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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 the enzyme responsible for endonucleolytically separating the 5'-leader sequence from precursor tRNA molecules. In bacteria, and in the nuclei and mitochondria of all eukaryotes studied so far,
RNase P
contains an RNA subunit which is necessary for activity in vitro and in vivo. In contrast, we showed earlier that partially-purified
RNase P
from spinach chloroplasts had physical properties inconsistent with the presence of any RNA. We now report that the properties of the chloroplast enzyme, after 500 to 1500-fold purification, are consistent with enzymatic activity residing in a approximately 70 kDa polypeptide. Gel filtration chromatography on Sephacryl S-200 and S-300 provides a mass for chloroplast
RNase P
of approximately 70 +/- 5 kDa. A single polypeptide of approximately 70-80 kDa can be crosslinked to iodoUMP-substituted pre-tRNA. The labeling intensity of this polypeptide corresponds closely to the peak of
RNase P
activity on Sephacryl S-200 chromatography. Unlike the bacterial ribozyme-type
RNase P
, chloroplast
RNase P
is not a metalloenzyme. We showed previously that phosphodiester bond cleavage by the E. coli RNA enzyme absolutely requires Mg2+ or Mn2+ coordinated to the pro-Rp oxygen of the scissile phosphodiester phosphate. In contrast, we now find that chloroplast
RNase P
has no such requirement, and can accurately and efficiently cleave pre-tRNA containing an Rp-thio-substitution at the scissile bond. These data are entirely consistent with the hypothesis that
RNase P
in plant chloroplasts is not a ribozyme, but a conventional protein enzyme.
...
PMID:Spinach chloroplast RNase P: a putative protein enzyme. 864 12
Ribonuclease P
(
RNase P
) is responsible for the generation of mature 5' termini of tRNA. The RNA component of this complex encodes the enzymatic activity in bacteria and is itself catalytically active under appropriate conditions in vitro. The role of the subunits in eucaryotes has not yet been established. We have partially purified
RNase P
activity from the ciliate protozoan Tetrahymena thermophila to learn more about the biochemical characteristics of
RNase P
from a lower eucaryote. The Tetrahymena
RNase P
displays a pH optimum and temperature optimum characteristic of
RNase P
enzymes isolated from other organisms. The Km of the T. thermophila enzyme for pre-tRNAGln is 1.6 x 10(-7)M, which is comparable to the values reported for other examples of
RNase P
. The Tetrahymena
RNase P
is a ribonucleoprotein complex, as supported by its sensitivity to micrococcal nuclease and proteinase K. The buoyant density of the enzyme in Cs2SO4 is 1.42 g/ml, which suggests that the RNA component of the Tetrahymena enzyme comprises a significantly greater percentage of the holoenzyme than that determined for
RNase P
of other Eucarya or Archaea. The holoenzyme has a requirement for divalent cations displaying characteristics that are unique for
RNase P
but closely resemble preferences reported for the Tetrahymena group I intron RNA. Puromycin inhibits pre-tRNA processing by the Tetrahymena complex, and implications of the similarities between recognition of tRNA by ribosomal components and
RNase P
are discussed.
...
PMID:Ribonuclease P of Tetrahymena thermophila. 866 80
Ribonuclease P
(
RNase P
) is a ribonucleoprotein responsible for the endonucleolytic cleavage of the 5'-termini of tRNAs. Ribonuclease MRP (RNase MRP) is a ribonucleoprotein that has the ability to cleave both mitochondrial RNA primers presumed to be involved in mitochondrial DNA replication and rRNA precursors for the production of mature rRNAs. Several lines of evidence suggest that these two ribonucleoproteins are related to each other, both functionally and evolutionarily. Both of these enzymes have activity in the nucleus and mitochondria. Each cleave their RNA substrates in a divalent cation dependent manner to generate 5'-phosphate and 3'-OH termini. In addition, the RNA subunits of both complexes can be folded into a similar secondary structure. Each can be immunoprecipitated from mammalian cells with Th antibodies. In yeast, both have been found to share at least one common protein. This review will discuss some of the recent advances in our understanding of the structure, function and evolutionary relationship of these two enzymes in the yeast, Saccharomyces cerevisiae.
...
PMID:The yeast, Saccharomyces cerevisiae, RNase P/MRP ribonucleoprotein endoribonuclease family. 890 93
Ribonuclease P
(
RNase P
) is a key enzyme involved in tRNA biosynthesis. It catalyses the endonucleolytic cleavage of nearly all tRNA precursors to produce 5'-end matured tRNA.
RNase P
activity has been found in all organisms examined, from bacteria to mammals. Eubacterial RNase RNA is the only known RNA enzyme which functions in trans in nature. Similar behaviour has not been demonstrated in
RNase P
enzymes examined from archaebacteria or eukaryotes. Characterisation of
RNase P
enzymes from more diverse eukaryotic species, including the slime mold Dictyostelium discoideum, is useful for comparative analysis of the structure and function of eukaryotic
RNase P
.
...
PMID:The RNase P of Dictyostelium discoideum. 890
Ribonuclease P
is responsible for the removal of leader sequences from tRNA precursors.
Ribonuclease P
is a ribonucleoprotein, and in bacteria the RNA subunit alone is catalytically active in vitro, i.e. it is a ribozyme. The
Ribonuclease P
Database is a compilation of
ribonuclease P
sequences, sequence alignments, secondary structures, three-dimensional models, and accessory information, available via the World Wide Web.
...
PMID:The ribonuclease P database. 901 49
Ribonuclease P
(
RNase P
) is an essential enzyme whose action produces the mature 5' termini of all cellular and organellar transfer RNA molecules. In bacteria, the catalytic subunit of
RNase P
is an RNA molecule which by itself can bind substrate pre-tRNA, select and hydrolyze the correct phosphodiester bond, and release product tRNA. The simple requirements of the reaction-a monovalent cation such as K+ or NH4+ and the divalent cation Mg2+ (or Mn2+)-have prompted proposals that all aspects of phosphodiester bond hydrolysis might be accomplished by one or more divalent metal cations coordinated to the enzyme or substrate. To precisely localize the ligands of catalytically-involved Mg2+, we assayed cleavage by Escherichia coli
RNase P
RNA of pre-tRNA in which specific pro-Rp phosphate oxygens were replaced with sulfur.
RNase P
cleavage was targeted to that bond, at or nearest to the normal cleavage site, at which Mg2+ or Mn2+ could be coordinated. Single-turnover kinetics demonstrated that the apparent rate constant for the hydrolysis event was determined quantitatively by the affinity of the divalent cation (Mg2+ or Mn2+) for the atom (O or S) at the pro-Rp position of the scissile phosphodiester bond. We propose a model for pre-tRNA cleavage in which an essential Mg2+ ion is coordinated directly to the pro-Rp phosphate oxygen and indirectly to two other ligands near the scissile bond: the upstream ribose 2'-hydroxyl and the downstream purine N7. This catalytic Mg2+ ion most likely positions and deprotonates a water molecule for in-line nucleophilic attack on the scissile bond phosphorus.
...
PMID:Ribonuclease P catalysis requires Mg2+ coordinated to the pro-RP oxygen of the scissile bond. 905 47
Ribonuclease P
(
RNase P
) from wheat nuclei has been purified over 1000-fold, using wheat germ extract as starting material and a combination of poly(ethylenglycol) precipitation and column chromatography. The enzyme was shown to be of nuclear origin by its characteristic ionic requirements; for optimum activity it requires 0.5-1.5 mM Mg2+, which can be partly replaced by Mn2+. With about 100 kDa, wheat nuclear
RNase P
has the lowest molecular mass reported so far for a eukaryotic
RNase P
. The enzyme has an isoelectric point of 5.0 and a buoyant density of 1.34 g/ml in CsCl, suggesting the presence of a nucleic acid component; it is, however, insensitive against treatment with micrococcal nuclease. Wheat germ
RNase P
requires an intact tertiary structure of the pre-tRNA substrate; its cleavage efficiency is also influenced by the presence of an intron, and by the nature of the 3' terminus of the substrate. The apparent Km and Vmax for an intronless plant pre-tRNA(Tyr) are 10.3 nM and 1.12 fmol/min, respectively.
...
PMID:Partial purification and characterization of nuclear ribonuclease P from wheat. 911 34
Ribonuclease P
is responsible for the 5'-maturation of tRNA precursors.
Ribonuclease P
is a ribonucleoprotein, and in bacteria the RNA subunit alone is catalytically active in vitro , i.e., it is a ribozyme. The
Ribonuclease P
Database is a compilation of
ribonuclease P
sequences, sequence alignments, secondary structures, three-dimensional models, and accessory information, available via the World Wide Web (http: //www.mbio.ncsu.edu/RNaseP/home.html ).
...
PMID:The ribonuclease P database. 939 71
Ribonuclease P
(
RNase P
) is an endonuclease that cleaves precursor tRNA to form the 5'-end of mature tRNA and is composed of a catalytic RNA subunit and a small protein subunit. The function of the protein component of Bacillus subtilis
RNase P
in catalysis of B. subtilis precursor tRNAAsp cleavage has been elucidated using steady-state kinetics, transient kinetics, and ligand affinity measurements to compare the functional properties of
RNase P
holoenzyme to
RNase P
RNA in 10 mM MgCl2, 100 mM NH4Cl. The protein component modestly affects several steps including </=10-fold increases in the rate constant for tRNA dissociation, the affinity of tRNA, and the rate constant for phosphodiester bond cleavage. However, the protein principally affects substrate binding, increasing the affinity of
RNase P
for pre-tRNAAsp by a factor of 10(4) as determined from both the ratio of the pre-tRNAAsp dissociation and association rate constants measured in 10 mM MgCl2 and a binding isotherm measured in 10 mM CaCl2 using gel filtration to separate enzyme-bound and free pre-tRNAAsp. Therefore, the main role of the protein component in
RNase P
is to facilitate recognition of pre-tRNA by enhancing the interaction between the enzyme and the 5'-precursor segment of the substrate, rather than stabilizing the tertiary structure of the folded RNA as has been observed for protein-facilitated group I intron self-splicing. Furthermore, the protein component maximizes the efficiency of
RNase P
under physiological conditions and minimizes product inhibition.
...
PMID:Protein component of Bacillus subtilis RNase P specifically enhances the affinity for precursor-tRNAAsp. 948 87
Ribonuclease P
(
RNase P
) contains a catalytic RNA that cleaves precursor tRNA (pre-tRNA) to form the mature 5'-end of tRNA. Previous kinetic analyses with mutant pre-tRNAs indicated that both C residues of the invariant 3'-terminal CCA form specific interactions with
RNase P
RNA that contribute to the energetics of substrate binding (1, 2). In the present study, we have used single-turnover kinetic analysis to investigate whether specific changes in the 3'-terminal CCA influence the rate of the chemical step through which enzyme-bound substrate is converted to product (k2). At optimal ionic strength (1.0 M NH4Cl, 25 mM MgCl2), deletion or substitution of the 3'-proximal C residue (CCA) reduced the rate of the chemical step of cleavage (k2) by 60-fold. Similar changes to the 5'-proximal C residue (CCA) or the 3'-terminal A residue (CCA) reduced k2 only a few fold. Each mutant substrate exhibited weakened affinity for Mg2+, as measured by Hill plots, and the severity of these defects correlated with the observed reductions in k2. Furthermore, elevated concentrations of Mg2+ partially, but not completely, suppress the k2 defects caused by deletion or substitution of the 3'-proximal C residue. We conclude that the 3'-CCA of pre-tRNA, particularly the 3'-proximal C residue, comprises part of the catalytic pocket formed in the pre-tRNA-
RNase P
complex and participates in the binding of Mg2+ ions that are essential for catalysis by
RNase P
RNA.
...
PMID:Participation of the 3'-CCA of tRNA in the binding of catalytic Mg2+ ions by ribonuclease P. 958 41
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