ramdya.bsky.social
@ramdya.bsky.social
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3-2/ EVEN without antennae, the coordination between head rotations and foreleg movements remains! 😱😱😱
December 18, 2024 at 5:10 PM
3-2/ EVEN without antennae, the coordination between head rotations and foreleg movements remains! 😱😱😱
Reposted by ramdya.bsky.social
3-1/ Or, head-immobilized flies will still move their antennae and forelegs in a fascinatingly coordinated fashion. 🤯
December 18, 2024 at 5:08 PM
3-1/ Or, head-immobilized flies will still move their antennae and forelegs in a fascinatingly coordinated fashion. 🤯
Reposted by ramdya.bsky.social
3/ Surprisingly, each body part operates independently of the others' sensory feedback. Even with amputated forelegs, flies still move their antennae and head! This suggests an open-loop (not feedback-based) coordination mechanism. 🤖
December 18, 2024 at 5:05 PM
3/ Surprisingly, each body part operates independently of the others' sensory feedback. Even with amputated forelegs, flies still move their antennae and head! This suggests an open-loop (not feedback-based) coordination mechanism. 🤖
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10/ Big thanks to our amazing collaborators and the incredible fly community for creating the open-source tools that made this work possible. 🙌 #Neuroscience #MotorControl #Drosophila #Connectome @neuroxepfl.bsky.social @fly-eds.bsky.social @flywire.bsky.social
December 18, 2024 at 5:20 PM
10/ Big thanks to our amazing collaborators and the incredible fly community for creating the open-source tools that made this work possible. 🙌 #Neuroscience #MotorControl #Drosophila #Connectome @neuroxepfl.bsky.social @fly-eds.bsky.social @flywire.bsky.social
Reposted by ramdya.bsky.social
9/ So next time you see a fly grooming itself or you try multitasking, take a moment to appreciate the magic of coordination. Check out our preprint! 🪰🧠 www.biorxiv.org/content/10.1...
Centralized brain networks underlie body part coordination during grooming
Animals must coordinate multiple body parts to perform important tasks such as grooming, or locomotion. How this movement synchronization is achieved by the nervous system remains largely unknown. Her...
www.biorxiv.org
December 18, 2024 at 5:18 PM
9/ So next time you see a fly grooming itself or you try multitasking, take a moment to appreciate the magic of coordination. Check out our preprint! 🪰🧠 www.biorxiv.org/content/10.1...
Reposted by ramdya.bsky.social
8/ The fly’s strategy enables robustness yet flexibility, thus it may be a common blueprint for movement across species—or even for other behaviors in flies. 🐁🐱🦎
December 18, 2024 at 5:17 PM
8/ The fly’s strategy enables robustness yet flexibility, thus it may be a common blueprint for movement across species—or even for other behaviors in flies. 🐁🐱🦎
Reposted by ramdya.bsky.social
7/ Recurrent excitation: Drives non-groomed antennal pitch movements and keeps other motor networks in sync. ⚡️
Broadcast inhibition: Suppresses targeted antennal movement to prevent conflicting actions. ⛔️
Broadcast inhibition: Suppresses targeted antennal movement to prevent conflicting actions. ⛔️
December 18, 2024 at 5:16 PM
7/ Recurrent excitation: Drives non-groomed antennal pitch movements and keeps other motor networks in sync. ⚡️
Broadcast inhibition: Suppresses targeted antennal movement to prevent conflicting actions. ⛔️
Broadcast inhibition: Suppresses targeted antennal movement to prevent conflicting actions. ⛔️
Reposted by ramdya.bsky.social
6/ To understand this better, we simulated the grooming network and ran a computational neural activation screen. Two key circuit motifs emerged as the stars of this coordination process:
December 18, 2024 at 5:14 PM
6/ To understand this better, we simulated the grooming network and ran a computational neural activation screen. Two key circuit motifs emerged as the stars of this coordination process:
Reposted by ramdya.bsky.social
5/ Think of it as an elegant engineering solution: these central neurons enable flexibility, allowing any brain region to initiate or stop the behavior. 🛠️
December 18, 2024 at 5:13 PM
5/ Think of it as an elegant engineering solution: these central neurons enable flexibility, allowing any brain region to initiate or stop the behavior. 🛠️
Reposted by ramdya.bsky.social
2/ By simulating these motions in a biomechanical model, we discovered the reason: synchronization ensures forceful and unobstructed interactions between the forelegs and antennae. This efficiency guarantees a thorough cleaning job. 💪✨
December 18, 2024 at 5:03 PM
2/ By simulating these motions in a biomechanical model, we discovered the reason: synchronization ensures forceful and unobstructed interactions between the forelegs and antennae. This efficiency guarantees a thorough cleaning job. 💪✨
Reposted by ramdya.bsky.social
1/ In our study, we explored how flies synchronize their head, antennae, and forelegs during goal-directed antennal grooming. We found that when targeting an antenna, flies perform three distinct motor actions. But why these specific movements?
December 18, 2024 at 5:02 PM
1/ In our study, we explored how flies synchronize their head, antennae, and forelegs during goal-directed antennal grooming. We found that when targeting an antenna, flies perform three distinct motor actions. But why these specific movements?