Peptoid-based macrodiscs of variable lipid composition for structural studies of membrane proteins by oriented-sample solid-state NMR

IF 3.5 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Azamat R. Galiakhmetov, Adit A. Shah, Addison Lane, Carolynn M. Davern, Caroline Proulx, Alexander A. Nevzorov
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Abstract

Solid-state Nuclear Magnetic Resonance (NMR) in combination with magnetically aligned discoidal lipid mimics allows for studying the conformations of membrane proteins in planar, lipid-rich bilayer environments and at the physiological temperature. We have recently demonstrated the general applicability of macrodiscs composed of DMPC lipids and peptoid belts, which yield magnetic alignment and NMR spectroscopic resolution comparable or superior to detergent-containing bicelles. Here we report on a considerable improvement in the magnetic alignment and NMR resolution of peptoid-based macrodiscs consisting of a mixture of the zwitterionic and negatively charged lipids (DMPC/DMPG at the 85% to 15% molar ratio). The resulting linewidths are about 30% sharper due to the higher orientational order parameter likely arising from the stabilizing electrostatic repulsion between the discs. Moreover, highly aligned, detergent-free macrodiscs can be formed with a longer-chain lipid, DPPC. Interestingly, the spectra of Pf1 in the two lipid mimetics are almost indistinguishable, which would mean that the overall transmembrane helix tilt might be governed not only by the hydrophobic matching but also possibly by the interactions of the flanking lysine and arginine residues at the membrane interface.

Abstract Image

基于蛋白胨的可变脂质成分大圆盘,用于通过定向样品固态核磁共振进行膜蛋白结构研究
将固态核磁共振(NMR)与磁性排列的盘状脂质模拟物相结合,可以在生理温度下研究膜蛋白在平面、富脂双层环境中的构象。我们最近证明了由 DMPC 脂质和蛋白胨带组成的大圆盘的普遍适用性,其磁性排列和 NMR 光谱分辨率可与含洗涤剂的双胞相媲美或更胜一筹。在此,我们报告了由齐聚物和带负电荷的脂质混合物(DMPC/DMPG,摩尔比为 85%-15%)组成的蛋白胨基大圆盘在磁排列和 NMR 分辨率方面的显著改进。由于圆盘之间的稳定静电斥力可能会产生较高的定向有序参数,因此产生的线宽锐化了约 30%。此外,长链脂质 DPPC 也能形成高度排列整齐、不含洗涤剂的大圆盘。有趣的是,Pf1 在两种脂质模拟物中的光谱几乎没有区别,这意味着整体跨膜螺旋倾斜可能不仅受疏水匹配的影响,还可能受膜界面侧翼赖氨酸和精氨酸残基的相互作用的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Structural Biology: X
Journal of Structural Biology: X Biochemistry, Genetics and Molecular Biology-Structural Biology
CiteScore
6.50
自引率
0.00%
发文量
20
审稿时长
62 days
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