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Simultaneous two-photon imaging of action potentials and subthreshold inputs in vivo

Yuki Bando, Michael Wenzel, Rafael Yuste

2021Nature Communications44 citationsDOIOpen Access PDF

Abstract

To better understand the input-output computations of neuronal populations, we developed ArcLight-ST, a genetically-encoded voltage indicator, to specifically measure subthreshold membrane potentials. We combined two-photon imaging of voltage and calcium, and successfully discriminated subthreshold inputs and spikes with cellular resolution in vivo. We demonstrate the utility of the method by mapping epileptic seizures progression through cortical circuits, revealing divergent sub- and suprathreshold dynamics within compartmentalized epileptic micronetworks. Two-photon, two-color imaging of calcium and voltage enables mapping of inputs and outputs in neuronal populations in living animals.

Topics & Concepts

Subthreshold conductionIn vivoPhotonAction (physics)PhysicsTwo-photon excitation microscopyBiophysicsOpticsBiologyQuantum mechanicsGeneticsFluorescenceTransistorVoltageNeuroscience and Neural EngineeringPhotoreceptor and optogenetics researchNeuroscience and Neuropharmacology Research
Simultaneous two-photon imaging of action potentials and subthreshold inputs in vivo | Litcius