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Neural mechanisms of limb proprioception in the fruit fly (Drosophila)
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Neural Mechanisms of Limb Proprioception and Motor Control in Drosophila
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- 1 Neural mechanisms of limb proprioception in the fruit fly (Drosophila)
- 2 A tractable system for investigating principles of limb proprioception and motor control
- 3 The Drosophila femoral chordotonal organ FeCO
- 4 Genetic driver lines define proprioceptor subtype
- 5 Distinct proprioceptor subtypes encode femur-tibia joint position and movement
- 6 Modulation of proprioceptive reflexes during locomoti
- 7 Calcium imaging and movement tracking in behaving flies
- 8 Identifying differences between encoding of active and passive movements
- 9 Predicting leg proprioceptor activity during walkin using computational models
- 10 Activity of claw axons
- 11 Activity in hook axons is suppressed
- 12 Connectomic reconstruction of the Drosophila Female Adult Nerve Cord (FANC)
- 13 Reconstruction of leg proprioceptor axons
- 14 Reconstructed claw axons
- 15 Presynaptic inputs to proprioceptor axons
- 16 Signatures of state-dependent modulation in second-order proprioceptive neurons
- 17 Postsynaptic targets of hook axons
