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1.
5' exon requirement for self-splicing of the Tetrahymena thermophila pre-ribosomal RNA and identification of a cryptic 5' splice site in the 3' exon 总被引:12,自引:0,他引:12
The intervening sequence (IVS) of the Tetrahymena thermophila ribosomal RNA precursor undergoes accurate self-splicing in vitro. The work presented here examines the requirement for Tetrahymena rRNA sequences in the 5' exon for the accuracy and efficiency of splicing. Three plasmids were constructed with nine, four and two nucleotides of the natural 5' exon sequence, followed by the IVS and 26 nucleotides of the Tetrahymena 3' exon. RNA was transcribed from these plasmids in vitro and tested for self-splicing activity. The efficiency of splicing, as measured by the production of ligated exons, is reduced as the natural 5' exon sequence is replaced with plasmid sequences. Accurate splicing persists even when only four nucleotides of the natural 5' exon sequence remain. When only two nucleotides of the natural exon remain, no ligated exons are observed. As the efficiency of the normal reaction diminishes, novel RNA species are produced in increasing amounts. The novel RNA species were examined and found to be products of aberrant reactions of the precursor RNA. Two of these aberrant reactions involve auto-addition of GTP to sites six nucleotides and 52 nucleotides downstream from the 3' splice site. The former site occurs just after the sequence GGU, and may indicate the existence of a GGU-binding site within the IVS RNA. The latter site follows the sequence CUCU, which is identical with the four nucleotides preceding the 5' splice site. This observation led to a model where where the CUCU sequence in the 3' exon acts as a cryptic 5' splice site. The model predicted the existence of a circular RNA containing the first 52 nucleotides of the 3' exon. A small circular RNA was isolated and partially sequenced and found to support the model. So, a cryptic 5' splice site can function even if it is located downstream from the 3' splice site. Precursor RNA labeled at its 5' end, presumably by a GTP exchange reaction mediated by the IVS, is also described. 相似文献
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An alternative helix in the 26S rRNA promotes excision and integration of the Tetrahymena intervening sequence. 总被引:5,自引:0,他引:5
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A highly conserved ribosomal stem-loop immediately upstream of the Tetrahymena splice junction can inhibit both forward and reverse self-splicing by competing with base pairing between the 5' exon and the guide sequence of the intervening sequence. Formation of this unproductive hairpin is preferred in precursor RNAs with short exons and results in a lower rate of splicing. Inhibition of self-splicing is not observed in longer precursors, suggesting that additional interactions in the extended exons can influence the equilibrium between the productive and unproductive hairpins at the 5' splice site. An alternative pairing upstream of the 5' splice site has been identified and is proposed to stabilize the active conformer of the pre-rRNA. Nucleotide changes that alter the ability to form this additional helix were made, and the self-splicing rates were compared. Precursors in which the proposed stem is stabilized splice more rapidly than the wild type, whereas RNAs that contain a base mismatch splice more slowly. The ability of DNA oligomers to bind the RNA, as detected by RNase H digestion, correlates with the predicted secondary structure of the RNA. We also show that a 236-nucleotide RNA containing the natural splice junction is a substrate for intervening sequence integration. As in the forward reaction, reverse splicing is enhanced in ligated exon substrates in which the alternative rRNA pairing is more stable. 相似文献
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Exploitation of a thermosensitive splicing event to study pre-mRNA splicing in vivo. 总被引:5,自引:1,他引:4
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The spliced form of MuSVts110 viral RNA is approximately 20-fold more abundant at growth temperatures of 33 degrees C or lower than at 37 to 41 degrees C. This difference is due to changes in the efficiency of MuSVts110 RNA splicing rather than selective thermolability of the spliced species at 37 to 41 degrees C or general thermosensitivity of RNA splicing in MuSVts110-infected cells. Moreover, RNA transcribed from MuSVts110 DNA introduced into a variety of cell lines is spliced in a temperature-sensitive fashion, suggesting that the structure of the viral RNA controls the efficiency of the event. We exploited this novel splicing event to study the cleavage and ligation events during splicing in vivo. No spliced viral mRNA or splicing intermediates were observed in MuSVts110-infected cells (6m2 cells) at 39 degrees C. However, after a short (about 30-min) lag following a shift to 33 degrees C, viral pre-mRNA cleaved at the 5' splice site began to accumulate. Ligated exons were not detected until about 60 min following the initial detection of cleavage at the 5' splice site, suggesting that these two splicing reactions did not occur concurrently. Splicing of viral RNA in the MuSVts110 revertant 54-5A4, which lacks the sequence -AG/TGT- at the usual 3' splice site, was studied. Cleavage at the 5' splice site in the revertant viral RNA proceeded in a temperature-sensitive fashion. No novel cryptic 3' splice sites were activated; however, splicing at an alternate upstream 3' splice site used at low efficiency in normal MuSVts110 RNA was increased to a level close to that of 5'-splice-site cleavage in the revertant viral RNA. Increased splicing at this site in 54-5A4 viral RNA is probably driven by the unavailability of the usual 3' splice site for exon ligation. The thermosensitivity of this alternate splice event suggests that the sequences governing the thermodependence of MuSVts110 RNA splicing do not involve any particular 3' splice site or branch point sequence, but rather lie near the 5' end of the intron. 相似文献
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Trans splicing of mRNA precursors in vitro 总被引:32,自引:0,他引:32
Two exon segments from two separate RNA molecules can be joined in a trans splicing process. In trans splicing reactions, an RNA molecule containing an exon, a 5' splice site, and adjacent intron sequences was mixed with an RNA molecule containing an exon, a 3' splice site, and adjacent intron sequences. The efficiency of trans splicing of these two RNAs increased if the two termini of the intervening sequences were paired in a short RNA duplex. However, trans splicing of two RNA molecules with no significant complementarity was also observed. These results strongly suggest that significant secondary structures within intervening sequences could affect the splicing of flanking exons. Similarly, RNAs that are complementary to segments within the intervening sequences could potentially regulate the selection of splice sites. Finally, some organisms might use trans splicing to distribute a single exon to many different mRNAs. 相似文献
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A multicomponent complex is involved in the splicing of messenger RNA precursors 总被引:134,自引:0,他引:134
A multicomponent complex termed spliceosome (splicing body) is unique to the splicing of messenger RNA precursors in vitro. This 60S RNA-protein complex contains RNAs from the previously characterized bipartite splicing intermediate, the 5' exon RNA, and the lariat intervening sequence-3' exon RNA, as well as some intact 455 nucleotide precursor RNA. This complex contains snRNPs, particularly U1 RNP, as shown by immunoprecipitation with specific antisera. Formation of the 60S complex appears to be an early and essential step in splicing, because the 60S complex forms during the early stage, or lag time, of the reaction before the first covalent modification, cleavage at the 5' splice site of precursor RNA. The 60S complex forms only under conditions that permit splicing; both ATP and a precursor RNA containing authentic 5' and 3' splice sites are required for formation, while antiserum specific for U1 RNP inhibits its formation. RNA within the 60S complex, predominantly precursor RNA, was chased into products with accelerated kinetics and more complete conversion than purified precursor RNA. 相似文献
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S H Orkin J P Sexton S C Goff H H Kazazian 《The Journal of biological chemistry》1983,258(12):7249-7251
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Extensive interactions of PRP8 protein with the 5'' and 3'' splice sites during splicing suggest a role in stabilization of exon alignment by U5 snRNA. 总被引:4,自引:4,他引:0
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Precursor RNAs containing 4-thiouridine at specific sites were used with UV-crosslinking to map the binding sites of the yeast protein splicing factor PRP8. PRP8 protein interacts with a region of at least eight exon nucleotides at the 5' splice site and a minimum of 13 exon nucleotides and part of the polypyrimidine tract in the 3' splice site region. Crosslinking of PRP8 to mutant and duplicated 3' splice sites indicated that the interaction is not sequence specific, nor does it depend on the splice site being functional. Binding of PRP8 to the 5' exon was established before step 1 and to the 3' splice site region after step 1 of splicing. These interactions place PRP8 close to the proposed catalytic core of the spliceosome during both transesterification reactions. To date, this represents the most extensive mapping of the binding site(s) of a splicing factor on the substrate RNA. We propose that the large binding sites of PRP8 stabilize the intrinsically weaker interactions of U5 snRNA with both exons at the splice sites for exon alignment by the U5 snRNP. 相似文献
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A new method for the characterization of pre-mRNA splicing products is presented. In this method RNA molecules are hybridized to an oligodeoxynucleotide complementary to exon sequences upstream of a given 5' splice site, and the RNA strands of the resulting RNA:DNA hybrids are cleaved by RNase H. The cleaved RNAs are then subjected to primer extension using a 32P-labelled primer complementary to exon sequences downstream of an appropriate 3' splice site. Since the primer extension products all terminate at the site of RNase H cleavage, their lengths are indicative of the splice sites utilized. The method simplifies the study of the processing of complex pre-mRNAs by allowing the splicing events between any two exons to be analyzed. We have used this approach to characterize the RNAs generated by expression of the rat tropomyosin 1 (Tm 1) gene in various rat tissues and in cultured cells after transient transfection. The results demonstrate that this method is suitable for the analysis of alternative RNA processing in vivo. 相似文献
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Splice site consensus sequences are preferentially accessible to nucleases in isolated adenovirus RNA. 总被引:3,自引:1,他引:3
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The conformation of RNA sequences spanning five 3' splice sites and two 5' splice sites in adenovirus mRNA was probed by partial digestion with single-strand specific nucleases. Although cleavage of nucleotides near both 3' and 5' splice sites was observed, most striking was the preferential digestion of sequences near the 3' splice site. At each 3' splice site a region of very strong cleavage is observed at low concentrations of enzyme near the splice site consensus sequence or the upstream branch point consensus sequence. Additional sites of moderately strong cutting near the branch point consensus sequence were observed in those sequences where the splice site was the preferred target. Since recognition of the 3' splice site and branch site appear to be early events in mRNA splicing these observations may indicate that the local conformation of the splice site sequences may play a direct or indirect role in enhancing the accessibility of sequences important for splicing. 相似文献
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Phosphorothioate substitution identifies phosphate groups important for pre-mRNA splicing. 总被引:2,自引:2,他引:0
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Substitution of pre-mRNA in vitro splicing substrates with alpha-phosphorothioate ribonucleotide analogs has multiple effects on the processes of spliceosome formation and splicing. A major effect of substitution is on the splicing cleavage/ligation reactions. Substitution at the 5' splice junction blocks the first cleavage/ligation reaction while substitution at the 3' splice junction blocks the second cleavage/ligation reaction. A second effect of phosphorothioate substitution is the inhibition of spliceosome formation. A substitution/interference assay was used to determine positions where substitution inhibits spliceosome formation or splicing. Substitution in the 3' splice site polypyrimidine tract was found to inhibit spliceosome formation and splicing. This effect was enhanced with multiple substitutions in the region. No sites of substitution within the exons were found which affected spliceosome formation or splicing. 相似文献
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Polypyrimidine tract binding protein blocks the 5' splice site-dependent assembly of U2AF and the prespliceosomal E complex 总被引:2,自引:0,他引:2
Polypyrimidine tract binding protein (PTB) represses some alternatively spliced exons by direct occlusion of splice sites. In repressing the splicing of the c-src N1 exon, we find that PTB acts by a different mechanism. PTB does not interfere with U1 snRNP binding to the N1 5' splice site. Instead, PTB prevents formation of the prespliceosomal early (E) complex across the intervening intron by preventing the assembly of the splicing factor U2AF on the 3' splice site of exon 4. When the unregulated 5' splice site of the upstream exon 3 is present, U2AF binding is restored and splicing between exons 3 and 4 proceeds in spite of the N1 exon bound PTB. Thus, rather than directly blocking the N1 splice sites, PTB prevents the 5' splice site-dependent assembly of U2AF into the E complex. This mechanism likely occurs in many other alternative exons. 相似文献
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Interaction of the yeast splicing factor PRP8 with substrate RNA during both steps of splicing. 总被引:10,自引:1,他引:9
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PRP8 protein of Saccharomyces cerevisiae interacts directly with pre-mRNA in spliceosomes, shown previously by UV-crosslinking. To analyse at which steps of splicing and with which precursor-derived RNA species the interaction(s) take place, UV-crosslinking was combined with PRP8-specific immunoprecipitation and the coprecipitated RNA species were analysed. Specific precipitation of intron-exon 2 and excised intron species was observed. PRP8 protein could be UV-crosslinked to pre-mRNA in PRP2-depleted spliceosomes stalled before initiation of the splicing reaction. Thus, the interaction of PRP8 protein with substrate RNA is established prior to the first transesterification reaction, is maintained during both steps of splicing and continues with the excised intron after completion of the splicing reaction. RNase T1 treatment of spliceosomes revealed that substrate RNA fragments of the 5' splice site region and the branchpoint-3' splice site region could be coimmunoprecipitated with PRP8 specific antibodies, indicating that these are potential sites of interaction for PRP8 protein with substrate RNA. Protection of the branch-point-3' splice site region was detected only after step 1 of splicing. The results allow a first glimpse at the pattern of PRP8 protein-RNA interactions during splicing and provide a fundamental basis for future analysis of these interactions. 相似文献