Feedback inhibition controls spike transfer in hybrid thalamic circuits

Nature

Volumn 417, Issue 6891, 2002, Pages 854-858

  Le Masson, Gwendal ^a   Renaud Le Masson, Sylvie ^b   Debay, Damien ^c   Bal, Thierry ^c  

^a INSERM   (France)

^b UNIVERSITÉ BORDEAUX 1   (France)

^c Unite de Neurosciences Integratives et Computationnelles   (France)

Author keywords

[No Author keywords available]

Indexed keywords

BIOLOGICAL ORGANS; BRAIN; CELLS;

CEREBRAL CORTEX;

NEUROLOGY;

4 AMINOBUTYRIC ACID; NORADRENALIN;

BIOLOGY;

ANIMAL CELL; AROUSAL; ARTICLE; ARTIFICIAL NEURAL NETWORK; BRAIN CORTEX; COLLATERAL CIRCULATION; CONTROLLED STUDY; DEPOLARIZATION; GUINEA PIG; HYPERPOLARIZATION; INFORMATION PROCESSING; INTEGRATED CIRCUIT; INTERNEURON; INTRACELLULAR RECORDING; ION CONDUCTANCE; LATERAL GENICULATE BODY; LATERAL RETICULAR NUCLEUS; MATHEMATICAL MODEL; MEMBRANE DEPOLARIZATION; MEMBRANE POTENTIAL; NEGATIVE FEEDBACK; NONHUMAN; OSCILLATION; PATCH CLAMP; PRIORITY JOURNAL; RETINA CELL; SENSE ORGAN; SIGNAL TRANSDUCTION; SLEEP; SLEEP WAKING CYCLE; SPIKE; SYNAPSE; SYNAPTIC INHIBITION; THALAMOCORTICAL TRACT; THALAMUS;

ACTION POTENTIALS; ANIMALS; AROUSAL; CEREBRAL CORTEX; FEEDBACK, BIOCHEMICAL; GAMMA-AMINOBUTYRIC ACID; GUINEA PIGS; NEURONS; NOREPINEPHRINE; PHOTIC STIMULATION; RETINA; SLEEP; SYNAPSES; THALAMUS; VISUAL PATHWAYS; WAKEFULNESS;

ANIMALIA; CAVIA PORCELLUS; SUS SCROFA;

EID: 0037142033     PISSN: 00280836     EISSN: None     Source Type: Journal    
DOI: 10.1038/nature00825     Document Type: Article

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