Regulation of the kinase activity of the MIK GCK-like MAP4K by alternative splicing

Alternative splicing of introns is essential to ensure the complexity of mammalian genome functions. In particular, the generation of a high number of different isoforms by alternative splicing is an important characteristic of genes coding for signalling proteins such as mitogen activated protein kinases (MAPKs). This is thought to allow these proteins to transduce multiple stimuli in a highly regulated manner. Plant genes are also subjected to alternative splicing. Nevertheless, clear examples of the functional consequences of this phenomenon are still scarce in plants. MIK is a maize gene coding for a GCK-like MAP4K that can be activated by interaction with maize atypical receptor kinase (MARK), an atypical receptor kinase. Here we show that MIK is subjected to alternative splicing. Expression of MIK leads to, at least, 4 different mature mRNAs that accumulate with particular expression profiles during maize development. Our results show that the polypeptides encoded by the different MIK mRNAs display different kinase activity and are differentially activated by interaction with the MARK receptor. Two MIK isoforms display constitutive kinase activity, one isoform is inactive but can be activated by MARK, and the fourth MIK isoform is inactive and cannot be activated by MARK. Our results constitute a clear example of the biochemical consequences of alternative splicing in plants. The selective conservation during evolution of the intron–exon structure of the region coding for the regulator domain of MIK, as well as the maintenance in maize, rice and Arabidopsis of the alternative splicing of some of these introns, are strong indications of its functional importance.     

人类基因组盒式外显子和内含子保留的可变剪接位点预测

信使RNA的可变剪接是真核生物有别于原核生物的基本特征之一,信使RNA前体的可变剪接极大地丰富了高等真核生物蛋白质的多样性,并与生物体的组织特异性密切相关。文章对人类盒式外显子和内含子保留的一些基本特征进行了统计;根据剪接位点附近的单碱基、碱基二联体和三联体的保守性等特征,利用基于多样性指标的二次判别法,对盒式外显子和内含子保留的供体端和受体端可变剪接位点进行了预测。交叉检验结果表明,盒式外显子供体端和受体端的识别精度分别达到93％、84％以上的水平;内含子保留供体端和受体端的识别精度分别达到89％、81％以上的水平。     

Gene expression enhancement mediated by the 5′ UTR intron of the rice <Emphasis Type="Italic">rubi3</Emphasis> gene varied remarkably among tissues in transgenic rice plants

Introns are important sequence elements that modulate the expression of genes. Using the GUS reporter gene driven by the promoter of the rice (Oryza sativa L.) polyubiquitin rubi3 gene, we investigated the effects of the 5' UTR intron of the rubi3 gene and the 5' terminal 27 bp of the rubi3 coding sequence on gene expression in stably transformed rice plants. While the intron enhanced GUS gene expression, the 27-bp fused to the GUS coding sequence further augmented GUS expression level, with both varying among different tissues. The intron elevated GUS gene expression mainly at mRNA accumulation level, but also stimulated enhancement at translational level. The enhancement on mRNA accumulation, as determined by realtime quantitative RT-PCR, varied remarkably with tissue type. The augmentation by the intron at translational level also differed by tissue type, but to a lesser extent. On the other hand, the 27-bp fusion further boosted GUS protein yield without affecting mRNA accumulation level, indicating stimulation at translation level, which was also affected by tissue type. The research revealed substantial variation in the magnitudes of intron-mediated enhancement of gene expression (IME) among tissues in rice plants and the importance of using transgenic plants for IME studies.     

Mitochondrial genomes of the green macroalga Ulva pertusa (Ulvophyceae,Chlorophyta): novel insights into the evolution of mitogenomes in the Ulvophyceae

To further understand the trends in the evolution of mitochondrial genomes (mitogenomes or mtDNAs) in the Ulvophyceae, the mitogenomes of two separate thalli of Ulva pertusa were sequenced. Two U. pertusa mitogenomes (Up1 and Up2) were 69,333 bp and 64,602 bp in length. These mitogenomes shared two ribosomal RNAs (rRNAs), 28 transfer RNAs (tRNAs), 29 protein‐coding genes, and 12 open reading frames. The 4.7 kb difference in size was attributed to variation in intron content and tandem repeat regions. A total of six introns were present in the smaller U. pertusa mtDNA (Up2), while the larger mtDNA (Up1) had eight. The larger mtDNA had two additional group II introns in two genes (cox1 and cox2) and tandem duplication mutations in noncoding regions. Our results showed the first case of intraspecific variation in chlorophytan mitogenomes and provided further genomic data for the undersampled Ulvophyceae.     

草鱼MyD88基因组结构解析及启动子活性探讨

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Species separation in <Emphasis Type="Italic">Curvularia</Emphasis> “geniculata” group inferred from <Emphasis Type="Italic">Brn1</Emphasis> gene sequences

 Brn1, a reductase gene involved in the melanin biosynthetic pathway, was adopted for species delimitation among members in the “geniculata” group of Curvularia species and proved to be useful for this purpose. Phylogenetic trees of these fungal members were constructed from nucleotide sequences of this region. The so-called geniculata group of Curvularia was separated into several clusters. The conidial morphology of the members in each cluster is closely similar but clearly different among discrete clusters. The phylogenetic groups almost concurred with the morphological grouping. Thus, the synonymous treatment of Curvularia affinis, C. fallax, and C. senegalensis to C. geniculata in a previous study was supported. The isolates with warping hilum conidia were clearly different from C. geniculata and separated into two clusters. C. geniculata ATCC 6671 made an independent cluster situated near these clusters. The protuberant hilum species were located separately in the phylogenetic trees. For sound taxonomic treatment of these isolates, we should accumulate more information and retain our species determination for them. Received: September 26, 2002 / Accepted: March 12, 2003     

两种鱼类Sox基因保守区的克隆和Sox9基因保守区内含子的遗传变异性

Sox基因家族是生物个体发育过程中关键的调控因子,尤其在睾丸、神经、肌肉和骨骼等组织分化和发育过程中发挥着重要的作用(Fosteretal.,1 994 ;PevnyandLovell Badge ,1 997;Schepersetal.,2 0 0 0 ;ClarksonandHarley ,2 0 0 2 ;Changetal.,2 0 0 2 ;Monteroetal.,2 0 0 2 ;Ga     

拟南芥和线虫基因序列及剪切位点的理论预测

将拟南芥(A．thaliana)和线虫(C．elegans)基因组按外显子、内含子及基因间序列区分为3类。分别选取64、40、20种三联体的概率作为信号参数构建离散源,根据离散增量预测序列所属类型。结果表明：拟南芥各条染色体标准集总预测成功率达到82．19％,检验集为87．95％;线虫各条染色体标准集总预测成功率达到79．67％,检验集达到81,93％。另外,将两种基因序列中的外显子分别划分成3类,用外显子剪切位点、翻译起始和结束位点附近的三联体的3个位点作为3条子链,以各条子链的12个参数构建离散源,用离散增量对3种序列类型进行预测,预测成功率都达80％以上。