Detection of stress-dependent m5C rRNA dynamics in Escherichia coli using m5C-Rol-LAMP
- ↵* Corresponding author; email: jung{at}lmu.de
Abstract
Numerous RNA modifications are known in prokaryotes, but their dynamics and function in regulation remain largely unexplored. In Escherichia coli, three methyltransferases catalyze the 5-methylcytosine (m5C) modification in ribosomal RNA. Here, we introduce m5C-Rol-LAMP (m5C-rolling circle loop-mediated isothermal amplification) as a novel qPCR-based method that offers high sensitivity and site-specific resolution to detect and quantify m5C in total RNA. When applying m5C-Rol-LAMP to E. coli under heat stress (45 °C), we observe a site-specific increase of m5C at position 1407 of 16S rRNA from 77% to 89%, while m5C levels at positions 967 (16S) and 1962 (23S) remain unchanged. In recovered cells (at 37 °C), the m5C abundance partially returns to the no-stress level. Under oxidative stress, the level of m5C1407 also increases, but remains high in recovered cells. These results demonstrate for the first time a reversible, stress-dependent, and site-specific change in the rRNA modification level of a bacterium. m5C-Rol-LAMP is a powerful and easy-to-use tool for studying m5C in all RNA species, allowing the quantitative and site-specific detection of this modification.
Keywords
- Epitransciptome
- bacterial heat stress
- bacterial oxidative stress
- methylated ribosomal RNA
- methylation of cytosine
- Received June 13, 2025.
- Accepted October 27, 2025.
- Published by Cold Spring Harbor Laboratory Press for the RNA Society
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