From cudgel to scalpel: toward precise neural control with optogenetics.
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Cardiac optogeneticsTargeting neurons and photons for optogeneticsNeural integration of reward, arousal, and feeding: recruitment of VTA, lateral hypothalamus, and ventral striatal neuronsOptogenetic probing and manipulation of the calyx-type presynaptic terminal in the embryonic chick ciliary ganglionProbing perceptual decisions in rodentsPrecise spatiotemporal control of optogenetic activation using an acousto-optic device.NeuroPG: open source software for optical pattern generation and data acquisition.Analysis of CFSE time-series data using division-, age- and label-structured population models.MEMO: multi-experiment mixture model analysis of censored dataAll-optical electrophysiology in mammalian neurons using engineered microbial rhodopsinsTwo-way communication with neural networks in vivo using focused lightInstrumentation of a compact random-access photostimulator based on acousto-optic deflectors.The physiology of fish behaviour: a selective review of developments over the past 40 years(§).Genetic manipulation of genes and cells in the nervous system of the fruit fly.Two-Photon Holographic Stimulation of ReaChR.Simultaneous all-optical manipulation and recording of neural circuit activity with cellular resolution in vivoOptogenetics: potentials for addiction research.Optochemical genetics.Development of larval motor circuits in Drosophila.Flash memory: photochemical imprinting of neuronal action potentials onto a microbial rhodopsin.Cracking the Neural Code for Sensory Perception by Combining Statistics, Intervention, and Behavior.Control strategies for underactuated neural ensembles driven by optogenetic stimulation.Spike Pattern Structure Influences Synaptic Efficacy Variability under STDP and Synaptic Homeostasis. II: Spike Shuffling Methods on LIF Networks.A toolbox of Cre-dependent optogenetic transgenic mice for light-induced activation and silencing.Crystals of the brainPhase diagram of spiking neural networks.Submillisecond Optogenetic Control of Neuronal Firing with Two-Photon Holographic Photoactivation of Chronos.Encapsulated Optically Responsive Cell Systems: Toward Smart Implants in Biomedicine.Multiphoton Fluorescence Light MicroscopyOptogenetic stimulation of complex spatio-temporal activity patterns by acousto-optic light steering probes cerebellar granular layer integrative properties
P2860
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P2860
From cudgel to scalpel: toward precise neural control with optogenetics.
description
2010 nî lūn-bûn
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2010年の論文
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2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
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2010年學術文章
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name
From cudgel to scalpel: toward precise neural control with optogenetics.
@en
From cudgel to scalpel: toward precise neural control with optogenetics.
@nl
type
label
From cudgel to scalpel: toward precise neural control with optogenetics.
@en
From cudgel to scalpel: toward precise neural control with optogenetics.
@nl
prefLabel
From cudgel to scalpel: toward precise neural control with optogenetics.
@en
From cudgel to scalpel: toward precise neural control with optogenetics.
@nl
P2860
P356
P1433
P1476
From cudgel to scalpel: toward precise neural control with optogenetics.
@en
P2860
P2888
P356
10.1038/NMETH.F.325
P4011
66732918211146c830812d18b6d9b8ee481c7b93
P577
2010-12-20T00:00:00Z