A fast genetically encoded fluorescent sensor for faithful in vivo acetylcholine detection in mice, fish, worms and flies-Reference-Cited by-同舟云学术

A fast genetically encoded fluorescent sensor for faithful in vivo acetylcholine detection in mice, fish, worms and flies

Published:2020-02-08 Issue: Volume: Page:
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Author:

Borden Philip M.,Zhang Peng,Shivange Amol V.^ORCID,Marvin Jonathan S.^ORCID,Cichon Joseph^ORCID,Dan Chuntao,Podgorski Kaspar^ORCID,Figueiredo Antonio,Novak Ondrej^ORCID,Tanimoto Masashi,Shigetomi Eiji^ORCID,Lobas Mark A.,Kim Hyuntae,Zhu Paula K.,Zhang Yajun,Zheng W. Sharon,Fan ChengCheng^ORCID,Wang Guangfu,Xiang Bowen,Gan Li,Zhang Guang-Xian,Guo Kaiming,Lin Li,Cai Yuan,Yee Andrew G.,Aggarwal Abhi^ORCID,Ford Christopher P.,Rees Douglas C.^ORCID,Dietrich Dirk^ORCID,Khakh Baljit S.^ORCID,Dittman Jeremy S.^ORCID,Gan Wen-Biao^ORCID,Koyama Minoru^ORCID,Jayaraman Vivek^ORCID,Cheer Joseph F.^ORCID,Lester Henry A.^ORCID,Zhu J. Julius^ORCID,Looger Loren L.^ORCID

Abstract

AbstractHere we design and optimize a genetically encoded fluorescent indicator, iAChSnFR, for the ubiquitous neurotransmitter acetylcholine, based on a bacterial periplasmic binding protein. iAChSnFR shows large fluorescence changes, rapid rise and decay kinetics, and insensitivity to most cholinergic drugs. iAChSnFR revealed large transients in a variety of slice and in vivo preparations in mouse, fish, fly and worm. iAChSnFR will be useful for the study of acetylcholine in all animals.

Publisher

Cold Spring Harbor Laboratory

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