Munc13 mediates the transition from the closed syntaxin-Munc18 complex to the SNARE complex.
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NMR and fluorescence experiments show that the Munc13-1 MUN domain markedly accelerates the transition from the syntaxin-1–Munc18-1 complex to the SNARE complex, illustrating how weak protein-protein interactions can play crucial biological roles by promoting transitions between high-affinity macromolecular assemblies.Abstract:
During the priming step that leaves synaptic vesicles ready for neurotransmitter release, the SNARE syntaxin-1 transitions from a closed conformation that binds Munc18-1 tightly to an open conformation within the highly stable SNARE complex. Control of this conformational transition is important for brain function, but the underlying mechanism is unknown. NMR and fluorescence experiments now show that the Munc13-1 MUN domain, which plays a central role in vesicle priming, markedly accelerates the transition from the syntaxin-1-Munc18-1 complex to the SNARE complex. This activity depends on weak interactions of the MUN domain with the syntaxin-1 SNARE motif, and probably with Munc18-1. Together with available physiological data, these results provide a defined molecular basis for synaptic vesicle priming, and they illustrate how weak protein-protein interactions can play crucial biological roles by promoting transitions between high-affinity macromolecular assemblies.read more
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Crystal structure of a SNARE complex involved in synaptic exocytosis at 2.4 Å resolution
TL;DR: The X-ray crystal structure of a core synaptic fusion complex containing syntaxin-1A, synaptobrevin-II and SNAP-25B reveals a highly twisted and parallel four-helix bundle that differs from the bundles described for the haemagglutinin and HIV/SIV gp41 membrane-fusion proteins.
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