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An automated feeding system for the African killifish reveals effects of dietary restriction on lifespan and allows scalable assessment of associative learning

Andrew McKay, Emma K. Costa, Jingxun Chen, Chi‐Kuo Hu, Xiaoshan Chen, Claire N. Bedbrook, Rishad C. Khondker, Mike Thielvoldt, Param Priya Singh, Tony Wyss‐Coray, Anne Brunet

bioRxiv (Cold Spring Harbor Laboratory) · 2021 · ▲ 4 citations

Abstract

Abstract The African turquoise killifish is an exciting new vertebrate model for aging studies. A significant challenge for any model organism is the control over its diet in space and time. To address this challenge, we created an automated and networked fish feeding system. Our automated feeder is designed to be open-source, easily transferable, and built from widely available components. Compared to manual feeding, our automated system is highly precise and flexible. As a proof-of-concept for the feeding flexibility of these automated feeders, we define a favorable regimen for growth and fertility for the African killifish and a dietary restriction regimen where both feeding time and quantity are reduced. We show that this dietary restriction regimen extends lifespan in males (but not in females) and impacts the transcriptomes of killifish livers in a sex-specific manner. Moreover, combining our automated feeding system with a video camera, we establish a quantitative associative learning assay to provide an integrative measure of cognitive performance for the killifish. The ability to precisely control food delivery in the killifish opens new areas to assess lifespan and cognitive behavior dynamics and to screen for dietary interventions and drugs in a scalable manner previously impossible with traditional vertebrate model organisms.

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Provenance

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OpenAlex
DOI
10.1101/2021.03.30.437790
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2026-07-07 MST

Cite this

APA
McKay, A., Costa, E.K., Chen, J., Hu, C., Chen, X., Bedbrook, C.N., Khondker, R.C., Thielvoldt, M., Singh, P.P., Wyss‐Coray, T., &amp; Brunet, A. (2021). An automated feeding system for the African killifish reveals effects of dietary restriction on lifespan and allows scalable assessment of associative learning. <em>bioRxiv (Cold Spring Harbor Laboratory)</em>. https://doi.org/10.1101/2021.03.30.437790
Vancouver
McKay A, Costa EK, Chen J, Hu C, Chen X, Bedbrook CN, et al. An automated feeding system for the African killifish reveals effects of dietary restriction on lifespan and allows scalable assessment of associative learning. bioRxiv (Cold Spring Harbor Laboratory). 2021. doi:10.1101/2021.03.30.437790.
BibTeX
@unpublished{andrew2021Anauto, title = {An automated feeding system for the African killifish reveals effects of dietary restriction on lifespan and allows scalable assessment of associative learning}, author = {Andrew McKay and Emma K. Costa and Jingxun Chen and Chi‐Kuo Hu and Xiaoshan Chen and Claire N. Bedbrook and Rishad C. Khondker and Mike Thielvoldt and Param Priya Singh and Tony Wyss‐Coray and Anne Brunet}, journal = {bioRxiv (Cold Spring Harbor Laboratory)}, year = {2021}, doi = {10.1101/2021.03.30.437790}, }

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