Tootoonian, S and Coen, P and Kawai, R and Murthy, M (2012) Neural representations of courtship song in the Drosophila brain. J Neurosci, 32. pp. 787-798.Full text not available from this repository.
Acoustic communication in drosophilid flies is based on the production and perception of courtship songs, which facilitate mating. Despite decades of research on courtship songs and behavior in Drosophila, central auditory responses have remained uncharacterized. In this study, we report on intracellular recordings from central neurons that innervate the Drosophila antennal mechanosensory and motor center (AMMC), the first relay for auditory information in the fly brain. These neurons produce graded-potential (nonspiking) responses to sound; we compare recordings from AMMC neurons to extracellular recordings of the receptor neuron population [Johnston's organ neurons (JONs)]. We discover that, while steady-state response profiles for tonal and broadband stimuli are significantly transformed between the JON population in the antenna and AMMC neurons in the brain, transient responses to pulses present in natural stimuli (courtship song) are not. For pulse stimuli in particular, AMMC neurons simply low-pass filter the receptor population response, thus preserving low-frequency temporal features (such as the spacing of song pulses) for analysis by postsynaptic neurons. We also compare responses in two closely related Drosophila species, Drosophila melanogaster and Drosophila simulans, and find that pulse song responses are largely similar, despite differences in the spectral content of their songs. Our recordings inform how downstream circuits may read out behaviorally relevant information from central neurons in the AMMC.
|Uncontrolled Keywords:||Acoustic Stimulation Acoustics Action Potentials Animal Communication Animals Animals, Genetically Modified Auditory Pathways Auditory Perception Biophysics Brain Courtship Drosophila Drosophila Proteins Electric Stimulation Female Fourier Analysis Green Fluorescent Proteins Male Patch-Clamp Techniques Reaction Time Sense Organs Sensory Receptor Cells Sound Sound Spectrography|
|Divisions:||Div F > Computational and Biological Learning|
|Depositing User:||Unnamed user with email email@example.com|
|Date Deposited:||16 Jul 2015 13:37|
|Last Modified:||09 Oct 2015 01:32|