Eleni Notaras scite author profile

Sleep in mammals is broadly classified into two different categories: rapid eye movement (REM) sleep and slow wave sleep (SWS), and accordingly REM and SWS are thought to achieve a different set of functions. The fruit fly Drosophila melanogaster is increasingly being used as a model to understand sleep functions, although it remains unclear if the fly brain also engages in different kinds of sleep as well. Here, we compare two commonly used approaches for studying sleep experimentally in Drosophila: optogenetic activation of sleep-promoting neurons and provision of a sleep-promoting drug, Gaboxadol. We find that these different sleep-induction methods have similar effects on increasing sleep duration, but divergent effects on brain activity. Transcriptomic analysis reveals that drug-induced deep sleep (‘quiet’ sleep) mostly downregulates metabolism genes, whereas optogenetic ‘active’ sleep upregulates a wide range of genes relevant to normal waking functions. This suggests that optogenetics and pharmacological induction of sleep in Drosophila promote different features of sleep, which engage different sets of genes to achieve their respective functions.

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Experimentally induced active and quiet sleep engage non-overlapping transcriptional programs inDrosophila

Anthoney

Tainton-Heap

Lương

et al. 2023

Preprint

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Sleep in mammals is broadly classified into two different categories: rapid eye movement (REM) sleep and slow wave sleep (SWS), and accordingly REM and SWS are thought to achieve a different set of functions. The fruit flyDrosophila melanogasteris increasingly being used as a model to understand sleep functions, although it remains unclear if the fly brain also engages in different kinds of sleep as well. Here, we compare two commonly used approaches for studying sleep experimentally inDrosophila: optogenetic activation of sleep-promoting neurons and provision of a sleep-promoting drug, Gaboxadol. We find that these different sleep-induction methods have similar effects on increasing sleep duration, but divergent effects on brain activity. Transcriptomic analysis reveals that drug-induced deep sleep (‘quiet’ sleep) mostly downregulates metabolism genes, whereas optogenetic ‘active’ sleep upregulates a wide range of genes relevant to normal waking functions. This suggests that optogenetics and pharmacological induction of sleep inDrosophilapromote different features of sleep, which engage different sets of genes to achieve their respective functions.

show abstract

Experimentally induced active and quiet sleep engage non-overlapping transcriptomes in Drosophila

Anthoney

Tainton-Heap

Lương

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

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Eleni Notaras

A Paradoxical Kind of Sleep in Drosophila melanogaster

Experimentally induced active and quiet sleep engage non-overlapping transcriptional programs in Drosophila

Experimentally induced active and quiet sleep engage non-overlapping transcriptional programs inDrosophila

Experimentally induced active and quiet sleep engage non-overlapping transcriptomes in Drosophila

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