RNA denaturation underlies circular RNA separation
Yanyi Jiang, Jørgen Kjems

TL;DR
This study explores how to better separate circular RNAs from linear RNA byproducts using techniques like gel electrophoresis and HPLC–SEC.
Contribution
The study reveals that RNA denaturation is key for separation and shows how magnesium ions affect HPLC–SEC performance.
Findings
RNA denaturation is essential for effective separation of circRNAs using gel electrophoresis and HPLC–SEC.
Trace magnesium ions in RNA samples can significantly hinder circRNA separation via HPLC–SEC.
Optimized denaturing conditions allow HPLC–SEC to purify circRNAs directly from crude reactions.
Abstract
In vitro-synthesized circular RNAs (circRNAs) have emerged as a promising drug modality for RNA therapeutics due to their improved stability and reduced immunogenicity. However, effective analysis and purification of circRNAs pose critical challenges arising from the insufficient separation of circRNAs and linear RNA byproducts. In this study, we systematically evaluate the effectiveness of gel electrophoresis and high-performance liquid chromatography–size exclusion chromatography (HPLC–SEC) for separating circRNAs synthesized through ligase- or ribozyme-based strategies. While the synthesis strategy dictates the purification complexity, we demonstrate that both techniques rely on RNA denaturation to successfully separate circRNAs. Additionally, when using HPLC–SEC, we show that even a trace amount of magnesium ions in RNA samples can significantly compromise circRNA separation. Under…
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Taxonomy
TopicsCircular RNAs in diseases · MicroRNA in disease regulation · RNA Interference and Gene Delivery
