Visual pursuit behavior in mice maintains the pursued prey on the retinal region with least optic flow
Mice have a large visual field that is constantly stabilized by vestibular ocular reflex (VOR) driven eye rotations that counter head-rotations. While maintaining their extensive visual coverage is advantageous for predator detection, mice also track and capture prey using vision. However, in the fr...
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| creator | Holmgren, Carl D. Stahr, Paul Wallace, Damian J. Voit, Kay-Michael Matheson, Emily J. Sawinski, Juergen Bassetto, Giacomo Kerr, Jason N. |
| description | Mice have a large visual field that is constantly stabilized by vestibular
ocular reflex (VOR) driven eye rotations that counter head-rotations.
While maintaining their extensive visual coverage is advantageous for
predator detection, mice also track and capture prey using vision.
However, in the freely moving animal quantifying object location in the
field of view is challenging. Here, we developed a method to digitally
reconstruct and quantify the visual scene of freely moving mice performing
a visually based prey capture task. By isolating the visual sense and
combining a mouse eye optic model with the head and eye rotations, the
detailed reconstruction of the digital environment and retinal features
were projected onto the corneal surface for comparison, and updated
throughout the behavior. By quantifying the spatial location of objects in
the visual scene and their motion throughout the behavior, we show that
the prey image consistently falls within a small area of the
VOR-stabilized visual field. This functional focus coincides with the
region of minimal optic flow in the visual field and consequently minimal
motion-induced image blur during pursuit. The functional focus lies in the
upper-temporal part of the retina and coincides with the reported high
density-region of Alpha-ON sustained retinal ganglion cells. |
| doi_str_mv | 10.5061/dryad.2z34tmpnc |
| format | Dataset |
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ocular reflex (VOR) driven eye rotations that counter head-rotations.
While maintaining their extensive visual coverage is advantageous for
predator detection, mice also track and capture prey using vision.
However, in the freely moving animal quantifying object location in the
field of view is challenging. Here, we developed a method to digitally
reconstruct and quantify the visual scene of freely moving mice performing
a visually based prey capture task. By isolating the visual sense and
combining a mouse eye optic model with the head and eye rotations, the
detailed reconstruction of the digital environment and retinal features
were projected onto the corneal surface for comparison, and updated
throughout the behavior. By quantifying the spatial location of objects in
the visual scene and their motion throughout the behavior, we show that
the prey image consistently falls within a small area of the
VOR-stabilized visual field. This functional focus coincides with the
region of minimal optic flow in the visual field and consequently minimal
motion-induced image blur during pursuit. The functional focus lies in the
upper-temporal part of the retina and coincides with the reported high
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ocular reflex (VOR) driven eye rotations that counter head-rotations.
While maintaining their extensive visual coverage is advantageous for
predator detection, mice also track and capture prey using vision.
However, in the freely moving animal quantifying object location in the
field of view is challenging. Here, we developed a method to digitally
reconstruct and quantify the visual scene of freely moving mice performing
a visually based prey capture task. By isolating the visual sense and
combining a mouse eye optic model with the head and eye rotations, the
detailed reconstruction of the digital environment and retinal features
were projected onto the corneal surface for comparison, and updated
throughout the behavior. By quantifying the spatial location of objects in
the visual scene and their motion throughout the behavior, we show that
the prey image consistently falls within a small area of the
VOR-stabilized visual field. This functional focus coincides with the
region of minimal optic flow in the visual field and consequently minimal
motion-induced image blur during pursuit. The functional focus lies in the
upper-temporal part of the retina and coincides with the reported high
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ocular reflex (VOR) driven eye rotations that counter head-rotations.
While maintaining their extensive visual coverage is advantageous for
predator detection, mice also track and capture prey using vision.
However, in the freely moving animal quantifying object location in the
field of view is challenging. Here, we developed a method to digitally
reconstruct and quantify the visual scene of freely moving mice performing
a visually based prey capture task. By isolating the visual sense and
combining a mouse eye optic model with the head and eye rotations, the
detailed reconstruction of the digital environment and retinal features
were projected onto the corneal surface for comparison, and updated
throughout the behavior. By quantifying the spatial location of objects in
the visual scene and their motion throughout the behavior, we show that
the prey image consistently falls within a small area of the
VOR-stabilized visual field. This functional focus coincides with the
region of minimal optic flow in the visual field and consequently minimal
motion-induced image blur during pursuit. The functional focus lies in the
upper-temporal part of the retina and coincides with the reported high
density-region of Alpha-ON sustained retinal ganglion cells.</abstract><pub>Dryad</pub><doi>10.5061/dryad.2z34tmpnc</doi><orcidid>https://orcid.org/0000-0001-8140-4186</orcidid><oa>free_for_read</oa></addata></record> |
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| identifier | DOI: 10.5061/dryad.2z34tmpnc |
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| source | DataCite |
| subjects | FOS: Biological sciences |
| title | Visual pursuit behavior in mice maintains the pursued prey on the retinal region with least optic flow |
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