Keyphrases
Morphine
100%
Calcineurin
100%
AMPA Receptor (AMPAR)
100%
Dephosphorylation
100%
Receptor Internalization
100%
GluR1
100%
Primary Hippocampal Neurons
100%
Endocytosis
27%
N-methyl-D-aspartate Receptor (NMDAR)
18%
Morphine Treatment
18%
Spontaneous Excitatory Postsynaptic Current (sEPSC)
18%
FK506
18%
Molecular Mechanism
9%
Calcineurin Inhibitors
9%
Overexpression
9%
Extrasynaptic
9%
Phosphorylation
9%
Sodium Channel
9%
Synaptic
9%
Enzymatic Activity
9%
Synaptic Dysfunction
9%
Drug-induced
9%
Induced Activation
9%
Induced Loss
9%
Opioid-induced
9%
Chronic Morphine
9%
Tetrodotoxin
9%
Postsynaptic Density Protein 95 (PSD-95)
9%
Phosphorylation State
9%
Receptor Activity
9%
Morphine Exposure
9%
Neural Adaptation
9%
Synaptic Remodeling
9%
PHluorin
9%
Biotinylation
9%
S845
9%
Neural Network Activity
9%
Phosphomimic
9%
Neuroscience
Morphine
100%
Calcineurin
100%
AMPA Receptor
100%
Internalization
100%
Dephosphorylation
100%
Endocytosis
27%
NMDA Receptor
18%
Tacrolimus
18%
Neural Network
9%
Tetrodotoxin
9%
Enzyme Activity
9%
Sodium Channel
9%
Biotinylation
9%
Biochemistry, Genetics and Molecular Biology
Dephosphorylation
100%
Internalization
100%
AMPA Receptor
100%
Calcineurin
100%
Endocytosis
60%
NMDA Receptor
40%
Enzyme Activity
20%
Biotinylation
20%
Tetrodotoxin
20%
Sodium Channel
20%
Pharmacology, Toxicology and Pharmaceutical Science
Morphine
100%
Calcineurin
100%
AMPA Receptor
100%
N Methyl Dextro Aspartic Acid Receptor
18%
Tacrolimus
18%
Tetrodotoxin
9%
Calcineurin Inhibitor
9%
Sodium Channel
9%