Mice Can Use Second-Order, Contrast-Modulated Stimuli to Guide Visual Perception

Khastkhodaei, Zeinab; Jurjut, Ovidiu; Katzner, Steffen; Busse, Laura

doi:10.1523/jneurosci.4595-15.2016

Cited by 19 publications

(21 citation statements)

References 86 publications

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“…Our results extend a recent study demonstrating that mice can detect the orientation of a grating if it is defined by variations in texture 33 by showing that they can also localize objects defined by an orientation difference. They also complement studies in rats, which are able to recognize objects even if they have undergone transformations such as rotations, size changes or caused by different lighting conditions 16 .…”

Section: Discussionsupporting

confidence: 89%

Figure-ground perception in the awake mouse and neuronal activity elicited by figure-ground stimuli in primary visual cortex

Schnabel

Bossens

Lorteije

et al. 2018

Sci Rep

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Figure-ground segregation is the process by which the visual system identifies image elements of figures and segregates them from the background. Previous studies examined figure-ground segregation in the visual cortex of monkeys where figures elicit stronger neuronal responses than backgrounds. It was demonstrated in anesthetized mice that neurons in the primary visual cortex (V1) of mice are sensitive to orientation contrast, but it is unknown whether mice can perceptually segregate figures from a background. Here, we examined figure-ground perception of mice and found that mice can detect figures defined by an orientation that differs from the background while the figure size, position or phase varied. Electrophysiological recordings in V1 of awake mice revealed that the responses elicited by figures were stronger than those elicited by the background and even stronger at the edge between figure and background. A figural response could even be evoked in the absence of a stimulus in the V1 receptive field. Current-source-density analysis suggested that the extra activity was caused by synaptic inputs into layer 2/3. We conclude that the neuronal mechanisms of figure-ground segregation in mice are similar to those in primates, enabling investigation with the powerful techniques for circuit analysis now available in mice.

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Section: Discussionsupporting

confidence: 89%

Figure-ground perception in the awake mouse and neuronal activity elicited by figure-ground stimuli in primary visual cortex

Schnabel

Bossens

Lorteije

et al. 2018

Sci Rep

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“…Here we examined whether sensory adaptation alters the perception of motion in the mouse. We initiated our experiments by first training animals to discriminate leftward and upward motion using classical conditioning (Khastkhodaei et al, 2016; Jurjut et al, 2017) and then slowly rotated the upward motion to the right until the task was a leftward and rightward motion discrimination. Once mice reached a criterion performance ( d ′ ≥ 0.8) in this task, we measured how the history of sensory stimulation impacted their ability to discriminate these directions.…”

Section: Resultsmentioning

confidence: 99%

“…The dot lifetime restricted the highest possible coherence to 86% (Bischof et al, 1999). Each trial consisted of a 3 s visual stimulation period and were separated by an interstimulus period lasting 10 s plus a random interval drawn from an exponential distribution with a mean of 10 s. This random interval prevents the mice from predicting the time point of reward delivery (Khastkhodaei et al, 2016; Jurjut et al, 2017). During preliminary motion discrimination training, we displayed dots with 86% coherent motion and 100% Michelson contrast during the stimulation period, and we presented a mean gray screen during the interstimulus period.…”

Section: Methodsmentioning

confidence: 99%

“…Animals walked on a floating Styrofoam ball while they were head-fixed (Dombeck et al, 2007). Classical conditioning was used to pair visual motion to water delivery (Khastkhodaei et al, 2016; Jurjut et al, 2017). Initially, we presented two different motion conditions, upward and leftward, pairing leftward with a water reward.…”

Section: Methodsmentioning

confidence: 99%

“…Once trained to associate water with leftward motion, the mice quickly adapted (typically less than a few days) to small changes in the experimental paradigm (e.g., changes in the direction of unrewarded stimuli, coherence, adapting experiments). Licking was measured using a piezoelectric sensor attached to the reward delivery system (Schwarz et al, 2010; Khastkhodaei et al, 2016; Jurjut et al, 2017). The water was delivered in a flexible catheter that would bend upward and downward as the mouse licked.…”

Section: Methodsmentioning

confidence: 99%

See 2 more Smart Citations

Motion Discrimination and the Motion Aftereffect in Mouse Vision

Samonds

Lieberman²,

Priebe

2018

eNeuro

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Prolonged exposure to motion in one direction often leads to the illusion of motion in the opposite direction for stationary objects. This motion aftereffect likely arises across several visual areas from adaptive changes in the balance of activity and competitive interactions. We examined whether or not the mouse was susceptible to this same illusion to determine whether it would be a suitable model for learning about the neural representation of the motion aftereffect. Under a classical conditioning paradigm, mice learned to lick when presented with motion in one direction and not the opposite direction. When the mice were adapted to motion preceding this test, their lick behavior for zero coherence motion was biased for motion in the opposite direction of the adapting stimulus. Overall, lick count versus motion coherence shifted in the opposite direction of the adapting stimulus. This suggests that although the mouse has a simpler visual system compared with primates, it still is subject to the motion aftereffect and may elucidate the underlying circuitry.

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Methodological Approaches to the Behavioural Investigation of Visual Perception in Rodents

Zoccolan

Filippo

2018

Handbook of Behavioral Neuroscience

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Mice Can Use Second-Order, Contrast-Modulated Stimuli to Guide Visual Perception

Cited by 19 publications

References 86 publications

Figure-ground perception in the awake mouse and neuronal activity elicited by figure-ground stimuli in primary visual cortex

Figure-ground perception in the awake mouse and neuronal activity elicited by figure-ground stimuli in primary visual cortex

Motion Discrimination and the Motion Aftereffect in Mouse Vision

Methodological Approaches to the Behavioural Investigation of Visual Perception in Rodents

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