Filter
-
(206)
-
(177)
-
(9)
-
(192)
-
(66)
-
(10)
-
(252)
-
(89)
-
(1)
-
(49)
-
(287)
-
(16)
-
(37)
-
(802)
-
(43)
-
(14)
-
(1210)
-
(405)
-
(464)
-
(442)
6971 - 6980
of 7066 results
-
Binocular disparity, the difference between the two eyes' images, is a powerful cue to generate the 3D depth percept known as stereopsis. In primates, binocular disparity is processed in multiple areas of the visual cortex, with distinct contributions of higher areas to specific aspects of depth perception. Mice, too, can perceive stereoscopic depth, and neurons in primary visual cortex (V1) and higher-order, lateromedial (LM) and rostrolateral (RL) areas were found to be sensitive to binocular disparity. A detailed characterization of disparity tuning across mouse visual areas is lacking, however, and acquiring such data might help clarifying the role of higher areas for disparity processing and establishing putative functional correspondences to primate areas. We used two-photon calcium imaging in female mice to characterize the disparity tuning properties of neurons in visual areas V1, LM, and RL in response to dichoptically presented binocular gratings, as well as random dot correlograms (RDC). In all ...Nov 11, 2020