EC:3.1.27.1 - FACTA Search

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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autoimmune serum from a patient with scleroderma was shown by indirect immunofluorescence to label nucleoli in a variety of cells tested including: rat kangaroo PtK2, Xenopus A6, 3T3, HeLa, and human peripheral blood lymphocytes. Immunoblot analysis of nucleolar proteins with the scleroderma antibody resulted in the labeling of a single protein band of 34 kD molecular weight with a pI of 8.5. Electron microscopic immunocytochemistry demonstrated that the protein recognized by the scleroderma antiserum was localized exclusively in the fibrillar region of the nucleolus which included both dense fibrillar and fibrillar center regions. Therefore, we have named this protein "fibrillarin". Fibrillarin was found on putative chromosomal nucleolar organizer regions (NORs) in metaphase and anaphase, and during telophase fibrillarin was found to be an early marker for the site of formation of the newly forming nucleolus. Double label indirect immunofluorescence and immunoelectron microscopy on normal, actinomycin D-segregated, and DRB-treated nucleoli showed that fibrillarin and nucleolar protein B23 were predominantly localized to the fibrillar and granular regions of the nucleolus, respectively. RNase A and DNase I digestion of cells in situ demonstrated that fibrillarin was partially removed by RNase and completely removed by DNase. These results suggest that fibrillarin is a widely occurring basic nonhistone nucleolar protein whose location and nuclease sensitivity may indicate some structural and/or functional role in the rDNA-containing dense fibrillar and fibrillar center regions of the nucleolus.
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PMID:Fibrillarin: a new protein of the nucleolus identified by autoimmune sera. 293 2

Little information exists on how various nucleolar proteins function in ribosome biogenesis. Of special interest is that group of nucleolar proteins which are not incorporated into mature ribosomes because they are candidates for a role in the regulation of ribosome construction. Non-ribosomal nucleolar proteins can be analyzed using autoimmune sera from scleroderma patients which often contain antinucleolar antibodies. One such serum, designated ScBr, is shown by indirect immunofluorescence to react specifically with nucleoli in cells of 3 different mammalian species, indicating that the antigen is at least partly conserved evolutionarily. It is not RNase-sensitive, but is completely eliminated after incubation with pronase and 2 M NaCl. Immuno-electron microscopy was carried out on Lowicryl ultrathin sections to localize the antigen. The labeling was observed over both the granular and the dense fibrillar component but not the fibrillar centers, indicating that the antigen is associated with ribosomal RNA transcription sites and ribosome assembly into precursor particles. In addition, the antibody was localized to small nucleoplasmic entities, termed dense nuclear bodies. This could indicate a relationship between nucleoli and dense nuclear bodies. By immunoprecipitation, only a single protein of 94 kDa molecular weight was revealed. By immunoblotting, the band at 94 kDa was found to be the only positive band for high ScBr dilutions. Observation of the behavior of the antigen during mitosis revealed that it became dispersed into the cytoplasm after breakdown of the nuclear envelope, lining most of the chromosomes rather than remaining associated with the NOR-chromosomes. The antigen appeared to be restored to nucleoli only in late telophase; phase-dense prenucleolar bodies of early telophase cells did not show positive staining for the antigen. During actinomycin-D RNA synthesis inhibition as well as in non-stimulated lymphocytes the positive staining is greatly decreased. These results were consistent with a role for the 94 kDa nucleolar protein in the process of preribosome assembly.
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PMID:Autoimmune serum containing an antibody against a 94 kDa nucleolar protein. 306 5

Previous studies in our laboratory have indicated the presence of nucleolar antigens in tumors which were not detected in normal tissues. Some of the polyclonal antisera produced in these studies were shown to identify a Mr, 145,000 nucleolar antigen on immunoblots of tumor nucleoli but not in normal human liver nucleoli. A monoclonal antibody to a Mr 145,000 nucleolar protein (p145) was produced by immunization of mice with a nucleolar extract of HeLa cells which is enriched with this antigen. The monoclonal antibody showed bright nucleolar immunofluorescence localization in a broad range of human tumors including cancers of the gastrointestinal tract, genitourinary tract, lung, liver, muscle, cartilage, and blood. The p145 nucleolar antigen was not detected in most normal human tissues or in benign tumors, with only weak nucleolar staining observed in spermatogonia of the testes and in ductal regions of some hypertrophied prostates. Nucleolar antigen p145 was extracted from HeLa cell nucleoli by homogenization in a 0.01 M Tris buffer containing 0.2% deoxycholate. On sucrose density gradient centrifugation, the antigen remained sedimented with the nucleolar ribonucleoprotein fraction. Nucleolar antigen p145 was released from ribonucleoproteins following treatment with 4 M guanidinium hydrochloride or RNase. Peptide mapping of nucleolar antigen p145 showed that it was distinct from other known nucleolar antigens. Although it remains to be determined if the p145 antigen plays a role in cell transformation, maintenance of the malignant phenotype, or in cell division, it may have value as a tumor marker or as a therapeutic target.
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PMID:Identification and partial characterization of a nucleolar antigen with a molecular weight of 145,000 found in a broad range of human cancers. 351 18

Protein B23 is an abundant nucleolar protein and putative ribosome assembly factor. The protein was analyzed for ribonuclease activity using RNA-embedded gels and perchloric acid precipitation assays. Three purified bacterially expressed forms of the protein, B23.1, B23.2 and an N-terminal polyhistidine tagged B23.1 as well as the natural protein were found to have ribonuclease activity. However, the specific activity of recombinant B23.1 was approximately 5-fold greater than that of recombinant B23.2. The activity was insensitive to human placental ribonuclease inhibitor, but was inhibited by calf thymus DNA in a dose dependent manner. The enzyme exhibited activity over a broad range of pH with an apparent optimum at pH 7.5. The activity was stimulated by but not dependent on the presence of low concentrations of Ca2+, Mg2+ or NaCl. The Ca2+ effect was saturable and only stimulatory in nature. In contrast, Mg2+ and NaCl exhibited optimal concentrations for stimulation and both inhibited the ribonuclease at concentrations above these optima. These data suggest that protein B23 has intrinsic ribonuclease activity. The location of protein B23 in subcompartments of the nucleolus that contain preribosomal RNA suggests that its ribonuclease activity plays a role in the processing of preribosomal RNA.
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PMID:The ribonuclease activity of nucleolar protein B23. 747 45

The dynamic intra-nuclear localization of MRP RNA, the RNA component of the ribonucleoprotein enzyme RNase MRP, was examined in living cells by the method of fluorescent RNA cytochemistry (Wang, J., L.-G. Cao, Y.-L. Wang, and T. Pederson. 1991. Proc. Natl. Acad. Sci. USA. 88:7391-7395). MRP RNA very rapidly accumulated in nucleoli after nuclear microinjection of normal rat kidney (NRK) epithelial cells. Localization was specifically in the dense fibrillar component of the nucleolus, as revealed by immunocytochemistry with a monoclonal antibody against fibrillarin, a known dense fibrillar component protein, as well as by digital optical sectioning microscopy and 3-D stereo reconstruction. When MRP RNA was injected into the cytoplasm it was not imported into the nucleus. Nuclear microinjection of mutant MRP RNAs revealed that nucleolar localization requires a sequence element (nucleotides 23-62) previously implicated as a binding site for a nucleolar protein, the To antigen. These results demonstrate the dynamic localization of MRP RNA in the nucleus and provide important insights into the nucleolar targeting of MRP RNA.
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PMID:Dynamic localization of RNase MRP RNA in the nucleolus observed by fluorescent RNA cytochemistry in living cells. 855 35

Three of the four eukaryotic ribosomal RNA molecules (18S, 5.8S and 25-28S) are synthesized as a single precursor which is subsequently processed into the mature rRNAs by a complex series of cleavage and modification reactions. In the yeast Saccharomyces cerevisiae, the early pre-rRNA cleavages at sites A0, A1 and A2, required for the synthesis of 18S rRNA, are inhibited in strains lacking RNA or protein components of the U3, U14, snR10 and snR30 small nucleolar ribonucleoproteins (snoRNPs). The subsequent cleavage at site A3, required for formation of the major, short form of 5.8S rRNA, is carried out by another ribonucleoprotein, RNase MRP. A screen for mutations showing synthetic lethality with deletion of the non-essential snoRNA, snR10, identified a novel gene, RRP5, which is essential for viability and encodes a 193 kDa nucleolar protein. Genetic depletion of Rrp5p inhibits the synthesis of 18S rRNA and, unexpectedly, also of the major short form of 5.8S rRNA. Pre-rRNA processing is concomitantly impaired at sites A0, A1, A2 and A3. This distinctive phenotype makes Rrp5p the first cellular component simultaneously required for the snoRNP-dependent cleavage at sites A0, A1 and A2 and the RNase MRP-dependent cleavage at A3 and provides evidence for a close interconnection between these processing events. Putative RRP5 homologues from Caenorhabditis elegans and humans were also identified, suggesting that the critical function of Rrp5p is evolutionarily conserved.
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PMID:RRP5 is required for formation of both 18S and 5.8S rRNA in yeast. 889 63

Protein B23 is an abundant nucleolar protein and a putative ribosome assembly factor which possesses an intrinsic ribonuclease activity. In the current work, the effects of RNA sequence and secondary structure on the cleavage preference by protein B23 were studied. Protein B23 ribonuclease preferentially cleaved the single-stranded homopolymers poly(A), poly(U) and poly(C). However, double-stranded co-polymers and poly(G) were resistant to cleavage. No base specificity was observed with an oligoribonucleotide substrate. The action of protein B23 ribonuclease on different regions of pre-rRNA was studied using transcripts synthesized in vitro from cloned rDNA segments. Although no specific cleavages were detected in transcripts containing sequences from the 5' external transcribed spacer or the first internal transcribed spacer, the enzyme preferentially cleaved the second internal transcribed spacer (ITS2) approximately 250 nt downstream from the 3'-end of 5.8S rRNA. Preferential cleavage was retained when the transcript was extended by 100 nt at the 3'-end, but abolished in a transcript lacking this cleavage site. Furthermore, this site was not susceptible to cleavage by RNase A or RNase T1. These results, in conjunction with the sub-nucleolar localization of the protein with elements of the processing machinery, suggest that the protein B23 endoribonuclease could play a role in pre-rRNA processing in ITS2.
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PMID:Preferential cleavage in pre-ribosomal RNA byprotein B23 endoribonuclease. 974 56

Specific aims were to characterize the onset of nucleolar and extranucleolar transcription and expression of the nucleolar protein fibrillarin during preimplantation development in vitro in macaque embryos using autoradiographic and immunocytochemical techniques. Autoradiography was performed on whole embryos cultured with [3H]uridine for assessment of nucleolar (rRNA) and extranucleolar (mRNA) transcription. Expression of fibrillarin was immunocytochemically assessed in whole embryos using a primary antibody against fibrillarin and a fluorescein isothiocyanate-conjugated secondary antibody. Extranucleolar incorporation of [3H]uridine was first detected in 2-cell embryos cultured 6-10 h with [3H]uridine. Culture with alpha-amanitin prevented incorporation of label in 2-cell embryos, and treatment with ribonuclease reduced the signal to background levels, indicating that [3H]uridine was incorporated into mRNA and not rRNA or DNA. Nucleolar incorporation of [3H]uridine was not evident in pronucleate-stage or 2- to 5-cell embryos, but it was detected in one 6-cell embryo and in all 8-cell to blastocyst-stage embryos. Fibrillarin was first expressed in some 6- to 7-cell embryos, but it was consistently expressed in all 8-cell embryos. Fibrillarin was localized to the perimeter of the nucleolar precursor bodies, forming a ring that completely encapsulated these structures. Fibrillarin was not expressed in 8- to 16-cell embryos cultured with alpha-amanitin, indicating that it is transcribed, rather than recruited, at the 8-cell stage. In conclusion, in in vitro-fertilized macaque embryos developing in vitro, extranucleolar synthesis of mRNA is initiated at the 2-cell stage while the onset of nucleolar transcription occurs at the 6- to 8-cell stage, coincident with expression of fibrillarin.
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PMID:Onset of nucleolar and extranucleolar transcription and expression of fibrillarin in macaque embryos developing in vitro. 1002 22

Protein B23 is a multifunctional nucleolar protein whose cellular location and characteristics strongly suggest that it is a ribosome assembly factor. The protein has nucleic acid binding, ribonuclease, and molecular chaperone activities. To determine the contributions of unique polypeptide segments enriched in certain classes of amino acid residues to the respective activities, several constructs that produced N- and C-terminal deletion mutant proteins were prepared. The C-terminal quarter of the protein was shown to be necessary and sufficient for nucleic acid binding. Basic and aromatic segments at the N- and C-terminal ends, respectively, of the nucleic acid binding region were required for activity. The molecular chaperone activity was contained in the N-terminal half of the molecule, with important contributions from both nonpolar and acidic regions. The chaperone activity also correlated with the ability of the protein to form oligomers. The central portion of the molecule was required for ribonuclease activity and possibly contains the catalytic site; this region overlapped with the chaperone-containing segment of the molecule. The C-terminal, nucleic acid-binding region enhanced the ribonuclease activity but was not essential for it. These data suggest that the three activities reside in mainly separate but partially overlapping segments of the polypeptide chain.
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PMID:Mapping the functional domains of nucleolar protein B23. 1082 26

The nucleolus and specific nucleolar proteins are involved in the life cycles of some plant and animal viruses, but the functions of these proteins and of nucleolar trafficking in virus infections are largely unknown. The ORF3 protein of the plant virus, groundnut rosette virus (an umbravirus), has been shown to cycle through the nucleus, passing through Cajal bodies to the nucleolus and then exiting back into the cytoplasm. This journey is absolutely required for the formation of viral ribonucleoprotein particles (RNPs) that, themselves, are essential for the spread of the virus to noninoculated leaves of the shoot tip. Here, we show that these processes rely on the interaction of the ORF3 protein with fibrillarin, a major nucleolar protein. Silencing of the fibrillarin gene prevents long-distance movement of groundnut rosette virus but does not affect viral replication or cell-to-cell movement. Repressing fibrillarin production also localizes the ORF3 protein to multiple Cajal body-like aggregates that fail to fuse with the nucleolus. Umbraviral ORF3 protein and fibrillarin interact in vitro and, when mixed with umbravirus RNA, form an RNP complex. This complex has a filamentous structure with some regular helical features, resembling the RNP complex formed in vivo during umbravirus infection. The filaments formed in vitro are infectious when inoculated to plants, and their infectivity is resistant to RNase. These results demonstrate previously undescribed functions for fibrillarin as an essential component of translocatable viral RNPs and may have implications for other plant and animal viruses that interact with the nucleolus.
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PMID:Interaction of a plant virus-encoded protein with the major nucleolar protein fibrillarin is required for systemic virus infection. 1757 25

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