Fuu-Jiun Hwang scite author profile

Neuronal activity is routinely recorded in vivo using genetically encoded calcium indicators (GECIs) and 2-photon microscopy, but calcium imaging is poorly sensitive for single voltage spikes under typical population imaging conditions, lacks temporal precision, and does not report subthreshold voltage changes. Genetically encoded voltage indicators (GEVIs) offer better temporal resolution and subthreshold sensitivity, but 2-photon detection of single spikes in vivo using GEVIs has required specialized imaging equipment. Here, we report ASAP4b and ASAP4e, two GEVIs that brighten in response to membrane depolarization, inverting the fluorescence-voltage relationship of previous ASAP-family GEVIs. ASAP4b and ASAP4e feature 180% and 210% fluorescence increases to 100-mV depolarizations, respectively, as well as modestly prolonged deactivation and high photostability. We demonstrate single-trial detection of spikes and oscillations in vivo with standard 1 and 2-photon imaging systems, and confirm improved temporal resolution in comparison to calcium imaging on the same equipment. Thus, ASAP4b and ASAP4e GEVIs extend the uses of existing imaging equipment to include multiunit voltage imaging in vivo.One Sentence SummaryPositively tuned ASAP voltage indicators facilitate imaging of electrical activity in the brain.

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Fuu-Jiun Hwang

Motor learning selectively strengthens cortical and striatal synapses of motor engram neurons

A positively tuned voltage indicator for extended electrical recordings in the brain

A positively Tuned Voltage Indicator Reveals Electrical Correlates of Calcium Activity in the Brain

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