EC:3.1.27.5 - FACTA Search

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Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cleavage of the yeast pre-rRNA at site A(2) in internal transcribed spacer 1 (ITS1) requires multiple snoRNP species, whereas cleavage at site A(3),located 72 nt 3' in ITS1, requires Rnase MRP. Analyses of mutations in the pre- rRNA have revealed an unexpected link between processing at A(2) and A(3). Small substitution mutations in the 3' flanking sequence at A(2) inhibit processing at site A(3), whereas a small deletion at A(3) has been shown to delay processing at site A(2). Moreover, the combination of mutations in cis at both A(2) and A(3) leads to the synthesis of pre-rRNA species with 5' ends within the mature 18S rRNA sequence, at sites between + 482 and + 496. The simultaneous interference with an snoRNP processing complex at site A(2) and an Rnase MPRP complex at site A(3) may activate a pre-rRNA breakdown pathway. The same aberantpre-rRNA species are observed in strains with mutations in the RNA component of Rnase MRP, consistent with interactions between the processing complexes. Furthermore, genetic depletion of the snoRNA, snR30, has been shown to affect the coupling between cleavage by Rnase MRP and subsequent exonuclease digestion.We conclude that an sno-RNP-dependent processing complex that is required for A(2) cleavage and that recognizes the 3' flanking sequence at A(2), interacts with the RNase MRP complex bound to the pre-rRNA around site A(3).
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PMID:Processing of the yeast pre-rRNA at sites A(2) and A(3) is linked. 884 97

RNase MRP is a ribonucleoprotein originally identified on the basis of its ability to cleave RNA endonucleolytically from origins of mitochondrial DNA replication, rendering it a likely candidate for a role in priming leading-strand synthesis of mtDNA. In addition, a nuclear role for RNase MRP has been identified in yeast (Saccharomyces cerevisiae) ribosomal RNA processing. Consistent with a duality of function, RNase MRP has been localized to both mitochondria and nucleoli by in situ techniques. The RNA component of this ribonucleoprotein has been characterized from several different species. We previously cloned the gene for Xenopus laevis MRP RNA and showed that RNase MRP RNA is differentially expressed during amphibian development; in addition, the microinjected X. laevis RNase MRP RNA gene is correctly and efficiently transcribed in vivo. This article presents an analysis of the intracellular movement of in vivo-transcribed RNase MRP RNA in microinjected mature X. laevis oocytes. Although X. laevis MRP RNA is assembled into a ribonucleoprotein form and transported in an expected manner, human and mouse MRP RNAs exhibit markedly different transport patterns even though they are highly conserved in primary sequence. Furthermore, the only currently assigned protein (Th autoantigen) binding site in MRP RNA can be deleted without loss of nuclear export capacity. These results indicate that subtle determinants must exist for nucleocytoplasmic partitioning of this RNP and that the conserved Th autoantigen binding region appears unnecessary for the transit of in vivo-transcribed MRP RNA to the cytoplasm of mature X. laevis oocytes.
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PMID:Subtle determinants of the nucleocytoplasmic partitioning of in vivo-transcribed RNase MRP RNA in Xenopus laevis oocytes. 888 39

Anti-Sm Abs recognize Sm core proteins B'/B, D, E, F, and G, shared by U1, U2, U4-6, and U5 small nuclear ribonucleoproteins (snRNPs), while anti-nuclear ribonucleoprotein Ag (nRNP) Abs recognize the U1 RNP-specific 70K, A, and C proteins. However, although the autoimmune response to U1 snRNPs involves all components of the particle, not all are recognized equally. For example, all human anti-nRNP sera contain Abs against native U1-C, in contrast to their absence in MRL/lpr mice. In this study, autoantibody recognition of native U1 snRNPs was investigated by dissociating the particle into four components (U1-70K, U1-A, U1-C, and the Sm core particle) using 1 M MgCl2 or ribonuclease treatment. As expected, human anti-Sm and MRL/lpr sera immunoprecipitated only the Sm core proteins, and human anti-nRNP/Sm sera immunoprecipitated the Sm core proteins plus U1-C under both conditions. However, although human anti-nRNP sera immunoprecipitated U1-C when U1 snRNPs were dissociated before Ab binding, they unexpectedly immunoprecipitated the Sm core proteins when Abs were bound before dissociation. This apparent paradox was explained by the stabilizing effects of anti-nRNP sera on interactions of U1-C with the Sm core particle. All human anti-nRNP sera contained high levels of autoantibodies that prevent dissociation of U1-C from the U1 snRNP. These Abs were absent in MRL/lpr mice. Human autoimmune sera may prevent dissociation by recognizing the quaternary structure of the U1-C-Sm core protein complex or by altering its conformation. Stabilization of U1 snRNPs by autoantibodies could influence Ag processing and presentation, possibly with important effects on the development of autoimmunity to U1 snRNPs.
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PMID:Human anti-nuclear ribonucleoprotein antigen autoimmune sera contain a novel subset of autoantibodies that stabilizes the molecular interaction of U1RNP-C protein with the Sm core proteins. 914 22

In addition to the conserved and well-defined RNase H domain, eukaryotic RNases HI possess either one or two copies of a small N-terminal domain. The solution structure of one of the N-terminal domains from Saccharomyces cerevisiae RNase HI, determined using NMR spectroscopy, is presented. The 46 residue motif comprises a three-stranded antiparallel beta-sheet and two short alpha-helices which pack onto opposite faces of the beta-sheet. Conserved residues involved in packing the alpha-helices onto the beta-sheet form the hydrophobic core of the domain. Three highly conserved and solvent exposed residues are implicated in RNA binding, W22, K38 and K39. The beta-beta-alpha-beta-alpha topology of the domain differs from the structures of known RNA binding domains such as the double-stranded RNA binding domain (dsRBD), the hnRNP K homology (KH) domain and the RNP motif. However, structural similarities exist between this domain and the N-terminal domain of ribosomal protein L9 which binds to 23 S ribosomal RNA.
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PMID:NMR structure of the N-terminal domain of Saccharomyces cerevisiae RNase HI reveals a fold with a strong resemblance to the N-terminal domain of ribosomal protein L9. 1044 44

For the first time small nuclear ribonucleoprotein particles (alpha-RNP) tightly bound to chromatin as well as cytoplasmic alpha-RNP are shown to possess strong and regulated endonuclease activity specific for mRNAs and hnRNAs. The enzymatic nature of this activity is confirmed, and the optimal conditions detected. This RNase activity is controlled by the action of a differentiating stimulus, dimethylsulfoxide, in human K562 cells. Small alpha-RNP involvement in the coordinated control of stability of pre-messenger RNA and messenger RNA molecules is suggested.
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PMID:The specific endoribonuclease activity of small nuclear and cytoplasmic alpha-RNPs. 1062 35

The distribution of ribosomes in mature human mast cells, a major granulated secretory cell, does not resemble that in other secretory cells, such as pancreatic acinar cells and plasma cells. By routine ultrastructural analysis, ribosomes in human mast cells are often close to, attached to, or even appear to be within secretory granules. To document better these relationships, we used multiple electron microscopic imaging methods, based on different principles, to define RNA, ribosome, and granule relationships in mature human mast cells. These methods included EDTA regressive staining, RNase digestion, immunogold labeling of ribonucleoproteins or uridine, direct binding or binding after ultrastructural in situ hybridization of various polyuridine probes to polyadenine in mRNA, and ultrastructural autoradiographic localization of [3H]-uridine incorporated into cultured human mast cells. These different labeling methods demonstrated ribosomes, RNA, U1SnRNP (a small nuclear RNP specific for alternative splicing of mRNA), mRNA, and uridine to be associated with secretory granules in human mast cells, implicating granules in a larger synthetic role in mast cell biology.
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PMID:RNA is closely associated with human mast cell secretory granules, suggesting a role(s) for granules in synthetic processes. 1065 81

S1 proteins A-D are liberated from thoroughly washed nuclei by mild digestion with DNase I or RNase A, and extracted selectively at pH 4.9 from the reaction supernatants. Here, we characterized the S1 proteins, focusing on protein D2, the most abundant S1 protein in the rat liver, and on protein C2 as well. Using a specific antibody, McAb 351, they were shown to occur in the extranucleolar nucleoplasm, and to be extracted partly in the nuclear soluble fraction. We demonstrate that the S1 proteins in this fraction exist constituting heterogeneous nuclear ribonucleoproteins (hnRNPs), through direct binding to hnRNAs, as revealed by centrifugation on density gradients, immunoprecipitation, and UV cross-linking. In hnRNPs, protein D2 occurred at nuclease-hypersensitive sites and C2 in the structures that gave rise to 40 S RNP particles. By microsequencing, protein D2 was identified with a known protein, CArG box motif-binding factor A (CBF-A), which has been characterized as a transcriptional repressor, and C2 as its isoform protein. In fact, CBF-A expressed from its cDNA was indistinguishable from protein D2 in molecular size and immunoreactivity to McAb 351. Thus, the present results demonstrate that S1 proteins C2 and D2 are novel hnRNP proteins, and suggest that the proteins C2 and D2 act in both transcriptional and post-transcriptional processes in gene expression.
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PMID:S1 proteins C2 and D2 are novel hnRNPs similar to the transcriptional repressor, CArG box motif-binding factor A. 1143 31

RNP particles containing 20S prosomes (alpha RNP) isolated from human epidermoid carcinoma cell line A-431 are shown to posses strong and regulated endonuclease activity specific for high-molecular-weight RNA, particularly, specific mRNAs. Furthermore, alpha-RNP destabilize the 3'-untranslated regions of c-myc mRNA, creating a specific cleavage pattern. Cleavage point within Alu sequence in high-molecular-weight RNA has been localized by primer-extension method. This RNase activity is induced under the action of EGF. alpha-RNP involvement in the coordinated control of processing and stability of specific messenger RNA molecules is suggested. The endoribonuclease activity of alpha-RNP can represent a link between EGF signalling pathway and RNA processing and degradation.
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PMID:[Re-expression of various i-antigens in Dileptus anser after temporary transformation of serotype]. 1153 82

It has been shown that endoribonuclease activity of alpha-RNP particles and 26S proteasomes are changed under the action of inductors of programmed cell death. Treatment of K562 cells with inductors of apoptosis--doxorubicin (adriamycin) and diethylmaleate--lead to a significant stimulation of RNAse activity of alpha-RNP and to reduction of proteasome RNase activity. The enzymatic activity under study has been shown to be specifically and selectively dependent on phosphorylation of subunits of alpha-RNP particles and 26S proteasomes. The characteristics of RNAse activity of different subpopulations of proteasomes differ. The specificity of a subpopulation of proteasomes exported from the cell has been demonstrated. Proteasome and alpha-RNP involvement in the coordinated control of stability of various specific messenger RNA molecules is suggested, and one of the mechanisms of this control might be the export of specific subpopulation of proteasomes from the cell.
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PMID:[Selective effect of inductors of apoptosis on the endoribonuclease activity of 26S proteasomes and alpha-RNP particles in K562 cells: possible involvement of 26S proteasomes and alpha-RNP in the regulation of RNA stability]. 1521 74

The members of the serine-arginine (SR) family of proteins play multiple roles in posttranscriptional gene expression. Initially considered as essential splicing factors confined to the nucleus and regulating constitutive and alternative splicing, SR proteins are now known to shuttle between the nucleus and the cytoplasm and to be involved in mRNA biogenesis, transport, and translation. In Chironomus tentans, hrp45 is an SR protein structurally similar to the Drosophila SRp55/B52 SR protein. We have studied how hrp45, hrp36 [a heterogenous nuclear ribonucleoprotein (hnRNP) protein], and small nuclear RNP (snRNP) proteins are distributed in the transcriptionally active loci of polytene chromosomes in C. tentans. Immunofluorescence visualization of the proteins in double-labeling experiments revealed that hrp45 preferentially associates with a small number of puffs. On the other hand, hrp36 and snRNP proteins were found distributed in a large number of loci with little quantitative difference. Remarkably, hrp45-labeled loci coincide with the sites of transcription of premessenger RNPs of secretory protein (sp) genes. Because the labeling was found sensitive to RNase A treatment, we conclude that the SR protein hrp45 preferentially binds to sp gene transcripts in salivary gland cells. The preferential association of a specific SR protein with a particular type of gene transcripts reflects substrate-specific function(s) of an SR protein, in vivo. The possible roles that hrp45 might be playing in speedy and efficient processing of sp gene transcripts are discussed.
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PMID:A specific SR protein binds preferentially to the secretory protein gene transcripts in salivary glands of Chironomus tentans. 1685 90

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