Stress-induced changes in endogenous TP53 mRNA 5′ regulatory region
Jin Yeong Kim, Alexandra Furney, Brittany Benner, Arnab Sengupta

TL;DR
This study explores how stress affects the structure of the TP53 mRNA 5′ region, which is important for its noncanonical translation.
Contribution
The paper identifies stress-induced structural changes in the TP53 mRNA 5′ region using in-cell SHAPE analysis.
Findings
Stress conditions alter the RNA structure at the TP53 5′ end, including near the start codon and at the three-helix junction.
ΔSHAPE analysis reveals protection sites matching known RNA–protein binding sites and new stress-specific interaction sites.
The study provides a cell-free secondary structure model of the TP53 5′ region with potential regulatory interactions.
Abstract
Tumor suppressor protein p53 is regulated in a number of ways, including during initiation of TP53 mRNA translation. The 5′ end of TP53 mRNA contains regulatory structures that enable noncanonical initiation using mechanisms that remain poorly described. Here we analyze per-nucleotide reactivity changes in the 5′ end secondary structure of TP53 mRNA under in-cell conditions using A549 human lung carcinoma cells. We first construct a cell-free secondary structure model using SHAPE reagent 5-nitroisatoic anhydride on gently extracted and deproteinated RNA. We observe previously described regulatory features of the TP53 mRNA 5′ end including two motifs which we refer to as long stem-loop (LSL) and short stem-loop (SSL), respectively. We observe a domain-forming helix that groups LSL and SSL, forming a three-helix junction. Applying in-cell selective 2′ hydroxyl acylation analyzed by primer…
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Taxonomy
TopicsRNA Research and Splicing · Cancer-related Molecular Pathways · RNA modifications and cancer
