AbstractSimilarities between the ways that synaptic vesicles and large dense-core vesicles release their contents have been emphasized, but recent studies have revealed important mechanistic differences between these two exocytotic processes
Dendritic exocytosis is required for a broad array of neuronal functions including retrograde signal...
AbstractHippocampal neurons in tissue culture develop functional synapses that exhibit considerable ...
Among secretory systems, the nerve terminal is unique in its capability for sustained release of ves...
AbstractSimilarities between the ways that synaptic vesicles and large dense-core vesicles release t...
AbstractAxon terminals release more than one physiologically active substance. Synaptic messengers m...
AbstractPeptidergic neurotransmission is slow compared to that mediated by classical neurotransmitte...
There is a general consensus that synaptic vesicular release by a full collapse process is the prima...
During an action potential, Ca2+ entering a presynaptic terminal triggers synaptic vesicle exocytosi...
AbstractUsing a novel approach to measure exocytosis in vitro from semi-intact synaptosomes, we esta...
Calcium-dependent exocytosis of synaptic vesicles mediates the release of neurotransmitters. Importa...
Unlike most other secretory processes, neurotransmitter release at chemical synapses is extremely fa...
The efficacy of action potential evoked neurotransmitter release varies widely even among synapses s...
In contrast to temporal coding by synaptically acting neurotransmitters such as glutamate, neuromodu...
Our brain consists of a complex network of neurons which communicate by secreting signaling molecule...
Communication between neurons at chemical synapses is regulated by hundreds of different proteins th...
Dendritic exocytosis is required for a broad array of neuronal functions including retrograde signal...
AbstractHippocampal neurons in tissue culture develop functional synapses that exhibit considerable ...
Among secretory systems, the nerve terminal is unique in its capability for sustained release of ves...
AbstractSimilarities between the ways that synaptic vesicles and large dense-core vesicles release t...
AbstractAxon terminals release more than one physiologically active substance. Synaptic messengers m...
AbstractPeptidergic neurotransmission is slow compared to that mediated by classical neurotransmitte...
There is a general consensus that synaptic vesicular release by a full collapse process is the prima...
During an action potential, Ca2+ entering a presynaptic terminal triggers synaptic vesicle exocytosi...
AbstractUsing a novel approach to measure exocytosis in vitro from semi-intact synaptosomes, we esta...
Calcium-dependent exocytosis of synaptic vesicles mediates the release of neurotransmitters. Importa...
Unlike most other secretory processes, neurotransmitter release at chemical synapses is extremely fa...
The efficacy of action potential evoked neurotransmitter release varies widely even among synapses s...
In contrast to temporal coding by synaptically acting neurotransmitters such as glutamate, neuromodu...
Our brain consists of a complex network of neurons which communicate by secreting signaling molecule...
Communication between neurons at chemical synapses is regulated by hundreds of different proteins th...
Dendritic exocytosis is required for a broad array of neuronal functions including retrograde signal...
AbstractHippocampal neurons in tissue culture develop functional synapses that exhibit considerable ...
Among secretory systems, the nerve terminal is unique in its capability for sustained release of ves...
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