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In the early period of cellular infection by adenovirus 2, the E2A region gives rise to 2 major mRNA species of 2.0 and 2.3 kilobases, formed by alternative excisions of intron 2 (Gattoni et al., 1986, J. Mol. Biol. 187, 379-307). We have analysed the excision pathways of this intron. Two major intron species of 626 and 337 nucleotides, generated by the use of 2 consensus 3' splicing sites and a minor intron species of 520 nucleotides, generated by the use of another weaker 3' splicing site, are identified, the 3 species sharing a common 5' splicing site. They are detected predominantly in the lariat form. For the 2 major species we analyzed, the branched nucleotides are localized at consensus branching sequences, 26 or 25 nucleotides upstream from the 3' terminal AG. Our results confirm that the first reactions of cleavage at the 5' end of introns and branching occur in vivo as described in in vitro systems. The second predominant form of intron 2 is the linear segment, whereas the nicked lariat form which is very minor, might not be a genuine product of in vivo splicing. All intron 2 molecules show practically intact 5' and 3' terminal sequences, indicating that they are well protected against nuclease attack throughout their life. Therefore, these results indicate that the primary reaction following the excision of the lariat intron is debranching. In addition, the existence of a potential 5' splicing site contiguous to the major internal 3' splicing site raised the possibility of an elimination of the major 626 nucleotide intron in 2 cycles of excision. However, we demonstrate that intron 2 is systematically excised by a one cycle process, which is likely to represent the general rule for the production of correctly spliced mRNA.  相似文献   

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We used Northern and S1 nuclease analyses to identify a nuclear RNA species of the structure predicted for an intron excised from the precursor of adenovirus 2 E2A early mRNA. The structure of this excised intron demonstrated that the splicing of E2A mRNA can involve the removal of the intron sequences as single intact molecules. The concentration of the excised intron is 30 copies per nuclei, comparable to the levels of E2A polyadenylated splicing precursors, but 30-fold less than nuclear E2A mRNA. Late in infection, when the production of E2A early mRNA is dramatically elevated (Goldenberg et al., J. Virol. 38:932-939, 1981), the excess intron was not detected, indicating that either its stability or the mechanism of splicing is altered. We also identified a spliced nonpolyadenylated E2A nuclear RNA species with a structure similar to the mRNA, indicating that splicing may normally occur in the absence of polyadenylation.  相似文献   

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In Arabidopsis thaliana, Dicer-like protein 2 (DCL2) cleaves double-stranded virus RNA, playing an essential role in the RNA interference pathway. Here, we describe three alternative splicing (AS) forms of AtDCL2: in one, both intron 8 and intron 10 are retained in the mRNA, in second only intron 8 is retained and in the third no intron is retained, but there is a deletion of 56 nucleotides at the end of exon 10. These splicing forms are present in stems and leaves at different development stages. AS was also detected in DCL2 of Brassica rapa, where intron 9, but not intron 8 or intron 10, was retained suggesting that AS may be a common phenomenon in cruciferous plant DCL2s. The retained introns and sequence deletions detected in AtDCL2 changed the reading frame and produced premature terminal codons. The AS forms appeared to be substrates of nonsense-mediated decay of mRNA. Fei Yan and Jiejun Peng contributed equally to this work.  相似文献   

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Group II introns are large ribozymes that require the assistance of intron-encoded or free-standing maturases to splice from their pre-mRNAs in vivo. They mainly splice through the classical branching pathway, being released as RNA lariats. However, group II introns can also splice through secondary pathways like hydrolysis and circularization leading to the release of linear and circular introns, respectively. Here, we assessed in vivo splicing of various constructs of the Ll.LtrB group II intron from the Gram-positive bacterium Lactococcus lactis. The study of excised intron junctions revealed, in addition to branched intron lariats, the presence of perfect end-to-end intron circles and alternatively circularized introns. Removal of the branch point A residue prevented Ll.LtrB excision through the branching pathway but did not hinder intron circle formation. Complete intron RNA circles were found associated with the intron-encoded protein LtrA forming nevertheless inactive RNPs. Traces of double-stranded head-to-tail intron DNA junctions were also detected in L. lactis RNA and nucleic acid extracts. Some intron circles and alternatively circularized introns harbored variable number of non-encoded nucleotides at their splice junction. The presence of mRNA fragments at the splice junction of some intron RNA circles provides insights into the group II intron circularization pathway in bacteria.  相似文献   

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The 1605 bp intron 4 of the Euglena gracilis chloroplast psbC gene was characterized as a group III twintron composed of an internal 1503 nt group III intron with an open reading frame of 1374 nt (ycf13, 458 amino acids), and an external group III intron of 102 nt. Twintron excision proceeds by a sequential splicing pathway. The splicing of the internal and external group III introns occurs via lariat intermediates. Branch sites were mapped by primer extension RNA sequencing. The unpaired adenosines in domains VI of the internal and external introns are covalently linked to the 5' nucleotide of the intron via 2'-5' phosphodiester bonds. This bond is susceptible to hydrolysis by the debranching activity of the HeLa nuclear S100 fraction. The internal intron and presumptive ycf13 mRNA accumulates primarily as a linear RNA, although a lariat precursor can also be detected. The ycf13 gene encodes a maturase-like protein that may be involved in group III intron metabolism.  相似文献   

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Self-splicing of yeast mitochondrial ribosomal and messenger RNA precursors   总被引:25,自引:0,他引:25  
G van der Horst  H F Tabak 《Cell》1985,40(4):759-766
We have previously shown linear and circular splicing intermediates resembling intermediates that result from self-splicing of ribosomal precursor RNA of Tetrahymena to be present in mitochondrial RNA. Here we show that splicing of yeast mitochondrial precursor RNA also occurs in vitro in the absence of mitochondrial proteins. The large ribosomal RNA gene, consisting of the intron and part of the flanking exon regions, was inserted behind the SP6 promoter in a recombinant plasmid and was transcribed in vitro. The resulting RNA shows self-catalyzed splicing via incorporation of GTP at the 5'-end of the excised intron, 5'- to 3'-exon ligation, and intron circularization. When purified mitochondrial RNA is incubated under similar conditions with alpha-32P-GTP, the excised ribosomal intron RNA is also labeled, as well as several other RNA species. Some of these RNAs are derived from excised introns from the multiply split gene coding for cytochrome oxidase subunit I.  相似文献   

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The adenovirus E1A region encodes three overlapping mRNAs, designated 9S, 12S and 13S. They differ from each other with regard to the length of the intron which is removed by RNA splicing. We have constructed E1A genes with deletions and insertions in the intervening sequence that is common to all three E1A mRNAs, in a search for signals which influence splicing of the 13S mRNA. Mutant plasmids were transfected into HeLa cells and the transiently expressed E1A mRNAs characterized by the S1 protection assay. The results show that five upstream and 20 downstream nucleotides are sufficient to allow for a correct utilization of the 5'-splice junction for the E1A 13S mRNA. Moreover, we show that a minimal intron length of 78 nucleotides is required for efficient 13S mRNA splicing. The ability of mutants with large intron deletions to maturate a 13S mRNA could partially be restored by expanding the intron length with phage lambda sequences. However, in no case was the normal splicing efficiency obtained with these mutants. In contrast, one mutant in which sequences from the authentic 13S mRNA intron were used to expand the intron expressed almost normal levels of 13S mRNA, thus suggesting that signals which specifically promote 13S mRNA splicing exist.  相似文献   

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The majority of mammalian pre-mRNAs contains multiple introns that are excised prior to export and translation. After intron excision, ligated exon intermediates participate in subsequent intron excisions. However, exon ligation generates an exon of increased size, a feature of pre-mRNA splicing that can interfere with downstream splicing events. These considerations raise the question of whether unique mechanisms exist that permit efficient removal of introns neighboring ligated exons. Kinetic analyses of multiple intron-containing pre-mRNAs revealed that splicing is more efficient following an initial intron removal event, suggesting that either the recruitment of the exon junction complex (EJC) to ligated exons increases the efficiency of multiple intron excisions or that the initial definition of splice sites is sufficient to permit efficient splicing of introns neighboring ligated exons. Knockdown experiments show that the deposition of the EJC does not affect subsequent splicing kinetics. Instead, spliceosomal components that are not involved in the initial splicing event remain associated with the pre-mRNA to ensure efficient removal of neighboring introns. Thus, ligated exons do not require redefinition, providing an additional kinetic advantage for exon defined splice sites.  相似文献   

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张翼 《生命科学》2008,20(2):202-206
对非编码RNA功能的认识是后基因组时代的一个研究焦点,本文主要介绍非编码RNA在RNA剪接中的催化和调控功能。在RNA加工过程中,三大类内含子的剪接都是由RNA成员主导。其中Ⅰ型和Ⅱ型内含子能催化自身的切除和外显子连接反应;而核mRNA内含子的剪接则由剪接体里的小核RNA主导。Ⅰ型和Ⅱ型内含子存在于细菌、低等真核细胞和植物的细胞器内;而真核细胞的核编码蛋白质基因内全部是核mRNA内含子,并且其数目随生物体的复杂性而显著升高。一个多内含子前体mRNA通过选择性剪接产生多种,甚至上万种不同的mRNA和蛋白质,对蛋白质组的复杂度和时空表达调控至关重要。选择性剪接调控由剪接调控蛋白特异识别和结合前体mRNA里所富含的顺式RNA调控元件完成的;系统认识这两者之间的对应关系是揭示基因组表达调控网络的一把钥匙。  相似文献   

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