2011
DOI: 10.1007/s00249-011-0693-4
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A lipocentric view of peptide-induced pores

Abstract: Although lipid membranes serve as effective sealing barriers for the passage of most polar solutes, nonmediated leakage is not completely improbable. A high activation energy normally keeps unassisted bilayer permeation at a very low frequency, but lipids are able to self-organize as pores even in peptide-free and protein-free membranes. The probability of leakage phenomena increases under conditions such as phase coexistence, external stress or perturbation associated to binding of nonlipidic molecules. Here,… Show more

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Cited by 114 publications
(100 citation statements)
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References 132 publications
(253 reference statements)
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“…It is generally considered that thermal fluctuation in the lateral density of a lipid membrane induces a prepore (27). According to the classical theory of tension-induced pore formation (36)(37)(38), once a prepore with radius r p is formed in the membrane, the total free energy of the system changes by an additional free-energy component (called the free energy of a prepore, U (r p , s t )) consisting of two terms: one term (Àpr p 2 s t ) is associated with lateral tension (s t ) and favors expansion of the prepore, and the other term (2pr p G) is associated with the line tension (G) of the prepore edge and favors prepore closure. The free energy of a prepore, U (r p , s t ), can therefore be expressed as (Fig.…”
Section: Discussionmentioning
confidence: 99%
“…It is generally considered that thermal fluctuation in the lateral density of a lipid membrane induces a prepore (27). According to the classical theory of tension-induced pore formation (36)(37)(38), once a prepore with radius r p is formed in the membrane, the total free energy of the system changes by an additional free-energy component (called the free energy of a prepore, U (r p , s t )) consisting of two terms: one term (Àpr p 2 s t ) is associated with lateral tension (s t ) and favors expansion of the prepore, and the other term (2pr p G) is associated with the line tension (G) of the prepore edge and favors prepore closure. The free energy of a prepore, U (r p , s t ), can therefore be expressed as (Fig.…”
Section: Discussionmentioning
confidence: 99%
“…Slower translocation rates have been reported for integral transmembrane peptides (Kol et al, 2003;Kol et al 2001). It should be noted that peptide-induced translocation is not a general phenomenon, particularly for transmembrane peptides (Marsh, 2008 Fuertes et al, 2011;Salnikov and Bechinger, 2011;Anglin et al, 2009;Gurtovenko and Vattulainen, 2007;Cho et al, 2007).…”
Section: Promotion Of Interleaflet Exchange By Peptides and Proteinsmentioning
confidence: 99%
“…Pore formation occurs above a critical ratio of peptide to lipid (P/L*), and as a consequence the rate of flip-flop (and pore formation) is not linear with respect to peptide concentration (Fuertes et al, 2011, Huang, 2006. ii.…”
Section: Promotion Of Interleaflet Exchange By Peptides and Proteinsmentioning
confidence: 99%
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