Characterization of multiple mRNA species of simian immunodeficiency virus from macaques in a CD4+ lymphoid cell line.

Cytoplasmic poly(A)+ RNA was isolated from CEMX721.174 cells 5 to 10 days after infection with molecularly cloned simian immunodeficiency virus SIVmac239. Expression of SIV RNA was analyzed by Northern (RNA) blot hybridization and by sequencing of cDNA clones. As expected, a splice donor site was demonstrated in the untranslated leader sequence outside the left long terminal repeat. The region between pol and env was found to contain at least two splice donor and six splice acceptor sites. Splice acceptor and donor sites in the intergenic region were suitably positioned for expression of vpx, vpr, tat, and rev. Splice acceptor sites at nucleotides 8802 and 8805 were demonstrated in singly and doubly spliced RNAs with the potential of expressing nef and the second exons of tat and rev. Our results demonstrate a complex pattern of alternative splicing of SIV mRNAs. The results are very similar to what has been observed in human immunodeficiency virus type 1-infected cells, suggesting that both human and simian immunodeficiency viruses are subject to multiple levels of regulation.     

Exon mutations that affect the choice of splice sites used in processing the SV40 late transcripts

The spliced species of late SV40 RNAs present in the cytoplasm of cells infected with various wild-type and mutant strains of SV40 that differ in their leader regions were determined using a novel modification of the primer extension method and the S1 nuclease mapping technique. These data indicated that mutations within the first exon of the late RNAs can affect dramatically the utilization of downstream donor and acceptor splice sites. In one instance, a ten base pair insertion within the predominant first exon increased utilization of an infrequently utilized donor splice site such that the small alteration became part of an intervening sequence, thereby suggesting a novel mechanism for regulation of gene expression. In addition, our method enabled detection of a previously unidentified spliced species, representing less than one percent of the SV40 late 19S RNA present in cells infected with wild-type virus, that may be an intermediate in the synthesis of a known doubly spliced 16S RNA species of SV40.     

基于RNA-Seq数据识别果蝇剪接位点和可变剪接事件

完整基因结构的预测是当前生命科学研究的一个重要基础课题,其中一个关键环节是剪接位点和各种可变剪接事件的精确识别.基于转录组测序（RNA-seq）数据,识别剪接位点和可变剪接事件是近几年随着新一代测序技术发展起来的新技术策略和方法.本工作基于黑腹果蝇睾丸RNA-seq数据,使用TopHat软件成功识别出39718个果蝇剪接位点,其中有10584个新剪接位点.同时,基于剪接位点的不同组合,针对各类型可变剪接特征开发出计算识别算法,成功识别了8477个可变剪接事件（其中新识别的可变剪接事件3922个）,包括可变供体位点、可变受体位点、内含子保留和外显子缺失4种类型.RT-PCR实验验证了2个果蝇基因上新识别的可变剪接事件,发现了全新的剪接异构体.进一步表明,RNA-seq数据可有效应用于识别剪接位点和可变剪接事件,为深入揭示剪接机制及可变剪接生物学功能提供新思路和新手段.     

Exonic splicing enhancer-dependent selection of the bovine papillomavirus type 1 nucleotide 3225 3' splice site can be rescued in a cell lacking splicing factor ASF/SF2 through activation of the phosphatidylinositol 3-kinase/Akt pathway

Bovine papillomavirus type 1 (BPV-1) late pre-mRNAs are spliced in keratinocytes in a differentiation-specific manner: the late leader 5' splice site alternatively splices to a proximal 3' splice site (at nucleotide 3225) to express L2 or to a distal 3' splice site (at nucleotide 3605) to express L1. Two exonic splicing enhancers, each containing two ASF/SF2 (alternative splicing factor/splicing factor 2) binding sites, are located between the two 3' splice sites and have been identified as regulating alternative 3' splice site usage. The present report demonstrates for the first time that ASF/SF2 is required under physiological conditions for the expression of BPV-1 late RNAs and for selection of the proximal 3' splice site for BPV-1 RNA splicing in DT40-ASF cells, a genetically engineered chicken B-cell line that expresses only human ASF/SF2 controlled by a tetracycline-repressible promoter. Depletion of ASF/SF2 from the cells by tetracycline greatly decreased viral RNA expression and RNA splicing at the proximal 3' splice site while increasing use of the distal 3' splice site in the remaining viral RNAs. Activation of cells lacking ASF/SF2 through anti-immunoglobulin M-B-cell receptor cross-linking rescued viral RNA expression and splicing at the proximal 3' splice site and enhanced Akt phosphorylation and expression of the phosphorylated serine/arginine-rich (SR) proteins SRp30s (especially SC35) and SRp40. Treatment with wortmannin, a specific phosphatidylinositol 3-kinase/Akt kinase inhibitor, completely blocked the activation-induced activities. ASF/SF2 thus plays an important role in viral RNA expression and splicing at the proximal 3' splice site, but activation-rescued viral RNA expression and splicing in ASF/SF2-depleted cells is mediated through the phosphatidylinositol 3-kinase/Akt pathway and is associated with the enhanced expression of other SR proteins.     

Human T-cell leukemia virus type II Rex binding and activity require an intact splice donor site and a specific RNA secondary structure.

The human T-cell leukemia virus type II (HTLV-II) regulatory protein Rex augments cytoplasmic levels of unspliced gag-pol mRNA by acting through a Rex-responsive element (RxRE) in the long terminal repeat. Purified Rex protein binds to long terminal repeat mRNA. Here, using an immunobinding assay to measure the binding of Rex protein to mutated RxRE RNAs, we show that efficient Rex binding requires a stem-bulge-loop RNA secondary structure (nucleotides [nt] 465 to 500) and specific sequences both within the stem-bulge (nt 470 to 476) and within a conserved upstream splice donor site (nt 449 to 455). Rex function in a transient transfection expression system correlates with Rex protein-RxRE RNA binding. The ability of HTLV-II Rex to interact directly with the HTLV-II splice donor site suggests that HTLV-II Rex may increase expression of unspliced gag-pol mRNA, in part, by inhibiting splicing.     

Dissection of splicing regulation at an endogenous locus by zinc-finger nuclease-mediated gene editing

Sequences governing RNA splicing are difficult to study in situ due to the great difficulty of traditional targeted mutagenesis. Zinc-finger nuclease (ZFN) technology allows for the rapid and efficient introduction of site-specific mutations into mammalian chromosomes. Using a ZFN pair along with a donor plasmid to manipulate the outcomes of DNA repair, we introduced several discrete, targeted mutations into the fourth intron of the endogenous BAX gene in Chinese hamster ovary cells. Putative lariat branch points, the polypyrimidine tract, and the splice acceptor site were targeted. We recovered numerous otherwise isogenic clones carrying the intended mutations and analyzed the effect of each on BAX pre-mRNA splicing. Mutation of one of three possible branch points, the polypyrimidine tract, and the splice acceptor site all caused exclusion of exon five from BAX mRNA. Interestingly, these exon-skipping mutations allowed usage of cryptic splice acceptor sites within intron four. These data demonstrate that ZFN-mediated gene editing is a highly effective tool for dissection of pre-mRNA splicing regulatory sequences in their endogenous context.     

Functional characterization of two novel splicing mutations of glucokinase gene associated with maturity-onset diabetes of the young type 2 (MODY2)

Two novel mutations in the glucokinase gene (GCK) have been identified in patients with maturity-onset diabetes of the young type-2 (MODY2), i.e., a C-for-G substitution at position ?1 of the acceptor splice site of intron 7 (c. 864-1G>C) and a synonymous c.666C>G substitution (GTC>GTG, p.V222V) at exon 6. An analysis of the splicing products obtained upon the transfection of human embryonic HEK293 cells with GCK minigene constructs carrying these mutations showed that both substitutions impaired normal splicing. As a result of c.864-1G>C, the usage of the normal acceptor site was blocked, which activated cryptic acceptor splice sites within intron 7 and generated several aberrant RNAs containing fragments of intron 7. The synonymous substitution c.666C>G created a novel donor splice site in exon 6, which results in the formation of an abnormal GCK mRNA with a 16-nucleotide deletion in exon 6. In vitro experiments on minigene splicing confirmed the inactivating effect of these mutations on glucokinase gene expression.     

Multiple requirements for nematode spliced leader RNP function in trans-splicing.

The 5' exon donor in nematode trans-splicing, the SL RNA, is a small (approximately 100 nt) RNA that resembles cis-spliceosomal U snRNAs. Extensive analyses of the RNA sequence requirements for SL RNA function have revealed four essential elements, the core Sm binding site, three nucleotides immediately downstream of this site, a region of Stem-loop II, and a 5' splice site. Although these elements are necessary and sufficient for SL RNA function in vitro, their respective roles in promoting SL RNA activity have not been elucidated. Furthermore, although it has been shown that assembly of the SL RNA into an Sm RNP is a prerequisite for function, the protein composition of the SL RNP has not been determined. Here, we have used oligoribonucleotide affinity to purify the SL RNP and find that it contains core Sm proteins as well as four specific proteins (175, 40, 30, and 28 kDa). Using in vitro assembly assays; we show that association of the 175- and 30-kDa SL-specific proteins correlates with SL RNP function in trans-splicing. Binding of these proteins depends upon the sequence of the core Sm binding site; SL RNAs containing the U1 snRNA Sm binding site assemble into Sm RNPs that contain core, but not SL-specific proteins. Furthermore, mutational and thiophosphate interference approaches reveal that both the primary nucleotide sequence and a specific phosphate oxygen within a segment of Stemloop II of the SL RNA are required for function. Finally, mutational activation of an unusual cryptic 5' splice site within the SL sequence itself suggests that U5 snRNA may play a primary role in selecting and specifying the 5' splice site in SL addition trans-splicing.