RNA干扰对培养的哺乳动物错配细胞基因表达(RNAi)的影响及sirna 3'端化学修饰的引入。

Makiko Hamada, Toshiaki Ohtsuka, Reimi Kawaida, Makoto Koizumi, Koji Morita, Hidehiko Furukawa, Takeshi Imanishi, Makoto Miyagishi, Kazunari Taira
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引用次数: 114

摘要

双链RNA (dsRNA)诱导的基因表达的高度特异性转录后沉默被称为RNA干扰(RNAi),并已在植物、线虫、果蝇、原生动物以及哺乳动物细胞中得到证实。通过化学合成21-核苷酸(21-nt) RNA双链抑制特定基因的表达已经在多种哺乳动物细胞系中实现,这一技术可能被证明是分析哺乳动物细胞中基因生物学功能的一种有价值的工具。为了研究小干扰rna (small interfering rna, siRNA)潜在修饰的实用性,并研究其功能解剖结构,我们合成了针对Jun二聚化蛋白2 (JDP2) mRNA的不同类型siRNA。我们的详细分析表明,在反义链上只有一个与靶标不匹配的sirna会降低RNAi效应,而在义链上相应的突变不会干扰RNAi。此外,在反义链的3'端而不是在正链的3'端替换2-羟乙基磷酸(hp)也可以阻止RNAi,而在任何一条链的3'端使用2'-O,4'- c -乙烯胸苷(eT)进行相关修饰,这是乙烯桥核酸(ENA)的一个组成部分,完全消除了RNAi。这些结果支持了这两条链在培养的哺乳动物细胞中的RNAi中具有不同功能的假设,并表明它们对感觉链3'端sirna的化学修饰是可能的,而不会损失RNAi活性,这取决于修饰的类型。由于hp或eT在反义链的3'端修饰消除了RNAi效应,因此3'端可能被rna诱导的沉默复合体(RISC)识别。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects on RNA interference in gene expression (RNAi) in cultured mammalian cells of mismatches and the introduction of chemical modifications at the 3'-ends of siRNAs.

The highly specific posttranscriptional silencing of gene expression induced by double-stranded RNA (dsRNA) is known as RNA interference (RNAi) and has been demonstrated in plants, nematodes, Drosophila, and protozoa, as well as in mammalian cells. The suppression of expression of specific genes by chemically synthesized 21-nucleotide (21-nt) RNA duplexes has been achieved in various lines of mammalian cells, and this technique might prove to be a valuable tool in efforts to analyze biologic functions of genes in mammalian cells. In order to investigate the utility of potential modifications that can be introduced into small interfering RNAs (siRNAs) and also to study their functional anatomy, we synthesized different types of siRNA targeted to mRNA of Jun dimerization protein 2 (JDP2). Our detailed analysis demonstrated that siRNAs with only one mismatch, relative to the target, on the antisense strand had reduced RNAi effect, whereas the corresponding mutation on the sense strand did not interfere with the RNAi. Moreover, one 2-hydroxyethylphosphate (hp) substitution at the 3'-end of the antisense strand but not of the sense strand also prevented RNAi, whereas a related modification at the 3'-end of either strand, using 2'-O,4'-C-ethylene thymidine (eT), which is a component of ethylene-bridge nucleic acids (ENA), completely abolished RNAi. These results support the hypothesis that the two strands have different functions in RNAi in cultured mammalian cells and indicate that their chemical modification of siRNAs at the 3'-end of the sense strand exclusively is possible, without loss of RNAi activity, depending on the type of modification. Because modification at the 3'-end of the antisense strand by hp or eT abolished the RNAi effect, it appears possible that the 3'-end is recognized by the RNA-induced silencing complex (RISC).

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