Combined Optogenetics and Voltage Sensitive Dye Imaging at Single Cell Resolution

Combined Optogenetics and Voltage Sensitive Dye Imaging at Single Cell Resolution

Information processing in the central nervous system makes use of densely woven networks of neurons with complex dendritic and axonal arborizations. Studying signaling in such a network requires precise control over the activity of specific neurons and an understanding how the synaptic signals are i...

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Main Authors: Silvia eWilladt, Marco eCanepari, Ping eYan, Leslie M Loew, Kaspar Emanuel Vogt
Format: Article
Language:English
Published: Frontiers Media S.A. 2014-10-01
Series:Frontiers in Cellular Neuroscience
Subjects:
GABAergic transmission
dendritic processing
Synaptic integration
Optogenetic stimulation
voltage sensitive dye imaging
Online Access:http://journal.frontiersin.org/Journal/10.3389/fncel.2014.00311/full
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spelling doaj-35f5da40f4344e72aa0216fdb5d600c32020-11-24T22:38:41ZengFrontiers Media S.A.Frontiers in Cellular Neuroscience1662-51022014-10-01810.3389/fncel.2014.0031198699Combined Optogenetics and Voltage Sensitive Dye Imaging at Single Cell ResolutionSilvia eWilladt0Marco eCanepari1Ping eYan2Leslie M Loew3Kaspar Emanuel Vogt4Biozentrum, University of BaselUniversité Joseph FournierUniversity of Connecticut Health CenterUniversity of Connecticut Health CenterBiozentrum, University of BaselInformation processing in the central nervous system makes use of densely woven networks of neurons with complex dendritic and axonal arborizations. Studying signaling in such a network requires precise control over the activity of specific neurons and an understanding how the synaptic signals are integrated. We established a system using a recently published red-shifted voltage sensitive dye in slices from mice expressing channelrhodopsin in GABAergic neurons. Using a focused 473 nm laser for channelrhodopsin activation and 635 nm laser wide field illumination for voltage sensitive dye excitation we were able to simultaneously measure dendritic voltage transients and stimulate inhibitory synaptic connections. The combination of these techniques provides excellent spatiotemporal control over neuron activation and high resolution information on dendritic signal processing.http://journal.frontiersin.org/Journal/10.3389/fncel.2014.00311/fullGABAergic transmissiondendritic processingSynaptic integrationOptogenetic stimulationvoltage sensitive dye imaging
collection DOAJ
language English
format Article
sources DOAJ
author Silvia eWilladt
Marco eCanepari
Ping eYan
Leslie M Loew
Kaspar Emanuel Vogt
spellingShingle Silvia eWilladt
Marco eCanepari
Ping eYan
Leslie M Loew
Kaspar Emanuel Vogt
Combined Optogenetics and Voltage Sensitive Dye Imaging at Single Cell Resolution
Frontiers in Cellular Neuroscience
GABAergic transmission
dendritic processing
Synaptic integration
Optogenetic stimulation
voltage sensitive dye imaging
author_facet Silvia eWilladt
Marco eCanepari
Ping eYan
Leslie M Loew
Kaspar Emanuel Vogt
author_sort Silvia eWilladt
title Combined Optogenetics and Voltage Sensitive Dye Imaging at Single Cell Resolution
title_short Combined Optogenetics and Voltage Sensitive Dye Imaging at Single Cell Resolution
title_full Combined Optogenetics and Voltage Sensitive Dye Imaging at Single Cell Resolution
title_fullStr Combined Optogenetics and Voltage Sensitive Dye Imaging at Single Cell Resolution
title_full_unstemmed Combined Optogenetics and Voltage Sensitive Dye Imaging at Single Cell Resolution
title_sort combined optogenetics and voltage sensitive dye imaging at single cell resolution
publisher Frontiers Media S.A.
series Frontiers in Cellular Neuroscience
issn 1662-5102
publishDate 2014-10-01
description Information processing in the central nervous system makes use of densely woven networks of neurons with complex dendritic and axonal arborizations. Studying signaling in such a network requires precise control over the activity of specific neurons and an understanding how the synaptic signals are integrated. We established a system using a recently published red-shifted voltage sensitive dye in slices from mice expressing channelrhodopsin in GABAergic neurons. Using a focused 473 nm laser for channelrhodopsin activation and 635 nm laser wide field illumination for voltage sensitive dye excitation we were able to simultaneously measure dendritic voltage transients and stimulate inhibitory synaptic connections. The combination of these techniques provides excellent spatiotemporal control over neuron activation and high resolution information on dendritic signal processing.
topic GABAergic transmission
dendritic processing
Synaptic integration
Optogenetic stimulation
voltage sensitive dye imaging
url http://journal.frontiersin.org/Journal/10.3389/fncel.2014.00311/full
work_keys_str_mv AT silviaewilladt combinedoptogeneticsandvoltagesensitivedyeimagingatsinglecellresolution
AT marcoecanepari combinedoptogeneticsandvoltagesensitivedyeimagingatsinglecellresolution
AT pingeyan combinedoptogeneticsandvoltagesensitivedyeimagingatsinglecellresolution
AT lesliemloew combinedoptogeneticsandvoltagesensitivedyeimagingatsinglecellresolution
AT kasparemanuelvogt combinedoptogeneticsandvoltagesensitivedyeimagingatsinglecellresolution
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