Rate remapping: when the code goes beyond space.

Dupret D
Pleydell-Bouverie B
Csicsvari J

Scientific Abstract

Rate remapping is a conjunctive code that potentially enables hippocampal place cells to jointly represent spatial and nonspatial information. In this issue of Neuron, Rennó-Costa et al. introduce a theoretical model wherein the convergence of the medial and lateral entorhinal excitatory inputs, combined with local inhibition, explains hippocampal rate remapping.

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Preprint
Causse AA, Curot J, Lopes-Dos-Santos V, Nunes-da-Silva R, Barron HC, Dornier V, Denuelle M, De Barros A, Sol J, Lotterie J, Lehongre K, Fernandez-Vidal S, Frazzini V, Navarro V, Valton L, Barbeau EJ, Denison T, Reddy L, Dupret D

A learning-evoked slow-oscillatory architecture paces population activity for offline reactivation across the human medial temporal lobe

10.64898/2026.02.12.705512

Citation

2010.Neuron, 68(6):1015-6.

Downloads

View PDF (1MB)

Related Group

Dupret Group

Rate remapping: when the code goes beyond space.

Dupret D
Pleydell-Bouverie B
Csicsvari J

Scientific Abstract

Rate remapping is a conjunctive code that potentially enables hippocampal place cells to jointly represent spatial and nonspatial information. In this issue of Neuron, Rennó-Costa et al. introduce a theoretical model wherein the convergence of the medial and lateral entorhinal excitatory inputs, combined with local inhibition, explains hippocampal rate remapping.

Citation

2010.Neuron, 68(6):1015-6.

Downloads

View PDF (1MB)

Related Group

Dupret Group

Similar content

Preprint
Causse AA, Curot J, Lopes-Dos-Santos V, Nunes-da-Silva R, Barron HC, Dornier V, Denuelle M, De Barros A, Sol J, Lotterie J, Lehongre K, Fernandez-Vidal S, Frazzini V, Navarro V, Valton L, Barbeau EJ, Denison T, Reddy L, Dupret D

A learning-evoked slow-oscillatory architecture paces population activity for offline reactivation across the human medial temporal lobe

10.64898/2026.02.12.705512