Abstract
The effect of freezing on the recovery of Chinese hamster tissue cells has been studied by freezing cells at a rate known to give high recovery and comparing these under the electron microscope with nonfrozen trypsinized cells for periods up to 14 hr after treatment. The main areas of damage were the cell surface and the cytoskeletal framework of the cell. The microfilament and microtubule systems underlying the cell membrane were shown to be disrupted in both the frozen and nonfrozen cells but repolymerization and reorganization was shown to be retarded for a longer period in the frozen cells. A greater degree of surface blebbing was observed in the frozen cells and heterochromatin was densely stained. The delay in return of the frozen cell to a normal morphology and physiology may be due to the need for the cell to repair sublethal cell damage before normal physiological processes can continue.
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