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  SNARE and regulatory proteins induce local membrane protrusions to prime docked vesicles for fast calcium-triggered fusion

Bharat, T. A. M., Malsam, J., Hagen, W. J. H., Scheutzow, A., Sollner, T. H., & Briggs, J. A. G. (2014). SNARE and regulatory proteins induce local membrane protrusions to prime docked vesicles for fast calcium-triggered fusion. Embo Reports, 15(3), 308-314. doi:10.1002/embr.201337807.

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Bharat, T. A. M., Author
Malsam, J., Author
Hagen, W. J. H., Author
Scheutzow, A., Author
Sollner, T. H., Author
Briggs, John A. G.1, Author           
Affiliations:
1European Molecular Biology Laboratory, External Organizations, ou_3346677              

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Free keywords: SNARE-mediated membrane fusion cryo-electron microscopy membrane curvature in vitro reconstitution cryo-electron tomography synaptic vesicles synaptotagmin complex release exocytosis munc18-1 docking Biochemistry & Molecular Biology Cell Biology
 Abstract: Abstract Synaptic vesicles fuse with the plasma membrane in response to Ca2+ influx, thereby releasing neurotransmitters into the synaptic cleft. The protein machinery that mediates this process, consisting of soluble N-ethylmaleimide-sensitive factor attachment protein receptors (SNAREs) and regulatory proteins, is well known, but the mechanisms by which these proteins prime synaptic membranes for fusion are debated. In this study, we applied large-scale, automated cryo-electron tomography to image an in vitro system that reconstitutes synaptic fusion. Our findings suggest that upon docking and priming of vesicles for fast Ca-2(+)-triggered fusion, SNARE proteins act in concert with regulatory proteins to induce a local protrusion in the plasma membrane, directed towards the primed vesicle. The SNAREs and regulatory proteins thereby stabilize the membrane in a high-energy state from which the activation energy for fusion is profoundly reduced, allowing synchronous and instantaneous fusion upon release of the complexin clamp. Synopsis image Cryo-electron tomography of regulated SNARE-mediated membrane fusion shows that synaptic vesicles induce a protrusion in the target membrane that may prime them for fusion. Vesicles that are docked and primed for fusion in vitro are shown in an intermediate state characterized by a protrusion in the target membrane. High local membrane curvature of the protrusion may represent a high-energy state from which fast, coordinated fusion can occur upon Ca2+ activation.

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Language(s): eng - English
 Dates: 2014
 Publication Status: Issued
 Pages: -
 Publishing info: -
 Table of Contents: -
 Rev. Type: -
 Identifiers: Other: WOS:000332390200020
DOI: 10.1002/embr.201337807
ISSN: 1469-221X
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Title: Embo Reports
  Alternative Title : EMBO Rep.
Source Genre: Journal
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Pages: - Volume / Issue: 15 (3) Sequence Number: - Start / End Page: 308 - 314 Identifier: -