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W2092568903 abstract "We studied the mechanism of the lamellar-to-inverted hexagonal (L alpha/H[II]) phase transition, using time-resolved cryotransmission electron microscopy (TRC-TEM), 31P-NMR, and differential scanning calorimetry. The transition was initiated in dispersions of large unilamellar vesicles of dipalmitoleoyl phosphatidylethanolamine (DiPoPE). We present evidence that the transition proceeds in three steps. First, many small connections form between apposed membranes. Second, the connections aggregate within the planes of the bilayers, forming arrays with hexagonal order in some projections. Third, these quasihexagonal structures elongate into small domains of H(II) phase, acquiring lipid molecules by diffusion from contiguous bilayers. A previously proposed membrane fusion mechanism rationalizes these results. The modified stalk theory predicts that the L alpha/H(II) phase transition involves some of the same intermediate structures as membrane fusion. The small interbilayer connections observed via TRC-TEM are compatible with the structure of a critical intermediate in the modified stalk mechanism: the trans monolayer contact (TMC). The theory predicts that 1) TMCs should form starting at tens of degrees below TH; 2) when TMCs become sufficiently numerous, they should aggregate into transient arrays like the quasihexagonal arrays observed here by TRC-TEM; and 3) these quasihexagonal arrays can then elongate directly into H(II) phase domains. These predictions rationalize the principal features of our data, which are incompatible with the other transition mechanisms proposed to date. Thus these results support the modified stalk mechanism for both membrane fusion and the L alpha/H(II) phase transition. We also discuss some implications of the modified stalk theory for fusion in protein-containing systems. Specifically, we point out that recent data on the effects of hydrophobic peptides and viral fusion peptides on lipid phase behavior are consistent with an effect of the peptides on TMC stability." @default.
W2092568903 created "2016-06-24" @default.
W2092568903 creator A5029062214 @default.
W2092568903 creator A5030953137 @default.
W2092568903 date "1997-12-01" @default.
W2092568903 modified "2023-10-16" @default.
W2092568903 title "The mechanism of lamellar-to-inverted hexagonal phase transitions in phosphatidylethanolamine: implications for membrane fusion mechanisms" @default.
W2092568903 cites W1621866206 @default.
W2092568903 cites W1963765275 @default.
W2092568903 cites W1967127247 @default.
W2092568903 cites W1967462130 @default.
W2092568903 cites W1969690132 @default.
W2092568903 cites W1972558106 @default.
W2092568903 cites W1973022948 @default.
W2092568903 cites W1973299639 @default.
W2092568903 cites W1988762133 @default.
W2092568903 cites W1992120748 @default.
W2092568903 cites W1993198407 @default.
W2092568903 cites W1993476217 @default.
W2092568903 cites W1996679057 @default.
W2092568903 cites W1997101344 @default.
W2092568903 cites W1998491570 @default.
W2092568903 cites W1999035892 @default.
W2092568903 cites W1999713448 @default.
W2092568903 cites W2001489501 @default.
W2092568903 cites W2002108245 @default.
W2092568903 cites W2003549076 @default.
W2092568903 cites W2004418610 @default.
W2092568903 cites W2012742837 @default.
W2092568903 cites W2017391234 @default.
W2092568903 cites W2023501584 @default.
W2092568903 cites W2024226985 @default.
W2092568903 cites W2025127136 @default.
W2092568903 cites W2040255016 @default.
W2092568903 cites W2043542175 @default.
W2092568903 cites W2046697069 @default.
W2092568903 cites W2047944747 @default.
W2092568903 cites W2048135876 @default.
W2092568903 cites W2051190477 @default.
W2092568903 cites W2051427741 @default.
W2092568903 cites W2057901960 @default.
W2092568903 cites W2060552425 @default.
W2092568903 cites W2063412344 @default.
W2092568903 cites W2064733212 @default.
W2092568903 cites W2065990596 @default.
W2092568903 cites W2066364598 @default.
W2092568903 cites W2068971025 @default.
W2092568903 cites W2069087648 @default.
W2092568903 cites W2070005328 @default.
W2092568903 cites W2073545090 @default.
W2092568903 cites W2079647505 @default.
W2092568903 cites W2080017805 @default.
W2092568903 cites W2082960880 @default.
W2092568903 cites W2084231508 @default.
W2092568903 cites W2086019428 @default.
W2092568903 cites W2088706830 @default.
W2092568903 cites W2091287282 @default.
W2092568903 cites W2092573762 @default.
W2092568903 cites W2094907940 @default.
W2092568903 cites W2095430802 @default.
W2092568903 cites W2095529515 @default.
W2092568903 cites W2099188691 @default.
W2092568903 cites W2103972113 @default.
W2092568903 cites W2124246104 @default.
W2092568903 cites W2133275132 @default.
W2092568903 cites W2142571776 @default.
W2092568903 cites W2152568411 @default.
W2092568903 cites W2159283890 @default.
W2092568903 cites W2164643520 @default.
W2092568903 cites W2164657015 @default.
W2092568903 cites W2318809756 @default.
W2092568903 doi "https://doi.org/10.1016/s0006-3495(97)78336-x" @default.
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