Solutes in small amounts provide for lipid-bilayer softness: cholesterol, short-chain lipids, and bola lipids

J. Lemmich; T. Hønger; K. Mortensen; J. Hjort Ipsen; R. Bauer; O.G. Mouritsen

doi:10.1007/s002490050018

Solutes in small amounts provide for lipid-bilayer softness: cholesterol, short-chain lipids, and bola lipids

J. Lemmich, T. Hønger, K. Mortensen, J. Hjort Ipsen, R. Bauer, O.G. Mouritsen

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

The effect of the incorporation of small amounts (~ 1 mole%) of amphiphilic solutes, such as cholesterol, a short-chain lipid (DC₁₀PC), and a bola lipid, into multilamellar DMPC bilayers is studied by small-angle neutron scattering and differential-scanning calorimetry. The anomalous swelling behavior observed in the transition region of pure DMPC bilayers is interpreted as an indication of bilayer softening and thermally reduced bending rigidity. Small amounts of the solutes are found to maintain or even enhance the bilayer softness. In the case of cholesterol, a systematic study shows that the well-known rigidification effect is observed only for cholesterol concentrations above 3-4 mole%. The results are discussed in relation to the physical properties of internal cell membranes.

Original language	English
Journal	European Biophysics Journal
Volume	25
Issue number	1
Pages (from-to)	61-65
ISSN	0175-7571
DOIs	https://doi.org/10.1007/s002490050018
Publication status	Published - 1996

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title = "Solutes in small amounts provide for lipid-bilayer softness: cholesterol, short-chain lipids, and bola lipids",

abstract = "The effect of the incorporation of small amounts (\textasciitilde{} 1 mole\%) of amphiphilic solutes, such as cholesterol, a short-chain lipid (DC10PC), and a bola lipid, into multilamellar DMPC bilayers is studied by small-angle neutron scattering and differential-scanning calorimetry. The anomalous swelling behavior observed in the transition region of pure DMPC bilayers is interpreted as an indication of bilayer softening and thermally reduced bending rigidity. Small amounts of the solutes are found to maintain or even enhance the bilayer softness. In the case of cholesterol, a systematic study shows that the well-known rigidification effect is observed only for cholesterol concentrations above 3-4 mole\%. The results are discussed in relation to the physical properties of internal cell membranes.",

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AU - Lemmich, J.

AU - Hønger, T.

AU - Mortensen, K.

AU - Hjort Ipsen, J.

AU - Bauer, R.

AU - Mouritsen, O.G.

PY - 1996

Y1 - 1996

N2 - The effect of the incorporation of small amounts (~ 1 mole%) of amphiphilic solutes, such as cholesterol, a short-chain lipid (DC10PC), and a bola lipid, into multilamellar DMPC bilayers is studied by small-angle neutron scattering and differential-scanning calorimetry. The anomalous swelling behavior observed in the transition region of pure DMPC bilayers is interpreted as an indication of bilayer softening and thermally reduced bending rigidity. Small amounts of the solutes are found to maintain or even enhance the bilayer softness. In the case of cholesterol, a systematic study shows that the well-known rigidification effect is observed only for cholesterol concentrations above 3-4 mole%. The results are discussed in relation to the physical properties of internal cell membranes.

AB - The effect of the incorporation of small amounts (~ 1 mole%) of amphiphilic solutes, such as cholesterol, a short-chain lipid (DC10PC), and a bola lipid, into multilamellar DMPC bilayers is studied by small-angle neutron scattering and differential-scanning calorimetry. The anomalous swelling behavior observed in the transition region of pure DMPC bilayers is interpreted as an indication of bilayer softening and thermally reduced bending rigidity. Small amounts of the solutes are found to maintain or even enhance the bilayer softness. In the case of cholesterol, a systematic study shows that the well-known rigidification effect is observed only for cholesterol concentrations above 3-4 mole%. The results are discussed in relation to the physical properties of internal cell membranes.

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JO - European Biophysics Journal

JF - European Biophysics Journal

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Solutes in small amounts provide for lipid-bilayer softness: cholesterol, short-chain lipids, and bola lipids

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