Abstract
The biophysical properties of the lipid matrix are known to influence function of integral membrane proteins. We report on a sample preparation method for reconstitution of membrane proteins which uses porous anodic aluminum oxide (AAO) filters with 200-nm-wide pores of high density. The substrate permits formation of tubular, single membranes that line the inner surface of pores. One square centimeter of filter with a thickness of 60?m yields on the order of 500cm(2) of solid-supported single bilayer surface, sufficient for NMR studies. The tubular bilayers are free of detergent, fully hydrated, and accessible for ligands from one side of the membrane. The use of AAO filters greatly improves reproducibility of the reconstitution process such that the influence of protein on lipid order parameters can be studied with high resolution. As an example, results for the G protein-coupled receptor of class A, bovine rhodopsin, are shown. By (2)H NMR order parameter measurements, it is detected that rhodopsin insertion elastically deforms membranes near the protein. Furthermore, by (1)H saturation-transfer NMR under conditions of magic angle spinning, we demonstrate detection of preferences in interactions of rhodopsin with particular lipid species. It is assumed that function of integral membrane proteins depends on both protein-induced elastic deformations of the lipid matrix and preferences for interaction of the protein with particular lipid species in the first layer of lipids surrounding the protein.
Skeletal muscle lipid metabolism studied by advanced magnetic resonance spectroscopy
Skeletal muscle lipid metabolism studied by advanced magnetic resonance spectroscopy
Publication year: 2012
Source:Progress in Nuclear Magnetic Resonance Spectroscopy</br>
Arunima Pola, Suresh Anand Sadananthan, Jadegoud Yaligar, Vijayasarathi Nagarajan, Weiping Han, Philip W. Kuchel, S. Sendhil Velan</br>
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Skeletal muscle lipid metabolism studied by advanced magnetic resonance spectroscopy
Skeletal muscle lipid metabolism studied by advanced magnetic resonance spectroscopy
Publication year: 2012
Source: Progress in Nuclear Magnetic Resonance Spectroscopy, Available online 23 February 2012</br>
Arunima*Pola, Suresh Anand*Sadananthan, Jadegoud*Yaligar, Vijayasarathi*Nagarajan, Weiping*Han, ...</br>
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[NMR paper] Cytochrome c-lipid interactions studied by resonance Raman and 31P NMR spectroscopy.
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