Lipid fluorination enables phase separation from fluid phospholipid bilayers

S. J. Webb; K. Greenway; M. Bayati; Laurent Alain Claude Trembleau

doi:10.1039/b603373n

Lipid fluorination enables phase separation from fluid phospholipid bilayers

S. J. Webb, K. Greenway, M. Bayati, Laurent Alain Claude Trembleau

Chemistry

Research output: Contribution to journal › Article › peer-review

21 Citations (Scopus)

Abstract

To probe the effect of lipid fluorination on the formation of lipid domains in phospholipid bilayers, several new fluorinated and non-fluorinated synthetic lipids were synthesised, and the extent of phase separation of these lipids from phospholipid bilayers of different compositions was determined. At membrane concentrations as low as 1% mol/mol, both fluorinated and non-.uorinated lipids were observed to phase separate from a gel-phase ( solid ordered) phospholipid matrix, but bilayers in a liquid disordered state caused no phase separation; if the gel-phase samples were heated above the transition temperature, then phase separation was lost. We found incorporation of perfluoroalkyl groups into the lipid enhanced phase separation, to such an extent that phase separation was observed from cholesterol containing bilayers in the liquid ordered phase.

Original language	English
Pages (from-to)	2399-2407
Number of pages	8
Journal	Organic & Biomolecular Chemistry
Volume	4
DOIs	https://doi.org/10.1039/b603373n
Publication status	Published - May 2006

Keywords

FLUORESCENCE CORRELATION SPECTROSCOPY
CELL BIOLOGY
MEMBRANES
CHOLESTEROL
PHOSPHATIDYLCHOLINE
DOMAINS
BINDING
RAFTS
MICROSCOPY
MODEL

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title = "Lipid fluorination enables phase separation from fluid phospholipid bilayers",

abstract = "To probe the effect of lipid fluorination on the formation of lipid domains in phospholipid bilayers, several new fluorinated and non-fluorinated synthetic lipids were synthesised, and the extent of phase separation of these lipids from phospholipid bilayers of different compositions was determined. At membrane concentrations as low as 1% mol/mol, both fluorinated and non-.uorinated lipids were observed to phase separate from a gel-phase ( solid ordered) phospholipid matrix, but bilayers in a liquid disordered state caused no phase separation; if the gel-phase samples were heated above the transition temperature, then phase separation was lost. We found incorporation of perfluoroalkyl groups into the lipid enhanced phase separation, to such an extent that phase separation was observed from cholesterol containing bilayers in the liquid ordered phase.",

keywords = "FLUORESCENCE CORRELATION SPECTROSCOPY, CELL BIOLOGY, MEMBRANES, CHOLESTEROL, PHOSPHATIDYLCHOLINE, DOMAINS, BINDING, RAFTS, MICROSCOPY, MODEL",

author = "Webb, {S. J.} and K. Greenway and M. Bayati and Trembleau, {Laurent Alain Claude}",

year = "2006",

month = may,

doi = "10.1039/b603373n",

language = "English",

volume = "4",

pages = "2399--2407",

journal = "Organic & Biomolecular Chemistry",

issn = "1477-0520",

publisher = "The Royal Society of Chemistry",

}

TY - JOUR

T1 - Lipid fluorination enables phase separation from fluid phospholipid bilayers

AU - Webb, S. J.

AU - Greenway, K.

AU - Bayati, M.

AU - Trembleau, Laurent Alain Claude

PY - 2006/5

Y1 - 2006/5

N2 - To probe the effect of lipid fluorination on the formation of lipid domains in phospholipid bilayers, several new fluorinated and non-fluorinated synthetic lipids were synthesised, and the extent of phase separation of these lipids from phospholipid bilayers of different compositions was determined. At membrane concentrations as low as 1% mol/mol, both fluorinated and non-.uorinated lipids were observed to phase separate from a gel-phase ( solid ordered) phospholipid matrix, but bilayers in a liquid disordered state caused no phase separation; if the gel-phase samples were heated above the transition temperature, then phase separation was lost. We found incorporation of perfluoroalkyl groups into the lipid enhanced phase separation, to such an extent that phase separation was observed from cholesterol containing bilayers in the liquid ordered phase.

AB - To probe the effect of lipid fluorination on the formation of lipid domains in phospholipid bilayers, several new fluorinated and non-fluorinated synthetic lipids were synthesised, and the extent of phase separation of these lipids from phospholipid bilayers of different compositions was determined. At membrane concentrations as low as 1% mol/mol, both fluorinated and non-.uorinated lipids were observed to phase separate from a gel-phase ( solid ordered) phospholipid matrix, but bilayers in a liquid disordered state caused no phase separation; if the gel-phase samples were heated above the transition temperature, then phase separation was lost. We found incorporation of perfluoroalkyl groups into the lipid enhanced phase separation, to such an extent that phase separation was observed from cholesterol containing bilayers in the liquid ordered phase.

KW - FLUORESCENCE CORRELATION SPECTROSCOPY

KW - CELL BIOLOGY

KW - MEMBRANES

KW - CHOLESTEROL

KW - PHOSPHATIDYLCHOLINE

KW - DOMAINS

KW - BINDING

KW - RAFTS

KW - MICROSCOPY

KW - MODEL

U2 - 10.1039/b603373n

DO - 10.1039/b603373n

M3 - Article

SN - 1477-0520

VL - 4

SP - 2399

EP - 2407

JO - Organic & Biomolecular Chemistry

JF - Organic & Biomolecular Chemistry

ER -

Lipid fluorination enables phase separation from fluid phospholipid bilayers

Abstract

Keywords

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