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1.
A protein essential for pre-mRNA splicing, the U2 auxiliary factor (U2AF), is composed of a large and small subunit. Previously
we cloned and characterized both subunits, spU2AF59 and spU2AF23, from fission yeast. We now report a novel U2AF-associated-protein, spUAP2, which interacts with both subunits. SpUAP2 contains a classical and a degenerate RNA recognition motif (RRM),
both of which are required for interaction with spU2AF59. Interaction also requires the arginine/serine-rich region and the first RRM of spU2AF59. A null allele of the gene for spUAP2 is lethal.
Received: 23 May / Accepted: 6 August 1997 相似文献
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The geminivirus nuclear shuttle protein is a virulence factor that suppresses transmembrane receptor kinase activity 下载免费PDF全文
Despite the large number of leucine-rich-repeat (LRR) receptor-like-kinases (RLKs) in plants and their conceptual relevance in signaling events, functional information is restricted to a few family members. Here we describe the characterization of new LRR-RLK family members as virulence targets of the geminivirus nuclear shuttle protein (NSP). NSP interacts specifically with three LRR-RLKs, NIK1, NIK2, and NIK3, through an 80-amino acid region that encompasses the kinase active site and A-loop. We demonstrate that these NSP-interacting kinases (NIKs) are membrane-localized proteins with biochemical properties of signaling receptors. They behave as authentic kinase proteins that undergo autophosphorylation and can also phosphorylate exogenous substrates. Autophosphorylation occurs via an intermolecular event and oligomerization precedes the activation of the kinase. Binding of NSP to NIK inhibits its kinase activity in vitro, suggesting that NIK is involved in antiviral defense response. In support of this, infectivity assays showed a positive correlation between infection rate and loss of NIK1 and NIK3 function. Our data are consistent with a model in which NSP acts as a virulence factor to suppress NIK-mediated antiviral responses. 相似文献
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Interleukin-18 (IL-18) plays an important role in host defense against microbial pathogens. Many poxviruses encode homologous IL-18 binding proteins (IL-18BP) that neutralize IL-18 activity. Here, we examined whether IL-18BP neutralizes IL-18 activity by binding to the same region of IL-18 where IL-18 receptor (IL-18R) binds. We introduced alanine substitutions to known receptor binding sites of human IL-18 and found that only the substitution of Leu5 reduced the binding affinity of IL-18 with IL-18BP of variola virus (varvIL-18BP) by more than 4-fold. The substitutions of Lys53 and Ser55, which were not previously known to be part of the receptor binding site but that are spatially adjacent to Leu5, reduced the binding affinity to varvIL-18BP by approximately 100- and 7-fold, respectively. These two substitutions also reduced the binding affinity with human IL-18R alpha subunit (hIL-18Ralpha) by 4- and 2-fold, respectively. Altogether, our data show that varvIL-18BP prevents IL-18 from binding to IL-18R by interacting with three residues that are part of the binding site for hIL-18Ralpha. 相似文献
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We previously described a novel homozygous point mutation (FGB c.115-600A>G) located deep within intron 1 of the fibrinogen beta gene (FGB), as a likely cause of afibrinogenemia. While this was the only mutation detected, its pathological mechanism was unclear. Here we show the mutation causes the inclusion of a 50-bp cryptic exon by creating a consensus heptad motif recognized by the spliceosome recruiting protein pre-mRNA splicing factor (SF2)/arginine/serine-rich alternative splicing factor (ASF) splicing factor 2/alternative splicing factor (SF2/ASF). Translation of the aberrant mRNA would result in truncation of the Bbeta chain, preventing fibrinogen synthesis. Selective introduction of a second mutation into the enhancer motif abolished the SF2/ASF binding motif and re-established normal pre-mRNA splicing. Subsequent introduction of antisense phosphorodiamidate morpholino oligonucleotides (PMOs) into transfected cells containing the mutant construct blocked the protein-RNA interaction and successfully restored normal splicing ( approximately 50% at 2 microM and approximately 90% at 10 microM). The molecular characterization of this case has revealed a unique disease mechanism, shown the importance of screening for deep intronic mutations, and provided evidence that antisense gene therapy is potentially practical for the treatment of diseases caused by this class of mutation. 相似文献
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Davidovic L Bechara E Gravel M Jaglin XH Tremblay S Sik A Bardoni B Khandjian EW 《Human molecular genetics》2006,15(9):1525-1538
The fragile X syndrome, the leading cause of inherited mental retardation, is due to the inactivation of the fragile mental retardation 1 gene (FMR1) and the subsequent absence of its gene product FMRP. This RNA-binding protein is thought to control mRNA translation and its absence in fragile X cells leads to alteration in protein synthesis. In neurons, FMRP is thought to repress specific mRNAs during their transport as silent ribonucleoparticles (mRNPs) from the cell body to the distant synapses which are the sites of local synthesis of neuro-specific proteins. The mechanism by which FMRP sorts out its different mRNAs targets might be tuned by the intervention of different proteins. Using a yeast two-hybrid system, we identified MicroSpherule Protein 58 (MSP58) as a novel FMRP-cellular partner. In cell cultures, we found that MSP58 is predominantly present in the nucleus where it interacts with the nuclear isoform of FMRP. However, in neurons but not in glial cells, MSP58 is also present in the cytoplasmic compartment, as well as in neurites, where it co-localizes with FMRP. Biochemical evidence is given that MSP58 is associated with polyribosomal poly(A)+ mRNPs. We also show that MSP58, similar to FMRP, is present on polyribosomes prepared from synaptoneurosomes and that it behaves as an RNA-binding protein with a high affinity to the G-quartet structure. We propose that this novel cellular partner for FMRP escorts FMRP-containing mRNP from the nucleus and nucleolus to the somato-dendritic compartment where it might participate in neuronal translation regulation. 相似文献
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Natalia P Kisseljova Petr Dmitriev Alexey Katargin Elena Kim Daria Ezerina Diana Markozashvili Daria Malysheva Emmeline Planche Richard J L F Lemmers Silvère M van der Maarel Dalila Laoudj-Chenivesse Marc Lipinski Yegor S Vassetzky 《European journal of human genetics : EJHG》2014,22(9):1117-1123
Mechanisms that regulate attachment of the scaffold/matrix attachment regions (S/MARs) to the nuclear matrix remain largely unknown. We have studied the effect of simple sequence length polymorphism (SSLP), DNA methylation and chromatin organization in an S/MAR implicated in facioscapulohumeral dystrophy (FSHD), a hereditary disease linked to a partial deletion of the D4Z4 repeat array on chromosome 4q. This FSHD-related nuclear matrix attachment region (FR-MAR) loses its efficiency in myoblasts from FSHD patients. Three criteria were found to be important for high-affinity interaction between the FR-MAR and the nuclear matrix: the presence of a specific SSLP haplotype in chromosomal DNA, the methylation of one specific CpG within the FR-MAR and the absence of histone H3 acetylated on lysine 9 in the relevant chromatin fragment. 相似文献
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Background : For a stem cell population to exist over an extended period, a balance must be maintained between self‐renewing (proliferating) and differentiating daughter cells. Within the Caenorhabditis elegans germ line, this balance is controlled by a genetic regulatory pathway, which includes the canonical Notch signaling pathway. Results : Genetic screens identified the gene teg‐1 as being involved in regulating the proliferation versus differentiation decision in the C. elegans germ line. Cloning of TEG‐1 revealed that it is a homolog of mammalian CD2BP2, which has been implicated in a number of cellular processes, including in U4/U6.U5 tri‐snRNP formation in the pre‐mRNA splicing reaction. The position of teg‐1 in the genetic pathway regulating the proliferation versus differentiation decision, its single mutant phenotype, and its enrichment in nuclei, all suggest TEG‐1 also functions as a splicing factor. TEG‐1, as well as its human homolog, CD2BP2, directly bind to UAF‐1 U2AF65, a component of the U2 auxiliary factor. Conclusions : TEG‐1 functions as a splicing factor and acts to regulate the proliferation versus meiosis decision. The interaction of TEG‐1 CD2BP2 with UAF‐1 U2AF65, combined with its previously described function in U4/U6.U5 tri‐snRNP, suggests that TEG‐1 CD2BP2 functions in two distinct locations in the splicing cascade. Developmental Dynamics 241:505–521, 2012.© 2012 Wiley Periodicals, Inc. 相似文献
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Santiago T Kulemzin SV Reshetnikova ES Chikaev NA Volkova OY Mechetina LV Zhao M Davis RS Taranin AV Najakshin AM Hendershot LM Burrows PD 《International immunology》2011,23(1):43-53
Fc receptor-like A (FCRLA) is an unusual member of the extended Fc receptor family. FCRLA has homology to receptors for the Fc portion of Ig (FCR) and to other FCRL proteins. However, unlike these other family representatives, which are typically transmembrane receptors with extracellular ligand-binding domains, FCRLA has no predicted transmembrane domain or N-linked glycosylation sites and is an intracellular protein. We show by confocal microscopy and biochemical assays that FCRLA is a soluble resident endoplasmic reticulum (ER) protein, but it does not possess the amino acid sequence KDEL as an ER retention motif in its C-terminus. Using a series of deletion mutants, we found that its ER retention is most likely mediated by the amino terminal partial Ig-like domain. We have identified ER-localized Ig as the FCRLA ligand. FCRLA is unique among the large family of Fc receptors, in that it is capable of associating with multiple Ig isotypes, IgM, IgG and IgA. Among hemopoietic cells, FCRLA expression is restricted to the B lineage and is most abundant in germinal center B lymphocytes. The studies reported here demonstrate that FCRLA is more broadly expressed among human B lineage cells than originally reported; it is found at significant levels in resting blood B cells and at varying levels in all B-cell subsets in tonsil. 相似文献
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The vasculature is protected from complement activation by regulatory molecules expressed on endothelial cells. However, complement fixation also occurs on subendothelial extracellular matrix (ECM) in vitro, and is initiated simply by retraction or removal of overlying cells. To investigate mechanisms controlling vascular complement activation, we examined subendothelial ECM for the presence of complement regulatory proteins. Decay-accelerating factor (DAF) was found on both human umbilical vein endothelial cells (HUVEC) and in their ECM; in contrast, membrane cofactor protein was found only on cells. ECM and HUVEC DAF were distinguishable based on several properties. While HUVEC DAF is anchored to cell membranes by a phospholipase C-sensitive glycosylphosphatidylinositol linkage, DAF was removed from ECM only by proteolytic digestion. Cytokines (TNF-α, IL-1β, IL-4) increased HUVEC DAF expression, but had minimal effect on ECM DAF; in contrast, phorbol 12-myristate 13-acetate (PMA) and wheat germ agglutinin markedly increased DAF on both HUVEC and ECM. The effect of PMA was mediated by activation of protein kinase C. The complement regulatory potential of ECM DAF was assessed by evaluating the effect of DAF-neutralizing antibodies on C3 deposition on HUVEC ECM, as well as on HeLa cell ECM, which had a considerably higher DAF content. DAF blockade enhanced C3 deposition on HeLa ECM, but had no effect on HUVEC ECM. As ECM DAF is likely to be immobile, i.e. able to interact only with C3 convertases forming in the immediate vicinity, its ability to regulate complement activation may be particularly density dependent, and contingent on endothelial-dependent up-regulation. 相似文献
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Ast Gil; Goldblatt Drora; Waisman Ari; Sperling Ruth; Mozes Edna; Sperling Joseph 《International immunology》1994,6(8):1097-1105
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Hepatitis C virus (HCV) RNA replication requires viral nonstructural proteins as well as cellular factors. Recently, a cellular protein, synaptotagmin-binding, cytoplasmic RNA-interacting protein (SYNCRIP), also known as NSAP1, was found to bind HCV RNA and enhance HCV IRES-dependent translation. We investigate whether this protein is also involved in the HCV RNA replication. We found that SYNCRIP was associated with detergent-resistant membrane fractions and colocalized with newly-synthesized HCV RNA. Knock-down of SYNCRIP by siRNA significantly decreased the amount of HCV RNA in the cells containing a subgenomic replicon or a full-length viral RNA. Lastly, an in vitro replication assay after immunodepletion of SYNCRIP showed that SYNCRIP was directly involved in HCV RNA replication. These findings indicate that SYNCRIP has dual functions, participating in both RNA replication and translation in HCV life cycle. 相似文献
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Glycogen storage disease II (GSDII), also called Pompe disease, is an autosomal recessive inherited disease caused by a defect in glycogen metabolism due to the deficiency of the enzyme acid alpha‐glucosidase (GAA) responsible for its degradation. So far, more than 500 sequence variants of the GAA gene have been reported but their possible involvement on the pre‐messenger RNA splicing mechanism has not been extensively studied. In this work, we have investigated, by an in vitro functional assay, all putative splicing variants within GAA exon 2 and flanking introns. Our results show that many variants falling in the canonical splice site or the exon can induce GAA exon 2 skipping. In these cases, therefore, therapeutic strategies aimed at restoring protein folding of partially active mutated GAA proteins might not be sufficient. Regarding this issue, we have tested the effect of antisense oligonucleotides (AMOs) that were previously shown capable of rescuing splicing misregulation caused by the common c.‐32‐13T>G variant associated with the childhood/adult phenotype of GSDII. Interestingly, our results show that these AMOs are also quite effective in rescuing the splicing impairment of several exonic splicing variants, thus widening the potential use of these effectors for GSDII treatment. 相似文献
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Patient with three euchromatic supernumerary marker chromosomes derived from chromosomes 1, 12, and 18: Characterization and evaluation of the aberrations 下载免费PDF全文
Gesa Schwanitz Javad Karim Zad Hagh Isa Abdi Rad Mir Davood Omrani Ulrike Gamerdinger Regine Schubert Miriam Elbracht Thomas Eggermann Katja Eggermann Sabrina Spengler Herdit Schüler Magdalena Gogiel 《American journal of medical genetics. Part A》2014,164(3):736-740
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DEAD/H-box proteins are involved in various aspects of RNA metabolism. Here we report the developmental function of a DEAD-box protein, DDX-23, in Caenorhabditis elegans, which has significant homology with the yeast splicing factor PRP28. We found by RNAi and mutant analyses that DDX-23 is essential for both embryonic and post-embryonic development, and required for differentiation of the majority of somatic tissues. When the germline function of ddx-23 was inhibited, hermaphrodite animals showed a reduced number of germ cells and failed to switch from spermatogenesis to oogenesis. These phenotypes were similar to those of the mutants of the three DEAH-box proteins (MOG-1, MOG-4, and MOG-5) whose yeast orthologs are involved in the pre-mRNA splicing pathway. We speculate that DDX-23 functions with the three MOG proteins in the same pathway to regulate tissue differentiation, robust germline proliferation, and the sperm/oocyte switch through modulations of ribonucleoprotein complexes. 相似文献
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Interleukin-18 (IL-18) is a pro-inflammatory cytokine which participates in host defense against a variety of infections as well as in chronic inflammation including autoimmune diseases. However, little is known about human IL-18 regulation at the gene level. We have previously demonstrated that sodium butyrate, a bacterial fermentation product, induces IL-18 production via the proximal region of the promoter. In this study we investigated the molecular mechanisms for basal and sodium butyrate-induced expression of IL-18 in human myeloid cells. Two regulatory regions, a consensus binding site for PU.1 and a GC-rich region, are required for basal IL-18 promoter activity in human myeloid cells. PU.1 bound to the PU.1 consensus binding site in electrophoretic mobility shift assays, and overexpression of PU.1 led to activation of the IL-18 promoter through this site. Mutation analysis revealed that the GC-rich region, but not PU.1 site, participates in sodium butyrate-induced transactivation. Furthermore, DNA pull-down experiments and the critical spacing of the two binding sites suggest that formation of a protein complex involving both cis elements and the respective binding proteins might be crucial for human IL-18 expression. 相似文献
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The aim of this work was to investigate whether the nuclear matrix could provide the nucleation sites for dispersed parental nucleolar components to form post-mitotic prenucleolar bodies (PNBs). For this purpose, nuclear matrices from asynchronous populations of onion cells were fractionated, and the distribution of the insoluble components of the nucleolar processing complexes in the matrices were analysed by fibrillarin immunolabelling. The ultrastructural organization of the nuclear matrix of cells from late telophase to late G1, corresponding to the period of nucleolar reassembly and activation, was also analysed. Our results demonstrate that PNBs are structural components of the telophasic nuclear matrix and that this structure provides recruitment and assembly sites for the components of the nucleolar processing machinery, and suggests that the telophasic matrix network is involved in the early steps of post-mitotic nucleologenesis.accepted for publication by D. L. Spector 相似文献