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"Potassium-selective channelrhodopsins" by Elena G. Govorunova, Oleg A. Sineshchekov, John L. Spudich is published in BPPB as the J-STAGE Advance Publication.

2023 February 04 BPPB

A following article is published as the J-STAGE Advance Publication in "Biophysics and Physicobiology".

Elena G. Govorunova, Oleg A. Sineshchekov, John L. Spudich
"Potassium-selective channelrhodopsins"

URL:https://doi.org/10.2142/biophysico.bppb-v20.s011


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Abstract
Since their discovery 21 years ago, channelrhodopsins have come of age and have become indispensable tools for optogenetic control of excitable cells such as neurons and myocytes. Potential therapeutic utility of channelrhodopsins has been proven by partial vision restoration in a human patient. Previously known channelrhodopsins are either proton channels, non-selective cation channels almost equally permeable to Na+ and K+ besides protons, or anion channels. Two years ago, we discovered a group of channelrhodopsins that exhibit over an order of magnitude higher selectivity for K+ than for Na+. These proteins, known as “kalium channelrhodopsins” or KCRs, lack the canonical tetrameric selectivity filter found in voltage- and ligand-gated K+ channels, and use a unique selectivity mechanism intrinsic to their individual protomers. Mutant analysis has revealed that the key residues responsible for K+ selectivity in KCRs are located at both ends of the putative cation conduction pathway, and their role has been confirmed by high-resolution KCR structures. Expression of KCRs in mouse neurons and human cardiomyocytes enabled optical inhibition of these cells’ electrical activity. In this minireview we briefly discuss major results of KCR research obtained during the last two years and suggest some directions of future research.



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