A flexible geometry for panoramic visual and optogenetic stimulation during behavior and physiology

•A simple geometry permits panoramic visual stimulation using flat screens.•Small physical footprint allows multiple rigs on single bench.•Easily adapted for behavior, imaging, or electrophysiology.•Enables optogenetic stimulation in Drosophila without additional modifications. To study visual proce...

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Bibliographic Details
Published in:Journal of neuroscience methods 2019-07, Vol.323, p.48-55
Main Authors: Creamer, Matthew S., Mano, Omer, Tanaka, Ryosuke, Clark, Damon A.
Format: Article
Language:English
Subjects:
Behavior
Drosophila
Electrophysiology
Panoramic stimuli
Physiology
Psychophysics
Two-photon microscopy
Visual behaviors
Visual processing
Visual stimuli
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Summary:•A simple geometry permits panoramic visual stimulation using flat screens.•Small physical footprint allows multiple rigs on single bench.•Easily adapted for behavior, imaging, or electrophysiology.•Enables optogenetic stimulation in Drosophila without additional modifications. To study visual processing, it is necessary to precisely control visual stimuli while recording neural and behavioral responses. It can be important to present stimuli over a broad area of the visual field, which can be technically difficult. We present a simple geometry that can be used to display panoramic stimuli. A single digital light projector generates images that are reflected by mirrors onto flat screens that surround an animal. It can be used for behavioral and neurophysiological measurements, so virtually identical stimuli can be presented. Moreover, this geometry permits light from the projector to be used to activate optogenetic tools. Using this geometry, we presented panoramic visual stimulation to Drosophila in three paradigms. We presented drifting contrast gratings while recording walking and turning speed. We used the same projector to activate optogenetic channels during visual stimulation. Finally, we used two-photon microscopy to record responses in direction-selective cells to drifting gratings. Existing methods have typically required custom hardware or curved screens, while this method requires only flat back projection screens and a digital light projector. The projector generates images in real time and does not require pre-generated images. Finally, while many setups are large, this geometry occupies a 30 × 20 cm footprint with a 25 cm height. This flexible geometry enables measurements of behavioral and neural responses to panoramic stimuli. This allows moderate throughput behavioral experiments with simultaneous optogenetic manipulation, with easy comparisons between behavior and neural activity using virtually identical stimuli.
ISSN:0165-0270
1872-678X
DOI:10.1016/j.jneumeth.2019.05.005