Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate system

Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate system

<p>Abstract</p> <p>In the adult visual system, functionally distinct retinal ganglion cells (RGCs) within each eye project to discrete targets in the brain. In the ferret, RGCs encoding light increments or decrements project to independent On and Off sublaminae within each eye-spec...

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Main Authors: Sun Chao, Speer Colenso M, Chapman Barbara
Format: Article
Language:English
Published: BMC 2011-03-01
Series:Neural Development
Online Access:http://www.neuraldevelopment.com/content/6/1/7
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spelling doaj-01684f7c3f0d42099ed41c62095c107f2020-11-24T20:51:10ZengBMCNeural Development1749-81042011-03-0161710.1186/1749-8104-6-7Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate systemSun ChaoSpeer Colenso MChapman Barbara<p>Abstract</p> <p>In the adult visual system, functionally distinct retinal ganglion cells (RGCs) within each eye project to discrete targets in the brain. In the ferret, RGCs encoding light increments or decrements project to independent On and Off sublaminae within each eye-specific layer of the dorsal lateral geniculate nucleus (dLGN). Here we report a manipulation of retinal circuitry that alters RGC action potential firing patterns during development and eliminates the anatomical markers of segregated On and Off sublaminae in the LGN, including the intersublaminar spaces and the expression of a glial-associated inhibitory molecule, ABAKAN, normally separating On and Off leaflets. Despite the absence of anatomically defined On and Off sublaminae, electrophysiological recordings in the dLGN reveal that On and Off dLGN cells are segregated normally. These data demonstrate a dissociation between normal anatomical sublamination and segregation of function in the dLGN and call into question a purported role for ABAKAN boundaries in the developing visual system.</p> http://www.neuraldevelopment.com/content/6/1/7
collection DOAJ
language English
format Article
sources DOAJ
author Sun Chao
Speer Colenso M
Chapman Barbara
spellingShingle Sun Chao
Speer Colenso M
Chapman Barbara
Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate system
Neural Development
author_facet Sun Chao
Speer Colenso M
Chapman Barbara
author_sort Sun Chao
title Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate system
title_short Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate system
title_full Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate system
title_fullStr Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate system
title_full_unstemmed Activity-dependent disruption of intersublaminar spaces and ABAKAN expression does not impact functional on and off organization in the ferret retinogeniculate system
title_sort activity-dependent disruption of intersublaminar spaces and abakan expression does not impact functional on and off organization in the ferret retinogeniculate system
publisher BMC
series Neural Development
issn 1749-8104
publishDate 2011-03-01
description <p>Abstract</p> <p>In the adult visual system, functionally distinct retinal ganglion cells (RGCs) within each eye project to discrete targets in the brain. In the ferret, RGCs encoding light increments or decrements project to independent On and Off sublaminae within each eye-specific layer of the dorsal lateral geniculate nucleus (dLGN). Here we report a manipulation of retinal circuitry that alters RGC action potential firing patterns during development and eliminates the anatomical markers of segregated On and Off sublaminae in the LGN, including the intersublaminar spaces and the expression of a glial-associated inhibitory molecule, ABAKAN, normally separating On and Off leaflets. Despite the absence of anatomically defined On and Off sublaminae, electrophysiological recordings in the dLGN reveal that On and Off dLGN cells are segregated normally. These data demonstrate a dissociation between normal anatomical sublamination and segregation of function in the dLGN and call into question a purported role for ABAKAN boundaries in the developing visual system.</p>
url http://www.neuraldevelopment.com/content/6/1/7
work_keys_str_mv AT sunchao activitydependentdisruptionofintersublaminarspacesandabakanexpressiondoesnotimpactfunctionalonandofforganizationintheferretretinogeniculatesystem
AT speercolensom activitydependentdisruptionofintersublaminarspacesandabakanexpressiondoesnotimpactfunctionalonandofforganizationintheferretretinogeniculatesystem
AT chapmanbarbara activitydependentdisruptionofintersublaminarspacesandabakanexpressiondoesnotimpactfunctionalonandofforganizationintheferretretinogeniculatesystem
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