RNA splicing

New calcium channel mutations predict aberrant RNA splicing in episodic ataxia

新的钙通道突变预示发作性共济失调患者的RNA异常剪接

Cellular vacuolization induced by truncated large surface antigen of hepatitis B virus due to pregenomic RNA splicing

剪接导致截短的乙型肝炎病毒表面抗原大蛋白可诱导肝细胞空泡化

RNA Splicing and Regulation of Splicing

RNA剪接和剪接调控

In addition , CyP can work as molecule chaperones and plays roles in signalling pathways regulation under stress condition and RNA splicing .

此外，CyP还起着分子伴侣的作用，在应激反应中参与调节信号转导途径，并影响RNA的剪接过程。

The nuclear matrix is very important to maintaining the nuclear structural integrity and specific genomic functions . The nuclear matrix provides structural support for several processes such as DNA replication , transcription , and RNA splicing and transport .

核基质对维持细胞核形态结构和功能非常重要，在DNA复制、转录，RNA加工转运等过程中起支持作用。

OMgp , a glycosyl-phosphatidyl inositol anchor protein , was rich in leucine repeated segments , participated in interaction among protein , had the function of DNA repair , RNA splicing , cell adhesion , signal transduction and so on .

少突胶质细胞髓鞘糖蛋白是糖基磷脂酰肌醇锚合蛋白，富含亮氨酸重复片段结构域，参与蛋白间的相互作用，发挥DNA修复、RNA剪接、细胞间黏附及信号转导等功能。

Splicing is an essential processing mechanism after RNA transcription . Alternative splicing is a major contributor to proteomic diversity by seven different patterns .

剪接是RNA转录后的一种重要的加工机制，而可变剪接是通过不同的剪接方式增加蛋白质的多样性的一种重要途径。

RNA editing and alternative splicing are two important post-transcriptional processings leading to the increase of protein and functional diversity . Both are closely related to cell differentiation and development , the development of the disease and so on .

RNA编辑和可变剪接是转录后加工过程中两种重要的加工方式，能够增加蛋白质和功能的多样性，与细胞分化和发育及疾病的发生发展等密切相关。

They can bind specific RNA , recognize 5 ′ and 3 ′ splice site , help to complete RNA constitutive and alternative splicing with snRNP and other splicing factors .

它们可以结合特定的RNA，参与识别5′及3′剪接位点，与snRNP及其他剪接因子共同完成RNA的组成性和选择性剪接。