Literature DB >> 10774737

Experience-dependent asymmetric shape of hippocampal receptive fields.

M R Mehta1, M C Quirk, M A Wilson.   

Abstract

We propose a novel parameter, namely, the skewness, or asymmetry, of the shape of a receptive field to characterize two properties of hippocampal place fields. First, a majority of hippocampal receptive fields on linear tracks are negatively skewed, such that during a single pass the firing rate is low as the rat enters the field but high as it exits. Second, while the place fields are symmetric at the beginning of a session, they become highly asymmetric with experience. Further experiments suggest that these results are likely to arise due to synaptic plasticity during behavior. Using a purely feed forward neural network model, we show that following repeated directional activation, NMDA-dependent long-term potentiation/long-term depotentiation (LTP/LTD) could result in an experience-dependent asymmetrization of receptive fields.

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Year:  2000        PMID: 10774737     DOI: 10.1016/s0896-6273(00)81072-7

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  151 in total

1.  Experience-dependent changes in extracellular spike amplitude may reflect regulation of dendritic action potential back-propagation in rat hippocampal pyramidal cells.

Authors:  M C Quirk; K I Blum; M A Wilson
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2.  Contrasting patterns of receptive field plasticity in the hippocampus and the entorhinal cortex: an adaptive filtering approach.

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3.  An analysis of neural receptive field plasticity by point process adaptive filtering.

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8.  The effects of GluA1 deletion on the hippocampal population code for position.

Authors:  Evgeny Resnik; James M McFarland; Rolf Sprengel; Bert Sakmann; Mayank R Mehta
Journal:  J Neurosci       Date:  2012-06-27       Impact factor: 6.167

Review 9.  Neurophysiological and computational principles of cortical rhythms in cognition.

Authors:  Xiao-Jing Wang
Journal:  Physiol Rev       Date:  2010-07       Impact factor: 37.312

10.  Stimulus-timing-dependent plasticity of cortical frequency representation.

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Journal:  J Neurosci       Date:  2008-12-10       Impact factor: 6.167
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