A simple automated system for appetitive conditioning of zebrafish in their home tanks

Jillian M. Doyle; Neil Merovitch; Russell C. Wyeth; Matthew R. Stoyek; Michael Schmidt; Florentin Wilfart; Alan Fine; Roger P. Croll

doi:10.1016/j.bbr.2016.09.044

A simple automated system for appetitive conditioning of zebrafish in their home tanks

Jillian M. Doyle, Neil Merovitch, Russell C. Wyeth, Matthew R. Stoyek, Michael Schmidt, Florentin Wilfart, Alan Fine, Roger P. Croll

Medicine

Research output: Contribution to journal › Article › peer-review

19 Citations (Scopus)

Abstract

We describe here an automated apparatus that permits rapid conditioning paradigms for zebrafish. Arduino microprocessors were used to control the delivery of auditory or visual stimuli to groups of adult or juvenile zebrafish in their home tanks in a conventional zebrafish facility. An automatic feeder dispensed precise amounts of food immediately after the conditioned stimuli, or at variable delays for controls. Responses were recorded using inexpensive cameras, with the video sequences analysed with ImageJ or Matlab. Fish showed significant conditioned responses in as few as 5 trials, learning that the conditioned stimulus was a predictor of food presentation at the water surface and at the end of the tank where the food was dispensed. Memories of these conditioned associations persisted for at least 2 days after training when fish were tested either as groups or as individuals. Control fish, for which the auditory or visual stimuli were specifically unpaired with food, showed no comparable responses. This simple, low-cost, automated system permits scalable conditioning of zebrafish with minimal human intervention, greatly reducing both variability and labour-intensiveness. It will be useful for studies of the neural basis of learning and memory, and for high-throughput screening of compounds modifying those processes.

Original language	English
Pages (from-to)	444-452
Number of pages	9
Journal	Behavioural Brain Research
Volume	317
DOIs	https://doi.org/10.1016/j.bbr.2016.09.044
Publication status	Published - Jan 15 2017

Bibliographical note

Funding Information:
We thank Alexander Goroshkov for essential assistance with construction of apparatus, Dr. Yiling Hu for valuable assistance with experimental preparations, Dr. Oliver Braubach and Setareh Lahsaee with helpful comments, Emma Neilson, Megan Crosby, Juyang Long, Emma Finlayson-Trick, Charlotte Nauss & Stephanie Shewchuk for their assistance with experiments and data collection, Gretchen Wagner and members of Dalhousie Medical School’s Zebrafish Core Facility for breeding and maintenance of the fish. This work was supported by Natural Sciences and Engineering Research Council of Canada Engage and Discovery Grants to R.P.C., and Discovery Grant to A.F. , and Canadian Institutes of Health Research Operating Grants to R.P.C. and A.F. Funding was also provided by DMF Medical Incorporated.

Publisher Copyright:
© 2016 Elsevier B.V.

ASJC Scopus Subject Areas

Behavioral Neuroscience

PubMed: MeSH publication types

Journal Article

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10.1016/j.bbr.2016.09.044

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title = "A simple automated system for appetitive conditioning of zebrafish in their home tanks",

abstract = "We describe here an automated apparatus that permits rapid conditioning paradigms for zebrafish. Arduino microprocessors were used to control the delivery of auditory or visual stimuli to groups of adult or juvenile zebrafish in their home tanks in a conventional zebrafish facility. An automatic feeder dispensed precise amounts of food immediately after the conditioned stimuli, or at variable delays for controls. Responses were recorded using inexpensive cameras, with the video sequences analysed with ImageJ or Matlab. Fish showed significant conditioned responses in as few as 5 trials, learning that the conditioned stimulus was a predictor of food presentation at the water surface and at the end of the tank where the food was dispensed. Memories of these conditioned associations persisted for at least 2 days after training when fish were tested either as groups or as individuals. Control fish, for which the auditory or visual stimuli were specifically unpaired with food, showed no comparable responses. This simple, low-cost, automated system permits scalable conditioning of zebrafish with minimal human intervention, greatly reducing both variability and labour-intensiveness. It will be useful for studies of the neural basis of learning and memory, and for high-throughput screening of compounds modifying those processes.",

author = "Doyle, {Jillian M.} and Neil Merovitch and Wyeth, {Russell C.} and Stoyek, {Matthew R.} and Michael Schmidt and Florentin Wilfart and Alan Fine and Croll, {Roger P.}",

note = "Funding Information: We thank Alexander Goroshkov for essential assistance with construction of apparatus, Dr. Yiling Hu for valuable assistance with experimental preparations, Dr. Oliver Braubach and Setareh Lahsaee with helpful comments, Emma Neilson, Megan Crosby, Juyang Long, Emma Finlayson-Trick, Charlotte Nauss & Stephanie Shewchuk for their assistance with experiments and data collection, Gretchen Wagner and members of Dalhousie Medical School{\textquoteright}s Zebrafish Core Facility for breeding and maintenance of the fish. This work was supported by Natural Sciences and Engineering Research Council of Canada Engage and Discovery Grants to R.P.C., and Discovery Grant to A.F. , and Canadian Institutes of Health Research Operating Grants to R.P.C. and A.F. Funding was also provided by DMF Medical Incorporated. Publisher Copyright: {\textcopyright} 2016 Elsevier B.V.",

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AU - Wilfart, Florentin

AU - Fine, Alan

AU - Croll, Roger P.

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N2 - We describe here an automated apparatus that permits rapid conditioning paradigms for zebrafish. Arduino microprocessors were used to control the delivery of auditory or visual stimuli to groups of adult or juvenile zebrafish in their home tanks in a conventional zebrafish facility. An automatic feeder dispensed precise amounts of food immediately after the conditioned stimuli, or at variable delays for controls. Responses were recorded using inexpensive cameras, with the video sequences analysed with ImageJ or Matlab. Fish showed significant conditioned responses in as few as 5 trials, learning that the conditioned stimulus was a predictor of food presentation at the water surface and at the end of the tank where the food was dispensed. Memories of these conditioned associations persisted for at least 2 days after training when fish were tested either as groups or as individuals. Control fish, for which the auditory or visual stimuli were specifically unpaired with food, showed no comparable responses. This simple, low-cost, automated system permits scalable conditioning of zebrafish with minimal human intervention, greatly reducing both variability and labour-intensiveness. It will be useful for studies of the neural basis of learning and memory, and for high-throughput screening of compounds modifying those processes.

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A simple automated system for appetitive conditioning of zebrafish in their home tanks

Abstract

Bibliographical note

ASJC Scopus Subject Areas

PubMed: MeSH publication types

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