1. A combinatorial code of transcription factors specifies subtypes of visual motion-sensing neurons in Drosophila.
- Author
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Hoermann, Nikolai, Schilling, Tabea, Ali, Aicha Haji, Serbe, Etienne, Mayer, Christian, Borst, Alexander, and Pujol-Martí, Jesús
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TRANSCRIPTION factors ,DENDRITES ,NEURONS ,DROSOPHILA ,AXONS ,TRANSCRIPTOMES - Abstract
Direction-selective T4/T5 neurons exist in four subtypes, each tuned to visual motion along one of the four cardinal directions. Along with their directional tuning, neurons of each T4/T5 subtype orient their dendrites and project their axons in a subtype-specific manner. Directional tuning, thus, appears strictly linked to morphology in T4/T5 neurons. How the four T4/T5 subtypes acquire their distinct morphologies during development remains largely unknown. Here, we investigated when and how the dendrites of the four T4/T5 subtypes acquire their specific orientations, and profiled the transcriptomes of all T4/T5 neurons during this process. This revealed a simple and stable combinatorial code of transcription factors defining the four T4/T5 subtypes during their development. Changing the combination of transcription factors of specific T4/T5 subtypes resulted in predictable and complete conversions of subtype-specific properties, i.e. dendrite orientation and matching axon projection pattern. Therefore, a combinatorial code of transcription factors coordinates the development of dendrite and axon morphologies to generate anatomical specializations differentiating subtypes of T4/T5 motion-sensing neurons. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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