WiChR, a highly potassium-selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells
The electric excitability of muscle, heart, and brain tissue relies on the precise interplay of
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
[PDF][PDF] WiChR, a highly potassium selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells
J Vierock, E Peter, C Grimm, A Rozenberg, IW Chen… - 2022 - researchgate.net
Light-gated ion channels are used in modern life sciences from plant physiology to systems
neuroscience to control the electrical activity of cells non-invasively with the temporal and …
neuroscience to control the electrical activity of cells non-invasively with the temporal and …
WiChR, a highly potassium-selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells
J Vierock, E Peter, C Grimm, A Rozenberg… - Science …, 2022 - ui.adsabs.harvard.edu
The electric excitability of muscle, heart, and brain tissue relies on the precise interplay of
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
WiChR, a highly potassium-selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells
J Vierock, E Peter, C Grimm, A Rozenberg… - Science …, 2022 - cnrs.hal.science
The electric excitability of muscle, heart, and brain tissue relies on the precise interplay of
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
WiChR, a highly potassium-selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells
J Vierock, E Peter, C Grimm, A Rozenberg, IW Chen… - Science …, 2022 - cir.nii.ac.jp
抄録< jats: p> The electric excitability of muscle, heart, and brain tissue relies on the precise
interplay of Na< jats: sup>+</jats: sup>-and K< jats: sup>+</jats: sup>-selective ion …
interplay of Na< jats: sup>+</jats: sup>-and K< jats: sup>+</jats: sup>-selective ion …
WiChR, a highly potassium-selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells
J Vierock, E Peter, C Grimm… - Science …, 2022 - pubmed.ncbi.nlm.nih.gov
The electric excitability of muscle, heart, and brain tissue relies on the precise interplay of
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
WiChR, a highly potassium selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells.
J Vierock, E Peter, C Grimm, A Rozenberg… - Science …, 2022 - europepmc.org
The electric excitability of muscle, heart and brain tissue relies on the precise interplay of
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
WiChR, a highly potassium-selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells
J Vierock, E Peter, C Grimm, A Rozenberg, IW Chen… - Science …, 2022 - hal.science
The electric excitability of muscle, heart, and brain tissue relies on the precise interplay of
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
[HTML][HTML] WiChR, a highly potassium-selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells
J Vierock, E Peter, C Grimm, A Rozenberg… - Science …, 2022 - ncbi.nlm.nih.gov
The electric excitability of muscle, heart, and brain tissue relies on the precise interplay of
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
Na+-and K+-selective ion channels. The involved ion fluxes are controlled in optogenetic …
[引用][C] WiChR, a highly potassium-selective channelrhodopsin for low-light one-and two-photon inhibition of excitable cells
J Vierock, E Peter, C Grimm, A Rozenberg, IW Chen… - 2022 - europepmc.org
Light-gated ion channels are used in modern life sciences from plant physiology to systems
neuroscience to control the electrical activity of cells noninvasively with the temporal and …
neuroscience to control the electrical activity of cells noninvasively with the temporal and …