Intron 1 mediated regulation of bovine prion protein gene expression: Role of donor splicing sites, sequences with potential enhancer and suppressor activities

Prion protein plays a key role in the pathogenesis of transmissible spongiform encephalopathies. Because changes in expression of the prion protein gene (PRNP) alter the incubation time and severity of prion diseases. Our previous work revealed a strong association between the promoter (spanning base pairs (bp) −88 to −30) and intron 1 (spanning bp +114 to +892) that leads to optimum expression of the bovine PRNP. Here, we employed two mutation analysis strategies (deletion and insertion) and two reporter assay systems (luciferase and GFP expression) to define the regulatory domains within intron 1 and further elucidate its role in regulating the promoter activity of the bovine prion protein gene. We identified DNA sequences with potential suppressor and enhancer activities within the 5′ end of intron 1. Moreover stability analyses for PRNP mRNAs demonstrated that splicing sites and mechanism are critical for bovine PRNP expression.     

Functional splice sites in a zebrafish LINE and their influence on zebrafish gene expression

Long interspersed elements (LINEs) are transposable elements that exist in many kinds of eukaryotic genomes, where they have a large effect on genome evolution. There are several thousands to hundreds of thousands of LINE copies in each eukaryotic genome. LINE elements are amplified by a mechanism called retrotransposition, in which a LINE-encoded protein reverse transcribes (copies) its own RNA. We previously isolated two retrotransposition-competent LINEs, ZfL2-1 and ZfL2-2, from zebrafish. Although it has generally been thought that LINEs do not have ‘introns’ (because the LINE RNA is used as the template during retrotransposition), we now show that these two LINEs contain multiple putative functional splice sites. We further show that at least one pair of these splice sites is actually functional in zebrafish cells. Moreover, some of these splice sites are coupled with the splicing signal of a host endogenous gene, thereby generating a new chimeric spliced mRNA variant for this gene. Our results suggest the possible role of these LINE splice sites in modulating retrotransposition and host gene expression.     

鱼类基因内含子研究进展

内含子是指断裂基因中的非编码区序列,在编码蛋白质前被去除。在高等生物中,内含子的长度远大于外显子,大部分随机突变会发生在内含子中。因此,内含子的存在使高等生物对突变的耐受能力大大增强了。研究表明,内含子可以提高基因表达效率;影响RNA的转录、剪接加工、出核孔以及翻译等过程;启动某些基因的表达;并通过选择性剪接调控基因的表达。内含子功能的研究成果给当前鱼类免疫基因研究开拓了全新的视野。对内含子的分类、剪接、功能以及鱼类内含子研究的新进展进行了综述,并展望了内含子在鱼类免疫基因研究中的应用。     

Examination of the Intron in the meiosis-specific recombination gene REC114 in Saccharomyces

REC114 is one of 10 genes known to be required for the initiation of meiotic recombination in Saccharomyces cerevisiae. It is transcribed only in meiosis, and our previous sequence analysis suggested the presence of an intron in the 3′ end of the gene. Hypotheses in the literature have suggested, because of its unusual location, either that the putative intron in REC114 is likely to be necessary for expression, or that there may actually be no intron present. This work demonstrates that REC114 does have an intron and is one of only three genes in yeast with introns located in the 3′ end. Furthermore, the 3′ splice site utilized in REC114 is a very rare AAG sequence; only three other genes in yeast use this nonconsensus sequence. The splicing of REC114 does not require MER1, a gene known to be involved in meiosis-specific RNA processing. In fact, an intronless copy of REC114 can complement a null rec114 mutation. Thus, it does not appear that the intron is essential for expression of REC114. Although the intron is not absolutely required for meiotic function, it is conserved in evolution; two other species of yeast contain an intron at the same location in their REC114 genes. Received: 16 October 1996 / Accepted: 10 February 1997     

应用统计方法确定真核基因外显子

研究了人类基因外显子、内含子的编码结构及D值,发现外显子、内含子间有显著不同,应用“剪接法”进行外显子定位,成功率达到74.6％,表明这一方法可在实际研究中应用。     

蝎毒液肽基因内含子剪接信号分析

从中国蝎Buthus martensii Karsch基因组DNA中分离到两个毒液基因的内含子。在此基础上,通过编辑和分析目前已出版的蝎毒液肽基因内含子序列,确定了这类基因内含子剪接信号的共有序列,并将其与其它其它物种进行了比较。本文的结果对于研究蝎毒液肽前体mRNA的剪接机制以及比较不同物种之间内含子进化和功能的关系具有参考价值。     

Archaeal pre-mRNA splicing: a connection to hetero-oligomeric splicing endonuclease

Eukaryotic Cbf5 is a protein subunit of the small nucleolar RNA-protein complex. Previously, we identified, in archaeal homologs of cbf5 of the crenarchaea, Aeropyrum pernix, Sulfolobus solfataricus, and Sulfolobus tokodaii, the first examples of introns of archaeal protein-coding genes. Here, we report the immunological detection of Cbf5 protein of S. tokodaii, the product of the spliced cbf5 mRNA. The hetero-oligomeric splicing endonuclease activity from recombinant S. tokodaii subunits cleaved at the exon-intron boundaries of cbf5 pre-mRNA fragments,suggesting that synthesis of full-length Cbf5 protein requires this activity. Database searches and PCR screens identified additional cbf5 introns in some, but not all sequenced crenarchaeal genomes. The predicted secondary structures of exon-intron boundaries of many of the newly identified intron-containing cbf5 pre-mRNAs contained relaxed forms of the bulge-helix-bulge motif similar to that of S. tokodaii. These observations are consistent with previous reports indicating that subunit composition of the splicing endonuclease contributes to substrate specificity.     

Analysis of splice donor and acceptor site function in a transposable gene trap derived from the maize element Activator

Gene trap vectors have been used in insertional mutagenesis in animal systems to clone genes with interesting patterns of expression. These vectors are designed to allow the expression of a reporter gene when the vector inserts into a transcribed region. In this paper we examine alternative splicing events that result in the expression of a GUS reporter gene carried on a Ds element which has been designed as a gene trap vector for plants. We have developed a rapid and reliable method based on PCR to study such events. Many splice donor sites were observed in the 3 Ac border. The relative frequency of utilisation of certain splice donor and acceptor sites differed between tobacco and Arabidopsis. A higher stringency of splicing was observed in Arabidopsis.     

Looking for Organization Patterns of Highly Expressed Genes: Purine-Pyrimidine Composition of Precursor mRNAs

We analyzed precursor messenger RNAs (pre-mRNAs) of 12 eukaryotic species. In each species, three groups of highly expressed genes, ribosomal proteins, heat shock proteins, and amino-acyl tRNA synthetases, were compared with a control group (randomly selected genes). The purine-pyrimidine (R-Y) composition of pre-mRNAs of the three targeted gene groups proved to differ significantly from the control. The exons of the three groups tested have higher purine contents and R-tract abundance and lower abundance of Y-tracts compared to the control (R-tract—tract of sequential purines with R _n ≥ 5; Y-tract—tract of sequential pyrimidines with Y _n ≥ 5). In species widely employing “intron definition” in the splicing process, the Y content of introns of the three targeted groups appeared to be higher compared to the control group. Furthermore, in all examined species, the introns of the targeted genes have a lower abundance of R-tracts compared to the control. We hypothesized that the R-Y composition of the targeted gene groups contributes to high rate and efficiency of both splicing and translation, in addition to the mRNA coding role. This is presumably achieved by (1) reducing the possibility of the formation of secondary structures in the mRNA, (2) using the R-tracts and R-biased sequences as exonic splicing enhancers, (3) lowering the amount of targets for pyrimidine tract binding protein in the exons, and (4) reducing the amount of target sequences for binding of serine/arginine-rich (SR) proteins in the introns, thereby allowing SR proteins to bind to proper (exonic) targets. (Reviewing Editor: Dr. Axel Meyer)     

Identification of novel splice variants of the Arabidopsis DCL2 gene

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.     

The novel function of the Saccharomyces cerevisiaeCBP2 gene as a splicing factor essential to excision of the Saccharomyces douglasiiLSU intron in vivo

In the yeast Saccharomyces cerevisiae, the product of the nuclear gene CBP2 is required exclusively for the splicing of the terminal intron of the mitochondrial cytochrome b gene. The homologous gene from the related yeast, Saccharomyces douglasii, has been shown to be essential for respiratory growth in the presence of a wild-type S. douglasii mitochondrial genome and dispensable in the presence of an intronless mitochondrial genome. The two CBP2 genes are functionally interchangeable although the target intron of the S. cerevisiaeCBP2 gene is absent from the S. douglasii mitochondrial genome. To determine the function of the CBP2 gene in S. douglasii mitochondrial pre-RNA processing we have constructed and analyzed interspecific hybrid strains between the nuclear genome of S. cerevisiae carrying an inactive CBP2 gene and S. douglasii mitochondrial genomes with different intron contents. We have demonstrated that inactivation of the S. cerevisiaeCBP2 gene affects the maturation of the S. douglasii LSU pre-RNA, leading to a respiratory-deficient phenotype in the hybrid strains. We have shown that the CBP2 gene is essential for excision of the S. douglasii LSU intron in vivo and that the gene is dispensable when this intron is deleted or replaced by the S. cerevisiae LSU intron. Received: 1 October 1997 / Accepted: 18 November 1997     

外显子和内含子的序列复杂性

引入了两个新的关于序列复杂性的测度,并以此为指标分析比较了结构基因序列中的外显子和内含子的复杂性差异。