2012
DOI: 10.1371/journal.pone.0038302
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Line-Tension Controlled Mechanism for Influenza Fusion

Abstract: Our molecular simulations reveal that wild-type influenza fusion peptides are able to stabilize a highly fusogenic pre-fusion structure, i.e. a peptide bundle formed by four or more trans-membrane arranged fusion peptides. We rationalize that the lipid rim around such bundle has a non-vanishing rim energy (line-tension), which is essential to (i) stabilize the initial contact point between the fusing bilayers, i.e. the stalk, and (ii) drive its subsequent evolution. Such line-tension controlled fusion event do… Show more

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Cited by 69 publications
(71 citation statements)
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References 73 publications
(221 reference statements)
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“…Leakage pores as pores in general, however, are expected to become larger and longer-lived, and thus more detectable, when the membrane(s) are under tension. Alternatively, our simulations (20) suggest that leakage pores can become metastable in the presence of amphiphilic fusion peptides, which line such a pore and thereby hinder "closing" of the elongated stalk (SI Appendix, Fig. S13).…”
Section: On the Cutting Edge Of Membrane Fusionmentioning
confidence: 92%
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“…Leakage pores as pores in general, however, are expected to become larger and longer-lived, and thus more detectable, when the membrane(s) are under tension. Alternatively, our simulations (20) suggest that leakage pores can become metastable in the presence of amphiphilic fusion peptides, which line such a pore and thereby hinder "closing" of the elongated stalk (SI Appendix, Fig. S13).…”
Section: On the Cutting Edge Of Membrane Fusionmentioning
confidence: 92%
“…3 shows that pulling the probes toward each other induced a leakage pore in the direct stalk vicinity. Because of the unfavorable excess free energy of a pore's rim (line tension), the stalk rapidly encircles the pore (stalk elongation) resulting in an alternative formation of an HD (20,24).…”
Section: Pope But Not Cholesterol Enhances a Leaky Elongation Of The mentioning
confidence: 99%
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