AbstractPrevious studies support an early role for neurotransmitter signaling before synaptogenesis, but puzzlingly, a neurological phenotype is absent in embryonic mice that lack vesicular release. Demarque et al. (in this issue of Neuron) now report that early release of transmitter is unconventional in not requiring action potentials, Ca2+ entry, or vesicle fusion, thus potentially reconciling the discrepancy
AbstractGABA and glutamate receptors are expressed in immature “silent” CA1 pyramidal neurons prior ...
In the past, the spontaneous release of neurotransmitter from presynaptic terminals has been thought...
Outgrowing axons in the developing nervous system secrete neurotransmitters and neuromodulatory subs...
AbstractPrevious studies support an early role for neurotransmitter signaling before synaptogenesis,...
AbstractActivity-dependent and -independent signals collaborate to regulate synaptogenesis, but thei...
AbstractActivity-dependent and -independent signals collaborate to regulate synaptogenesis, but thei...
Activity-dependent and -independent signals collaborate to regulate synaptogenesis, but their relati...
As the papers in this volume make quite clear, secretory vesicles can contain peptides, proteins, p...
To investigate the role of neurotransmitter secretion in the development and stabilization of synaps...
Neurons communicate with each other primarily through chemical synapses, where electrical signals ar...
SummaryIn an attempt to characterize the molecular components by which electric activity influences ...
Brain function requires precisely orchestrated connectivity between neurons. Establishment of these ...
Brain function requires precisely orchestrated connectivity between neurons. Establishment of these ...
AbstractOur understanding of synaptic transmission has grown dramatically during the 15 years since ...
In an attempt to characterize the molecular components by which electric activity influences the dev...
AbstractGABA and glutamate receptors are expressed in immature “silent” CA1 pyramidal neurons prior ...
In the past, the spontaneous release of neurotransmitter from presynaptic terminals has been thought...
Outgrowing axons in the developing nervous system secrete neurotransmitters and neuromodulatory subs...
AbstractPrevious studies support an early role for neurotransmitter signaling before synaptogenesis,...
AbstractActivity-dependent and -independent signals collaborate to regulate synaptogenesis, but thei...
AbstractActivity-dependent and -independent signals collaborate to regulate synaptogenesis, but thei...
Activity-dependent and -independent signals collaborate to regulate synaptogenesis, but their relati...
As the papers in this volume make quite clear, secretory vesicles can contain peptides, proteins, p...
To investigate the role of neurotransmitter secretion in the development and stabilization of synaps...
Neurons communicate with each other primarily through chemical synapses, where electrical signals ar...
SummaryIn an attempt to characterize the molecular components by which electric activity influences ...
Brain function requires precisely orchestrated connectivity between neurons. Establishment of these ...
Brain function requires precisely orchestrated connectivity between neurons. Establishment of these ...
AbstractOur understanding of synaptic transmission has grown dramatically during the 15 years since ...
In an attempt to characterize the molecular components by which electric activity influences the dev...
AbstractGABA and glutamate receptors are expressed in immature “silent” CA1 pyramidal neurons prior ...
In the past, the spontaneous release of neurotransmitter from presynaptic terminals has been thought...
Outgrowing axons in the developing nervous system secrete neurotransmitters and neuromodulatory subs...
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