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Volumn 13, Issue 11, 2010, Pages 1348-1350
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N-type Ca2+ channels carry the largest current: Implications for nanodomains and transmitter release
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Author keywords
[No Author keywords available]
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Indexed keywords
CALCIUM CHANNEL L TYPE;
CALCIUM CHANNEL N TYPE;
AGENTS INTERACTING WITH TRANSMITTER, HORMONE OR DRUG RECEPTORS;
CALCIUM;
CALCIUM CHANNEL BLOCKING AGENT;
ARTICLE;
CALCIUM CONDUCTANCE;
MATHEMATICAL MODEL;
NEUROTRANSMITTER RELEASE;
PRIORITY JOURNAL;
SYNAPSE VESICLE;
ANIMAL;
BIOLOGICAL MODEL;
CELL CULTURE;
CELL MEMBRANE POTENTIAL;
CHANNEL GATING;
CHICK EMBRYO;
CLASSIFICATION;
CYTOLOGY;
DOSE RESPONSE;
DRUG EFFECT;
MATHEMATICS;
METABOLISM;
METHODOLOGY;
NERVE CELL;
NERVE CONDUCTION;
PATCH CLAMP;
PHYSIOLOGY;
PREDICTION AND FORECASTING;
PROTEIN TERTIARY STRUCTURE;
SPINAL GANGLION;
SYNAPTIC TRANSMISSION;
SYNAPTOSOME;
ANIMALS;
CALCIUM;
CALCIUM CHANNEL BLOCKERS;
CALCIUM CHANNELS, N-TYPE;
CELLS, CULTURED;
CHICK EMBRYO;
DOSE-RESPONSE RELATIONSHIP, DRUG;
GANGLIA, SPINAL;
ION CHANNEL GATING;
MATHEMATICS;
MEMBRANE POTENTIALS;
MODELS, BIOLOGICAL;
NEURAL CONDUCTION;
NEURONS;
NEUROTRANSMITTER AGENTS;
PATCH-CLAMP TECHNIQUES;
PREDICTIVE VALUE OF TESTS;
PRESYNAPTIC TERMINALS;
PROTEIN STRUCTURE, TERTIARY;
SYNAPTIC TRANSMISSION;
SYNAPTIC VESICLES;
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EID: 78049310920
PISSN: 10976256
EISSN: None
Source Type: Journal
DOI: 10.1038/nn.2657 Document Type: Article |
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Times cited : (85)
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References (15)
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