Single‐cell RNA sequencing in Drosophila : Technologies and applications

et al. 2020

Preprint

Self Cite

Recognition of environmental cues is essential for the survival of all organisms. Precise transcriptional changes occur to enable the generation and function of the neural circuits underlying sensory perception. To gain insight into these changes, we generated single-cell transcriptomes of Drosophila olfactory receptor neurons (ORNs), thermosensory and hygrosensory neurons from the third antennal segment at an early developmental and adult stage. We discovered that ORNs maintain expression of the same olfactory receptors across development. Using these receptors and computational approaches, we matched transcriptomic clusters corresponding to anatomically and physiologically defined neuronal types across multiple developmental stages. Cell-type-specific transcriptomes, in part, reflected axon trajectory choices in early development and sensory modality in adults. Our analysis also uncovered type-specific and broadly expressed genes that could modulate adult sensory responses. Collectively, our data reveal important transcriptomic features of sensory neuron biology and provides a resource for future studies of their development and physiology.

Section: Mapping 24h Apf Transcriptomic Clusters To Their Glomerular mentioning

confidence: 99%

Section: Single-nucleus Rna-seq Can Be Used To Profile Cuticle-associmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Single-cell transcriptomes of developing and adult olfactory receptor neurons inDrosophila

McLaughlin

et al. 2020

Preprint

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“…Single-cell RNA sequencing (scRNA-seq) is a powerful tool to investigate the mechanisms underlying nervous system development and function ( Ofengeim et al, 2017 ; Mu et al, 2019 ; Li, 2020 ). Recent scRNA-seq studies in the Drosophila nervous system have enabled the discovery of new cell types, mechanisms important for development and aging, and genes controlling neural specification and wiring ( Li et al, 2017 ; Croset et al, 2018 ; Davie et al, 2018 ; Brunet Avalos et al, 2019 ; Allen et al, 2020 ; Kurmangaliyev et al, 2020 ; Özel et al, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Single-cell transcriptomes of developing and adult olfactory receptor neurons in Drosophila

McLaughlin

et al. 2021

eLife

Self Cite

Recognition of environmental cues is essential for the survival of all organisms. Transcriptional changes occur to enable the generation and function of the neural circuits underlying sensory perception. To gain insight into these changes, we generated single-cell transcriptomes of Drosophila olfactory- (ORNs), thermo-, and hygro-sensory neurons at an early developmental and adult stage using single-cell and single-nucleus RNA sequencing. We discovered that ORNs maintain expression of the same olfactory receptors across development. Using receptor expression and computational approaches, we matched transcriptomic clusters corresponding to anatomically and physiologically defined neuron types across multiple developmental stages. We found that cell-type-specific transcriptomes partly reflected axon trajectory choices in development and sensory modality in adults. We uncovered stage-specific genes that could regulate the wiring and sensory responses of distinct ORN types. Collectively, our data reveal transcriptomic features of sensory neuron biology and provide a resource for future studies of their development and physiology.

“…This information can help us obtain a more complete picture of both known and unexplored pathways underlying neural development and function. Recently, the advent of single-cell RNA sequencing (scRNA-seq) has paved the way toward obtaining such data ( Li et al, 2017 ; Kalish et al, 2018 ; Zhong et al, 2018 ; Li, 2020 ). Here, we profiled and analyzed the single-cell transcriptomes of most uniglomerular excitatory PNs.…”

Section: Introductionmentioning

confidence: 99%

Temporal evolution of single-cell transcriptomes of Drosophila olfactory projection neurons

Horns

et al. 2021

eLife

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Neurons undergo substantial morphological and functional changes during development to form precise synaptic connections and acquire specific physiological properties. What are the underlying transcriptomic bases? Here, we obtained the single-cell transcriptomes of Drosophila olfactory projection neurons (PNs) at four developmental stages. We decoded the identity of 21 transcriptomic clusters corresponding to 20 PN types and developed methods to match transcriptomic clusters representing the same PN type across development. We discovered that PN transcriptomes reflect unique biological processes unfolding at each stage—neurite growth and pruning during metamorphosis at an early pupal stage; peaked transcriptomic diversity during olfactory circuit assembly at mid-pupal stages; and neuronal signaling in adults. At early developmental stages, PN types with adjacent birth order share similar transcriptomes. Together, our work reveals principles of cellular diversity during brain development and provides a resource for future studies of neural development in PNs and other neuronal types.