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Causal evidence of network communication in whole-brain dynamics through a multiplexed neural code
[article]
2020
bioRxiv
pre-print
An important question in neuroscience is how local activity can be flexibly and selectively routed across the brain network. A proposed mechanism to flexibly route information is frequency division multiplexing: selective readout can be achieved by segregating the signal into non-overlapping frequency bands. Here, in wild-type mice and in a transgenic model (3xTgAD) of Alzheimer s Disease (AD), we use optogenetic activation of the entorhinal cortex, concurrent whole-brain fMRI, and hidden
doi:10.1101/2020.06.09.142695
fatcat:z5czh3faarfxdmrllrqgpwamla