经修饰的 dsRNA 不会被 Dicer 加工，仍保持效力，并被整合到 RISC 中。

Modified dsRNAs that are not processed by Dicer maintain potency and are incorporated into the RISC.

机构信息

RXi Pharmaceuticals Corporation, Gateway Life Sciences Park, 60 Prescott Street, Worcester, MA 01605, USA.

出版信息

Nucleic Acids Res. 2010 Jun;38(11):3771-9. doi: 10.1093/nar/gkq055. Epub 2010 Feb 18.

DOI:10.1093/nar/gkq055

PMID:20167638

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2887946/

Abstract

Chemical modification of RNA duplexes can provide practical advantages for RNA interference (RNAi) triggering molecules including increased stability, safety and specificity. The impact of nucleotide modifications on Dicer processing, RISC loading and RNAi-mediated mRNA cleavage was investigated with duplexes >or=25 bp in length. It is known that dsRNAs >or=25 bp are processed by Dicer to create classic 19-bp siRNAs with 3'-end overhangs. We demonstrate that the presence of minimal modification configurations on longer RNA duplexes can block Dicer processing and result in the loading of the full-length guide strand into RISC with resultant mRNA cleavage at a defined site. These longer, modified duplexes can be highly potent gene silencers, with EC50s in the picomolar concentration range, demonstrating that Dicer processing is not required for incorporation into RISC or potent target silencing.

摘要

RNA 双链体的化学修饰可为 RNA 干扰 (RNAi) 触发分子提供实际优势，包括提高稳定性、安全性和特异性。通过对长度大于或等于 25 个核苷酸的双链体进行研究，考察了核苷酸修饰对 Dicer 加工、RISC 加载和 RNAi 介导的 mRNA 切割的影响。已知 dsRNA 长度大于或等于 25 个核苷酸时，Dicer 会将其加工成具有 3'末端突出的经典 19 个核苷酸的 siRNA。我们证明，在较长的 RNA 双链体上存在最小的修饰结构可以阻断 Dicer 的加工，并导致全长向导链加载到 RISC 中，从而在特定位置切割 mRNA。这些较长的修饰双链体可以作为高效的基因沉默剂，其 EC50 值在皮摩尔浓度范围内，这表明 Dicer 加工对于 RISC 的掺入或有效的靶标沉默不是必需的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c1c/2887946/09bbab958d8c/gkq055f1.jpg

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经修饰的 dsRNA 不会被 Dicer 加工，仍保持效力，并被整合到 RISC 中。

Modified dsRNAs that are not processed by Dicer maintain potency and are incorporated into the RISC.

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