Development of a photostable pH biosensor based on mStayGold
Chang, M.; Takahashi-Yamashiro, K.; Terai, T.; Campbell, R. E.; Tsao, K. K.
Show abstract
pH-sensitive fluorescent proteins (FPs) play a crucial role in investigating pH-related cellular processes, such as endocytosis and exocytosis. Existing pH-sensitive FPs generated from Aequorea victoria green fluorescent protein (GFP), such as superecliptic pHluorin (SEP) and Lime, have been widely employed to study these processes, but suffer from low photostability. Here, we report the development and characteristics of serapH, a genetically encodable pH biosensor with improved photostability compared to GFP analogues, which we generated using mStayGold as a scaffold. To aid in the development of serapH, we developed a method for screening pH-sensitive FP variants by directly evaluating both brightness and pH sensitivity in bacterial colonies on agar. This significantly increased the number of colonies that could be screened per round and reduced the time needed per round. The photostability of serapH should improve spatiotemporal resolution by increasing tolerance to higher excitation intensities and longer imaging durations, thereby expanding the range of applications of pH-sensitive FPs.
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