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Author:
Date:
2016-10-20
[Abstract] Dissecting the interactions established between proteins and membranes in a given type of cells is not an easy task. Using a cell-free system of large unilamellar vesicles (LUVs) to analyze these interactions may help decipher these interactions and identify potential membrane deformations induced by the proteins incubated with these LUVs. This article describes the protocols for 1) extraction of total lipids from eukaryotic cells using the method developed by Bligh and Dyer (1959), 2) the quantification of glycerophospholipids by gas chromatography after methanolysis, followed by 3) the ...
[摘要] 解剖在给定类型的细胞中蛋白质和膜之间建立的相互作用不是一个容易的任务。使用大单层囊泡(LUV)的无细胞系统来分析这些相互作用可以帮助破译这些相互作用和识别由与这些LUV孵育的蛋白质诱导的潜在的膜变形。本文介绍了1)使用由Bligh和Dyer(1959)开发的方法从真核细胞中提取总脂质,2)在甲醇分解后通过气相色谱法定量甘油磷脂,然后3)通过挤出形成LUV的方案, 4)蛋白质 - 脂质结合测定,5)通过透射电子显微镜(TEM)和通过不连续蔗糖梯度浮选分析孵育产物,最后,6)通过免疫印迹分析蛋白质并通过碘素熏蒸显示甘油磷脂。
[背景] 包含巨单层囊泡(GUV;由单个磷脂双层组成,直径大于1μm)或脂质体孵育的无细胞系统与重组蛋白可能有助于了解这些相互作用。根据它们的直径和层数,脂质体被分为小的单层囊泡(SUV;由单个磷脂双层构成的囊泡,直径在20和100nm之间),大的单层囊泡(LUV;由单个双层磷脂,并且直径在100和400nm之间),大多层囊泡(MLV;由多个磷脂双层构成且直径在200nm和3μm之间的囊泡)和多泡囊泡(MVV);由囊泡组成的大囊泡单个双层磷脂,并含有几个较小的囊泡,每个囊泡由单个双层磷脂组成)。 ...
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Author:
Date:
2016-03-05
[Abstract] Various types of cell wall compositions have evolved to fulfill a wide range of biological roles during the diversification of land plants. (1;3,1;4)-β-D-glucan (MLG) is a defining feature of the cell walls in the order Poales (Yokoyama and Nishitani, 2004), which has multiple functions associated with metabolic, growth, and defense systems. MLG is also a characteristic component of the matrix polysaccharides that undergo turnover and metabolism, depending on the tissue and the stage of development (Kido et al., 2015). Determining the extracellular localization of MLG is essential ...
[摘要] 各种类型的细胞壁组合物已经发展以在陆地植物的多样化过程中实现广泛的生物学作用。 (1; 3,1; 4)-β-D-葡聚糖(MLG)是Poales(Yokoyama和Nishitani,2004)中的细胞壁的定义特征,其具有与代谢,生长和防御相关的多种功能 系统。 MLG也是经历翻转和代谢的基质多糖的特征组分,这取决于组织和发育阶段(Kido等人,2015)。 确定MLG的细胞外定位对于阐明其功能是必要的。 电子显微镜免疫金标记分析是一种有用的技术,其提供MLG的细胞外分布的精确表示。 该策略也适用于各种细胞壁多糖,其在调节每种植物物种的生长和分化中具有关键作用。
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