Ema
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Interesting research especially in light of all the other research suggesting channelopathies in MECFS.
http://www.sciencedaily.com/release...cedaily+(Latest+Science+News+--+ScienceDaily)
To tackle the broad question of sleep, Llinás and his colleagues focused on one crucial part of the puzzle in mice. Calcium channels, selective gates in neuron walls, are integral in neuron firing, ensuring that all parts of the brain keep talking to one other. But during sleep, calcium channel activity is increased, keeping a slow rhythm that is different from patterns found during wakefulness. Based on this clue, the scientists removed one type of calcium channel, Cav3.1, and looked at how the absence of that channel's activity affected mouse brain function.
This calcium channel turns out to be a key player in normal sleep. The mice without working Cav3.1 calcium channels took longer to fall asleep than normal mice, and stayed asleep for much shorter periods. "They basically took cat naps," says Llinás. Their brain activity was also abnormal, more like normal wakefulness than sleep. Most importantly, these mice never reached deep, slow-wave sleep. "This means that we have discovered that Cav3.1 is the channel that ultimately supports deep sleep," Llinás says.
http://www.sciencedaily.com/release...cedaily+(Latest+Science+News+--+ScienceDaily)