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)

The eukaryotic ribonuclease for mitochondrial RNA processing (RNase MRP) is mainly located in the nucleoli and belongs to the small nucleolar ribonucleoprotein (snoRNP) particles. RNase MRP is involved in the processing of pre-rRNA and the generation of RNA primers for mitochondrial DNA replication. A closely related snoRNP, which shares protein subunits with RNase MRP and contains a structurally related RNA subunit, is the pre-tRNA processing factor RNase P. Up to now, 10 protein subunits of these complexes have been described, designated hPop1, hPop4, hPop5, Rpp14, Rpp20, Rpp21, Rpp25, Rpp30, Rpp38 and Rpp40. To get more insight into the assembly of the human RNase MRP complex we studied protein-protein and protein-RNA interactions by means of GST pull-down experiments. A total of 19 direct protein-protein and six direct protein-RNA interactions were observed. The analysis of mutant RNase MRP RNAs showed that distinct regions are involved in the direct interaction with protein subunits. The results provide insight into the way the protein and RNA subunits assemble into a ribonucleoprotein particle. Based upon these data a new model for the architecture of the human RNase MRP complex was generated.
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PMID:Mutual interactions between subunits of the human RNase MRP ribonucleoprotein complex. 1509 76

Ribonuclease P (RNase P) is a ribonucleoprotein complex involved in the processing of pre-tRNA. Protein Ph1877p is one of essential components of the hyperthermophilic archaeon Pyrococcus horikoshii OT3 RNase P [Biochem. Biophys. Res. Commun. 306 (2003) 666]. The crystal structure of Ph1877p was determined at 1.8A by X-ray crystallography and refined to a crystallographic R factor of 22.96% (Rfree of 26.77%). Ph1877p forms a TIM barrel structure, consisting of ten alpha-helices and seven beta-strands, and has the closest similarity to the TIM barrel domain of Escherichia coli cytosine deaminase with a root-mean square deviation of 3.0A. The protein Ph1877p forms an oblate ellipsoid, approximate dimensions being 45Ax43Ax39A, and the electrostatic representation indicated the presence of several clusters of positively charged amino acids present on the molecular surface. We made use of site-directed mutagenesis to assess the role of twelve charged amino acids, Lys42, Arg68, Arg87, Arg90, Asp98, Arg107, His114, Lys123, Lys158, Arg176, Asp180, and Lys196 related to the RNase P activity. Individual mutations of Arg90, Arg107, Lys123, Arg176, and Lys196 by Ala resulted in reconstituted particles with reduced enzymatic activities (32-48%) as compared with that reconstituted RNase P by wild-type Ph1877p. The results presented here provide an initial step for definite understanding of how archaeal and eukaryotic RNase Ps mediate substrate recognition and process 5'-leader sequence of pre-tRNA.
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PMID:Crystal structure of the ribonuclease P protein Ph1877p from hyperthermophilic archaeon Pyrococcus horikoshii OT3. 1518 52

RNase MRP is a ribonucleoprotein endoribonuclease involved in eukaryotic pre-rRNA processing. The enzyme possesses a putatively catalytic RNA subunit, structurally related to that of RNase P. A thorough structure analysis of Saccharomyces cerevisiae MRP RNA, entailing enzymatic and chemical probing, mutagenesis and thermal melting, identifies a previously unrecognised stem that occupies a position equivalent to the P7 stem of RNase P. Inclusion of this P7-like stem confers on yeast MRP RNA a greater degree of similarity to the core RNase P RNA structure than that described previously and better delimits domain 2, the proposed specificity domain. The additional stem is created by participation of a conserved sequence element (ymCR-II) in a long-range base-pairing interaction. There is potential for this base-pairing throughout the known yeast MRP RNA sequences. Formation of a P7-like stem is not required, however, for the pre-rRNA processing or essential function of RNase MRP. Mutants that can base-pair are nonetheless detrimental to RNase MRP function, indicating that the stem will form in vivo but that only the wild-type pairing is accommodated. Although the alternative MRP RNA structure described is clearly not part of the active RNase MRP enzyme, it would be the more stable structure in the absence of protein subunits and the probability that it represents a valid intermediate species in the process of yeast RNase MRP assembly is discussed.
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PMID:A conserved element in the yeast RNase MRP RNA subunit can participate in a long-range base-pairing interaction. 1527 30

In the yeast Saccharomyces cerevisiae, RNase mitochondrial RNA processing (MRP) is an essential endoribonuclease that consists of one RNA component and at least nine protein components. Characterization of the complex is complicated by the fact that eight of the known protein components are shared with a related endoribonuclease, RNase P. To fully characterize the RNase MRP complex, we purified it to apparent homogeneity in a highly active state using tandem affinity purification. In addition to the nine known protein components, both Rpr2 and a protein encoded by the essential gene YLR145w were present in our preparations of RNase MRP. Precipitation of a tagged version of Ylr145w brought with it the RNase MRP RNA, but not the RNase P RNA. A temperature-sensitive ylr145w mutant was generated and found to exhibit a rRNA processing defect identical to that seen in other RNase MRP mutants, whereas no defect in tRNA processing was observed. Homologues of the Ylr145w protein were found in most yeasts, fungi, and Arabidopsis. Based on this evidence, we propose that YLR145w encodes a novel protein component of RNase MRP, but not RNase P. We recommend that this gene be designated RMP1, for RNase MRP protein 1.
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PMID:Characterization and purification of Saccharomyces cerevisiae RNase MRP reveals a new unique protein component. 1563 77

In yeast, RNase MRP (mitochondrial RNA processing), a ribonucleoprotein precursor rRNA processing enzyme, possesses one putatively catalytic RNA and ten protein subunits and is highly related to RNase P. Structural analysis of the MRP RNA provides data that closely match a previous secondary-structure model derived from phylogenetic analysis, with the exception of an additional stem. This stem occupies an equivalent position to the P7 stem of RNase P RNA and its inclusion confers on MRP RNA a greater similarity to the core P RNA structure. In vivo studies indicate that the P7-like stem can form, but is not a part of, the active enzyme structure. Stem formation would increase RNA stability in the absence of proteins and our alternative structure may be a valid intermediate species in RNase MRP assembly. Further ongoing studies of this enzyme reveal an extensive network of interactions between subunits and a probable central role for the Pop1, Pop4 and Pop7 subunits.
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PMID:Probing the structure of Saccharomyces cerevisiae RNase MRP. 1591 46

In this study, we have used various tRNA(Tyr)Su3 precursor (pSu3) derivatives that are processed less efficiently by RNase P to investigate if the 5' leader is a target for RNase E. We present data that suggest that RNase E cleaves the 5' leader of pSu3 both in vivo and in vitro. The site of cleavage in the 5' leader corresponds to the cleavage site for a previously identified endonuclease activity referred to as RNase P2/O. Thus, our findings suggest that RNase P2/O and RNase E activities are of the same origin. These data are in keeping with the suggestion that the structure of the 5' leader influences tRNA expression by affecting tRNA processing and indicate the involvement of RNase E in the regulation of cellular tRNA levels.
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PMID:RNase E cleavage in the 5' leader of a tRNA precursor. 1608 Nov 1

RNase MRP is a ribonucleoprotein endoribonuclease involved in eukaryotic pre-rRNA processing. The enzyme possesses an RNA subunit, structurally related to that of RNase P RNA, that is thought to be catalytic. RNase MRP RNA sequences from Saccharomycetaceae species are structurally well defined through detailed phylogenetic and structural analysis. In contrast, higher eukaryote MRP RNA structure models are based on comparative sequence analysis of only five sequences and limited probing data. Detailed structural analysis of the Homo sapiens MRP RNA, entailing enzymatic and chemical probing, is reported. The data are consistent with the phylogenetic secondary structure model and demonstrate unequivocally that higher eukaryote MRP RNA structure differs significantly from that reported for Saccharomycetaceae species. Neither model can account for all of the known MRP RNAs and we thus propose the evolution of at least two subsets of RNase MRP secondary structure, differing predominantly in the predicted specificity domain.
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PMID:Secondary structure probing of the human RNase MRP RNA reveals the potential for MRP RNA subsets. 1608 61

A putative RNase P RNA gene in camelpox virus, one of the orthopoxviruses, was cloned and transcribed in vitro. No RNase P activity could be detected in vitro from camelpox virus RNase P RNA alone, or by addition of the Escherichia coli RNase P protein subunit to reaction mixtures. Camelpox virus RNase P RNA reconstituted in vitro with camel or HeLa cell extracts, which were pre-treated with micrococcal nuclease to degrade the endogenous RNase P RNA, showed no RNase P activity. Vaccinia virus, another orthopoxvirus, showed no RNase P activity in vaccinia-infected HeLa cells, even though transcription of the vaccinia RNase P RNA could be identified in the cells by both Northern blot and RNase protection assay. Camelpox virus RNase P RNA inhibited an endogenous HeLa RNase P activity by 20% in our assays. The 5S RNA showed no significant inhibition in this assay.
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PMID:Analysis of putative RNase P RNA from orthopoxviruses. 1625 70

RNase MRP is a eukaryote-specific endoribonuclease that generates RNA primers for mitochondrial DNA replication and processes precursor rRNA. RNase P is a ubiquitous endoribonuclease that cleaves precursor tRNA transcripts to produce their mature 5' termini. We found extensive sequence homology of catalytic domains and specificity domains between their RNA subunits in many organisms. In Candida glabrata, the internal loop of helix P3 is 100% conserved between MRP and P RNAs. The helix P8 of MRP RNA from microsporidia Encephalitozoon cuniculi is identical to that of P RNA. Sequence homology can be widely spread over the whole molecule of MRP RNA and P RNA, such as those from Dictyostelium discoideum. These conserved nucleotides between the MRP and P RNAs strongly support the hypothesis that the MRP RNA is derived from the P RNA molecule in early eukaryote evolution.
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PMID:Sequence analysis of RNase MRP RNA reveals its origination from eukaryotic RNase P RNA. 1654 Jun 90

Ribonuclease P (RNase P) is an ancient and essential endonuclease that catalyses the cleavage of the 5' leader sequence from precursor tRNAs (pre-tRNAs). The enzyme is one of only two ribozymes which can be found in all kingdoms of life (Bacteria, Archaea, and Eukarya). Most forms of RNase P are ribonucleoproteins; the bacterial enzyme possesses a single catalytic RNA and one small protein. However, in archaea and eukarya the enzyme has evolved an increasingly more complex protein composition, whilst retaining a structurally related RNA subunit. The reasons for this additional complexity are not currently understood. Furthermore, the eukaryotic RNase P has evolved into several different enzymes including a nuclear activity, organellar activities, and the evolution of a distinct but closely related enzyme, RNase MRP, which has different substrate specificities, primarily involved in ribosomal RNA biogenesis. Here we examine the relationship between the bacterial and archaeal RNase P with the eukaryotic enzyme, and summarize recent progress in characterizing the archaeal enzyme. We review current information regarding the nuclear RNase P and RNase MRP enzymes in the eukaryotes, focusing on the relationship between these enzymes by examining their composition, structure and functions.
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PMID:Ribonuclease P: the evolution of an ancient RNA enzyme. 1659 95

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