2016
DOI: 10.1073/pnas.1615885113
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SNARE-mediated membrane fusion trajectories derived from force-clamp experiments

Abstract: Fusion of lipid bilayers is usually prevented by large energy barriers arising from removal of the hydration shell, formation of highly curved structures, and, eventually, fusion pore widening. Here, we measured the force-dependent lifetime of fusion intermediates using membrane-coated silica spheres attached to cantilevers of an atomicforce microscope. Analysis of time traces obtained from force-clamp experiments allowed us to unequivocally assign steps in deflection of the cantilever to membrane states durin… Show more

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Cited by 33 publications
(41 citation statements)
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“…We used a minimal SNARE machinery with Syb reconstituted in the LUVs and the ΔN-complex displayed by the SLBs or GUVs 31 , 32 . In previous studies we and others could show that this lipid-protein composition is sufficient to accomplish merging of membranes within seconds 33 , 34 .…”
Section: Resultsmentioning
confidence: 73%
See 1 more Smart Citation
“…We used a minimal SNARE machinery with Syb reconstituted in the LUVs and the ΔN-complex displayed by the SLBs or GUVs 31 , 32 . In previous studies we and others could show that this lipid-protein composition is sufficient to accomplish merging of membranes within seconds 33 , 34 .…”
Section: Resultsmentioning
confidence: 73%
“…A minimal fusion machinery consisting of syntaxin, SNAP 25 and synaptobrevin as described previously was employed to obtain a reasonable fusion efficiency to begin with 33 , 34 . We also used lipids with the headgroup phosphatidylethanolamine that are known to result in negative spontaneous curvature in membranes and thus promote fusion processes.…”
Section: Discussionmentioning
confidence: 99%
“…Indeed, many functionally important regions of the proteins that mediate fusion in viral infections and in developmental processes are located in their ectodomains and interact with proximal monolayers. Because of the location of the fusion proteins, most of the suggested mechanisms of protein-mediated fusion have explained only how these proteins drive merger of proximal monolayers resulting in hemifusion by bringing proximal monolayers into very tight contact and bending them 2 , 14 , 15 . Considering that Myomerger is not involved in hemifusion but drives the transition from hemifusion to fusion, this protein presents an important model for analysis of the physical mechanisms underlying an, apparently, indirect effect of Myomerger and other proximal leaflet-associated factors on the fusion pore formation.…”
Section: Introductionmentioning
confidence: 99%
“…Furthermore, how mechanical tension in the neuronal SNARE complexes affects the reported effects of Cpx has not been explored so far. It has been presumed that the tension rapidly builds up when a synaptic vesicle approaches a presynaptic membrane because of the electrostatic repulsion, hydration barrier, and steric hindrance between the two fusing membranes 31 , 32 . This tension in a SNARE complex was shown to significantly tilt the energy landscape that governs SNARE zippering processes 33 , 34 .…”
Section: Introductionmentioning
confidence: 99%