial
RNase P
-RNAs. The determination of 5' and 3' termini by primer extension and sequencing indicated that the length of the RNA transcript is 232 nucleotides. Northern-blot analysis revealed that its only subcellular location was the mitochondria. Two
RNase P
-RNA fragments of 110 nucleotides and 80 nucleotides, each containing one of the two conserved regions, could be recovered from the nuclease-treated enzyme without significant loss of activity. The sizes of these fragments appeared to be the minimum lengths required for the vitro activity of the enzyme.
...
PMID:The RNA component of mitochondrial ribonuclease P from Aspergillus nidulans. 863 45
We report a detailed evolutionary study of the
RNase P
- and
RNase
MRP- associated RNAs. The analyses were performed on all the available complete sequences of
RNase
MRP (vertebrates, yeast, plant), nuclear
RNase P
(vertebrates, yeast), and mitochondrial
RNase P
(yeast) RNAs. For the first time the phylogenetic distance between these sequences and the nucleotide substitution rates have been quantitatively measured.The analyses were performed by considering the optimal multiple alignments obtained mostly by maximizing similarity between primary sequences.
RNase P
RNA and MRP RNA display evolutionary dynamics following the molecular clock. Both have similar rates and evolve about one order of magnitude faster than the corresponding small rRNA sequences which have been, so far, the most common gene markers used for phylogeny. However, small rRNAs evolve too slowly to solve close phylogenetic relationships such as those between mammals. The quicker rate of
RNase P
and MRP RNA allowed us to assess phylogenetic relationships between mammals and other vertebrate species and yeast strains. The phylogenetic data obtained with yeasts perfectly agree with those obtained by functional assays, thus demonstrating the potential offered by this approach for laboratory experiments.
...
PMID:The evolution of the RNase P- and RNase MRP-associated RNAs: phylogenetic analysis and nucleotide substitution rate. 866 Apr 29
RNase P
is a ribonucleoprotein endoribonuclease responsible for the 5' maturation of precursor tRNAs in all organisms. While analyzing mutations in conserved positions of the yeast nuclear
RNase P
RNA subunit, significant accumulation of an aberrant RNA of approximately 193 nucleotides was observed. This abundant RNA was identified as a 3'extended form of the 5.8S rRNA. This strain also displays a slightly elevated level of other rRNA processing intermediates with 5-ends at processing site A2 in the internal transcribed spacer 1 (ITS1) region of the rRNA primary transcript. To test whether pre-rRNA in the region of ITS1/5.8S/ITS2 is a substrate for
RNase P
in vitro, nuclear
RNase P
was partially purified to remove contaminating nucleases. Cleavage assays were performed using an rRNA substrate transcribed in vitro which includes the 5.8S region and its surrounding processing sites in ITS1 and ITS2. Discrete cleavages of this rRNA substrate were coincident with the peak fractions of nuclear
RNase P
, but not with fractions corresponding to mitochondrial
RNase P
or
ribonuclease
MRP RNA. The cleavage activity is sensitive to treatment with micrococcal nuclease, also consistent with an activity attributable to
RNase
R The strong
RNase P
cleavage sites were mapped and their possible relationships to steps in the rRNA processing pathway are considered. These observations suggest an intimate relationship between the processes of tRNA and rRNA maturation in the eukaryotic nucleus.
...
PMID:An RNase P RNA subunit mutation affects ribosomal RNA processing. 877 95
RNase
mitochondrial RNA processing enzyme (MRP) is a nucleolar ribonucleoprotein particle that participates in 5.8S ribosomal RNA maturation in eukaryotes. This enzyme shares a polypeptide and an RNA structural motif with
ribonuclease P
(
RNase P
), a nuclear endoribonuclease originally described in the nucleus that processes RNA transcripts to generate their mature 5' termini. Both enzymes are also located in mitochondria. This report further characterizes the relationship between
RNase
MRP and
RNase P
. Antisense affinity selection with biotinylated 2'-O-methyl oligoribonucleotides and glycerol gradient fractionation experiments demonstrated that small subpopulations of
RNase
MRP and
RNase P
associate with each other in vivo in macromolecular complex, possibly 60-80S preribosomes. This latter notion was supported by fluorescence in situ hybridization experiments with antisense oligonucleotides that localized that RNA components of
RNase
MRP and
RNase P
to the nucleolus and to discrete cytoplasmic structures. These findings suggest that small subpopulations of
RNase
MRP and
RNase P
are physically associated, and that both may function in ribosomal RNA maturation or ribosome assembly.
...
PMID:Association of RNase mitochondrial RNA processing enzyme with ribonuclease P in higher ordered structures in the nucleolus: a possible coordinate role in ribosome biogenesis. 887 59
RNase
MRP is a ribonucleoprotein enzyme with a structure similar to
RNase P
. It is required for normal processing of precursor rRNA, cleaving it in the Internal Transcribed Spacer 1.
...
PMID:RNase MRP and rRNA processing. 890 90
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