N4-Allylcytidine: a new nucleoside analogue for RNA labelling and chemical sequencing†

IF 4.2 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Tengwei Li, Xiao Shu, Minsong Gao, Chenyang Huang, Ting Li, Jie Cao, Xiner Ying, Donghong Liu and Jianzhao Liu
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引用次数: 0

Abstract

RNA labelling has become indispensable in studying RNA biology. Nucleoside analogues with a chemical sequencing power represent desirable RNA labelling molecules because precise labelling information at base resolution can be obtained. Here, we report a new nucleoside analogue, N4-allylcytidine (a4C), which is able to tag RNA through both in vitro and in vivo pathways and further specifically reacts with iodine to form 3, N4-cyclized cytidine (cyc-C) in a catalyst-free, fast and complete manner. Full spectroscopic characterization concluded that cyc-C consisted of paired diastereoisomers with opposite chiral carbon centers in the fused 3, N4-five-membered ring. During RNA reverse transcription into complementary DNA, cyc-C induces base misincorporation due to the disruption of canonical hydrogen bonding by the cyclized structure and thus can be accurately identified by sequencing at single base resolution. With the chemical sequencing rationale of a4C, successful applications have been performed including pinpointing N4-methylcytidine methyltransferases’ substrate modification sites, metabolically labelling mammalian cellular RNAs, and mapping active cellular RNA polymerase locations with the chromatin run-on RNA sequencing technique. Collectively, our work demonstrates that a4C is a promising molecule for RNA labelling and chemical sequencing and expands the toolkit for studying sophisticated RNA biology.

Abstract Image

Abstract Image

n4 -烯丙基胞苷:用于RNA标记和化学测序的新型核苷类似物
RNA标记是RNA生物学研究中不可缺少的手段。具有化学测序能力的核苷类似物代表了理想的RNA标记分子,因为可以获得碱基分辨率的精确标记信息。在这里,我们报道了一种新的核苷类似物,n4 -烯丙基胞苷(a4C),它能够通过体外和体内途径标记RNA,并进一步与碘特异性反应,以无催化剂、快速和完整的方式生成3,n4环化胞苷(cyc-C)。全光谱表征表明,环c由3,n4 -五元环中具有相反手性碳中心的对映异构体组成。在RNA逆转录成互补DNA的过程中,由于环化结构破坏了典型的氢键,cyc-C诱导碱基错误掺入,因此可以通过单碱基分辨率的测序准确识别。利用a4C的化学测序原理,已经进行了成功的应用,包括确定n4 -甲基胞苷甲基转移酶的底物修饰位点,代谢标记哺乳动物细胞RNA,以及利用染色质运行RNA测序技术绘制活性细胞RNA聚合酶的位置。总的来说,我们的工作表明a4C是一种很有前途的RNA标记和化学测序分子,并扩展了研究复杂RNA生物学的工具包。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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