Edward Sternin scite author profile

A new method has been developed to determine the complete orientational order profile of lipid bilayers using 2H-NMR. The profile is obtained from a single powder spectrum of a lipid which has a saturated chain fully deuteriated. The smoothed order profile is determined directly from the normalized dePaked spectrum assuming a monotonic decrease of the order along the acyl chain. The oscillatory variations of the order at the beginning of the chain are not described by this method. However the smoothed order profile reveals in a straightforward way the crucial features of the anisotropic order of the bilayer.

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De-pake-ing of NMR spectra

Sternin

Bloom

MacKay

1983

Journal of Magnetic Resonance (1969)

187

209

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Temperature Dependence of DMPC/DHPC Mixing in a Bicellar Solution and Its Structural Implications

2001

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Bicelle-forming mixtures of short-chain 1,2-dicaproyl-sn-glycero-3-phosphocholine (DHPC) and long-chain 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) exhibit complicated phase behavior. We studied chain-melting and morphological phase changes in mixtures of DMPC/DHPC of 4.5:1 molar ratio in the temperature range of 0−60 °C. The phase state of both lipids and the alignment of lipid monolayers in the magnetic field were determined by solid-state 2H and 31P NMR. DMPC and DHPC mix in a micellar state at 0−10 °C but separate upon heating to 15 °C into gel-phase DMPC bilayers and DHPC micelles. Near the gel-to-liquid-crystalline phase transition of DMPC, at 24 °C, the DHPC spectra become anisotropic suggesting arrangement of DHPC in a mixed DMPC/DHPC phase. DMPC in this structure possesses the chain order typical of liquid crystalline bilayers, but DHPC chain order remains much lower, with lipid aggregates oriented mostly at random. In the bicelle phase, at 32−36 °C, highly anisotropic lipid particles with their DMPC monolayer normal oriented perpendicular to the magnetic field are formed. The angular distribution function of bilayer normals has significant mosaic spread and tails with surprisingly high intensity that is caused by the monolayers that are oriented at random. In the bicelle phase, magic angle spinning nuclear Overhauser effect 1H NMR spectrometry revealed intensive intermolecular cross-relaxation among DMPC and among DHPC molecules but no detectable magnetization exchange between DMPC and DHPC, confirming that DHPC and DMPC experience limited physical contact. Above 36 °C, chain order of DMPC decreased, in particular for the bonds near the terminal methyl groups, while order parameters of DHPC increased, both indicative for DMPC/DHPC mixing in the same monolayer. The degree of this mixed monolayer orientation at temperatures above the bicelle state is significantly lower. Near 60 °C a fraction of DHPC converts to a micellar phase that also dissolves a trace of DMPC. Thus, a highly aligned bicelle phase exists only in a narrow range of temperatures. Complex orientational distributions arise at other temperatures, driven by lipid mixing and structural phase changes.

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Transverse nuclear spin relaxation in phospholipid bilayer membranes

Bloom¹,

Sternin²

1987

Biochemistry

109

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Edward Sternin

Smoothed orientational order profile of lipid bilayers by 2H-nuclear magnetic resonance

De-pake-ing of NMR spectra

Temperature Dependence of DMPC/DHPC Mixing in a Bicellar Solution and Its Structural Implications

Transverse nuclear spin relaxation in phospholipid bilayer membranes

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