A photostable genetically encoded voltage indicator for imaging neural activities in tissue and live animals

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Abstract

Genetically encoded voltage indicators (GEVIs) enable noninvasive, high-speed monitoring of electrical activity but are constrained by limited brightness and rapid photobleaching under continuous illumination. Here, we present Vega, a highly photostable green fluorescence GEVI with both high sensitivity (ΔF/F = -33% per 100 mV) and fast response (1.34 ms). Under one-photon excitation at 1 W/cm2, Vega exhibits more than 20-fold slower photobleaching than the spectrally similar GEVI, Ace-mNeon2. In acute mouse brain slice, Vega enabled wide-field high-fidelity recording of action potentials from 51 neurons simultaneously. In pancreatic islets, it revealed heterogeneous β-cell activation and intercellular coupling in response to glucose elevation. Finally, one-photon imaging in awake mice demonstrated stable cortical voltage mappingin vivo. Vega thus overcomes the longstanding photostability-performance trade-off, enabling chronic, high-fidelity voltage imaging across preparations.

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