通过环环RNA相互作用将发夹核酶锚定在长靶RNA上。

Elena Puerta-Fernández, A. Barroso-deljesús, A. Berzal-Herranz
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引用次数: 10

摘要

有效的核酶介导的基因沉默需要核酶与其特定靶序列的有效结合。稳定的茎环结构域是决定天然反义rna效率的关键因素。这项工作测试了在靶向长rna时使用这种天然存在的结构基序来锚定发夹核酶的可能性。实验采用了四种催化反义rna,基于发夹核酶(hairpin ribozyme, HP),在它们的3'端携带一个稳定的茎环基序。延伸由以下基序之一组成:天然反义RNA-CopA的茎环II,其在CopT中的天然靶标,TAR-RNA基序或其互补序列alphaTAR。有趣的是,任何这些反义基序的存在都会导致对核酶的14个核苷酸长的靶RNA (Swt)的催化性能增强。构建了一系列含有Swt序列和天然TAR-RNA茎环的人工长RNA底物,并用携带tar -互补茎环的催化反义RNA激发。这比HP更有效地切割这些底物。底物中TAR结构域的缺失,或其被互补的对应α取代,消除了积极作用。这些结果表明,这种增强是由于两个互补的茎环结构域的相互作用。此外,他们证明了TAR结构域可以用作锚定位点,以促进发夹核酶进入含有TAR的rna中的特定靶序列。
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Anchoring hairpin ribozymes to long target RNAs by loop-loop RNA interactions.
Efficient ribozyme-mediated gene silencing requires the effective binding of a ribozyme to its specific target sequence. Stable stem-loop domains are key elements for efficiency of natural antisense RNAs. This work tests the possibility of using such naturally existing structural motifs for anchoring hairpin ribozymes when targeting long RNAs. Assays were performed with four catalytic antisense RNAs, based on the hairpin ribozyme (HP), that carried a stable stem-loop motif at their 3' end. Extensions consisted of one of the following motifs: the stem-loop II of the natural antisense RNA-CopA, its natural target in CopT, the TAR-RNA motif, or its complementary sequence alphaTAR. Interestingly, the presence of any of these antisense motifs resulted in an enhancement of catalytic performance against the ribozyme's 14-nucleotide-long target RNA (Swt). A series of artificial, long RNA substrates containing the Swt sequence and the natural TAR-RNA stem-loop were constructed and challenged with a catalytic antisense RNA carrying the TAR-complementary stem-loop. This cleaves each of these substrates significantly more efficiently than HP. The deletion of the TAR domain in the substrate, or its substitution by its complementary counterpart alphaTAR, abolishes the positive effect. These results suggest that the enhancement is owed to the interaction of both complementary stem-loop domains. Moreover, they demonstrate that the TAR domain can be used as an anchoring site to facilitate the access of hairpin ribozymes to their specific target sequences within TAR-containing RNAs.
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