In a minimal network model consisting of two pyramidal cells and one interneuron, we show how excitation and inhibition cooperate to produce "ring rate changes in pyramidal cells that are consistent with observed place cell "ring in region CA3 of the hippocampus. We show that inhibition from a common interneuron can synchronize networks of pyramidal cells with no direct connections. Moreover, recurrent excitation together with common inhibition can modulate burst pro"les of synchronously "ring cells from complex bursts to bursts with multiple spike to single spikes. � 2001 Elsevier Science B.V. All rights reserved
The central nervous system is a crystalline-like structure which is constructed through the repeated...
<p><b>A</b> The delay between peak excitatory and inhibitory currents in pyramidal neurons is shorte...
<p>Network bursting of excitatory pyramidal cells affected by excitatory fluctuations.</p
Synchronisation among neurons is thought to arise from the interplay between excitation and inhibiti...
Pyramidal cells perform computations on their inputs within the context of the local network. The pr...
Inhibitory pathways are an essential component in the function of the neocortical microcircuitry. De...
Synchronization among neurons is thought to arise from the interplay between excitation and inhibiti...
GABAergic interneurones are necessary for the emergence of hippocampal gamma-frequency network oscil...
GABAergic interneurones are necessary for the emergence of hippocampal gamma-frequency network oscil...
Pyramidal cells in the hippocampus are part of a small neuronal network that performs computations o...
The Sharp Wave-associated Ripple is a high-frequency, extracellular recording observed in the rat hi...
Networks of synchronized fast-spiking interneurons are thought to be key elements in the generation ...
Neurons form transiently stable assemblies that may underlie cognitive functions, including memory f...
Different hippocampal activity patterns are determined primarily by the interaction of excitatory ce...
Abstract The connections between excitatory and inhibitory synapses are significant for generation o...
The central nervous system is a crystalline-like structure which is constructed through the repeated...
<p><b>A</b> The delay between peak excitatory and inhibitory currents in pyramidal neurons is shorte...
<p>Network bursting of excitatory pyramidal cells affected by excitatory fluctuations.</p
Synchronisation among neurons is thought to arise from the interplay between excitation and inhibiti...
Pyramidal cells perform computations on their inputs within the context of the local network. The pr...
Inhibitory pathways are an essential component in the function of the neocortical microcircuitry. De...
Synchronization among neurons is thought to arise from the interplay between excitation and inhibiti...
GABAergic interneurones are necessary for the emergence of hippocampal gamma-frequency network oscil...
GABAergic interneurones are necessary for the emergence of hippocampal gamma-frequency network oscil...
Pyramidal cells in the hippocampus are part of a small neuronal network that performs computations o...
The Sharp Wave-associated Ripple is a high-frequency, extracellular recording observed in the rat hi...
Networks of synchronized fast-spiking interneurons are thought to be key elements in the generation ...
Neurons form transiently stable assemblies that may underlie cognitive functions, including memory f...
Different hippocampal activity patterns are determined primarily by the interaction of excitatory ce...
Abstract The connections between excitatory and inhibitory synapses are significant for generation o...
The central nervous system is a crystalline-like structure which is constructed through the repeated...
<p><b>A</b> The delay between peak excitatory and inhibitory currents in pyramidal neurons is shorte...
<p>Network bursting of excitatory pyramidal cells affected by excitatory fluctuations.</p