Abstract
AbstractSpikes (action potential) responses of most primary visual cortical cells in the macaque are sharply tuned for the orientation of a line or an edge and neurons preferring similar orientations are clustered together in cortical columns. The preferred stimulus orientation of these columns span the full range of orientations, as observed in recordings of spikes, which represent the outputs of cortical neurons. However, when we imaged also the thalamic input to these cells that occur on a larger spatial scale, we found that the orientation domain map of the primary visual cortex did not show the diversity of orientations exhibited by signals representing outputs of the cells. This map was dominated by just the one orientation that is most commonly represented in subcortical responses. This supports cortical feature selectivity and columnar architecture being built upon feed-forward signals transmitted from the thalamus in a very limited number of broadly-tuned input channels.
Publisher
Cold Spring Harbor Laboratory
Reference51 articles.
1. Orientation-selective retinal circuits in vertebrates;Front Neur Circ.,2018
2. Perception and discrimination as a function of stimulus orientation: The "oblique effect" in man and animals.
3. Comparing the feature selectivity of the gamma-band local field potential and the underlying spiking activity in primate visual cortex;Frontiers Syst Neurosci.,2008
4. Bonhoeffer T , Grinvald A. 1990. Optical imaging based on intrinsic signals: the methodology. In: Toga W , editor. Brain Mapping: The Methods. 1st ed. San Diego (CA): Academic Press Inc. p 55–97.
5. Ordinal position and afferent input of neurons in monkey striate cortex