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Projekt Druckansicht

Steuerung der Gesangsmusterbildung in Drosophila: Schaltkreismechanismen und sensorische Modulation

Antragsteller Dr. Frederic Römschied
Fachliche Zuordnung Kognitive, systemische und Verhaltensneurobiologie
Förderung Förderung von 2018 bis 2020
Projektkennung Deutsche Forschungsgemeinschaft (DFG) - Projektnummer 404281558
 
Erstellungsjahr 2020

Zusammenfassung der Projektergebnisse

How does coordinated neuronal activity in the brain produce complex behaviors, and how can the brain rapidly adjust its behavioral output to incoming sensory information? While it is easy to ask these questions about the ​human brain, it is challenging to find answers, given the huge number of neurons and connections in the human brain. In my project I hence asked the same questions, about the comparatively small brain of the fruit fly, ​Drosophila ​melanogaster. When flies try to find a suitable mating partner, they exhibit a complex courtship ritual, during which the male attempts to convince the female to mate. While he chases the female, he sings to her by vibrating a single wing. She, in turn, listens to his song, evaluates song quality and provides sensory feedback to the male by running away or slowing down. Then the male uses this feedback to update his song, repeating this back and forth until the female ultimately accepts or rejects the male. How does coordinated neuronal activity in the brain of the male fly produce his complex song ​behavior? Out of the hundreds of thousands of neurons in the fly’s nervous system, only on the order of tens of neurons are currently thought to contribute to the male’s song behavior. While we know the identity of these neurons in the male song circuit, we lack a clear understanding of how these neurons interact during song, and how patterned activity of individual neurons shapes song dynamics. I exploited the genetic toolkit available in ​Drosophila to map the “song repertoire” of each individual type of song neuron, which allowed me to form hypotheses on how these neurons might interact during song production. I went on to test these hypotheses using sophisticated neural imaging methods. I found evidence for a neural circuit motif that allows the male to switch between different song modes (termed “sine” and “pulse” song), using a combination of mutual inhibition and “post-inhibitory rebound” (that is, neural activity induced by release from inhibition). These results improve our understanding of the neural circuitry underlying complex song behavior of the fly. Can the male fly learn new courtship behavior in a novel sensory context? ​The courtship behavior of the male fly is ​innate​, meaning a male that has never seen other flies before can perform his complex courtship ritual the first time he meets a female. Innate behaviors are genetically hard-wired and therefore often assumed to be inflexible, not amenable to learning. Yet, previous work has shown that male ​flies can learn ​to suppress their courtship drive after exposure to unreceptive females. Based on this finding, I asked whether male flies can learn to adjust their song behavior (without suppressing it) to a new sensory context. Specifically, I tested whether males change their innate song behavior when they experience a female that walks backwards (a behavior females do not usually show) every time he sings a particular type of song (“pulse” song). Notably, I found that males indeed change their song behavior compared to controls, and even maintain the changed behavior when paired with a “normally” behaving female: males learn to sing more directly behind the female (as opposed to a broad range of angles around the female during natural courtship). This is particularly surprising because the learned behavior seems optimized to the new sensory context: The only way to be closer to a backward-walking female after singing than before is to sing straight behind her, which is what the male seems to learn.

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