The other half of Hebb: K+ channels and the regulation of neuronal excitability in the hippocampus

Molecular Neurobiology

Volumn 25, Issue 1, 2002, Pages 51-66

  Schrader, Laura A ^a   Anderson, Anne E ^a   Varga, Andrew W ^a   Levy, Michael ^a   Sweatt, J David ^a  

^a BAYLOR COLLEGE OF MEDICINE   (United States)

Author keywords

Extrasynaptic; Hebbian; Kv4.2; Learning; LTP; Memory; Metaplasticity; Neuromodulation; Shal; Suprasynaptic

Indexed keywords

CYTOSKELETON PROTEIN; NERVE PROTEIN; POTASSIUM; POTASSIUM CHANNEL; PROTEIN KINASE; PROTEIN SUBUNIT; SHAL POTASSIUM CHANNEL; VOLTAGE GATED POTASSIUM CHANNEL;

ACTION POTENTIAL; ANIMAL; BIOLOGICAL MODEL; CHEMICAL STRUCTURE; CHEMISTRY; CLASSIFICATION; CYTOLOGY; DENDRITE; HIPPOCAMPUS; HUMAN; ION TRANSPORT; MOUSE; NERVE CELL PLASTICITY; PHOSPHORYLATION; PHYSIOLOGY; PROTEIN PROCESSING; REVIEW; SIGNAL TRANSDUCTION; SYNAPSE; LEARNING; LONG TERM POTENTIATION; MEMORY; NERVE CELL EXCITABILITY; NEUROMODULATION; NONHUMAN; POTASSIUM CURRENT; REGULATORY MECHANISM;

ACTION POTENTIALS; ANIMALS; CYTOSKELETAL PROTEINS; DENDRITES; HIPPOCAMPUS; HUMANS; ION TRANSPORT; MAP KINASE SIGNALING SYSTEM; MICE; MODELS, MOLECULAR; MODELS, NEUROLOGICAL; NERVE TISSUE PROTEINS; NEURONAL PLASTICITY; PHOSPHORYLATION; POTASSIUM; POTASSIUM CHANNELS; POTASSIUM CHANNELS, VOLTAGE-GATED; PROTEIN KINASES; PROTEIN PROCESSING, POST-TRANSLATIONAL; PROTEIN SUBUNITS; SHAL POTASSIUM CHANNELS; SYNAPSES;

EID: 0036178384     PISSN: 08937648     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Review

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