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Review
. 2023 Sep;18(9):2671-2698.
doi: 10.1038/s41596-023-00857-0. Epub 2023 Aug 11.

A systems-level mass spectrometry-based technique for accurate and sensitive quantification of the RNA cap epitranscriptome

Jin Wang #  1   2   3 Bing Liang Alvin Chew #  4   5   6 Yong Lai  4   7 Hongping Dong  8 Luang Xu  9   10 Yu Liu  11 Xin-Yuan Fu  9   12 Zhenguo Lin  13 Pei-Yong Shi  14   15 Timothy K Lu  4   16   17 Dahai Luo  5 Samie R Jaffrey  18 Peter C Dedon  19   20
Affiliations
Review

A systems-level mass spectrometry-based technique for accurate and sensitive quantification of the RNA cap epitranscriptome

Jin Wang et al. Nat Protoc. 2023 Sep.

Abstract

Chemical modifications of transcripts with a 5' cap occur in all organisms and function in many aspects of RNA metabolism. To facilitate analysis of RNA caps, we developed a systems-level mass spectrometry-based technique, CapQuant, for accurate and sensitive quantification of the cap epitranscriptome. The protocol includes the addition of stable isotope-labeled cap nucleotides (CNs) to RNA, enzymatic hydrolysis of endogenous RNA to release CNs, and off-line enrichment of CNs by ion-pairing high-pressure liquid chromatography, followed by a 17 min chromatography-coupled tandem quadrupole mass spectrometry run for the identification and quantification of individual CNs. The total time required for the protocol can be up to 7 d. In this approach, 26 CNs can be quantified in eukaryotic poly(A)-tailed RNA, bacterial total RNA and viral RNA. This protocol can be modified to analyze other types of RNA and RNA from in vitro sources. CapQuant stands out from other methods in terms of superior specificity, sensitivity and accuracy, and it is not limited to individual caps nor does it require radiolabeling. Thanks to its unique capability of accurately and sensitively quantifying RNA caps on a systems level, CapQuant can reveal both the RNA cap landscape and the transcription start site distribution of capped RNA in a broad range of settings.

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