Quantitative and site-specific detection of inosine modification in RNA by acrylonitrile labeling-mediated elongation stalling

肌苷 核糖核酸 化学 生物化学 丙烯腈 分子生物学 生物 基因 有机化学 共聚物 聚合物
作者
Jiang-Hui Ding,Mengyuan Chen,Neng-Bin Xie,Conghua Xie,Nanxiang Xiong,Jin‐Gang He,Jie Wang,Cheng Guo,Yun Feng,Bi‐Feng Yuan
出处
期刊:Biosensors and Bioelectronics [Elsevier BV]
卷期号:219: 114821-114821 被引量:3
标识
DOI:10.1016/j.bios.2022.114821
摘要

RNA molecules contain diverse modifications that play crucial roles in a wide variety of biological processes. Inosine is one of the most prevalent modifications in RNA and dysregulation of inosine is correlated with many human diseases. Herein, we established an acrylonitrile labeling-mediated elongation stalling (ALES) method for quantitative and site-specific detection of inosine in RNA from biological samples. In ALES method, inosine is selectively cyanoethylated with acrylonitrile to form N1-cyanoethylinosine (ce1I) through a Michael addition reaction. The N1-cyanoethyl group of ce1I compromises the hydrogen bond between ce1I and other nucleobases, leading to the stalling of reverse transcription at original inosine site. This specific property of stalling at inosine site could be evaluated by subsequent real-time quantitative PCR (qPCR). With the proposed ALES method, we found the significantly increased level of inosine at position Chr1:63117284 of Ino80dos RNA of multiple tissues from sleep-deprived mice compared to the control mice. This is the first report on the investigation of inosine modification in sleep-deprived mice, which may open up new direction for deciphering insomnia from RNA modifications. In addition, we found the decreased level of inosine at GluA2 Q/R site (Chr4:157336723) in glioma tissues, indicating the decreased level of inosine at GluA2 Q/R site may serve as potential indicator for the diagnosis of glioma. Taken together, the proposed ALES method is capable of quantitative and site-specific detection of inosine in RNA, which provides a valuable tool to uncover the functions of inosine in human diseases.

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