<--- Back to Details
First PageDocument Content
Neuroscience / Nervous system / Biology / Cybernetics / Channelrhodopsin / Neurotechnology / Brain / Optogenetics / Neuron
Date: 2014-06-04 11:18:32
Neuroscience
Nervous system
Biology
Cybernetics
Channelrhodopsin
Neurotechnology
Brain
Optogenetics
Neuron

ORIGINAL RESEARCH ARTICLE published: 28 February 2014 doi: fncirNEURAL CIRCUITS

Add to Reading List

Source URL: www.machenslab.org

Download Document from Source Website

File Size: 1,93 MB

Share Document on Facebook

Similar Documents

Neuron Perspective Brains, Genes, and Primates Juan Carlos Izpisua Belmonte,2 Edward M. Callaway,1 Patricia Churchland,3 Sarah J. Caddick,4 Guoping Feng,5 Gregg E. Homanics,6 Kuo-Fen Lee,7 David A. Leopold,8 Cory T. Mil

Neuron Perspective Brains, Genes, and Primates Juan Carlos Izpisua Belmonte,2 Edward M. Callaway,1 Patricia Churchland,3 Sarah J. Caddick,4 Guoping Feng,5 Gregg E. Homanics,6 Kuo-Fen Lee,7 David A. Leopold,8 Cory T. Mil

DocID: 1vf50 - View Document

Journal of Computational Neuroscience 18, 105–121, 2005 c 2005 Springer Science + Business Media, Inc. Manufactured in The Netherlands.  A Cellular Mechanism for Graded Persistent Activity in a Model Neuron and Its Im

Journal of Computational Neuroscience 18, 105–121, 2005 c 2005 Springer Science + Business Media, Inc. Manufactured in The Netherlands.  A Cellular Mechanism for Graded Persistent Activity in a Model Neuron and Its Im

DocID: 1vcJi - View Document

UNIVERSITY OF SPLIT SCHOOL OF MEDICINE announces APPLICATIONS OPEN FOR UNIVERSITY POSTGRADUATE DOCTORAL STUDY PROGRAM «EVIDENCE-BASED MEDICINE»

UNIVERSITY OF SPLIT SCHOOL OF MEDICINE announces APPLICATIONS OPEN FOR UNIVERSITY POSTGRADUATE DOCTORAL STUDY PROGRAM «EVIDENCE-BASED MEDICINE»

DocID: 1vaic - View Document

Neuron Article Auxiliary GABAB Receptor Subunits Uncouple G Protein bg Subunits from Effector Channels to Induce Desensitization

Neuron Article Auxiliary GABAB Receptor Subunits Uncouple G Protein bg Subunits from Effector Channels to Induce Desensitization

DocID: 1v9H4 - View Document

Neuron Article Direct Activation of Sparse, Distributed Populations of Cortical Neurons by Electrical Microstimulation

Neuron Article Direct Activation of Sparse, Distributed Populations of Cortical Neurons by Electrical Microstimulation

DocID: 1uQ1X - View Document