Add to ORKG© 2019 Maik Nauka-Interperiodica Publishing. All rights reserved. Synapses in the central nervous system have several modalities of neuromediator release: Phasic (synchronous), asynchronous, and multivesicular. Here, we summarized results of recent studies that demonstrate involvement of different calcium sensors in triggering of synchronous and asynchronous release of neuromediator. In addition, we reviewed possible sources of presynaptic Ca2+ that trigger asynchronous release as well as possible mechanisms of multivesicular release
Transmitter release is triggered by highly localized, transient increases in the presynaptic Ca2+ co...
AbstractAction potential-independent transmitter release is random and produces small depolarization...
Synaptic transmission involves a fast synchronous phase and a slower asynchronous phase of neurotran...
© 2019 Maik Nauka-Interperiodica Publishing. All rights reserved. Synapses in the central nervous sy...
© 2019, Springer Science+Business Media, LLC, part of Springer Nature. The central nervous system co...
© 2019 Rozov, Bolshakov and Valiullina-Rakhmatullina. Invasion of an action potential (AP) to presyn...
© 2019 Rozov, Bolshakov and Valiullina-Rakhmatullina. Invasion of an action potential (AP) to presyn...
Invasion of an action potential (AP) to presynaptic terminals triggers calcium dependent vesicle fus...
© 2014, Pleiades Publishing, Ltd. Here we review the mechanisms of evoked synchronous, asynchronous,...
© 2014, Pleiades Publishing, Ltd. Here we review the mechanisms of evoked synchronous, asynchronous,...
Calcium entry through presynaptic calcium channels controls the release of neurotransmitter. It is n...
Calcium entry through presynaptic calcium channels controls the release of neurotransmitter. It is n...
SummarySynaptic transmission involves a fast synchronous phase and a slower asynchronous phase of ne...
SummarySynaptotagmin-1 and -2 are known Ca2+ sensors for fast synchronous neurotransmitter release, ...
SummaryIn order to release neurotransmitter synchronously in response to a presynaptic action potent...
Transmitter release is triggered by highly localized, transient increases in the presynaptic Ca2+ co...
AbstractAction potential-independent transmitter release is random and produces small depolarization...
Synaptic transmission involves a fast synchronous phase and a slower asynchronous phase of neurotran...
© 2019 Maik Nauka-Interperiodica Publishing. All rights reserved. Synapses in the central nervous sy...
© 2019, Springer Science+Business Media, LLC, part of Springer Nature. The central nervous system co...
© 2019 Rozov, Bolshakov and Valiullina-Rakhmatullina. Invasion of an action potential (AP) to presyn...
© 2019 Rozov, Bolshakov and Valiullina-Rakhmatullina. Invasion of an action potential (AP) to presyn...
Invasion of an action potential (AP) to presynaptic terminals triggers calcium dependent vesicle fus...
© 2014, Pleiades Publishing, Ltd. Here we review the mechanisms of evoked synchronous, asynchronous,...
© 2014, Pleiades Publishing, Ltd. Here we review the mechanisms of evoked synchronous, asynchronous,...
Calcium entry through presynaptic calcium channels controls the release of neurotransmitter. It is n...
Calcium entry through presynaptic calcium channels controls the release of neurotransmitter. It is n...
SummarySynaptic transmission involves a fast synchronous phase and a slower asynchronous phase of ne...
SummarySynaptotagmin-1 and -2 are known Ca2+ sensors for fast synchronous neurotransmitter release, ...
SummaryIn order to release neurotransmitter synchronously in response to a presynaptic action potent...
Transmitter release is triggered by highly localized, transient increases in the presynaptic Ca2+ co...
AbstractAction potential-independent transmitter release is random and produces small depolarization...
Synaptic transmission involves a fast synchronous phase and a slower asynchronous phase of neurotran...