"Hippocampal place fields, the local regions of activity recorded from place cells in exploring rodents, can undergo large changes in relative
location during remapping.
This process would appear to require some form of modulated global input.
Grid-cell responses recorded from layer II of medial entorhinal cortex in rats have been observed to realign concurrently with hippocampal remapping, making them a candidate input source.
However, this realignment occurs coherently across colocalized ensembles of grid cells (Fyhn et al., 2007).
The hypothesized entorhinal contribution to remapping depends on whether this coherence extends to all grid cells, which is currently
We study whether dividing grid cells into small numbers of independently realigning modules can both account for this
localized coherence and allow for hippocampal remapping.
Monaco JD, Abbott LF, Abbott LF (2011) Modular realignment of entorhinal grid cell activity as a basis for hippocampal remapping. J Neurosci 31:9414-25 [PubMed]