How the chain configuration governs the packing of inverted micelles in the cubic Fd3m-phase

Michael Rappolt; Fernando Cacho-Nerin; Christian Morello; Anan Yaghmur

doi:10.1039/c3sm50308a

How the chain configuration governs the packing of inverted micelles in the cubic Fd3m-phase

Michael Rappolt, Fernando Cacho-Nerin, Christian Morello, Anan Yaghmur

26 Citations (Scopus)

Abstract

The inverted micellar cubic Fd3m phase has attracted significant interest in drug delivery and is also of special biological relevance in the early steps of fat digestion. Applying small angle X-ray diffraction (SAXD) the stability of the Fd3m phase with respect to the chain configuration has been examined. In particular, the fully hydrated monoelaidin system containing the trans elaidic or its counterpart cis oleic fatty acid was investigated. Re-analyzed data of a fully hydrated monoolein-oleic acid (MO-OA) mixture complete this study (data taken from Luzzati et al.). On the basis of determined electron density maps, minute structural details are presented. The decomposition of the cubic Fd3m nanostructure into its apolar and polar moieties allowed the estimation of chain length and water radius depending on the fatty acid content. An increase in the elaidic chain concentration increases the membrane monolayer thickness, and in particular reduces the sphericity of the polar envelope of the small micelles. Furthermore, the electron density maps revealed the geometry of the space filling 5¹² and 5¹²6⁴ cages of the Fd3m phase as well as the loci of the greatest packing stress, which are situated at vertices of the 5¹²6⁴ cages that are placed opposite the hexagonal faces.

Original language	English
Journal	Soft Matter
Volume	9
Issue number	27
Pages (from-to)	6291-6300
ISSN	1744-683X
DOIs	https://doi.org/10.1039/c3sm50308a
Publication status	Published - 24 Jul 2013

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title = "How the chain configuration governs the packing of inverted micelles in the cubic Fd3m-phase",

abstract = "The inverted micellar cubic Fd3m phase has attracted significant interest in drug delivery and is also of special biological relevance in the early steps of fat digestion. Applying small angle X-ray diffraction (SAXD) the stability of the Fd3m phase with respect to the chain configuration has been examined. In particular, the fully hydrated monoelaidin system containing the trans elaidic or its counterpart cis oleic fatty acid was investigated. Re-analyzed data of a fully hydrated monoolein-oleic acid (MO-OA) mixture complete this study (data taken from Luzzati et al.). On the basis of determined electron density maps, minute structural details are presented. The decomposition of the cubic Fd3m nanostructure into its apolar and polar moieties allowed the estimation of chain length and water radius depending on the fatty acid content. An increase in the elaidic chain concentration increases the membrane monolayer thickness, and in particular reduces the sphericity of the polar envelope of the small micelles. Furthermore, the electron density maps revealed the geometry of the space filling 512 and 51264 cages of the Fd3m phase as well as the loci of the greatest packing stress, which are situated at vertices of the 51264 cages that are placed opposite the hexagonal faces.",

author = "Michael Rappolt and Fernando Cacho-Nerin and Christian Morello and Anan Yaghmur",

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doi = "10.1039/c3sm50308a",

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T1 - How the chain configuration governs the packing of inverted micelles in the cubic Fd3m-phase

AU - Rappolt, Michael

AU - Cacho-Nerin, Fernando

AU - Morello, Christian

AU - Yaghmur, Anan

PY - 2013/7/24

Y1 - 2013/7/24

N2 - The inverted micellar cubic Fd3m phase has attracted significant interest in drug delivery and is also of special biological relevance in the early steps of fat digestion. Applying small angle X-ray diffraction (SAXD) the stability of the Fd3m phase with respect to the chain configuration has been examined. In particular, the fully hydrated monoelaidin system containing the trans elaidic or its counterpart cis oleic fatty acid was investigated. Re-analyzed data of a fully hydrated monoolein-oleic acid (MO-OA) mixture complete this study (data taken from Luzzati et al.). On the basis of determined electron density maps, minute structural details are presented. The decomposition of the cubic Fd3m nanostructure into its apolar and polar moieties allowed the estimation of chain length and water radius depending on the fatty acid content. An increase in the elaidic chain concentration increases the membrane monolayer thickness, and in particular reduces the sphericity of the polar envelope of the small micelles. Furthermore, the electron density maps revealed the geometry of the space filling 512 and 51264 cages of the Fd3m phase as well as the loci of the greatest packing stress, which are situated at vertices of the 51264 cages that are placed opposite the hexagonal faces.

AB - The inverted micellar cubic Fd3m phase has attracted significant interest in drug delivery and is also of special biological relevance in the early steps of fat digestion. Applying small angle X-ray diffraction (SAXD) the stability of the Fd3m phase with respect to the chain configuration has been examined. In particular, the fully hydrated monoelaidin system containing the trans elaidic or its counterpart cis oleic fatty acid was investigated. Re-analyzed data of a fully hydrated monoolein-oleic acid (MO-OA) mixture complete this study (data taken from Luzzati et al.). On the basis of determined electron density maps, minute structural details are presented. The decomposition of the cubic Fd3m nanostructure into its apolar and polar moieties allowed the estimation of chain length and water radius depending on the fatty acid content. An increase in the elaidic chain concentration increases the membrane monolayer thickness, and in particular reduces the sphericity of the polar envelope of the small micelles. Furthermore, the electron density maps revealed the geometry of the space filling 512 and 51264 cages of the Fd3m phase as well as the loci of the greatest packing stress, which are situated at vertices of the 51264 cages that are placed opposite the hexagonal faces.

U2 - 10.1039/c3sm50308a

DO - 10.1039/c3sm50308a

M3 - Journal article

SN - 0959-9428

VL - 9

SP - 6291

EP - 6300

JO - Journal of Materials Chemistry

JF - Journal of Materials Chemistry

IS - 27

ER -

How the chain configuration governs the packing of inverted micelles in the cubic Fd3m-phase

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