通过化学连接获取封端 RNA

IF 4.2 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Karolina Bartosik and Ronald Micura
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引用次数: 0

摘要

真核生物 mRNA 的一个显著特点是其 5′末端有一个帽子结构。典型的帽结构由 7-甲基鸟苷酸组成,通过 5′、5′-三磷酸桥与第一个转录核苷酸相连。它在真核细胞的许多过程中都起着关键作用,包括剪接、细胞内运输、启动翻译和转换。合成的带帽寡核苷酸是阐明这些生理过程的有用工具。此外,具有人工修饰的帽子模拟物对设计基于 mRNA 的疗法和疫苗也很有意义。虽然可以通过化学合成获得短的帽状模拟物,但制备 mRNA 长度的帽状类似物仍然具有挑战性,需要对合成的 RNA 片段进行模板化的酶连接。为了提高带帽 mRNA 类似物的可用性,我们在此介绍一种实用的非模板方法,该方法基于点击连接,从而在寡聚磷酸骨架内产生带有单个三唑连接的 RNA。因此,我们以纳摩尔产量获得了长度达 81 个核苷酸的带帽 RNA 片段,这些片段是生化、光谱或结构研究的必需品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Access to capped RNAs by chemical ligation†

Access to capped RNAs by chemical ligation†

Access to capped RNAs by chemical ligation†

A distinctive feature of eukaryotic mRNAs is the presence of a cap structure at the 5′ end. The typical cap consists of 7-methylguanosine linked to the first transcribed nucleotide through a 5′,5′-triphosphate bridge. It plays a key role in many processes in eukaryotic cells, including splicing, intracellular transport, initiation of translation and turnover. Synthetic capped oligonucleotides have served as useful tools for elucidating these physiological processes. In addition, cap mimics with artificial modifications are of interest for the design of mRNA-based therapeutics and vaccines. While the short cap mimics can be obtained by chemical synthesis, the preparation of capped analogs of mRNA length is still challenging and requires templated enzymatic ligation of synthetic RNA fragments. To increase the availability of capped mRNA analogs, we present here a practical and non-templated approach based on the use of click ligation resulting in RNAs bearing a single triazole linkage within the oligo-phosphate backbone. Capped RNA fragments with up to 81 nucleotides in length have thus been obtained in nanomolar yields and are in demand for biochemical, spectroscopic or structural studies.

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来源期刊
CiteScore
6.10
自引率
0.00%
发文量
128
审稿时长
10 weeks
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