Scattering from laterally heterogeneous vesicles. II. The form factor

Vinicius N.P. Anghel; Norbert Kučerka; Jeremy Pencer; John Katsaras

doi:10.1107/S002188980701206X

Scattering from laterally heterogeneous vesicles. II. The form factor

Vinicius N.P. Anghel
, Norbert Kučerka
, Jeremy Pencer
, John Katsaras

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

24 Scopus citations

Abstract

Despite growing interest in the formation of domains or 'rafts' in cell and model membranes, there have been relatively few attempts to characterize such systems via scattering techniques. Previously [Pencer et al. (2006). J. Appl. Cryst. 39, 293-303], it was demonstrated that the Porod invariant, Q, could be used to detect lateral segregation. Here, the general theory for scattering from laterally heterogeneous vesicles is outlined and form factors are derived for vesicles containing either single circular or annular domains. These form factors are then applied to the analysis of neutron scattering data from heterogeneous vesicles. Potential advantages and limitations of this technique are also discussed.

Original language	English
Pages (from-to)	513-525
Number of pages	13
Journal	Journal of Applied Crystallography
Volume	40
Issue number	3
DOIs	https://doi.org/10.1107/S002188980701206X
State	Published - May 15 2007
Externally published	Yes

Keywords

Cell membranes
Lipid rafts
Unilamellar vesicles

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10.1107/S002188980701206X

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abstract = "Despite growing interest in the formation of domains or 'rafts' in cell and model membranes, there have been relatively few attempts to characterize such systems via scattering techniques. Previously [Pencer et al. (2006). J. Appl. Cryst. 39, 293-303], it was demonstrated that the Porod invariant, Q, could be used to detect lateral segregation. Here, the general theory for scattering from laterally heterogeneous vesicles is outlined and form factors are derived for vesicles containing either single circular or annular domains. These form factors are then applied to the analysis of neutron scattering data from heterogeneous vesicles. Potential advantages and limitations of this technique are also discussed.",

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AU - Anghel, Vinicius N.P.

AU - Kučerka, Norbert

AU - Pencer, Jeremy

AU - Katsaras, John

PY - 2007/5/15

Y1 - 2007/5/15

N2 - Despite growing interest in the formation of domains or 'rafts' in cell and model membranes, there have been relatively few attempts to characterize such systems via scattering techniques. Previously [Pencer et al. (2006). J. Appl. Cryst. 39, 293-303], it was demonstrated that the Porod invariant, Q, could be used to detect lateral segregation. Here, the general theory for scattering from laterally heterogeneous vesicles is outlined and form factors are derived for vesicles containing either single circular or annular domains. These form factors are then applied to the analysis of neutron scattering data from heterogeneous vesicles. Potential advantages and limitations of this technique are also discussed.

AB - Despite growing interest in the formation of domains or 'rafts' in cell and model membranes, there have been relatively few attempts to characterize such systems via scattering techniques. Previously [Pencer et al. (2006). J. Appl. Cryst. 39, 293-303], it was demonstrated that the Porod invariant, Q, could be used to detect lateral segregation. Here, the general theory for scattering from laterally heterogeneous vesicles is outlined and form factors are derived for vesicles containing either single circular or annular domains. These form factors are then applied to the analysis of neutron scattering data from heterogeneous vesicles. Potential advantages and limitations of this technique are also discussed.

KW - Cell membranes

KW - Lipid rafts

KW - Unilamellar vesicles

UR - https://www.scopus.com/pages/publications/34249106724

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DO - 10.1107/S002188980701206X

M3 - Article

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SP - 513

EP - 525

JO - Journal of Applied Crystallography

JF - Journal of Applied Crystallography

IS - 3

ER -

Scattering from laterally heterogeneous vesicles. II. The form factor

Abstract

Keywords

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