Phase behavior of a designed cyclopropyl analogue of monoolein: Implications for low-temperature membrane protein crystallization

Livia Salvati Manni; Alexandru Zabara; Yazmin M. Osornio; Jendrik Schöppe; Alexander Batyuk; Andreas Plückthun; Jay S. Siegel; Raffaele Mezzenga; Ehud M. Landau

doi:10.1002/anie.201409791

Phase behavior of a designed cyclopropyl analogue of monoolein: Implications for low-temperature membrane protein crystallization

Livia Salvati Manni, Alexandru Zabara, Yazmin M. Osornio, Jendrik Schöppe, Alexander Batyuk, Andreas Plückthun, Jay S. Siegel, Raffaele Mezzenga, Ehud M. Landau

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

27 Citations (Scopus)

Abstract

Lipidic cubic phases (LCPs) are used in areas ranging from membrane biology to biodevices. Because some membrane proteins are notoriously unstable at room temperature, and available LCPs undergo transformation to lamellar phases at low temperatures, development of stable low-temperature LCPs for biophysical studies of membrane proteins is called for. Monodihydrosterculin (MDS) is a designer lipid based on monoolein (MO) with a configurationally restricted cyclopropyl ring replacing the olefin. Small-angle X-ray scattering (SAXS) analyses revealed a phase diagram for MDS lacking the high-temperature, highly curved reverse hexagonal phase typical for MO, and extending the cubic phase boundary to lower temperature, thereby establishing the relationship between lipid molecular structure and mesophase behavior. The use of MDS as a new material for LCP-based membrane protein crystallization at low temperature was demonstrated by crystallizing bacteriorhodopsin at 20°C as well as 4°C.

Original language	English
Pages (from-to)	1027-1031
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	54
Issue number	3
DOIs	https://doi.org/10.1002/anie.201409791
Publication status	Published - 12 Jan 2015
Externally published	Yes

Keywords

Lipid synthesis
Membrane proteins
Mesophases
Phase behavior
Small-angle X-ray scattering

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10.1002/anie.201409791

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Salvati Manni, L., Zabara, A., Osornio, Y. M., Schöppe, J., Batyuk, A., Plückthun, A., Siegel, J. S., Mezzenga, R., & Landau, E. M. (2015). Phase behavior of a designed cyclopropyl analogue of monoolein: Implications for low-temperature membrane protein crystallization. Angewandte Chemie - International Edition, 54(3), 1027-1031. https://doi.org/10.1002/anie.201409791

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abstract = "Lipidic cubic phases (LCPs) are used in areas ranging from membrane biology to biodevices. Because some membrane proteins are notoriously unstable at room temperature, and available LCPs undergo transformation to lamellar phases at low temperatures, development of stable low-temperature LCPs for biophysical studies of membrane proteins is called for. Monodihydrosterculin (MDS) is a designer lipid based on monoolein (MO) with a configurationally restricted cyclopropyl ring replacing the olefin. Small-angle X-ray scattering (SAXS) analyses revealed a phase diagram for MDS lacking the high-temperature, highly curved reverse hexagonal phase typical for MO, and extending the cubic phase boundary to lower temperature, thereby establishing the relationship between lipid molecular structure and mesophase behavior. The use of MDS as a new material for LCP-based membrane protein crystallization at low temperature was demonstrated by crystallizing bacteriorhodopsin at 20°C as well as 4°C.",

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AU - Salvati Manni, Livia

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AU - Schöppe, Jendrik

AU - Batyuk, Alexander

AU - Plückthun, Andreas

AU - Siegel, Jay S.

AU - Mezzenga, Raffaele

AU - Landau, Ehud M.

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AB - Lipidic cubic phases (LCPs) are used in areas ranging from membrane biology to biodevices. Because some membrane proteins are notoriously unstable at room temperature, and available LCPs undergo transformation to lamellar phases at low temperatures, development of stable low-temperature LCPs for biophysical studies of membrane proteins is called for. Monodihydrosterculin (MDS) is a designer lipid based on monoolein (MO) with a configurationally restricted cyclopropyl ring replacing the olefin. Small-angle X-ray scattering (SAXS) analyses revealed a phase diagram for MDS lacking the high-temperature, highly curved reverse hexagonal phase typical for MO, and extending the cubic phase boundary to lower temperature, thereby establishing the relationship between lipid molecular structure and mesophase behavior. The use of MDS as a new material for LCP-based membrane protein crystallization at low temperature was demonstrated by crystallizing bacteriorhodopsin at 20°C as well as 4°C.

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KW - Phase behavior

KW - Small-angle X-ray scattering

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Phase behavior of a designed cyclopropyl analogue of monoolein: Implications for low-temperature membrane protein crystallization

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