Abstract
The recent success of the synthetic mRNA-based anti-COVID-19 vaccines has demonstrated the broad potential of the mRNA platform for applications in medicine, thanks to the combined efforts of a small community that has vastly improved key determinants such as design and formulation of synthetic mRNA during the past three decades. However, the cost of production and sensitivity to enzymatic degradation are still limiting the broader application of synthetic mRNA for therapeutic applications. The increased interest in mRNA-based technologies has spurred a renaissance for circular RNA (circRNA), as the lack of free 5' and 3' ends substantially increases resistance against enzymatic degradation in biological systems and does not require expensive cap analogs, as translation is controlled by an Internal Ribosome Entry Site (IRES) sequence. Thus, it can be expected that circRNA will play an important role for future mRNA therapeutics. Here we provide a detailed guide to the production of synthetic circRNA.
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