The Journal of Neuroscience, July 13, 2005, ():
Discharge of Identified Orexin/Hypocretin Neurons across the Sleep-Waking Cycle
J. Neurosci. Lee et al.
25: 6716
Supplemental data
Files in this Data Supplement:
- supplemental material
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Supplemental Video 1. Simultaneous EEG/EMG/Unit and video recording of 1 min segment (Fig. 2C1) showing unit discharge during quiet waking (qW), active waking (aW, marked by increased muscle tone and movement), transition to slow wave sleep (tSWS, marked by EEG spindle activity, 10 – 14 Hz) and SWS (marked by EEG high voltage slow waves, 1 – 4 Hz) . Green lines mark 1 sec divisions.
- supplemental material
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Supplemental Video 2. Simultaneous EEG/EMG/Unit and video recording from 1 min segment (Fig. 2C2) showing unit discharge during periods of transition to paradoxical sleep (tPS, marked by spindle EEG activity, 10 – 14 Hz) and PS (marked by muscle atonia and regular theta EEG activity, 4 – 9 Hz, along with twitches).
- supplemental material
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Supplemental Video 3. Simultaneous EEG/EMG/Unit and video recording of 1 min segment (Fig. 2C3) showing unit discharge during PS and a brief arousal (aW, marked by loss of regular theta EEG activity and increased nuccal EMG along with movement).
- supplemental material
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Supplemental Video 4. Simultaneous EEG/EMG/Unit and video recording of 1 min segment (Fig. 2C4) showing unit discharge during PS and the transition to aW (marked by loss of regular theta EEG activity and increased nuccal EMG along with movements).
