Automated in vitro evolution of a translation-coupled RNA replication system in a droplet flow reactor

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Abstract

Automation is a useful strategy to make laborious evolutionary experiments faster and easier. To date, several types of continuous flow reactors have been developed for the automated evolutionary experiments of viruses and bacteria. However, the development of a flow reactor applicable to compartmentalized in vitro self-replication systems is still a challenge. In this study, we demonstrate automated in vitro evolution of a translation-coupled RNA system in a droplet flow reactor for the first time. This reactor contains approximately 1010 micro-scale droplets (average diameter is approximately 0.8 μm), which continuously fuse and divide among each other at a controllable rate. In the droplets, an RNA (artificial genomic RNA) replicate through the translation of self-encoded RNA replicase with spontaneously appearing parasitic RNA. We performed two automated replication experiments for more than 400 hours with different mixing intensities. We found that several mutations displayed increased frequencies in the genomic RNA populations and the dominant RNA mutants acquired the ability to replicate faster or acquired resistance to the parasitic RNA, demonstrating that Darwinian evolution occurred during the long-term replication. The droplet flow reactor we developed can be a useful tool to perform in vitro evolutionary experiments of translation-coupled systems.

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Yoshiyama, T., Ichii, T., Yomo, T., & Ichihashi, N. (2018). Automated in vitro evolution of a translation-coupled RNA replication system in a droplet flow reactor. Scientific Reports, 8(1). https://doi.org/10.1038/s41598-018-30374-0

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