The involvement of recurrent connections in area ca3 in establishing the properties of place fields: A model

The involvement of recurrent connections in area ca3 in establishing the properties of place fields: A model (2000)

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by Szabolcs Káli , Peter Dayan

Venue:	J. Neurosci
Citations:	27 - 1 self

BibTeX

@ARTICLE{Káli00theinvolvement,
    author = {Szabolcs Káli and Peter Dayan},
    title = {The involvement of recurrent connections in area ca3 in establishing the properties of place fields: A model},
    journal = {J. Neurosci},
    year = {2000},
    volume = {20},
    pages = {7463--7477}
}

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Abstract

Strong constraints on the neural mechanisms underlying the formation of place fields in the rodent hippocampus come from the systematic changes in spatial activity patterns that are consequent on systematic environmental manipulations. We describe an attractor network model of area CA3 in which local, recurrent, excitatory, and inhibitory interactions generate appropriate place cell representations from location- and directionspecific activity in the entorhinal cortex. In the model, familiarity with the environment, as reflected by activity in neuromodulatory systems, influences the efficacy and plasticity of the recurrent and feedforward inputs to CA3. In unfamiliar, novel, environments, mossy fiber inputs impose activity patterns on CA3, and the recurrent collaterals and the perforant path inputs are subject to graded Hebbian plasticity. The hippocampus is known to be involved in spatial learning and memory in rodents. Some of the most convincing evidence for this is the presence of place cells in areas CA3 and CA1 of the hippocampus (O’Keefe and Dostrovsky, 1971; O’Keefe, 1976) and of many other types of spatially selective cells in neighboring areas

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