通过聚（A）聚合酶加尾和铜催化或无铜应变促进点击化学实现 RNA 的特定末端和内部标记。

Site-specific terminal and internal labeling of RNA by poly(A) polymerase tailing and copper-catalyzed or copper-free strain-promoted click chemistry.

机构信息

Institute of Pharmacy and Molecular Biotechnology, Heidelberg University, Im Neuenheimer Feld 364, Heidelberg 69120, Germany.

出版信息

Nucleic Acids Res. 2012 May;40(10):e78. doi: 10.1093/nar/gks062. Epub 2012 Feb 16.

DOI:10.1093/nar/gks062

PMID:22344697

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3378897/

Abstract

The modification of RNA with fluorophores, affinity tags and reactive moieties is of enormous utility for studying RNA localization, structure and dynamics as well as diverse biological phenomena involving RNA as an interacting partner. Here we report a labeling approach in which the RNA of interest--of either synthetic or biological origin--is modified at its 3'-end by a poly(A) polymerase with an azido-derivatized nucleotide. The azide is later on conjugated via copper-catalyzed or strain-promoted azide-alkyne click reaction. Under optimized conditions, a single modified nucleotide of choice (A, C, G, U) containing an azide at the 2'-position can be incorporated site-specifically. We have identified ligases that tolerate the presence of a 2'-azido group at the ligation site. This azide is subsequently reacted with a fluorophore alkyne. With this stepwise approach, we are able to achieve site-specific, internal backbone-labeling of de novo synthesized RNA molecules.

摘要

将荧光团、亲和标签和反应性部分修饰到 RNA 上，对于研究 RNA 的定位、结构和动态以及涉及 RNA 作为相互作用伙伴的各种生物现象具有巨大的用途。在这里，我们报告了一种标记方法，其中感兴趣的 RNA（无论是合成的还是生物来源的）在其 3'-末端通过带有叠氮化物衍生核苷酸的多聚（A）聚合酶进行修饰。随后，通过铜催化或应变促进的叠氮化物-炔点击反应进行缀合。在优化条件下，可以特异性地掺入含有 2'-位叠氮化物的单个选定的修饰核苷酸（A、C、G、U）。我们已经鉴定出能够容忍连接位点存在 2'-叠氮基团的连接酶。随后，该叠氮化物与荧光团炔烃反应。通过这种逐步方法，我们能够实现从头合成的 RNA 分子的特异性、内部骨架标记。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/85da/3378897/9047995e8a1b/gks062f1.jpg

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通过聚（A）聚合酶加尾和铜催化或无铜应变促进点击化学实现 RNA 的特定末端和内部标记。

Site-specific terminal and internal labeling of RNA by poly(A) polymerase tailing and copper-catalyzed or copper-free strain-promoted click chemistry.

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