PUBLICATION
Using a variant of the optomotor response as a visual defect detection assay in zebrafish
- Authors
- LeFauve, M.K., Rowe, C.J., Crowley-Perry, M., Wiegand, J.L., Shapiro, A.G., Connaughton, V.P.
- ID
- ZDB-PUB-210220-20
- Date
- 2021
- Source
- Journal of biological methods 8: e144 (Journal)
- Registered Authors
- Connaughton, Victoria P.
- Keywords
- behavioral neuroscience, optomotor response, spatial frequency, visuomotor, zebrafish
- MeSH Terms
- none
- PubMed
- 33604396 Full text @ J Biol Methods
Citation
LeFauve, M.K., Rowe, C.J., Crowley-Perry, M., Wiegand, J.L., Shapiro, A.G., Connaughton, V.P. (2021) Using a variant of the optomotor response as a visual defect detection assay in zebrafish. Journal of biological methods. 8:e144.
Abstract
We describe a visual stimulus that can be used with both larval and adult zebrafish (Danio rerio). This protocol is a modification of a standard visual behavior analysis, the optomotor response (OMR). The OMR is often used to determine the spatial response or to detect directional visuomotor deficiencies. An OMR can be generated using a high contrast grated pattern, typically vertical bars. The spatial sensitivity is measured by detection and response to a change in grating bar width and is reported in cycles per degree (CPD). This test has been used extensively with zebrafish larvae and adults to identify visual- and/or motor-based mutations. Historically, when tested in adults, the grated pattern was presented from a vertical perspective, using a rotating cylinder around a holding tank, allowing the grating to be seen solely from the sides and front of the organism. In contrast, OMRs in zebrafish larvae are elicited using a stimulus projected below the fish. This difference in methodology means that two different experimental set-ups are required: one for adults and one for larvae. Our visual stimulus modifies the stimulation format so that a single OMR stimulus, suitable for use with both adults and larvae, is being presented underneath the fish. Analysis of visuomotor responses using this method does not require costly behavioral tracking software and, using a single behavioral paradigm, allows the observer to rapidly determine visual spatial response in both zebrafish larvae and adults.
Genes / Markers
Expression
Phenotype
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Fish
Orthology
Engineered Foreign Genes
Mapping