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小干扰RNA的位点特异性化学修饰可减少“脱靶”转录本沉默。

Position-specific chemical modification of siRNAs reduces "off-target" transcript silencing.

作者信息

Jackson Aimee L, Burchard Julja, Leake Devin, Reynolds Angela, Schelter Janell, Guo Jie, Johnson Jason M, Lim Lee, Karpilow Jon, Nichols Kim, Marshall William, Khvorova Anastasia, Linsley Peter S

机构信息

Rosetta Inpharmatics, LLC, Seattle, WA 98109, USA.

出版信息

RNA. 2006 Jul;12(7):1197-205. doi: 10.1261/rna.30706. Epub 2006 May 8.

DOI:10.1261/rna.30706
PMID:16682562
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1484422/
Abstract

Transfected siRNAs regulate numerous transcripts sharing limited complementarity to the RNA duplex. This unintended ("off-target") silencing can hinder the use of RNAi to define gene function. Here we describe position-specific, sequence-independent chemical modifications that reduced silencing of partially complementary transcripts by all siRNAs tested. Silencing of perfectly matched targets was unaffected by these modifications. The chemical modification also reduced off-target phenotypes in growth inhibition studies. Key to the modification was 2'-O-methyl ribosyl substitution at position 2 in the guide strand, which reduced silencing of most off-target transcripts with complementarity to the seed region of the siRNA guide strand. The sharp position dependence of 2'-O-methyl ribosyl modification contrasts with the broader position dependence of base-pair substitutions within the seed region, suggesting a role for position 2 of the guide strand distinct from its effects on pairing to target transcripts.

摘要

转染的小干扰RNA(siRNA)可调控众多与RNA双链体互补性有限的转录本。这种非预期的(“脱靶”)沉默会阻碍利用RNA干扰(RNAi)来确定基因功能。在此,我们描述了位点特异性、序列非依赖性的化学修饰,这些修饰可减少所有测试的siRNA对部分互补转录本的沉默作用。对完全匹配靶点的沉默不受这些修饰的影响。在生长抑制研究中,这种化学修饰还减少了脱靶表型。修饰的关键在于向导链第2位的2'-O-甲基核糖基取代,这减少了大多数与siRNA向导链种子区域具有互补性的脱靶转录本的沉默。2'-O-甲基核糖基修饰的尖锐位点依赖性与种子区域内碱基对取代的更广泛位点依赖性形成对比,这表明向导链第2位的作用与其对与靶转录本配对的影响不同。

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