小干扰rna和短发夹rna的序列、化学和结构变异及其对哺乳动物基因沉默的影响。

Jens Harborth, Sayda M Elbashir, Kim Vandenburgh, Heiko Manninga, Stephen A Scaringe, Klaus Weber, Thomas Tuschl
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引用次数: 473

摘要

小干扰RNA (sirna)在哺乳动物细胞中诱导序列特异性基因沉默,并在RNA干扰(RNAi)过程中引导mRNA降解。通过在人HeLa或小鼠SW3T3细胞中靶向内源性lamin A/C mRNA,我们研究了sirna介导的基因沉默的位置变化。我们发现依赖于细胞类型的全局效应和独立于细胞类型的位置效应。HeLa细胞对sirna的反应是SW3T3细胞的2倍,但显示出非常相似的层合蛋白a /C沉默的位置变化模式。在HeLa细胞中,44个测试的标准21核苷酸(nt) siRNA双链中有26个使蛋白表达降低了至少90%,只有2个双链使层粘连蛋白A/C蛋白降低到
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sequence, chemical, and structural variation of small interfering RNAs and short hairpin RNAs and the effect on mammalian gene silencing.

Small interfering RNAs (siRNAs) induce sequence-specific gene silencing in mammalian cells and guide mRNA degradation in the process of RNA interference (RNAi). By targeting endogenous lamin A/C mRNA in human HeLa or mouse SW3T3 cells, we investigated the positional variation of siRNA-mediated gene silencing. We find cell-type-dependent global effects and cell-type-independent positional effects. HeLa cells were about 2-fold more responsive to siRNAs than SW3T3 cells but displayed a very similar pattern of positional variation of lamin A/C silencing. In HeLa cells, 26 of 44 tested standard 21-nucleotide (nt) siRNA duplexes reduced the protein expression by at least 90%, and only 2 duplexes reduced the lamin A/C proteins to <50%. Fluorescent chromophores did not perturb gene silencing when conjugated to the 5'-end or 3'-end of the sense siRNA strand and the 5'-end of the antisense siRNA strand, but conjugation to the 3'-end of the antisense siRNA abolished gene silencing. RNase-protecting phosphorothioate and 2'-fluoropyrimidine RNA backbone modifications of siRNAs did not significantly affect silencing efficiency, although cytotoxic effects were observed when every second phosphate of an siRNA duplex was replaced by phosphorothioate. Synthetic RNA hairpin loops were subsequently evaluated for lamin A/C silencing as a function of stem length and loop composition. As long as the 5'-end of the guide strand coincided with the 5'-end of the hairpin RNA, 19-29 base pair (bp) hairpins effectively silenced lamin A/C, but when the hairpin started with the 5'-end of the sense strand, only 21-29 bp hairpins were highly active.

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