1997
DOI: 10.1073/pnas.94.26.14423
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Flickering fusion pores comparable with initial exocytotic pores occur in protein-free phospholipid bilayers

Abstract: For the act of membrane fusion, there are two competing, mutually exclusive molecular models that differ in the structure of the initial pore, the pathway for ionic continuity between formerly separated volumes. Because biological ''fusion pores'' can be as small as ionic channels or gap junctions, one model posits a proteinaceous initial fusion pore. Because biological fusion pore conductance varies widely, another model proposes a lipidic initial pore. We have found pore opening and f lickering during the fu… Show more

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Cited by 198 publications
(201 citation statements)
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“…Although perhaps most consistent with the stalk-pore hypothesis of fusion pore formation (Kozlov and Markin, 1983;Chernomordik and Zimmerberg, 1995;Chernomordik et al, 1995a;Chernomordik et al, 1995b;Chanturiya et al, 1997;Kozlovsky et al, 2002), alternate local effects of cholesterol including the direct facilitation of protein-based pores can not be excluded. Nonetheless, these studies clearly differentiate the dual role of cholesterol in the process of Ca 2+ -triggered membrane fusion: as a prefusion organizer contributing to the efficiency of fusion (e.g.…”
Section: Microdomain Disruption Affects Camentioning
confidence: 75%
See 1 more Smart Citation
“…Although perhaps most consistent with the stalk-pore hypothesis of fusion pore formation (Kozlov and Markin, 1983;Chernomordik and Zimmerberg, 1995;Chernomordik et al, 1995a;Chernomordik et al, 1995b;Chanturiya et al, 1997;Kozlovsky et al, 2002), alternate local effects of cholesterol including the direct facilitation of protein-based pores can not be excluded. Nonetheless, these studies clearly differentiate the dual role of cholesterol in the process of Ca 2+ -triggered membrane fusion: as a prefusion organizer contributing to the efficiency of fusion (e.g.…”
Section: Microdomain Disruption Affects Camentioning
confidence: 75%
“…The simplest interpretation is that cholesterol contributes negative curvature to the membrane, promoting the formation of transient lipidic fusion intermediates (Kozlov and Markin, 1983;Chernomordik and Zimmerberg, 1995;Chernomordik et al, 1995a;Chernomordik et al, 1995b;Chanturiya et al, 1997;Kozlovsky et al, 2002). Of increasing complexity, in a proteinaceous fusion pore model, cholesterol could contribute to the mixing and coalescence of apposed membranes via expansion of a proteinaceous fusion pore (Lindau and Almers, 1995;Peters and Mayer, 1998;Bayer et al, 2003).…”
Section: Cholesterol As a Component Of The Fusion Machinementioning
confidence: 99%
“…Thus, one possibility is that changes in the shape of MGD molecules compensate for disruptive changes in the shape of PG molecules induced by the fab1 mutation, for example by altering the packing relationships between the thylakoid lipids and membrane proteins of the photosynthetic complexes (Gounaris and Barber, 1983;Simidjiev et al, 2000). Changes in the shape of lipid molecules is known to be important for a number of membrane functions including protein trafficking and membrane fusion (Rietveld et al, 1995;Chanturiya et al, 1997;Bruce, 1998). Certainly, the decreased unsaturation of lipids in fab1 fad5-2 plants relative to fab1 means that it is reasonable to consider molecular shape rather than membrane fluidity or phase changes as the basis of the suppressor phenotype.…”
Section: Discussionmentioning
confidence: 99%
“…The hemifusion stalk (in which only the proximal leaflets of the two bilayers have merged) may proceed directly toward nascent fusion pores or toward a longer-lived hemifusion diaphragm (11). Formation of a committed, expanding pore from a hemifusion structure appears to be an additional, kinetically disfavored step (12).…”
mentioning
confidence: 99%