Sparse activity of identified dentate granule cells during spatial exploration
Neurons
granule cell
0303 health sciences
QH301-705.5
place cell
Science
Q
R
Spatial Learning
spatial navigation
Action Potentials
juxtacellular
Rats
03 medical and health sciences
Dentate Gyrus
Medicine
Animals
dentate gyrus
Biology (General)
Neuroscience
Spatial Memory
DOI:
10.7554/elife.20252
Publication Date:
2016-10-03T12:01:56Z
AUTHORS (5)
ABSTRACT
In the dentate gyrus – a key component of spatial memory circuits – granule cells (GCs) are known to be morphologically diverse and to display heterogeneous activity profiles during behavior. To resolve structure–function relationships, we juxtacellularly recorded and labeled single GCs in freely moving rats. We found that the vast majority of neurons were silent during exploration. Most active GCs displayed a characteristic spike waveform, fired at low rates and showed spatial activity. Primary dendritic parameters were sufficient for classifying neurons as active or silent with high accuracy. Our data thus support a sparse coding scheme in the dentate gyrus and provide a possible link between structural and functional heterogeneity among the GC population.
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CITATIONS (143)
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