Significance
Electrically excitable cells, such as neurons, exhibit tremendous variation in their patterns of electrical signals. These variations arise from the collection of ion channels present in any specific cell, but understanding which ion channels are at the root of particular electrical signals remains a significant challenge. Here, we describe novel probes, derived from a tarantula venom peptide, that are able to report the activity of voltage-gated ion channels in living cells. This technology uses state-selective binding to optically monitor the activation of ion channels during cellular electrical signaling. Activity-reporting probes based on these prototypes could potentially identify when endogenous ion channels contribute to electrical signaling, thus facilitating the identification of ion channel targets for therapeutic drug intervention.
A missense mutation in the pore-forming α subunit of a delayed rectifier Kv channel is associated with epileptic encephalopathy, alters the cation selectivity of voltage-gated currents, and disrupts channel expression and localization.
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