核酸
小干扰RNA
核糖核酸
背景(考古学)
生物
RNA干扰
DNA
分子生物学
生物化学
核糖
感应(电子)
核苷酸
反式siRNA
化学
细胞生物学
核酸结构
核酸热力学
立体化学
作者
S. Mori,Dhrubajyoti Datta,Lydia A. Perkins,Michelle Jung,Lauren Blair Woods,Alex Eaton,June Qin,Tim Racie,MaryBeth Kim,Dale C. Guenther,Adam Castoreno,Mark K. Schlegel,Klaus Charissé,Martin Egli,Shigeo Matsuda,Muthiah Manoharan
摘要
Unlocked nucleic acid (UNA) is a nucleic acid analog that has an acyclic ribose ring lacking the bond between C2' and C3' atoms. The base-pairing properties of UNA have been studied, and it has been used as a scaffold for conjugation, but the chemical space around UNA and its potential applications in the context of short interfering RNAs (siRNAs), which mediate RNA interference, have not been thoroughly explored. In this study, we report syntheses of methylated and methoxylated UNAs and their incorporation into siRNAs. siRNAs with 5'-(R)-methyl-UNA and with 5'-(S)-methyl-UNA in the seed region had comparable potencies but reduced off-target effects compared to siRNA modified with UNA. In mice, siRNAs with modified UNAs were of comparable potency to an siRNA of the same sequence and chemistry lacking UNA. Modeling studies indicated that the flexibilities of UNA and the modified UNAs facilitate kinking of the antisense strand when incorporated at position 7. These findings highlight the potential of modified UNA for advancing therapeutics that act through the RNA interference pathway.
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