Calcium stores in neurons and glia
P Kostyuk, A Verkhratsky - Neuroscience, 1994 - Elsevier
Neuroscience, 1994•Elsevier
5. I. 2. Ruthenium Red 5.1. 3. Procaine 5.1. 4. Dantrolene 5.1 S. Sulfhydryl reagents 5.1. 6.
Neurotoxins 5.1. 7. Cardiac glycosides 5.1. 8. Doxorubicin 5.2. Endogenous modulators of
Ca*+-gated endoplasmic reticulum channels 5.2. 1. cADP-ribose 5.2. 2. Fatty acid
metabolites 5.3. Modulators of inositol-1, 4, 5-trisphosphate-gated Ca2+ release channel 6.
FUNCTIONAL PROPERTIES OF CaZ+-INDUCED Ca*+ RELEASE IN NEURONS 6.1.
Caffeine-induced calcium release in neurons 6.2. Ca*+-induced Ca2+ release in neurons 7 …
Neurotoxins 5.1. 7. Cardiac glycosides 5.1. 8. Doxorubicin 5.2. Endogenous modulators of
Ca*+-gated endoplasmic reticulum channels 5.2. 1. cADP-ribose 5.2. 2. Fatty acid
metabolites 5.3. Modulators of inositol-1, 4, 5-trisphosphate-gated Ca2+ release channel 6.
FUNCTIONAL PROPERTIES OF CaZ+-INDUCED Ca*+ RELEASE IN NEURONS 6.1.
Caffeine-induced calcium release in neurons 6.2. Ca*+-induced Ca2+ release in neurons 7 …
5. I. 2. Ruthenium Red 5.1. 3. Procaine 5.1. 4. Dantrolene 5.1 S. Sulfhydryl reagents 5.1. 6. Neurotoxins 5.1. 7. Cardiac glycosides 5.1. 8. Doxorubicin 5.2. Endogenous modulators of Ca*+-gated endoplasmic reticulum channels 5.2. 1. cADP-ribose
5.2. 2. Fatty acid metabolites 5.3. Modulators of inositol-1, 4, 5-trisphosphate-gated Ca2+ release channel 6. FUNCTIONAL PROPERTIES OF CaZ+-INDUCED Ca*+ RELEASE IN NEURONS 6.1. Caffeine-induced calcium release in neurons 6.2. Ca*+-induced Ca2+ release in neurons 7. FUNCTIONAL PROPERTIES OF INOSITOL-1, 4, 5-TRISPHOSPHATE-INDUCED Ca*+ RELEASE IN NEURONS
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