Involvement of superior colliculus in complex figure detection of mice

Involvement of superior colliculus in complex figure detection of mice

Object detection is an essential function of the visual system. Although the visual cortex plays an important role in object detection, the superior colliculus can support detection when the visual cortex is ablated or silenced. Moreover, it has been shown that superficial layers of mouse SC (sSC) e...

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Published in:eLife Vol. 13
Main Authors: Cazemier, J Leonie, Haak, Robin, Tran, T K Loan, Hsu, Ann T Y, Husic, Medina, Peri, Brandon D, Kirchberger, Lisa, Self, Matthew W, Roelfsema, Pieter, Heimel, J Alexander
Format: Journal Article
Language:English
Published: England eLife Science Publications, Ltd 25-01-2024
eLife Sciences Publications Ltd
eLife Sciences Publications, Ltd
Subjects:
Animals
Behavior
electrophysiology
Genetics
Information processing
Lasers
Mice
Neuroscience
object detection
Optics
Optogenetics
Orientation behavior
Superior Colliculi
Superior colliculus
vision
Visual Cortex
Visual Perception
Visual system
mouse
vision
electrophysiology
neuroscience
superior colliculus
optogenetics
object detection
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Summary:Object detection is an essential function of the visual system. Although the visual cortex plays an important role in object detection, the superior colliculus can support detection when the visual cortex is ablated or silenced. Moreover, it has been shown that superficial layers of mouse SC (sSC) encode visual features of complex objects, and that this code is not inherited from the primary visual cortex. This suggests that mouse sSC may provide a significant contribution to complex object vision. Here, we use optogenetics to show that mouse sSC is involved in figure detection based on differences in figure contrast, orientation, and phase. Additionally, our neural recordings show that in mouse sSC, image elements that belong to a figure elicit stronger activity than those same elements when they are part of the background. The discriminability of this neural code is higher for correct trials than for incorrect trials. Our results provide new insight into the behavioral relevance of the visual processing that takes place in sSC.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:2050-084X
2050-084X
DOI:10.7554/eLife.83708