Scanning Electron Microscopy of Ethanol Infiltrated Freeze-Fractured Cell Pellets
The increased depth of focus and superior resolving power of the scanning electron microscope provide advantages over the light microscope in viewing the external morphology of cultured cells and protists. Internal structures have, however, proved more difficult to observe. Freeze drying adequately preserves surface structures but results in poorly preserved cytoplasmic elements due to ice crystal damage. Critical point drying results in good preservation of both surface and cytoplasmic fine structure. Attempts to cut or break critical point dried material, however, result in plastic deformation of the cells. Humphreys, et al, recently introduced freeze fracturing of ethanol infiltrated tissues for biological scanning electron microscopy. We have modified and applied their technique and obtained similar results with Paramecium sp. obtained from mass cultures.