Abstract

RNA decay serves as a crucial mechanism for maintaining cellular homeostasis and regulating gene expression. Large-scale analyses indicate that altered rates of decay contribute significantly to changes in mRNA levels, with up to half of these changes attributed to decay. The regulation of RNA decay is, at least in part, through structured RNA elements, especially in the non-coding regions of the mRNAs. The development of next-generation sequencing, and in vivo chemical probing techniques has allowed for unprecedented understanding of RNA folding in vivo and genome-wide. To explore the RNA structure elements that are responsible for RNA cleavage, we need to capture the RNA structure before cleavage. In this method, we introduce a new experimental procedure called CAP-STRUCTURE-seq, a modified STRUCTURE-Seq approach combining with the enrichment of in intact mRNAs by the use of terminator exonuclease treatment (5'-Phosphate-Dependent Exonuclease) that digests RNA containing 5-monophosphate ends. This approach is designed to investigate the RNA structure for these intact RNAs, providing a means to study the impact of RNA structure on RNA decay in greater detail. This method can provide insights into the function of RNA structure in RNA decay and help advance our understanding of biological processes.

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