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Volumn 531, Issue 3, 2001, Pages 583-
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Increased Ca2+ buffering enhances Ca2+-dependent process
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Author keywords
[No Author keywords available]
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Indexed keywords
BUFFER;
CALCIUM CHANNEL;
CALCIUM ION;
EGTAZIC ACID;
ETHYLENE GLYCOL 1,2 BIS(2 AMINOPHENYL) ETHER N,N,N',N' TETRAACETIC ACID;
NEUROTRANSMITTER;
CALCIUM;
1,2-BIS(2-AMINOPHENOXY)ETHANE-N,N,N',N'-TETRAACETIC ACID;
CHELATING AGENT;
DRUG DERIVATIVE;
ACTION POTENTIAL;
ANIMAL CELL;
BINDING AFFINITY;
CALCIUM CELL LEVEL;
CALCULATION;
CONTROLLED STUDY;
DIFFUSION;
FACILITATION;
INTERNEURON;
NERVE CELL INHIBITION;
NEUROTRANSMISSION;
NEUROTRANSMITTER RELEASE;
NONHUMAN;
NOTE;
PERFUSION;
PRESYNAPTIC NERVE;
PRIORITY JOURNAL;
PYRAMIDAL NERVE CELL;
RAT;
SOMATOSENSORY CORTEX;
ARTICLE;
CHANNEL GATING;
CHELATION;
CONCENTRATION RESPONSE;
SYNAPSE;
SYNAPTIC TRANSMISSION;
ANIMAL;
DRUG EFFECT;
PHYSIOLOGY;
SYNAPTOSOME;
ANIMALS;
BUFFERS;
CALCIUM;
CHELATING AGENTS;
EGTAZIC ACID;
PRESYNAPTIC TERMINALS;
SYNAPTIC TRANSMISSION;
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EID: 17744376758
PISSN: 00223751
EISSN: None
Source Type: Journal
DOI: 10.1111/j.1469-7793.2001.0583h.x Document Type: Note |
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Times cited : (4)
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References (7)
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