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
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References
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Journal ArticleDOI
Specificity of monosynaptic connections from thalamus to visual cortex
R. C. Reid,Jose-Manuel Alonso +1 more
TL;DR: This study recorded from thalamic and cortical neurons simultaneously and related their receptive fields to their connectivity, as measured by cross-correlation analysis, implying that the outline of the elongated, simple receptive field, and thus of cortical orientation selectivity, is laid down at the level of the first synapse from the thalami afferents.
Journal ArticleDOI
Orientation selectivity in macaque V1: diversity and laminar dependence.
TL;DR: A revision to the classical view that nonoriented receptive fields are principally found in layer 4C and the cytochrome oxidase-rich blobs in layer 2/3 is suggested, and a broad distribution of tuning selectivity is found in all cortical layers, and neurons that are weakly tuned for orientation are ubiquitous in V1 cortex.
Journal ArticleDOI
A neural circuit for spatial summation in visual cortex
TL;DR: It is shown that, in contrast to pyramidal cells, the response of somatostatin-expressing inhibitory neurons in the superficial layers of the mouse visual cortex increases with stimulation of the receptive-field surround, establishing a cortical circuit for surround suppression and attributing a particular function to a genetically defined type of inhibitory neuron.
Journal ArticleDOI
Relationship between intrinsic connections and functional architecture revealed by optical imaging and in vivo targeted biocytin injections in primate striate cortex
TL;DR: High-resolution functional maps of the cortical architecture were obtained by in vivo optical imaging and it was discovered that binocular domains formed a separate set of connections in area V1; binocular regions were selectively connected among themselves but were not connected to strictly monocular regions, suggesting that they constitute a distinct columnar system.
Journal ArticleDOI
Parvalbumin-Expressing Interneurons Linearly Transform Cortical Responses to Visual Stimuli
TL;DR: It is shown that parvalbumin-expressing cells strongly modulate layer 2/3 pyramidal cell spiking responses to visual stimuli while only modestly affecting their tuning properties, indicating that PV cells are ideally suited to modulate cortical gain.
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