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Query: UNIPROT:P06889 (Mol)
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In the present study, the spatial organization of intron-containing pre-mRNAs of Epstein-Barr virus (EBV) genes relative to location of splicing factors is investigated. The intranuclear position of transcriptionally active EBV genes, as well as of nascent transcripts, is found to be random with respect to the speckled accumulations of splicing factors (SC35 domains) in Namalwa cells, arguing against the concept of the locus-specific organization of mRNA genes with respect to the speckles. Microclusters of splicing factors are, however, frequently superimposed on nascent transcript sites. The transcript environment is a dynamic structure consisting of both nascent and released transcripts, i.e., the track-like transcript environment. Both EBV sequences of the chromosome 1 homologue are usually associated with the track, are transcriptionally active, and exhibit in most cases a polar orientation. In contrast to nascent transcripts (in the form of spots), the association of a post-transcriptional pool of viral pre-mRNA (in the form of tracks) with speckles is not random and is further enhanced in transcriptionally silent cells when splicing factors are sequestered in enlarged accumulations. The transcript environment reflects the intranuclear transport of RNA from the sites of transcription to SC35 domains, as shown by concomitant mapping of DNA, RNA, and splicing factors. No clear vectorial intranuclear trafficking of transcripts from the site of synthesis toward the nuclear envelope for export into the cytoplasm is observed. Using Namalwa and Raji cell lines, a correlation between the level of viral gene transcription and splicing factor accumulation within the viral transcript environment has been observed. This supports a concept that the level of transcription can alter the spatial relationship among intron-containing genes, their transcripts, and speckles attributable to various levels of splicing factors recruited from splicing factor reservoirs. Electron microscopic in situ hybridization studies reveal that the released transcripts are directed toward reservoirs of splicing factors organized in clusters of interchromatin granules. Our results point to the bidirectional intranuclear movement of macromolecular complexes between intron-containing genes and splicing factor reservoirs: the recruitment of splicing factors to transcription sites and movement of released transcripts from DNA loci to reservoirs of splicing factors.
Mol Biol Cell 2000 Feb
PMID:Nuclear pre-mRNA compartmentalization: trafficking of released transcripts to splicing factor reservoirs. 1067 9

The mechanism by which (CTG)n expansion in the 3' UTR of the DMPK gene causes myotonic dystrophy (DM) is unknown. We identified four RNA splicing factors--hnRNP C, U2AF (U2 auxiliary factor), PTB (polypyrimidine tract binding protein), and PSF (PTB associated splicing factor)--that bind to two short regions 3' of the (CUG)n, and found a novel 3' DMPK exon resulting in an mRNA lacking the repeats. We propose that the (CUG)n is an essential cis acting element for this splicing event. In contrast to (CUG)n containing mRNAs, the novel isoform is not retained in the nucleus in DM cells, resulting in imbalances in relative levels of cytoplasmic DMPK mRNA isoforms and a new dominant effect of the mutation on DMPK.
Mol Cell 2000 Jun
PMID:Myotonic dystrophy: the role of the CUG triplet repeats in splicing of a novel DMPK exon and altered cytoplasmic DMPK mRNA isoform ratios. 1091 90

The two-hybrid system was used to isolate cDNA clones encoding polypeptides that interact with the N-terminal region (activation domains A, B and C) of the Sp1 transcription factor. Among the 65 collected clones, 43 contained cDNA fragments with open reading frames. They corresponded to 13 genes encoding proteins of known function and to 15 genes, the proteins of which have no known function. Six overlapping cDNA clones corresponded to the Hsc70 protein. Host cell factor (HCF-1) and the KIAA0461 gene (encoding a putative Zn-finger protein of unknown function) were both identified through the isolation of three overlapping cDNA clones. Two cDNA fragments encoding the same region of the SREBP-2 transcription factor were independently selected and two overlapping cDNA clones corresponded to the splicing factor SF3A120. Two different cDNA clones encoded the N- and C-terminal region of the Oct-1 transcription factor. Transcription factors Elf-1 and TIEG, as well as HSph2, the putative human homologue of a murine polyhomeotic gene, were each represented by a single clone. Noticeably, for the four identified transcription factors, the DNA-binding domain was excluded from the selected polypeptides. In vitro binding of the selected polypeptides to the Sp1 protein was demonstrated for the four transcription factors and for the SF3A120, Hsc70, HCF-1, HSph2 and pKIAA0461(245) proteins. Four other cDNA clones encoding polypeptides of unknown function were tested in the in vitro binding assay. All four polypeptides were found to interact with Sp1 in this assay.
Mol Cell Biochem 2000 Jul
PMID:A set of proteins interacting with transcription factor Sp1 identified in a two-hybrid screening. 1097 66

The main objective of this project is to identify mRNA associated with oocyte maturation and embryonic developmental competency. The knowledge of genes and their accumulated mRNA is essential to better understand the mechanisms involved in the oocyte maturation and the survival of the in vitro produced embryo. We used bovine slaughterhouse-recovered ovaries and collected the oocytes from two follicle size categories: <2 mm and 3-5 mm. The mRNA content of oocytes from follicles 3-5 mm where considered to be more competent when compared to the content of oocytes from follicles <2 mm. In this report we compare two different technical approaches both involving PCR to compare the mRNA pools of the oocytes. In the first approach we performed the differential display (DDRT) technique to amplify and display side by side the cDNAs of groups of 10 denuded oocytes. From this approach, we isolated 28 different bands. After analysis, three of those bands had strong homology with known genes. In the second approach pools of 50 denuded oocytes were submitted to suppressive subtraction hybridization (SSH). We identified several known genes like cyclin B1, splicing factor ccl.4, cytochrome c oxidase, and mineralocorticoid receptor while numerous other clones remain unidentified. The cyclin B1 clone was used as a probe to evaluate its follicular size specificity on virtual Northern blot. The PCR basis of these techniques allows comparison of mRNA from tissues of low abundance such as oocytes. In this study the SSH resulted in longer clones than DDRT and showed high specificity.
Mol Reprod Dev 2000 Oct
PMID:Subtractive hybridization used to identify mRNA associated with the maturation of bovine oocytes. 1098 17

RNA differential display was applied to identify genes critical for the establishment of pregnancy in the mouse. One of the gene fragments identified was homologous to human SC35 splicing factor; the mouse counterpart had not then been cloned. To obtain the full cDNA sequence of the mouse gene, a cDNA library was screened and four positive clones were fully analysed. Sequencing analysis indicated that we had cloned alternatively spliced mRNA species of mouse SC35 splicing factor. A map of splicing structure for this gene's pre-mRNA was then proposed and region-specific mRNA species were tested on Northern blots. This analysis indicated that the overall expression level of SC35 mRNA was much higher in implantation sites than in inter-implantation sites in the mouse uterus during early pregnancy. The expression of alternatively spliced mRNAs for SC35 was differently regulated both during early pregnancy and by steroid hormones. Embryo-derived factors were also implicated in the up-regulation of SC35 mRNA at implantation sites. These results demonstrate, for the first time, that an essential splicing factor is regulated in a complex manner during implantation in the mouse uterus. Hence, its correct regulation could be important for the success of pregnancy.
Mol Hum Reprod 2000 Dec
PMID:Uterine expression of alternatively spliced mRNAs of mouse splicing factor SC35 during early pregnancy. 1110 96

We report here that the apoptosis-promoting protein TIA-1 regulates alternative pre-mRNA splicing of the Drosophila melanogaster gene male-specific-lethal 2 and of the human apoptotic gene Fas. TIA-1 associates selectively with pre-mRNAs that contain 5' splice sites followed by U-rich sequences. TIA-1 binding to the U-rich stretches facilitates 5' splice site recognition by U1 snRNP. This activity is critical for activation of the weak 5' splice site of msl-2 and for modulating the choice of splice site partner in Fas. Structural and functional similarities with the Saccharomyces cerevisiae splicing factor Nam8 suggest striking evolutionary conservation of a mechanism of pre-mRNA splicing regulation that controls biological processes as diverse as meiosis in yeast, dosage compensation in fruit flies, or programmed cell death in humans.
Mol Cell 2000 Nov
PMID:The apoptosis-promoting factor TIA-1 is a regulator of alternative pre-mRNA splicing. 1110 48

Slt11p is a new splicing factor identified on the basis of synthetic lethality with a mutation in the 5' end of U2 snRNA, a region that is involved in intermolecular U2/U6 helix II interaction. Slt11p is required for spliceosome assembly. Our genetic results suggest that Slt11p is involved in the base-pairing interaction of U2/U6 helix II in vivo. We showed that the recombinant protein binds to RNAs with some degree of structural specificity. Slt11p also anneals RNA and binds to the resulting duplexes, which contain two separated helical regions. These RNA structures are reminiscent of U2/U6 helix II, which is formed concomitantly with U4/U6 stem II, and suggest that Slt11p facilitates the cooperative formation of helix II in association with stem II in the spliceosome. We show that Slt11p and Slu7p, a second-step factor, interact with each other both in vivo and in vitro and that the binding of Slu7p to Slt11p impairs the RNA-binding activity of the latter. These results suggest that the function of Slt11p is regulated by Slu7p in the spliceosome.
Mol Cell Biol 2001 Feb
PMID:Splicing factor slt11p and its involvement in formation of U2/U6 helix II in activation of the yeast spliceosome. 1115 89

The human splicing factor 2, also called human alternative splicing factor (hASF), is the prototype of the highly conserved SR protein family involved in constitutive and regulated splicing of metazoan mRNA precursors. Here we report that the Drosophila homologue of hASF (dASF) lacks eight repeating arginine-serine dipeptides at its carboxyl-terminal region (RS domain), previously shown to be important for both localization and splicing activity of hASF. While this difference has no effect on dASF localization, it impedes its capacity to shuttle between the nucleus and cytoplasm and abolishes its phosphorylation by SR protein kinase 1 (SRPK1). dASF also has an altered splicing activity. While being competent for the regulation of 5' alternative splice site choice and activation of specific splicing enhancers, dASF fails to complement S100-cytoplasmic splicing-deficient extracts. Moreover, targeted overexpression of dASF in transgenic flies leads to higher deleterious developmental defects than hASF overexpression, supporting the notion that the distinctive structural features at the RS domain between the two proteins are likely to be functionally relevant in vivo.
Mol Cell Biol 2001 Feb
PMID:Distinctive features of Drosophila alternative splicing factor RS domain: implication for specific phosphorylation, shuttling, and splicing activation. 1115 20

Nuclear mRNAs in trypanosomatids are generated by trans-splicing. Although trans-splicing resembles cis-splicing in many ways and most of the U RNA participants have been characterized, relatively few involved proteins have been identified. Herein, we employed a yeast three-hybrid system to identify a protein, XB1, which binds to the Trypanosoma cruzi SL RNA. XB1 is a approximately 45 kDa protein which is homologous to the essential pre-mRNA-splicing factor PRP31p from Saccharomyces cerevisiae. Gel shift assays and UV cross-linking experiments with recombinant XB1 confirmed that this T. cruzi protein binds the SL RNA in vitro. The binding site of XB1 on the SL RNA was mapped to stem-loop II by deletion of the SL RNA 'bait' in the three-hybrid system. Finally, UV cross-linking SL RNA with S100 extract indicated native XB1 protein and SL RNA interaction in T. cruzi extract.
Mol Biochem Parasitol 2001 Jan 15
PMID:Identification of a spliced leader RNA binding protein from Trypanosoma cruzi. 1116 85

Nuclear speckles (speckles) represent a distinct nuclear compartment within the interchromatin space and are enriched in splicing factors. They have been shown to serve neighboring active genes as a reservoir of these factors. In this study, we show that, in HeLa cells, the (pre)spliceosomal assembly on precursor mRNA (pre-mRNA) is associated with the speckles. For this purpose, we used microinjection of splicing competent and mutant adenovirus pre-mRNAs with differential splicing factor binding, which form different (pre)spliceosomal complexes and followed their sites of accumulation. Splicing competent pre-mRNAs are rapidly targeted into the speckles, but the targeting is temperature-dependent. The polypyrimidine tract sequence is required for targeting, but, in itself, is not sufficient. The downstream flanking sequences are particularly important for the targeting of the mutant pre-mRNAs into the speckles. In supportive experiments, the behavior of the speckles was followed after the microinjection of antisense deoxyoligoribonucleotides complementary to the specific domains of snRNAs. Under these latter conditions prespliceosomal complexes are formed on endogenous pre-mRNAs. We conclude that the (pre)spliceosomal complexes on microinjected pre-mRNA are formed inside the speckles. Their targeting into and accumulation in the speckles is a result of the cumulative loading of splicing factors to the pre-mRNA and the complexes formed give rise to the speckled pattern observed.
Mol Biol Cell 2001 Feb
PMID:Prespliceosomal assembly on microinjected precursor mRNA takes place in nuclear speckles. 1117 23


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