Publication Date:
2018
Description:
〈p〉Publication date: 19 December 2018〈/p〉
〈p〉〈b〉Source:〈/b〉 Neuron, Volume 100, Issue 6〈/p〉
〈p〉Author(s): Giacomo Benvenuti, Yuzhi Chen, Charu Ramakrishnan, Karl Deisseroth, Wilson S. Geisler, Eyal Seidemann〈/p〉
〈h5〉Summary〈/h5〉
〈div〉〈p〉Humans have remarkable scale-invariant visual capabilities. For example, our orientation discrimination sensitivity is largely constant over more than two orders of magnitude of variations in stimulus spatial frequency (SF). Orientation-selective V1 neurons are likely to contribute to orientation discrimination. However, because at any V1 location neurons have a limited range of receptive field (RF) sizes, we predict that at low SFs V1 neurons will carry little orientation information. If this were the case, what could account for the high behavioral sensitivity at low SFs? Using optical imaging in behaving macaques, we show that, as predicted, V1 orientation-tuned responses drop rapidly with decreasing SF. However, we reveal a surprising coarse-scale signal that corresponds to the projection of the luminance layout of low-SF stimuli to V1’s retinotopic map. This homeomorphic and distributed representation, which carries high-quality orientation information, is likely to contribute to our striking scale-invariant visual capabilities.〈/p〉〈/div〉
Print ISSN:
0896-6273
Electronic ISSN:
1097-4199
Topics:
Biology
,
Medicine
