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Next-generation GRAB sensors for monitoring dopaminergic activity in vivo
by
Wang, Yipan
, Feng, Jiesi
, Dai, Bing
, Zhang, Yajun
, Lin, Dayu
, Cui, Guohong
, Zeng, Jianzhi
, Zhuo, Yizhou
, Li, Yulong
, Zhou, Jingheng
, Dong, Hui
, Qian, Cheng
, Tan, Ke
, Qian, Tongrui
, Sun, Fangmiao
, Li, Xuelin
in
631/1647/1888/2249
/ 631/1647/245/2226
/ 631/378/340
/ 631/378/548
/ Animals
/ Bioinformatics
/ Biological Microscopy
/ Biological Techniques
/ Biomedical and Life Sciences
/ Biomedical Engineering/Biotechnology
/ Biosensing Techniques - methods
/ Biosensors
/ Brain
/ Brain - metabolism
/ Brain slice preparation
/ Calcium
/ Dopamine
/ Dopamine - metabolism
/ Dopamine receptors
/ Drosophila - genetics
/ Drosophila - metabolism
/ Fluorescence
/ Fruit flies
/ G protein-coupled receptors
/ G proteins
/ Genetic code
/ Green Fluorescent Proteins - genetics
/ Green Fluorescent Proteins - metabolism
/ Health aspects
/ HEK293 Cells
/ Humans
/ Life Sciences
/ Luminescent Proteins - genetics
/ Luminescent Proteins - metabolism
/ Methods
/ Mice
/ Neural circuitry
/ Neurological research
/ Neurons - metabolism
/ Neurotransmitters
/ Physiological aspects
/ Proteomics
/ Rats
/ Receptors, Dopamine - genetics
/ Receptors, Dopamine - metabolism
/ Receptors, G-Protein-Coupled - genetics
/ Receptors, G-Protein-Coupled - metabolism
/ Red Fluorescent Protein
/ Sensors
/ Sexual behavior
/ Sexual Behavior - physiology
2020
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Next-generation GRAB sensors for monitoring dopaminergic activity in vivo
by
Wang, Yipan
, Feng, Jiesi
, Dai, Bing
, Zhang, Yajun
, Lin, Dayu
, Cui, Guohong
, Zeng, Jianzhi
, Zhuo, Yizhou
, Li, Yulong
, Zhou, Jingheng
, Dong, Hui
, Qian, Cheng
, Tan, Ke
, Qian, Tongrui
, Sun, Fangmiao
, Li, Xuelin
in
631/1647/1888/2249
/ 631/1647/245/2226
/ 631/378/340
/ 631/378/548
/ Animals
/ Bioinformatics
/ Biological Microscopy
/ Biological Techniques
/ Biomedical and Life Sciences
/ Biomedical Engineering/Biotechnology
/ Biosensing Techniques - methods
/ Biosensors
/ Brain
/ Brain - metabolism
/ Brain slice preparation
/ Calcium
/ Dopamine
/ Dopamine - metabolism
/ Dopamine receptors
/ Drosophila - genetics
/ Drosophila - metabolism
/ Fluorescence
/ Fruit flies
/ G protein-coupled receptors
/ G proteins
/ Genetic code
/ Green Fluorescent Proteins - genetics
/ Green Fluorescent Proteins - metabolism
/ Health aspects
/ HEK293 Cells
/ Humans
/ Life Sciences
/ Luminescent Proteins - genetics
/ Luminescent Proteins - metabolism
/ Methods
/ Mice
/ Neural circuitry
/ Neurological research
/ Neurons - metabolism
/ Neurotransmitters
/ Physiological aspects
/ Proteomics
/ Rats
/ Receptors, Dopamine - genetics
/ Receptors, Dopamine - metabolism
/ Receptors, G-Protein-Coupled - genetics
/ Receptors, G-Protein-Coupled - metabolism
/ Red Fluorescent Protein
/ Sensors
/ Sexual behavior
/ Sexual Behavior - physiology
2020
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Next-generation GRAB sensors for monitoring dopaminergic activity in vivo
by
Wang, Yipan
, Feng, Jiesi
, Dai, Bing
, Zhang, Yajun
, Lin, Dayu
, Cui, Guohong
, Zeng, Jianzhi
, Zhuo, Yizhou
, Li, Yulong
, Zhou, Jingheng
, Dong, Hui
, Qian, Cheng
, Tan, Ke
, Qian, Tongrui
, Sun, Fangmiao
, Li, Xuelin
in
631/1647/1888/2249
/ 631/1647/245/2226
/ 631/378/340
/ 631/378/548
/ Animals
/ Bioinformatics
/ Biological Microscopy
/ Biological Techniques
/ Biomedical and Life Sciences
/ Biomedical Engineering/Biotechnology
/ Biosensing Techniques - methods
/ Biosensors
/ Brain
/ Brain - metabolism
/ Brain slice preparation
/ Calcium
/ Dopamine
/ Dopamine - metabolism
/ Dopamine receptors
/ Drosophila - genetics
/ Drosophila - metabolism
/ Fluorescence
/ Fruit flies
/ G protein-coupled receptors
/ G proteins
/ Genetic code
/ Green Fluorescent Proteins - genetics
/ Green Fluorescent Proteins - metabolism
/ Health aspects
/ HEK293 Cells
/ Humans
/ Life Sciences
/ Luminescent Proteins - genetics
/ Luminescent Proteins - metabolism
/ Methods
/ Mice
/ Neural circuitry
/ Neurological research
/ Neurons - metabolism
/ Neurotransmitters
/ Physiological aspects
/ Proteomics
/ Rats
/ Receptors, Dopamine - genetics
/ Receptors, Dopamine - metabolism
/ Receptors, G-Protein-Coupled - genetics
/ Receptors, G-Protein-Coupled - metabolism
/ Red Fluorescent Protein
/ Sensors
/ Sexual behavior
/ Sexual Behavior - physiology
2020
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Next-generation GRAB sensors for monitoring dopaminergic activity in vivo
Journal Article
Next-generation GRAB sensors for monitoring dopaminergic activity in vivo
2020
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Overview
Dopamine (DA) plays a critical role in the brain, and the ability to directly measure dopaminergic activity is essential for understanding its physiological functions. We therefore developed red fluorescent G-protein-coupled receptor-activation-based DA (GRAB
DA
) sensors and optimized versions of green fluorescent GRAB
DA
sensors. In response to extracellular DA, both the red and green GRAB
DA
sensors exhibit a large increase in fluorescence, with subcellular resolution, subsecond kinetics and nanomolar-to-submicromolar affinity. Moreover, the GRAB
DA
sensors resolve evoked DA release in mouse brain slices, detect evoked compartmental DA release from a single neuron in live flies and report optogenetically elicited nigrostriatal DA release as well as mesoaccumbens dopaminergic activity during sexual behavior in freely behaving mice. Coexpressing red GRAB
DA
with either green GRAB
DA
or the calcium indicator GCaMP6s allows tracking of dopaminergic signaling and neuronal activity in distinct circuits in vivo.
Red and improved green versions of the genetically encoded dopamine sensor GRAB
DA
have been developed. These neurotransmitter sensors are used alone or in combination with, for example, calcium sensors in behaving fruit flies and rodents.
Publisher
Nature Publishing Group US,Nature Publishing Group
Subject
/ Animals
/ Biomedical and Life Sciences
/ Biomedical Engineering/Biotechnology
/ Biosensing Techniques - methods
/ Brain
/ Calcium
/ Dopamine
/ Green Fluorescent Proteins - genetics
/ Green Fluorescent Proteins - metabolism
/ Humans
/ Luminescent Proteins - genetics
/ Luminescent Proteins - metabolism
/ Methods
/ Mice
/ Rats
/ Receptors, Dopamine - genetics
/ Receptors, Dopamine - metabolism
/ Receptors, G-Protein-Coupled - genetics
/ Receptors, G-Protein-Coupled - metabolism
/ Sensors
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