Abstract
The importance of sleep in maintaining cognitive functions such as learning and memory has been reported in both vertebrates and invertebrates. Previous studies demonstrated that sleep deprivation impaired the olfactory memory retention of fruit flies as described in the classical conditioning paradigm. Here, we show that sleep deprivation leads to a preference for the odours of the rearing environment in Drosophila melanogaster. Flies whose sleep had been disturbed with periodic rotation stimuli during night-time preferred apple cider vinegar (ACV) to broth, while this preference was lower in flies without sleep deprivation and those rotated during daytime. Experiments using single odours showed an increase in responses to ACV due to sleep deprivation. These results suggest that sleep functions in food odour preference. Flies grown on medium supplemented with ACV showed greater preference for ACV, and those grown with broth supplementation showed a greater preference for broth under sleep-deprived conditions. These results suggest that flies with night-time sleep deprivation become attached to the environment on which they have developed, and that sleep contributes to preference for novel food odours. This study offers an approach to investigating the interaction between sleep and neural disorders concerning cognitive deficits towards novel stimuli.
Highlights
The importance of sleep in maintaining cognitive functions such as learning and memory has been reported in both vertebrates and invertebrates
The effect of rotation treatment on total sleep time was different due to the monitoring days, as an interaction was found between those explanatory variables (GLMM; δdeviance = 4.4096, P = 0.032) in the analysis of the whole statistical model with both rotation and monitoring day were included as explanatory variables
The sleep time of flies with night-time rotation was significantly longer than those without rotation on the day 1 (GLMM; δdeviance = 7.8345, Padj = 0.030), and the increased sleep time in flies with night-time rotation on the day 1 was decreased on the day 2 (GLMM; δdeviance = 15.0639, Padj = 0.006) and restored as the difference due to the rotation was not found in day 2 (GLMM; δdeviance = 1.8715, Padj = 0.417)
Summary
The importance of sleep in maintaining cognitive functions such as learning and memory has been reported in both vertebrates and invertebrates. Experiments using single odours showed an increase in responses to ACV due to sleep deprivation These results suggest that sleep functions in food odour preference. Flies grown on medium supplemented with ACV showed greater preference for ACV, and those grown with broth supplementation showed a greater preference for broth under sleep-deprived conditions These results suggest that flies with night-time sleep deprivation become attached to the environment on which they have developed, and that sleep contributes to preference for novel food odours. To understand the function of sleep in Drosophila, its ecological significance needs to be investigated, since the behaviour of individuals in their environment is important for the survival and reproduction of the species[19,20]. The odour sources were determined based on their different origins, ACV from plant materials and broth from animal materials, so that they were discriminated as different sources by flies
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
