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Engineering of NEMO as calcium indicators with large dynamics and high sensitivity.

Jia LiZiwei ShangJia-Hui ChenWenjia GuLi YaoXin YangXiaowen SunLiuqing WangTianlu WangSiyao LiuJiajing LiTingting HouDajun Xing 邢大军Donald L GillJiejie LiShi-Qiang WangLijuan HouYubin ZhouAi-Hui TangXiaohui ZhangYoujun Wang
Published in: Nature methods (2023)
Genetically encoded calcium indicators (GECIs) are indispensable tools for real-time monitoring of intracellular calcium signals and cellular activities in living organisms. Current GECIs face the challenge of suboptimal peak signal-to-baseline ratio (SBR) with limited resolution for reporting subtle calcium transients. We report herein the development of a suite of calcium sensors, designated NEMO, with fast kinetics and wide dynamic ranges (>100-fold). NEMO indicators report Ca 2+ transients with peak SBRs around 20-fold larger than the top-of-the-range GCaMP6 series. NEMO sensors further enable the quantification of absolution calcium concentration with ratiometric or photochromic imaging. Compared with GCaMP6s, NEMOs could detect single action potentials in neurons with a peak SBR two times higher and a median peak SBR four times larger in vivo, thereby outperforming most existing state-of-the-art GECIs. Given their high sensitivity and resolution to report intracellular Ca 2+ signals, NEMO sensors may find broad applications in monitoring neuronal activities and other Ca 2+ -modulated physiological processes in both mammals and plants.
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