Tuned thalamic excitation is amplified by visual cortical circuits
Anthony D Lien,Massimo Scanziani +1 more
TLDR
The results indicate that tuning of thalamic excitation is unlikely to be imparted by direction- or orientation-selectiveThalamic neurons and that a principal role of cortical circuits is to amplify tuned thalamus and cortex excitation.Abstract:
Cortical neurons in thalamic recipient layers receive excitation from the thalamus and the cortex. The relative contribution of these two sources of excitation to sensory tuning is poorly understood. We optogenetically silenced the visual cortex of mice to isolate thalamic excitation onto layer 4 neurons during visual stimulation. Thalamic excitation contributed to a third of the total excitation and was organized in spatially offset, yet overlapping, ON and OFF receptive fields. This receptive field structure predicted the orientation tuning of thalamic excitation. Finally, both thalamic and total excitation were similarly tuned to orientation and direction and had the same temporal phase relationship to the visual stimulus. Our results indicate that tuning of thalamic excitation is unlikely to be imparted by direction- or orientation-selective thalamic neurons and that a principal role of cortical circuits is to amplify tuned thalamic excitation.read more
Citations
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Subcortical source and modulation of the narrowband gamma oscillation in mouse visual cortex
Aman B. Saleem,Anthony D Lien,Michael Krumin,Bilal Haider,Miroslav Román Rosón,Aslı Ayaz,Kimberley Reinhold,Laura Busse,Matteo Carandini,Kenneth D. Harris +9 more
TL;DR: The sources of the narrowband gamma oscillation, the factors modulating its strength, and its relationship to broadband gamma activity were investigated, suggesting that this oscillation reflects unidirectional flow of signals from thalamus to cortex.
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Increased Reliability of Visually-Evoked Activity in Area V1 of the MECP2-Duplication Mouse Model of Autism
Ryan T. Ash,Ganna Palagina,Jiyoung Park,Jose A. Fernandez-Leon,Robert L. Seilheimer,Sangkyun Lee,Jasdeep Sabharwal,Fredy D. Reyes,Jing Wang,Dylan Lu,Samuel M. Wu,Stelios M. Smirnakis +11 more
TL;DR: Visual-evoked activity was abnormally decoupled from endogenous activity in mutant mice, suggesting in line with the influential “hypo-priors” theory of autism that sensory priors embedded in endogenous activity may have less influence on perception in autism.
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Distinct recruitment of feed-forward and recurrent pathways across higher-order areas of mouse visual cortex
TL;DR: In this article, a combination of whole-cell recordings and optogenetic stimulation of V1 axons in vitro was used to determine whether higher-order visual cortical areas LM, AL, PM, and AM have specialized anatomical and physiological properties.
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Neural circuits for binocular vision: Ocular dominance, interocular matching, and disparity selectivity
TL;DR: In this article , a review of the neural circuits underlying binocular vision and its development is presented, focusing mostly on mouse studies, as well as recent studies using ferrets and tree shrews.
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Targeting diverse operational regimes in recurrent spiking networks
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