Freeze-dried embedded specimens for biological microanalysis.

Scanning electron microscopy Pub Date : 1986-01-01
L Edelmann
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Abstract

The main problems associated with freeze-drying of biological material for electron microscopy concern the freeze-drying temperatures and times necessary to minimize artifacts. Due to the many parameters involved these problems have to be resolved experimentally. It can be shown that good morphological preservation of chemically unfixed material is possible when freeze-drying is done exclusively in a temperature range between -80 degrees C and -50 degrees C. OsO4 vapour fixation of the freeze-dried tissue is not necessary and should be avoided because it may cause ion redistribution artifacts. Embedding at low temperature of properly freeze-dried material does not seem to disturb structure and ion distribution of the freeze-dried material. Hence, sections of such freeze-dried material and embedded biological material seem to be suitable for microanalysis. Preliminary micro-analytical results obtained from sections of freeze-dried and Lowicryl K11M embedded muscle reveal an uneven distribution of potassium in the sarcomeres similar to the visualized uneven distribution of the electron dense thallium (potassium surrogate) in frozen hydrated cryosections. A comparison of different cryomethods shows that freeze-drying and embedding is the simplest way to obtain stable thin sections of chemically unfixed biological material which, for instance, may be used for future microanalytical investigation of the interaction of proteins with physiological and non-physiological ions.

冻干包埋标本用于生物微量分析。
与电子显微镜冷冻干燥的生物材料有关的主要问题是冷冻干燥的温度和时间,以尽量减少伪影。由于涉及到许多参数,这些问题必须通过实验来解决。可以证明,当只在-80℃至-50℃的温度范围内进行冷冻干燥时,化学未固定材料的良好形态保存是可能的。冷冻干燥组织的OsO4蒸汽固定是不必要的,应该避免,因为它可能导致离子重新分布的假象。适当冻干的物料在低温下包埋似乎不会干扰冻干物料的结构和离子分布。因此,这种冻干材料和包埋生物材料的切片似乎适合于微量分析。从冷冻干燥和Lowicryl K11M包埋的肌肉切片中获得的初步微量分析结果显示,钾在肌节中的分布不均匀,类似于冷冻水合冷冻切片中电子致密铊(代钾)的视觉分布不均匀。对不同冷冻方法的比较表明,冷冻干燥和包埋是获得化学未固定生物材料的稳定薄片的最简单方法,例如,可以用于未来对蛋白质与生理和非生理离子相互作用的微量分析研究。
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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