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1.
RNA B is one of three abundant trimethylguanosine-capped U small nuclear RNAs (snRNAs) of Trypanosoma brucei which is not strongly identified with other U snRNAs by sequence homology. We show here that RNA B is a highly diverged U3 snRNA homolog likely involved in pre-rRNA processing. Sequence identity between RNA B and U3 snRNAs is limited; only two of four boxes of homology conserved between U3 snRNAs are obvious in RNA B. These are the box A homology, specific for U3 snRNAs, and the box C homology, common to nucleolar snRNAs and required for association with the nucleolar protein, fibrillarin. A 35-kDa T. brucei fibrillarin homolog was identified by using an anti-Physarum fibrillarin monoclonal antibody. RNA B and fibrillarin were localized in nucleolar fractions of the nucleus which contained pre-rRNAs and did not contain nucleoplasmic snRNAs. Fibrillarin and RNA B were precipitated by scleroderma patient serum S4, which reacts with fibrillarins from diverse organisms; RNA B was the only trimethylguanosine-capped RNA precipitated. Furthermore, RNA B sedimented with pre-rRNAs in nondenaturing sucrose gradients, similarly to U3 and other nucleolar snRNAs, suggesting that RNA B is hydrogen bonded to rRNA intermediates and might be involved in their processing.  相似文献   

2.
NOP1 is an essential nucleolar protein in yeast that is associated with small nucleolar RNA and required for ribosome biogenesis. We have cloned the human nucleolar protein, fibrillarin, from a HeLa cDNA library. Human fibrillarin is 70% identical to yeast NOP1 and is also the functional homologue since either human or Xenopus fibrillarin can complement a yeast nop1- mutant. Human fibrillarin is localized in the yeast nucleolus and associates with yeast small nucleolar RNAs. This shows that the signals within eucaryotic fibrillarin required for nucleolar association and nucleolar function are conserved from yeast to man. However, human fibrillarin only partially complements in yeast resulting in a temperature-sensitive growth, concomitantly altered rRNA processing and aberrant nuclear morphology. A suppressor of the human fibrillarin ts-mutant was isolated and found to map intragenically at a single amino acid position of the human nucleolar protein. The growth rate of yeast nop1- strains expressing Xenopus or human fibrillarin or the human fibrillarin suppressor correlates closely with their ability to efficiently and correctly process pre-rRNA. These findings demonstrate for the first time that vertebrate fibrillarin functions in ribosomal RNA processing in vivo.  相似文献   

3.
The methyltransferase fibrillarin is the catalytic component of ribonucleoprotein complexes that direct site-specific methylation of precursor ribosomal RNA and are critical for ribosome biogenesis in eukaryotes and archaea. Here we report the crystal structure of a fibrillarin ortholog from the hyperthermophilic archaeon Pyrococcus furiosus at 1.97A resolution. Comparisons of the X-ray structures of fibrillarin orthologs from Methanococcus jannashii and Archaeoglobus fulgidus reveal nearly identical backbone configurations for the catalytic C-terminal domain with the exception of a unique loop conformation at the S-adenosyl-l-methionine (AdoMet) binding pocket in P. furiosus. In contrast, the N-terminal domains are divergent which may explain why some forms of fibrillarin apparently homodimerize (M. jannashii) while others are monomeric (P. furiosus and A. fulgidus). Three positively charged amino acids surround the AdoMet-binding site and sequence analysis indicates that this is a conserved feature of both eukaryotic and archaeal fibrillarins. We discuss the possibility that these basic residues of fibrillarin are important for RNA-guided rRNA methylation.  相似文献   

4.
R Jansen  D Tollervey    E C Hurt 《The EMBO journal》1993,12(6):2549-2558
Yeast fibrillarin (NOP1) is an evolutionarily conserved, nucleolar protein necessary for multiple steps in ribosome biogenesis. Yeast mutants lacking a functional NOP1 gene can be complemented by human fibrillarin but are temperature sensitive for growth and impaired in pre-rRNA processing. In order to identify components which interact functionally with human fibrillarin in yeast, we isolated extragenic suppressors of this phenotype. One dominant suppressor, sof1-56, which is allele-specific for human fibrillarin and restores growth and pre-RNA processing at 35 degrees C, was cloned by in vivo complementation. The wild-type allele of SOF1 is essential for cell growth and encodes a novel 56 kDa protein. In its central domain, SOF1 contains a repeated sequence also found in beta-subunits of trimeric G-proteins and the splicing factor PRP4. A single amino acid exchange in the G beta-like repeat domain is responsible for the suppressing activity of sof1-56. Indirect immunofluorescence shows that SOF1 is located within the yeast nucleolus. Co-immunoprecipitation demonstrates the physical association of SOF1 with U3 small nucleolar RNA and NOP1. In vivo depletion of SOF1 leads to impaired pre-rRNA processing and inhibition of 18S rRNA production. Thus, SOF1 is a new component of the nucleolar rRNA processing machinery.  相似文献   

5.
Fibrillarin is a key nucleolar protein in eukaryotes which associates with box C/D small nucleolar RNAs (snoRNAs) directing 2'-O-ribose methylation of the rRNA. In this study we describe two genes in Arabidopsis thaliana, AtFib1 and AtFib2, encoding nearly identical proteins conserved with eukaryotic fibrillarins. We demonstrate that AtFib1 and AtFib2 proteins are functional homologs of the yeast Nop1p (fibrillarin) and can rescue a yeast NOP1-null mutant strain. Surprisingly, for the first time in plants, we identified two isoforms of a novel box C/D snoRNA, U60.1f and U60.2f, nested in the fifth intron of AtFib1 and AtFib2. Interestingly after gene duplication the host intronic sequences completely diverged, but the snoRNA was conserved, even in other crucifer fibrillarin genes. We show that the U60f snoRNAs accumulate in seedlings and that their targeted residue on the 25 S rRNA is methylated. Our data reveal that the three modes of expression of snoRNAs, single, polycistronic, and intronic, exist in plants and suggest that the mechanisms directing rRNA methylation, dependent on fibrillarin and box C/D snoRNAs, are evolutionarily conserved in plants.  相似文献   

6.
Fibrillarin, A Conserved Pre-ribosomal RNA Processing Protein of Giardia   总被引:5,自引:0,他引:5  
ABSTRACT The flagellated protozoan Giardia has been shown by 16S rRNA sequence analysis to be one of the most primitive of the eukaryotes. A gene encoding the protein fibrillarin, a pre-rRNA processing protein implicated in rRNA methylation and ribosome assembly, has been isolated. A genomic DN'A fragment 1,240 base pairs long containing an open reading frame of 981 base pairs (327 amino acids) was sequenced. The deduced protein sequence of 35.3 kDa is similar to other known fibrillarin sequences. The Giardia sequence includes the amino terminal glycine/arginine rich domain characteristic of eukaryotic fibrillarins but is unique in having a large number of acidic residues in this domain. Phylogenetic analysis of the available fibrillarin sequences is consistent with the assignment of Giardia to a position close to the most primitive of the eukaryotes. A monoclonal antibody to yeast fibrillarin crossreacts with a 36 kDa polypeptide from Giardia on western blots and diffusely stains both nuclei of the organism by immunofluorescence microscopy. This result is consistent with the absence of well defined nucleoli in this organism. The evolutionary conservation of fibrillarin suggests an important function for this protein in ribosome biosynthesis, and this function appears to be maintained from the archaebacteria, which lack a nucleus, to Giardia , which contains a nucleus but lacks a prominent nucleolus, to higher mammals, which have both nucleus and nucleolus.  相似文献   

7.
In order to study the structural and functional organization of the eukaryotic nucleolus, we have started to isolate and characterize nucleolar components of the yeast Saccharomyces cerevisiae. We have identified a major 38 kd nucleolar protein (NOP1), which is located within nucleolar structures resembling the dense fibrillar region of mammalian nucleoli. This 38 kd protein is conserved in evolution since affinity-purified antibodies against the yeast protein stain the nucleolus of mammalian cells in indirect immunofluorescence microscopy and the yeast protein is decorated by antibodies directed against human fibrillarin. Affinity-purified antibodies against the yeast NOP1 efficiently precipitate at least seven small nuclear RNAs involved in rRNA maturation. We have cloned the gene encoding the yeast NOP1 protein. Haploid cells carrying a disrupted copy of the gene are not viable, showing that NOP1 is essential for cell growth. The gene codes for a 34.5 kd protein which contains glycine/arginine rich sequence repeats at the amino terminus similar to those found in other nucleolar proteins. This suggests that NOP1 is in association with small nucleolar RNAs, required for rRNA processing and likely to be the homologue of the mammalian fibrillarin.  相似文献   

8.
9.
The amino terminal sequence of the 34 kD nucleolar protein B-36 isolated from the slime mold Physarum polycephalum has been determined. This portion of B-36 is rich in glycine, phenylalanine and the modified amino acid asymmetrical dimethylarginine (DMA) and is 65% identical to that for fibrillarin, a similar and potentially homologous 34 kD nucleolar protein from rat. The terminus of B-36 contains an interesting nine amino acid sequence, Gly-DMA-Gly-Gly-Phe-Gly-Gly-DMA-Gly, which is precisely repeated three times in the 110 kD nucleolar protein nucleolin. Similar sequences have also been reported in a yeast nucleolar protein (SSB-1) and several hnRNP proteins (rat A1 and brine shrimp GRP33). The conserved nature of this unusual sequence is suggestive of an important function which may include RNA-binding since several of these proteins share this feature.  相似文献   

10.
Fibrillarin is a conserved nucleolar SnoRNP with a diverse N-terminal glycine- and arginine-rich (GAR) domain in most eukaryotes. This region in human fibrillarin is known to contain modified dimethylarginines. In this report we demonstrate that recombinant murine fibrillarin is a substrate for protein arginine methyltransferase, including the purified recombinant enzyme (rat PRMT1 and yeast RMT1) and the protein methyltransferases present in lymphoblastoid cell extracts. Our results of protease digestion, methylation competition reactions, and immunoblotting with a methylarginine-specific antibody all indicate that the methylation of fibrillarin is in the N-terminal GAR domain and arginyl residues are modified. Finally, amino acid analyses revealed that the modification of recombinant murine fibrillarin forms methylarginines, mostly as dimethylarginines.  相似文献   

11.
Giardia lamblia, the ancient eukaryote does not have nucleolus but produces the fibrillarin protein that may be used for pre-rRNA processing. The nucleoli of eukaryotes contain complex population of small nucleolar RNAs, known as snoRNAs, several of which are required for rRNA processing. This report describes the full-length cloning of fibrillarin gene from Giardia lamblia, using RTPCR and the production of recombinant fibrillarin protein in Escherichia coli strain BL21 (DE3) as N-terminal His-tag protein. The condition for production of soluble protein was standardized. The expressed protein was purified by using Ni-chelation chromatography and used for functional studies. The small nuclear RNAs (snRNAs), RNA D, RNA J, and RNA H, containing box C, box D, and box C/D, respectively, of Giardia were also cloned by RTPCR. Antibody raised against the recombinant protein was used to identify the fibrillarin in giardial nuclear extract. The interaction of snRNAs with recombinant fibrillarin was followed using North-Western hybridization. Gel electrophoresis mobility shift assay demonstrated that bacterially expressed protein may participate in the in vitro interaction with RNA J, RNA H, and RNA D. Our results indicate that the recombinant fibrillarin by itself is able to bind and does not require the involvement of any other protein for this binding to the three snRNAs.  相似文献   

12.
Fibrillarin, a protein component of C/D box small nucleolar ribonucleoproteins (snoRNPs), directs 2'-O-methylation of rRNA and is also involved in other aspects of rRNA processing. A gene trap screen in embryonic stem (ES) cells resulted in an insertion mutation in the fibrillarin gene. This insertion generated a fusion protein that contained the N-terminal 132 amino acids of fibrillarin fused to a beta-galactosidase-neomycin phosphotransferase reporter. As a result, the N-terminal GAR domain was present in the fusion protein but the methyltransferase-like domain was missing. The ES cell line with the targeted fibrillarin allele was transmitted through the mouse germ line, creating heterozygous animals. Western blot analyses showed a reduction in fibrillarin protein levels in the heterozygous knockout animals. Animals homozygous for the mutation were inviable, and massive apoptosis was observed in early Fibrillarin(-/-) embryos, showing that fibrillarin is essential for development. Fibrillarin(+/-) live-born mice displayed no obvious growth defect, but heterozygous intercrosses revealed a reduced ratio of +/- to +/+ mice, showing that some of the Fibrillarin heterozygous embryos die in utero. Analyses of tissue samples and cultured embryonic fibroblasts showed no discernible alteration in pre-rRNA processing or the level of the U3 snoRNA. However, the level of the intron-encoded box C/D snoRNA U76 was clearly reduced. This suggests a high requirement for snoRNA synthesis during an early stage in development.  相似文献   

13.
We have characterized a new member (U19) of a group of mammalian small nuclear RNAs that are not precipitable with antibodies against fibrillarin, a conserved nucleolar protein associated with most of the small nucleolar RNAs characterized to date. Human U19 RNA is 200 nucleotides long and possesses 5'-monophosphate and 3'-hydroxyl termini. It lacks functional boxes C and D, sequence motifs required for fibrillarin binding in many other snoRNAs. Human and mouse RNA are 86% homologous and can be folded into similar secondary structures, a finding supported by the results of nuclease probing of the RNA. In the human genome, U19 RNA is encoded in the intron of an as yet not fully characterized gene and could be faithfully processed from a longer precursor RNA in HeLa cell extracts. During fractionation of HeLa cell nucleolar extracts on glycerol gradients, U19 RNA was associated with higher-order structures of approximately 65S, cosedimenting with complexes containing 7-2/MRP RNA, a conserved nucleolar RNA shown to be involved in 5.8S rRNA processing in yeast cells.  相似文献   

14.
Disruption of the survival motor neuron (SMN) gene leads to selective loss of spinal motor neurons, resulting in the fatal human neurodegenerative disorder spinal muscular atrophy (SMA). SMN has been shown to function in spliceosomal small nuclear ribonucleoprotein (snRNP) biogenesis and pre-mRNA splicing. We have demonstrated that SMN also interacts with fibrillarin, a highly conserved nucleolar protein that is associated with all Box C/D small nucleolar RNAs and functions in processing and modification of rRNA. Fibrillarin and SMN co-immunoprecipitate from HeLa cell extracts indicating that the proteins exist as a complex in vivo. Furthermore, in vitro binding studies indicate that the interaction between SMN and fibrillarin is direct and salt-stable. We show that the glycine/arginine-rich domain of fibrillarin is necessary and sufficient for SMN binding and that the region of SMN encoded by exon 3, including the Tudor domain, mediates the binding of fibrillarin. Tudor domain missense mutations, including one found in an SMA patient, impair the interaction between SMN and fibrillarin (as well as the common snRNP protein SmB). Our results suggest a function for SMN in small nucleolar RNP biogenesis (akin to its known role as an snRNP assembly factor) and reveal a potential link between small nucleolar RNP biogenesis and SMA.  相似文献   

15.
Yoo D  Wootton SK  Li G  Song C  Rowland RR 《Journal of virology》2003,77(22):12173-12183
Porcine reproductive and respiratory syndrome virus (PRRSV) replicates in the cytoplasm of infected cells, but its nucleocapsid (N) protein localizes specifically to the nucleus and nucleolus. The mechanism of nuclear translocation and whether N associates with particular nucleolar components are unknown. In the present study, we show by confocal microscopy that the PRRSV N protein colocalizes with the small nucleolar RNA (snoRNA)-associated protein fibrillarin. Direct and specific interaction of N with fibrillarin was demonstrated in vivo by the mammalian two-hybrid assay in cells cotransfected with the N and fibrillarin genes and in vitro by the glutathione S-transferase pull-down assay using the expressed fibrillarin protein. Using a series of deletion mutants, the interactive domain of N with fibrillarin was mapped to a region of amino acids 30 to 37. For fibrillarin, the first 80 amino acids, which contain the glycine-arginine-rich region (the GAR domain), was determined to be the domain interactive with N. The N protein was able to bind to the full-length genomic RNA of PRRSV, and the RNA binding domain was identified as the region overlapping with the nuclear localization signal situated at positions 41 to 47. These results suggest that the N protein nuclear transport may be controlled by the binding of RNA to N. The PRRSV N protein was also able to bind to both 28S and 18S ribosomal RNAs. The protein-protein interaction between N and fibrillarin was RNA dependent but independent of N protein phosphorylation. Taken together, our studies demonstrate a specific interaction of the PRRSV nucleocapsid protein with the host cell protein fibrillarin in the nucleolus, and they imply a potential linkage of viral strategies for the modulation of host cell functions, possibly through rRNA precursor processing and ribosome biogenesis.  相似文献   

16.
17.
Fibrillarin is one of the most studied nucleolar proteins. Its main functions are methylation and processing of pre-rRNA. Fibrillarin is a highly conserved protein; however, in the course of evolution from archaea to eukaryotes, it acquired an additional N-terminal glycine and arginine-rich (GAR) domain. In this review, we discuss the evolution of fibrillarin structure and its relation to the functions of the protein in prokaryotes and eukaryotes.  相似文献   

18.
Wang H  Boisvert D  Kim KK  Kim R  Kim SH 《The EMBO journal》2000,19(3):317-323
Fibrillarin is a phylogenetically conserved protein essential for efficient processing of pre-rRNA through its association with a class of small nucleolar RNAs during ribosomal biogenesis. The protein is the antigen for the autoimmune disease scleroderma. Here we report the crystal structure of the fibrillarin homologue from Methanococcus jannaschii, a hyperthermophile, at 1.6 A resolution. The structure consists of two domains, with a novel fold in the N-terminal region and a methyltransferase-like domain in the C-terminal region. Mapping temperature-sensitive mutations found in yeast fibrillarin Nop1 to the Methanococcus homologue structure reveals that many of the mutations cluster in the core of the methyltransferase-like domain.  相似文献   

19.
J M Hughes  M Ares  Jr 《The EMBO journal》1991,10(13):4231-4239
Multiple processing events are required to convert a single eukaryotic pre-ribosomal RNA (pre-rRNA) into mature 18S (small subunit), 5.8S and 25-28S (large subunit) rRNAs. We have asked whether U3 small nucleolar RNA is required for pre-rRNA processing in vivo by depleting Saccharomyces cerevisiae of U3 by conditional repression of U3 synthesis. The resulting pattern of accumulation and depletion of specific pre-rRNAs indicates that U3 is required for multiple events leading to the maturation of 18S rRNA. These include an initial cleavage within the 5' external transcribed spacer, resembling the U3 dependent initial processing event of mammalian pre-rRNA. Formation of large subunit rRNAs is unaffected by U3 depletion. The similarity between the effects of U3 depletion and depletion of U14 small nucleolar RNA and the nucleolar protein fibrillarin (NOP1) suggests that these could be components of a single highly conserved processing complex.  相似文献   

20.
Metabolic functions of fibroblasts are tightly regulated by the extracellular environment. When cultivated in tridimensional collagen lattices, fibroblasts exhibit a lowered activity of protein synthesis, especially concerning extracellular matrix proteins. We have previously shown that extracellular collagen impaired the processing of ribosomal RNA (rRNA) in nucleoli by generating changes in the expression of nucleolar proteins and a premature degradation of neosynthesized rRNA. In this study, we have investigated whether inhibiting the synthesis of fibrillarin, a major nucleolar protein with decreased expression in collagen lattices, could mimic the effects of extracellular matrix. Monolayer-cultured fibroblasts were transfected with anti-fibrillarin antisense oligodeoxynucleotides, which significantly decreased fibrillarin content. Downregulation of fibrillarin expression inhibited procollagen secretion into the extracellular medium, without altering total collagen production. No changes of pro1(I)collagen mRNA expression or proline hydroxylation were found. A concomitant intracellular retention of collagen and its chaperone protein HSP47 was found, but no effect on the production of other extracellular matrix macromolecules or remodelling enzymes was observed. These data show that collagen processing depends on unknown mechanisms, involving proteins primarily located in the nucleolar compartment with other demonstrated functions, and suggest specific links between nucleolar machinery and extracellular matrix.  相似文献   

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