Robust optogenetic inhibition with red-light-sensitive anion-conducting channelrhodopsins

Johannes Oppermann; Andrey Rozenberg; Thomaz Fabrin; Cristian González-Cabrera; Rafael Parker; Oded Béjà; Matthias Prigge; Peter Hegemann

doi:https://doi.org/10.7554/eLife.90100

Robust optogenetic inhibition with red-light-sensitive anion-conducting channelrhodopsins

Johannes Oppermann, Andrey Rozenberg, Thomaz Fabrin, Cristian González-Cabrera, Rafael Parker, Oded Béjà, Matthias Prigge, Peter Hegemann

Biology

Technion - Israel Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Channelrhodopsins (ChRs) are light-gated ion channels widely used to optically activate or silence selected electrogenic cells, such as individual brain neurons. Here, we describe identifying and characterizing a set of anion-conducting ChRs (ACRs) from diverse taxa and representing various branches of the ChR phylogenetic tree. The Mantoniella squamata ACR (MsACR1) showed high sensitivity to yellow-green light (λmax at 555 nm) and was further engineered for optogenetic applications. A single amino-acid substitution that mimicked red-light-sensitive rhodopsins like Chrimson shifted the photosensitivity 20 nm toward red light and accelerated photocurrent kinetics. Hence, it was named red and accelerated ACR, raACR. Both wild-type and mutant are capable optical silencers at low light intensities in mouse neurons in vitro and in vivo, while raACR offers a higher temporal resolution.

Original language	English
Journal	eLife
Volume	12
DOIs	https://doi.org/10.7554/eLife.90100
State	Published - 14 Oct 2024

Keywords

anion-conducting channelrhodopsins
channelrhodopsins
low light sensitivity
metagenomics
mouse
neuroscience
red-light optogenetics

All Science Journal Classification (ASJC) codes

General Neuroscience
General Biochemistry,Genetics and Molecular Biology
General Immunology and Microbiology

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https://doi.org/10.7554/eLife.90100

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title = "Robust optogenetic inhibition with red-light-sensitive anion-conducting channelrhodopsins",

abstract = "Channelrhodopsins (ChRs) are light-gated ion channels widely used to optically activate or silence selected electrogenic cells, such as individual brain neurons. Here, we describe identifying and characterizing a set of anion-conducting ChRs (ACRs) from diverse taxa and representing various branches of the ChR phylogenetic tree. The Mantoniella squamata ACR (MsACR1) showed high sensitivity to yellow-green light (λmax at 555 nm) and was further engineered for optogenetic applications. A single amino-acid substitution that mimicked red-light-sensitive rhodopsins like Chrimson shifted the photosensitivity 20 nm toward red light and accelerated photocurrent kinetics. Hence, it was named red and accelerated ACR, raACR. Both wild-type and mutant are capable optical silencers at low light intensities in mouse neurons in vitro and in vivo, while raACR offers a higher temporal resolution.",

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AU - Oppermann, Johannes

AU - Rozenberg, Andrey

AU - Fabrin, Thomaz

AU - González-Cabrera, Cristian

AU - Parker, Rafael

AU - Béjà, Oded

AU - Prigge, Matthias

AU - Hegemann, Peter

PY - 2024/10/14

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N2 - Channelrhodopsins (ChRs) are light-gated ion channels widely used to optically activate or silence selected electrogenic cells, such as individual brain neurons. Here, we describe identifying and characterizing a set of anion-conducting ChRs (ACRs) from diverse taxa and representing various branches of the ChR phylogenetic tree. The Mantoniella squamata ACR (MsACR1) showed high sensitivity to yellow-green light (λmax at 555 nm) and was further engineered for optogenetic applications. A single amino-acid substitution that mimicked red-light-sensitive rhodopsins like Chrimson shifted the photosensitivity 20 nm toward red light and accelerated photocurrent kinetics. Hence, it was named red and accelerated ACR, raACR. Both wild-type and mutant are capable optical silencers at low light intensities in mouse neurons in vitro and in vivo, while raACR offers a higher temporal resolution.

AB - Channelrhodopsins (ChRs) are light-gated ion channels widely used to optically activate or silence selected electrogenic cells, such as individual brain neurons. Here, we describe identifying and characterizing a set of anion-conducting ChRs (ACRs) from diverse taxa and representing various branches of the ChR phylogenetic tree. The Mantoniella squamata ACR (MsACR1) showed high sensitivity to yellow-green light (λmax at 555 nm) and was further engineered for optogenetic applications. A single amino-acid substitution that mimicked red-light-sensitive rhodopsins like Chrimson shifted the photosensitivity 20 nm toward red light and accelerated photocurrent kinetics. Hence, it was named red and accelerated ACR, raACR. Both wild-type and mutant are capable optical silencers at low light intensities in mouse neurons in vitro and in vivo, while raACR offers a higher temporal resolution.

KW - anion-conducting channelrhodopsins

KW - channelrhodopsins

KW - low light sensitivity

KW - metagenomics

KW - mouse

KW - neuroscience

KW - red-light optogenetics

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DO - https://doi.org/10.7554/eLife.90100

M3 - مقالة

C2 - 39401075

SN - 2050-084X

VL - 12

JO - eLife

JF - eLife

ER -

Robust optogenetic inhibition with red-light-sensitive anion-conducting channelrhodopsins

Abstract

Keywords

All Science Journal Classification (ASJC) codes

Access to Document

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