The Molecular Machinery of Neurotransmitter Release (Nobel Lecture)

The most important property of synaptic transmission is its speed, which is crucial for the overall workings of the brain. In his Nobel Lecture, T. C. Südhof explains how the synaptic vesicle and the plasma membrane undergo rapid fusion during neurotransmitter release and how this process is spatial...

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Veröffentlicht in:	Angewandte Chemie International Edition 2014-11, Vol.53 (47), p.12696-12717
1. Verfasser:	Sudhof, Thomas C
Format:	Artikel
Sprache:	eng
Schlagworte:	Brain Calcium - metabolism hormone secretion Humans intracellular signaling Lectures Membrane Fusion Membranes Molecular machinery Neuronal Plasticity Neurotransmitter Agents - metabolism Neurotransmitters Nobel Prize Signal processing SNARE Proteins - metabolism synaptic plasticity Synaptotagmins - metabolism Translations Vesicles vesicular transport
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description	The most important property of synaptic transmission is its speed, which is crucial for the overall workings of the brain. In his Nobel Lecture, T. C. Südhof explains how the synaptic vesicle and the plasma membrane undergo rapid fusion during neurotransmitter release and how this process is spatially organized, such that opening of Ca2+‐channels allows rapid translation of the entering Ca2+ signal into a fusion event.
doi_str_mv	10.1002/anie.201406359
format	Article
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subjects	Brain Calcium - metabolism hormone secretion Humans intracellular signaling Lectures Membrane Fusion Membranes Molecular machinery Neuronal Plasticity Neurotransmitter Agents - metabolism Neurotransmitters Nobel Prize Signal processing SNARE Proteins - metabolism synaptic plasticity Synaptotagmins - metabolism Translations Vesicles vesicular transport
title	The Molecular Machinery of Neurotransmitter Release (Nobel Lecture)
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