膜中的氧分布
Oxygen profiles in membranes.
作者信息
Marsh Derek, Dzikovski Boris G, Livshits Vsevolod A
机构信息
Max-Planck-Institut für biophysikalische Chemie, Abteilung Spektroskopie, 37070 Göttingen, Germany.
出版信息
Biophys J. 2006 Apr 1;90(7):L49-51. doi: 10.1529/biophysj.106.081042. Epub 2006 Feb 10.
Abstract
Transmembrane profiles of molecular oxygen in lipid bilayers are not only significant for membrane physiology and pathology, but also are essential to the determination of membrane protein structure by site-directed spin labeling. Oxygen profiles obtained with spin-labeled lipid chains have a Boltzmann sigmoidal dependence on the depth into each lipid leaflet, which represents a two-compartment distribution between outer and inner regions of the membrane, with a transfer free energy that depends linearly on distance from the dividing planes. Transmembrane profiles for intramembrane polarity, and for water penetration into the membrane, have an identical form, but are of the reverse sign. Comparison with recently published oxygen profiles from a site-specifically spin-labeled alpha-helical transmembrane peptide validates the use of spin-labeled lipids for all these profiles and provides the necessary bridge to generate the full bilayer from a single lipid leaflet.
摘要
脂质双层中分子氧的跨膜分布不仅对膜生理学和病理学具有重要意义,而且对于通过定点自旋标记确定膜蛋白结构也至关重要。通过自旋标记脂质链获得的氧分布对每个脂质小叶内的深度具有玻尔兹曼S形依赖性,这代表了膜的外部和内部区域之间的两室分布,其转移自由能线性依赖于与分隔平面的距离。膜内极性和水渗透到膜中的跨膜分布具有相同的形式,但符号相反。与最近发表的来自位点特异性自旋标记的α-螺旋跨膜肽的氧分布进行比较,验证了自旋标记脂质在所有这些分布中的应用,并提供了从单个脂质小叶生成完整双层的必要桥梁。
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