PNRC1剪接变异体的鉴定及其在辅激活核受体介导基因转录功能上的比较

为分析富含脯氨酸核受体辅调节蛋白1(PNRC1)选择性剪接, 及比较PNRC1剪接变异体在辅激活核受体介导基因转录功能上的差异,在生物信息学方法分析PNRC1剪接变异体的基础上,设计一定的特异性引物,采用RT-PCR结合克隆测序的方法对这些剪接变异体进行验证. 利用酵母双杂交和荧光素酶报告系统实验,分析它们与核受体的相互作用及比较它们在辅激活核受体介导基因转录功能上的差异.结果显示,生物信息学预测的几个剪接变异体真实存在于人的组织和细胞系中,这些剪接变异体在与雌激素受体α(ERα)、类固醇衍生因子1(SF1)等核受体的相互作用的强度及辅激活核受体介导基因转录功能上存在较大的差异. 研究提示,PNRC1这些剪接变异体在体内可能发挥不同的功能.     

利用烟草瞬时表达系统检测高等植物基因的剪接加工

解析基因的剪接加工机制是了解植物形态建成、生长发育和逆境胁迫应答的重要环节．与动物相比,植物中相应的研究进展较为缓慢．利用农杆菌介导的烟草瞬时表达系统,分别对单子叶植物水稻BADH2和双子叶植物拟南芥GR7基因片段在烟草叶片中的转录后剪接加工进行分析．结果表明,一些重要剪接调控元件在植物中保守存在,而烟草瞬时表达系统可以作为研究高等植物剪接调控的重要工具,快捷灵敏地检测基因的剪接加工方式．     

鸡Z染色体上DMRT1基因的多重跨染色体剪接

性别决定与分化发育是同时涉及生命现象中两种细胞分裂(有丝分裂和减数分裂)形式的惟一的分化发育过程。对该过程中关键基因DMRT1的转录分析，发现位于鸡Z染色体上的DMRT1基因分别同时与4号染色体上的CENP C1基因、5号染色体上CD5R基因和2号染色体上37LRP/p40基因发生跨染色体剪接，由此构成了新的跨染色体剪接本DMRT1-CENP C1、DMRT1-CD5R和DMRT1-37LRP/p40。对其剪接位点的分析，发现两段染色体序列存在的重叠区可能在这种剪接中起着重要作用。DMRT1基因在转录过程中同时与多个染色体上基因发生多次跨染色体剪接的发现，无疑有助于对在转录水平上的多样性基因调控以及性别决定与分化发育等的认识开辟另一新途径。     

生长激素和生长激素受体的多样性

生长激素及其受体对动物生长发育起着重要的作用。转录过程选择性剪接和存在多种降解途径可能是GH或GHR产生多样性的原因。随着GH结构形态的改变,其功能也在发生变化。GH基因的多样性对鸡的抗病选择性反应与产蛋性能有相关,GH和GHR基因的多样性会影响奶牛的产奶生产性能。GHR的分子多样性可能导致动物生长发育模式的变异,例如动物的矮小病。     

可变剪接在植物免疫中的研究进展

可变剪接是生物重要的转录后修饰过程,是转录组和蛋白组多样性的重要来源.可变剪接参与了植物众多生理过程,包括植物昼夜节律、生长发育等,在植物响应生物和非生物胁迫过程中尤为普遍.近年来,可变剪接被认为是植物抵御病原菌侵染的重要调控机制.本文综述了可变剪接在植物免疫各个层面的调控作用,包括调节重要免疫受体、R基因、激素信号路...     

利用酿酒酵母转座子文库筛选线粒体镁代谢相关基因

镁离子对于维持细胞正常功能十分重要,糖尿病、高血压、慢性呼吸道疾病、骨质疏松、心律失常等多种疾病都与镁代谢失衡有关．MRS2 基因编码线粒体镁离子转运蛋白,MRS2缺失会导致酵母线粒体镁离子浓度下降、线粒体内Ⅱ型内含子剪接缺陷和非发酵碳源培养基上的生长缺陷．为了增进对线粒体镁离子代谢调控基因的了解,利用酿酒酵母mTn-lacZ/LEU2转座子文库筛选MRS2的抑制基因,发现线粒体载体家族成员YMR166C基因的缺失可以挽救MRS2基因缺失突变体的生长缺陷、Ⅱ型内含子剪接缺陷,并可以调节线粒体镁离子浓度,首次发现YMR166C是线粒体镁代谢相关基因.     

Tra2β1蛋白在神经特异性的基因剪接中的功能

体外(in vitro)生化研究已证明哺乳动物Tra2蛋白是前体mRNA剪接的重要调控因子,但是,对该蛋白在in vivo条件下的剪接功能,尤其是在神经特异性基因剪接中的功能及其细胞特异性,目前所知甚少。本文采用in vivo分析模型,在COS-1和PFSK两种不同类型的细胞中,研究了两个神经特异性基因(GluR-B,SMN2)剪接的细胞特异性,同时分析了Tra2β1在这两个基因剪接中的功能及其细胞特异性。结果表明,在研究的两种细胞中,GluR-B和SMN2“小基因”的剪接均具有明显的细胞特异性;而Tra2β1蛋白的过量表达在这两种不同的细胞中对“小基因”的剪接有显著的相同倾向的调节作用,提示Tra2β1蛋白对该两个基因剪接的调节作用可能没有细胞特异性。     

转录辅调节因子在剪接过程中的作用

细胞通过基因表达调控来应对外界刺激,其中对基因转录起始和pre-mRNA剪接的调控是基因表达调控的重要环节。越来越多的实验显示基因转录和pre-mRNA剪接这两个过程在时空上密切相关。基因转录能调节剪接模式的选择性,反之剪接过程也影响基因转录。近年来研究发现转录辅调节因子在联系转录和剪接过程中扮演着重要角色。转录辅调节因子对基因表达的调控不仅在于影响转录产物的量,还可以调控pre-mRNA的选择性剪接并产生不同的剪接体,从而翻译出具有不同生物学功能的蛋白质。本文主要阐述了基因转录与剪接之间的关系以及它们之间相互作用的机制,有利于更深入理解基因表达调控的过程。     

黑腹果蝇头部响应高盐摄入的基因可变剪接分析

高盐摄入不仅会带来高血压、糖尿病、自身免疫病等风险,而且会对大脑产生负面影响。可变剪接(Alternative Splicing,AS)作为基因表达调控的重要方式,其导致单个基因编码多种蛋白质,大大增加基因组编码的蛋白质的多样性,参与几乎所有的生物学过程。但是,关于高盐摄入是否改变神经系统中基因的可变剪接事件目前还未报道。本文以黑腹果蝇作为材料,利用RNA测序分析其头部响应高盐摄入的基因可变剪接变化。结果发现高盐摄入改变黑腹果蝇头部信号转导、离子稳态、离子通道活性、离子转运和钙调蛋白结合等重要信号相关基因的可变剪接。进一步分析具体发生变化的基因的功能,发现它们在多个层面对神经系统功能的调控起着重要的作用。该研究证明高盐摄入改变神经系统重要基因的可变剪接,为理解高盐摄入对神经系统的影响提供更多的依据和线索。     

RNA的可变剪接对肿瘤生物学的影响

可变剪接是真核生物基因的重要调控机制,同一基因通过不同的剪接方式可以生成不同的蛋白质。肿瘤是一种多因素作用的复杂疾病,越来越多的研究证实可变剪接在肿瘤的发生、发展中扮演着重要的角色。本文结合最新的肿瘤学综述总结出来肿瘤基本特征,及其与基因的可变剪接密切联系,进而探讨可变剪接对肿瘤生物学的影响。     

Functionally distinct insulin receptors generated by tissue-specific alternative splicing.

Cloning of the insulin receptor cDNA has earlier revealed the existence of two alternative forms of the receptor differing by the presence or absence of 12 amino acids near the C-terminus of the receptor alpha-subunit. This insert has been shown by others to be encoded by a discrete exon, and alternative splicing of this exon leads to tissue-specific expression of two receptor isoforms. We have studied the functional significance of the receptor isoforms and have confirmed that they are generated by alternative splicing. When cDNAs encoding the two forms of the insulin receptors are expressed in Rat 1 cells, the receptor lacking the insert (HIR-A) has a significantly higher affinity for insulin than the receptor with the insert (HIR-B). This difference in affinity is maintained when insulin binding activity is assayed in solution using detergent solubilized, partially purified receptors. These data, combined with the tissue specificity of HIR-A and HIR-B expression, suggest that alternative splicing may result in the modulation of insulin metabolism or responsiveness by different tissues.     

Alternative splicing of the Drosophila Dscam pre-mRNA is both temporally and spatially regulated

The Drosophila melanogaster Down syndrome cell adhesion molecule (Dscam) gene encodes an axon guidance receptor that can express 38,016 different mRNAs by virtue of alternative splicing. The Dscam gene contains 95 alternative exons that are organized into four clusters of 12, 48, 33, and 2 exons each. Although numerous Dscam mRNA isoforms can be synthesized, it remains to be determined whether different Dscam isoforms are synthesized at different times in development or in different tissues. We have investigated the alternative splicing of the Dscam exon 4 cluster, which contains 12 mutually exclusive alternative exons, and found that Dscam exon 4 alternative splicing is developmentally regulated. The most highly regulated exon, 4.2, is infrequently used in early embryos but is the predominant exon 4 variant used in adults. Moreover, the developmental regulation of exon 4.2 alternative splicing is conserved in D. yakuba. In addition, different adult tissues express distinct collections of Dscam mRNA isoforms. Given the role of Dscam in neural development, these results suggest that the regulation of alternative splicing plays an important role in determining the specificity of neuronal wiring. In addition, this work provides a framework to determine the mechanisms by which complex alternative splicing events are regulated.     

The insulin receptor isoform exon 11- (IR-A) in cancer and other diseases: a review.

The insulin receptor plays a vital role in mediating the actions of insulin. These include metabolic and mitogenic effects. This review will focus on the role of the insulin receptor isoforms in normal development and the pathogenesis of certain cancers and type 2 diabetes. There are two insulin receptor isoforms arising from the alternative splicing of exon 11 resulting in either the exon 11+ (IR-B) isoform (including 12 amino acids encoded by exon 11) or the exon 11- (IR-A) isoform. The isoforms have different affinities for insulin, IGF-II and IGF-I with the exon 11- isoform binding both insulin and IGF-II with high affinities. Interestingly, differential expression of the insulin receptor isoforms has been demonstrated in disease. Several cancer cell types that also overexpress IGF-II preferentially express the exon 11- isoform. Activation of the exon 11- insulin receptor by IGF-II and insulin results in mitogenic effects and a potentiation of the cancer phenotype. Also hyperinsulinemia has been associated with increased risk of cancer. Differential expression of the insulin receptor isoforms has also been demonstrated in type 2 diabetes although there is some discrepancy in the literature as to which isoform is expressed.     

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.     

mRNA选择性剪接的分子机制

真核细胞mRNA前体经过剪接成为成熟的mRNA,而mRNA前体的选择性剪接极大地增加了蛋白质的多样性和基因表达的复杂程度,剪接位点的识别可以以跨越内含子的机制(内含子限定)或跨越外显子的机制(外显子限定)进行。选择性剪接有多种剪接形式：选择不同的剪接位点,选择不同的剪接末端,外显子的不同组合及内含子的剪接与否等。选择性剪接过程受到许多顺式元件和反式因子的调控,并与基本剪接过程紧密联系,剪接体中的一些剪接因子也参与了对选择性剪接的调控。选择性剪接也是1个伴随转录发生的过程,不同的启动子可调控产生不同的剪接产物。mRNA的选择性剪接机制多种多样,已发现RNA编辑和反式剪接也可参与选择性剪接过程。     

Regulation of alternative splicing of CD44 in cancer

CD44 is a hyaluronan binding cell surface signal transducing receptor that influences motility, cell survival and proliferation as well as the formation of tumor microenvironment. CD44 contains two variable regions encoded by variable exons. Alternative splicing, which is often deregulated in cancer, can produce various isoforms of CD44 with properties that may have different tissue specific effects and therefore even diverse effects on cancer progression. This review summarizes and puts together all major regulators of alternative splicing of CD44 in cancer that have been documented so far and that have an experimentally proved effect on CD44 isoform switching. It is important to better understand the mechanisms of alternative splicing of CD44, where all the variability of CD44 originates, to be able to explain the isoform switching and occurrence of variant isoforms of CD44 (CD44v) in cancer.