神经纤维的拉曼光谱。稳态条件下膜脂的研究。
Raman spectroscopy of nerve fibers. A study of membrane lipids under steady state conditions.
作者信息
Pézolet M, Georgescauld D
出版信息
Biophys J. 1985 Mar;47(3):367-72. doi: 10.1016/S0006-3495(85)83927-8.
Abstract
The molecular structures of different nerve fibers kept in good physiological conditions were studied by laser Raman spectroscopy. For myelinated nerves like the rat sciatic nerve, the Raman spectrum is dominated by bands due to the lipid component of the myelin sheath. The temperature dependence of these bands does not reveal any thermotropic phase transition between 0 and 40 degrees C. There is, however, with temperature, a linear increase in the intermolecular disorder that is accompanied by an increase in the number of gauche bonds of the phospholipid acyl chains. For unmyelinated nerves such as the lobster leg nerve, the C-H stretching region of the Raman spectrum is covered by bands arising from the protein component of the axoplasm. However, for the garfish olfactory nerve that has a high density of excitable membranes, phospholipid bands are observed and can be used as intrinsic structural probes of the excitable membranes. The relative intensity of these bands is also temperature dependent.
摘要
利用激光拉曼光谱研究了处于良好生理状态的不同神经纤维的分子结构。对于像大鼠坐骨神经这样的有髓神经,拉曼光谱主要由髓鞘脂质成分产生的谱带主导。这些谱带的温度依赖性在0至40摄氏度之间未显示出任何热致相变。然而,随着温度升高,分子间无序度呈线性增加,同时伴随着磷脂酰链中gauche键数量的增加。对于像龙虾腿神经这样的无髓神经,拉曼光谱的C-H伸缩区域被轴浆蛋白成分产生的谱带覆盖。然而,对于具有高密度可兴奋膜的雀鳝嗅神经,可观察到磷脂谱带,并且这些谱带可作为可兴奋膜的内在结构探针。这些谱带的相对强度也与温度有关。
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