par Lambot, Laurie 
;Gall, David
Référence MS. Médecine sciences, 32, 8-9, page (768-770)
Publication Publié, 2016-08
;Gall, David Référence MS. Médecine sciences, 32, 8-9, page (768-770)
Publication Publié, 2016-08
Article révisé par les pairs
| Résumé : | Optical imaging of voltage indicators is a promising approach for detecting the activity of neuronal circuits with high spatial and temporal resolution. In this context, genetically encoded voltage indicators, combining genetic targeting and optical readout of transmembrane voltage, represent a technological breaktrough that will without doubt have a major impact in neuroscience. However, so far the existing genetically encoded voltage indicators lacked the capabilities to detect individual action potentials and fast spike trains in live animals. Here, we present a novel indicator allowing high-fidelity imaging of individual spikes and dentritic voltage dynamics in vivo. Used in combination with optogenetics, which allows to manipulate neuronal activity, this opens the possibility of an all-optical electrophysiology. |
