Synaptic activation of dendritic AMPA and NMDA receptors generates transient high-frequency firing in substantia nigra dopamine neurons in vitro

Keyphrases

• Action Potential 66%
• Afterhyperpolarization 66%
• Antagonism 16%
• Associative Learning 16%
• Brain Slice 16%
• Cation Channel 16%
• Co-application 16%
• Conductance 16%
• Current Injection 16%
• D2 Dopamine Receptor 16%
• Dopamine Neurons 100%
• Dopamine Receptor Antagonist 16%
• Electrical Stimulation 16%
• Evoked Activity 33%
• Frequency Pattern 16%
• G Protein-coupled Receptor 33%
• Glutamate 16%
• Glutamatergic 16%
• High-frequency Activity 100%
• High-frequency Firing 100%
• Liming Effect 16%
• Mediated Reduction 16%
• Mode of Activity 16%
• N-methyl-D-aspartate Receptor (NMDAR) 100%
• N-methyl-D-aspartate Receptor Antagonist 16%
• Pressure Pulse 16%
• Pulse Application 16%
• Receptor Antagonist 16%
• Receptor-mediated 33%
• Relative Contribution 16%
• Selective Antagonist 16%
• Spontaneous Excitatory Postsynaptic Current (sEPSC) 16%
• Striatal Synaptic Plasticity 16%
• Substantia Nigra 100%
• Synaptic Activity 100%
• Synaptic Conductance 16%
• Voltage-dependent Anion Channel 16%
• α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid 16%

Neuroscience

• Action Potential 50%
• AMPA 100%
• Aspartic Acid 100%
• Brain Slice 16%
• Cation Channel 16%
• Cholinergic 16%
• Dopamine Antagonist 16%
• Dopamine Receptor D2 16%
• Electrotherapy 16%
• Evoked Potential 16%
• G Protein Coupled Receptor 33%
• Gamma-Aminobutyric Acid 16%
• Glutamic Acid 16%
• In Vitro 100%
• In Vivo 16%
• Ion Channel 16%
• Pulse Pressure 16%
• Receptor 100%
• Receptor Antagonist 16%
• Somatics 16%
• Substantia nigra 100%
• Synaptic Plasticity 16%