Viral vector-mediated expression of K+ channels regulates electrical excitability in skeletal muscle

Gene Therapy

Volumn 8, Issue 18, 2001, Pages 1372-1379

  Falk, T ^a   Kilani, R K ^a   Yool, A J ^a,b   Sherman, S J ^a,b  

^a UNIVERSITY OF ARIZONA COLLEGE OF MEDICINE   (United States)

^b UNIVERSITY OF ARIZONA   (United States)

Author keywords

Anemone toxin II; Green fluorescent protein; Herpes simplex 1 amplicon system; Hyperkalemic periodic paralysis; Kv1.4; Primary muscle culture

Indexed keywords

GREEN FLUORESCENT PROTEIN; HYBRID PROTEIN; POTASSIUM; POTASSIUM CHANNEL; SEA ANEMONE TOXIN; SODIUM; VIRUS VECTOR;

AMINO TERMINAL SEQUENCE; ANIMAL CELL; ANIMAL TISSUE; ARTICLE; CELL CULTURE; CHANNEL GATING; CONTROLLED STUDY; ELECTROPHYSIOLOGY; GENE EXPRESSION; GENETIC TRANSDUCTION; HERPES SIMPLEX VIRUS 1; MUSCLE CELL; MUSCLE EXCITATION; MUSCLE FIBER MEMBRANE POTENTIAL; MUSCLE FIBER MEMBRANE RESISTANCE; NONHUMAN; PATCH CLAMP; POTASSIUM CONDUCTANCE; POTASSIUM CURRENT; PRIORITY JOURNAL; RAT; SKELETAL MUSCLE; TRANSGENE; VIRUS INFECTION;

ACTION POTENTIALS; ANIMALS; CELLS, CULTURED; CNIDARIAN VENOMS; GENE EXPRESSION; GENE THERAPY; GENETIC VECTORS; GREEN FLUORESCENT PROTEINS; HYPOKALEMIC PERIODIC PARALYSIS; KV1.4 POTASSIUM CHANNEL; LUMINESCENT PROTEINS; MUSCLE, SKELETAL; PATCH-CLAMP TECHNIQUES; POTASSIUM CHANNELS; POTASSIUM CHANNELS, VOLTAGE-GATED; RATS; RATS, SPRAGUE-DAWLEY; SIMPLEXVIRUS; TRANSFECTION;

EID: 0034828475     PISSN: 09697128     EISSN: None     Source Type: Journal    
DOI: 10.1038/sj.gt.3301539     Document Type: Article

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