Turning on and off with excitation: The role of spike-timing asynchrony and synchrony in sustained neural activity

Journal of Computational Neuroscience

Volumn 11, Issue 2, 2001, Pages 121-134

  Gutkin, Boris S ^a   Laing, Carlo R ^b   Colby, Carol L ^c,d   Chow, Carson C ^d   Ermentrout, G Bard ^d  

^a CNRS   (France)

^b UNIVERSITY OF OTTAWA   (Canada)

^c UNIVERSITY OF PITTSBURGH SCHOOL OF MEDICINE   (United States)

^d UNIVERSITY OF PITTSBURGH   (United States)

Author keywords

Asynchrony; Prefrontal cortex; Sustained activity; Synchrony; Working memory

Indexed keywords

DELAY CIRCUITS; MAMMALS; TIMING CIRCUITS;

ASYNCHRONY; LOCALISED; MOTOR COMMANDS; NEURAL ACTIVITY; PREFRONTAL CORTEX; SPIKE TIMING; SUSTAINED ACTIVITY; SYNAPTIC INTERACTIONS; SYNCHRONY; WORKING MEMORY;

NEURONS;

ALPHA AMINO 3 HYDROXY 5 METHYL 4 ISOXAZOLEPROPIONIC ACID;

ANIMAL CELL; ARTICLE; CORTICAL SYNCHRONIZATION; EVOKED RESPONSE; HODGKIN HUXLEY EQUATION; HUMAN; HUMAN CELL; MONOSYNAPTIC PATHWAY; MOTOR ACTIVITY; NERVE CELL; NERVE CELL INHIBITION; NERVE CELL NETWORK; NERVE CELL STIMULATION; NERVE CONDUCTION; NONHUMAN; PREFRONTAL CORTEX; PRIMATE; PRIORITY JOURNAL; SPATIAL SUMMATION; SPIKE WAVE; SYNAPTIC POTENTIAL; WORKING MEMORY;

EID: 0035687166     PISSN: 09295313     EISSN: None     Source Type: Journal    
DOI: 10.1023/A:1012837415096     Document Type: Article

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