RNA 连接用于单标记和双标记 RNA。

RNA Ligation for Mono and Dually Labeled RNAs.

机构信息

Division of Biophysics, Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Pasteura 5, 02-093, Warsaw, Poland.

Centre of New Technologies, University of Warsaw, Banacha 2c, 02-097, Warsaw, Poland.

出版信息

Chemistry. 2021 Aug 19;27(47):12190-12197. doi: 10.1002/chem.202101909. Epub 2021 Jul 5.

DOI:10.1002/chem.202101909

PMID:34114681

Abstract

Labeled RNAs are invaluable probes for investigation of RNA function and localization. However, mRNA labeling remains challenging. Here, we developed an improved method for 3'-end labeling of in vitro transcribed RNAs. We synthesized novel adenosine 3',5'-bisphosphate analogues modified at the N6 or C2 position of adenosine with an azide-containing linker, fluorescent label, or biotin and assessed these constructs as substrates for RNA labeling directly by T4 ligase or via postenzymatic strain-promoted alkyne-azide cycloaddition (SPAAC). All analogues were substrates for T4 RNA ligase. Analogues containing bulky fluorescent labels or biotin showed better overall labeling yields than postenzymatic SPAAC. We successfully labeled uncapped RNAs, NAD-capped RNAs, and 5'-fluorescently labeled m Gp A -capped mRNAs. The obtained highly homogenous dually labeled mRNA was translationally active and enabled fluorescence-based monitoring of decapping. This method will facilitate the use of various functionalized mRNA-based probes.

摘要

标记的 RNA 是研究 RNA 功能和定位的宝贵探针。然而，mRNA 标记仍然具有挑战性。在这里，我们开发了一种改进的体外转录 RNA 3'末端标记方法。我们合成了新型的腺苷 3'，5'-双磷酸类似物，在腺苷的 N6 或 C2 位用含叠氮化物的连接子、荧光标记或生物素进行修饰，并评估这些结构作为 T4 连接酶直接或通过酶后应变促进的炔基-叠氮化物环加成（SPAAC）进行 RNA 标记的底物。所有类似物都是 T4 RNA 连接酶的底物。含有大体积荧光标记或生物素的类似物显示出比酶后 SPAAC 更好的总体标记效率。我们成功地标记了无帽 RNA、NAD 帽 RNA 和 5'荧光标记的 m Gp A 帽 mRNA。获得的高度均一的双重标记 mRNA 具有翻译活性，并能够基于荧光监测脱帽。该方法将促进各种功能化基于 mRNA 的探针的使用。

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RNA 连接用于单标记和双标记 RNA。

RNA Ligation for Mono and Dually Labeled RNAs.

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