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Transmitter release
Transmitter release
Glutamate exocytosis from astrocytes controls synaptic strength
Cognitive Science / Patch-clamp and imaging techniques / Hippocampus / Glutamate / Animals / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor
Glutamate exocytosis from astrocytes controls synaptic strength
Cognitive Science / Patch-clamp and imaging techniques / Hippocampus / Glutamate / Animals / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor
Glutamate exocytosis from astrocytes controls synaptic strength
Cognitive Science / Patch-clamp and imaging techniques / Hippocampus / Glutamate / Animals / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor
Glutamate exocytosis from astrocytes controls synaptic strength
Cognitive Science / Patch-clamp and imaging techniques / Hippocampus / Glutamate / Animals / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor
Munc13-1 Is a Presynaptic Phorbol Ester Receptor that Enhances Neurotransmitter Release
Cognitive Science / Xenopus / Cell line / Brain / Humans / Female / Animals / Synaptic Transmission / Rats / Transmitter release / Neuron / Amino Acid Sequence / Neuromuscular Junction / Second Messengers / Neurosciences / Plasma Membrane / Phorbol ester / Female / Animals / Synaptic Transmission / Rats / Transmitter release / Neuron / Amino Acid Sequence / Neuromuscular Junction / Second Messengers / Neurosciences / Plasma Membrane / Phorbol ester
Glutamate exocytosis from astrocytes controls synaptic strength
Cognitive Science / Patch-clamp and imaging techniques / Hippocampus / Glutamate / Animals / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor / Nature Neuroscience / Astrocyte / Synaptic Transmission / Neurons / Astrocytes / Rats / Transmitter release / Analysis of Variance / SYNAPSES / Neuronal Activity / Exocytosis / Perforant Path / Neurosciences / Glutamic Acid / Piperidines / Glutamate Receptor
Peripheral versus central potencies of N-type voltage-sensitive calcium channel blockers
Electrophysiology / Low Frequency / Hippocampus / Blood Pressure / Animals / Peripheral Nervous System / Male / Calcium Channel / Central Nervous System / Rat Brain / Norepinephrine / Rats / Transmitter release / Radioligand Assay / SYNAPTOSOMES / Binding Site / Calcium Channel Blocker / Calcium Channel Blockers / Peripheral Nervous System / Male / Calcium Channel / Central Nervous System / Rat Brain / Norepinephrine / Rats / Transmitter release / Radioligand Assay / SYNAPTOSOMES / Binding Site / Calcium Channel Blocker / Calcium Channel Blockers
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