冻结:事实和假设。

Scanning microscopy. Supplement Pub Date : 1991-01-01

J Dubochet, K Richter, H V Roy, A W McDowall

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引用次数: 0

摘要

在冷冻的生物标本中形成的六方冰晶大而分枝。由于溶质偏析，它们可以造成严重的结构破坏，但也有一些情况下，它们似乎只造成轻微的破坏。当冷却更快时，可以形成立方冰晶。这些都很小，一般来说，它们造成的损害很小。这些观测结果可以很容易地用一个假设来解释，即大的六边形冰晶可以起源于大量立方冰晶的再变暖引起的转变。这种转变不会发生明显的溶质位移。

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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Freezing: facts and hypothesis.

Hexagonal ice crystals formed in frozen biological specimens are large and branched. They can produce severe structural damage by solute segregation but there are also cases where they seem to cause only minor damage. When cooling is more rapid, cubic ice crystals can be formed. These are small and in general, they cause little damage. These observations can be readily explained with the hypothesis that large hexagonal ice crystals can originate from the rewarming induced transformation of a large number of cubic ice crystals. This transformation would take place without significant solute displacement.

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Scanning microscopy. Supplement

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