BKCa-Cav channel complexes mediate rapid and localized Ca 2+-activated K+ signaling

Science

Volumn 314, Issue 5799, 2006, Pages 615-620

  Berkefeld, Henrike ^a   Sailer, Claudia A ^a,c   Bildl, Wolfgang ^a,b   Rohde, Volker ^b   Thumfart, Jörg Oliver ^a   Eble, Silke ^a   Klugbauer, Norbert ^a   Reisinger, Ellen ^a   Bischofberger, Josef ^a   Oliver, Dominik ^a   Knaus, Hans Günther ^c   Schultes, Uwe ^b   Fakler, Bernd ^a  

^a UNIVERSITY OF FREIBURG   (Germany)

^b LOGOPHARM GMBH   (Germany)

^c INNSBRUCK MEDICAL UNIVERSITY   (Austria)

Author keywords

[No Author keywords available]

Indexed keywords

BRAIN; CALCIUM; COMPLEXATION; CONCENTRATION (PROCESS); MACROMOLECULES; NEUROLOGY; POTASSIUM;

HYPERPOLARIZATION; MEMBRANE DEPOLARIZATION; VOLTAGE-ACTIVATED POTASSIUM CHANNELS; VOLTAGE-GATED CALCIUM CHANNELS;

BERKELIUM;

CALCIUM ACTIVATED POTASSIUM CHANNEL; CALCIUM CHANNEL L TYPE; CALCIUM CHANNEL N TYPE; CALCIUM CHANNEL P TYPE; CALCIUM CHANNEL Q TYPE; CALCIUM ION; HORMONE; NEUROTRANSMITTER; POTASSIUM ION; VOLTAGE GATED CALCIUM CHANNEL; VOLTAGE GATED POTASSIUM CHANNEL; 1,2-BIS(2-AMINOPHENOXY)ETHANE-N,N,N',N'-TETRAACETIC ACID; CALCIUM; CAV2.2 PROTEIN, RAT; DRUG DERIVATIVE; EGTAZIC ACID; ETHYLENE GLYCOL 1,2 BIS(2 AMINOPHENYL) ETHER N,N,N',N' TETRAACETIC ACID; L TYPE CALCIUM CHANNEL ALPHA(1C); L-TYPE CALCIUM CHANNEL ALPHA(1C); LARGE CONDUCTANCE CALCIUM ACTIVATED POTASSIUM CHANNEL; POTASSIUM; VOLTAGE DEPENDENT CALCIUM CHANNEL (P Q TYPE); VOLTAGE-DEPENDENT CALCIUM CHANNEL (P-Q TYPE);

BRAIN; CALCIUM; CONDUCTIVITY; ION; KINETICS; MOLECULAR ANALYSIS; NERVOUS SYSTEM; POLARIZATION; POTASSIUM; RADIOACTIVITY; RODENT;

ANIMAL TISSUE; ARTICLE; CALCIUM CELL LEVEL; CALCIUM TRANSPORT; CENTRAL NERVOUS SYSTEM; COMPLEX FORMATION; CONTROLLED STUDY; HORMONE RELEASE; HYPERPOLARIZATION; MEMBRANE DEPOLARIZATION; NERVE CONDUCTION; NEUROTRANSMITTER RELEASE; NONHUMAN; POTASSIUM CONDUCTANCE; PRIORITY JOURNAL; PROTEIN ASSEMBLY; PROTEIN DOMAIN; PROTEIN EXPRESSION; RAT; SIGNAL TRANSDUCTION; AMINO ACID SEQUENCE; ANIMAL; BRAIN LEVEL; CALCIUM SIGNALING; CELL MEMBRANE POTENTIAL; CHO CELL; CHROMAFFIN CELL; CRICETULUS; DRUG EFFECT; GENETIC TRANSFECTION; HAMSTER; ISOLATION AND PURIFICATION; METABOLISM; MOLECULAR GENETICS; PATCH CLAMP; XENOPUS;

AMINO ACID SEQUENCE; ANIMALS; BRAIN CHEMISTRY; CALCIUM; CALCIUM CHANNELS, L-TYPE; CALCIUM CHANNELS, N-TYPE; CALCIUM SIGNALING; CHO CELLS; CHROMAFFIN CELLS; CRICETINAE; CRICETULUS; EGTAZIC ACID; LARGE-CONDUCTANCE CALCIUM-ACTIVATED POTASSIUM CHANNELS; MEMBRANE POTENTIALS; MOLECULAR SEQUENCE DATA; PATCH-CLAMP TECHNIQUES; POTASSIUM; RATS; SIGNAL TRANSDUCTION; TRANSFECTION; XENOPUS;

EID: 33750486852     PISSN: 00368075     EISSN: 10959203     Source Type: Journal    
DOI: 10.1126/science.1132915     Document Type: Article

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