(Medical Xpress) — Optically monitoring the brain’s neuronal activity can be accomplished in several ways, including electrochromic dyes, hydrophobic anions, calcium imaging, or voltage-sensitive ion channels. Fluorescence imaging is an attractive method due to its ability to map the electrical activity and communication of multiple spatially resolved neurons. While this complements traditional electrophysiological measurements, historically fluorescent voltage imaging has been limited by the difficulty of developing sensors that give both large and fast responses to voltage changes. Recently, however, scientists in the Department of Pharmacology and other areas in the University of California at San Diego’s Howard Hughes Medical Institute have designed, synthesized, and implemented fluorescent sensors in the form of photo-induced electron transfer (PeT)-based molecular wire probes for voltage imaging in neurons. Moreover, they have used these so-called VoltageFluor sensors to perform single-trial detection of synaptic and action potentials in cultured hippocampal neurons and intact leech ganglia.
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