细阴离子铁胶体及其在大鼠肾脏阳离子位光镜和电镜检测中的应用。

A Ohtsuka, T Murakami
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引用次数: 12

摘要

当三氯化铁与硫氰酸铵、氨和羧酸一起煮沸时,会转化为一种由1-1.5 nm的电子致密颗粒组成的精细阴离子铁胶体,并产生明显的普鲁士蓝反应。这种胶体允许光镜和电子显微镜在pH值范围为4.0-9.0的组织中检测电离的阳离子位点。用这种胶体染色的大鼠肾脏的光镜和电镜显示。这些显微照片显示肾小球足细胞的足突和近曲小管的刷状边界在其细胞内基质中含有带正电荷的基团,并且位于鲍曼囊间隙的足突质膜具有带正电荷的基团。后一项发现,连同我们之前的研究(Murakami et al., 1986),表明在足突表面阳离子和阴离子位点共存。
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Fine anionic iron colloid and its use in light and electron microscopic detection of cationic sites in the rat kidney.

Ferric chloride, when boiled with ammonium thiocyanate, ammonia and cacodylic acid, is converted into a fine anionic iron colloid which consists of 1-1.5 nm electron dense granules and gives a distinct Prussian blue reaction. This colloid allows light and electron microscopic detection of ionized cationic sites in tissues at a pH range of 4.0-9.0. Light and electron micrographs of the rat kidney stained with this colloid are demonstrated. These micrographs indicate that the foot processes of glomerular podocytes and the brush border of the proximal convoluted tubule contain positively-charged groups in their intracellular matrices, and that the foot process plasma membrane fronting the Bowman's capsular space has positively-charged groups. The latter finding, together with our previous study (Murakami et al., 1986), suggests the co-existence of cationic and anionic sites on this foot process surface.

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