[
Methods Cell Biol,
1995]
Although Caenorhabditis elegans was originally chosen as a model organism for cell biology with serial section electron microscopy (EM) methods in mind, these methods have remained a daunting challenge. There is an apocryphal story that Nichol Thomson originally advised Sydney Brenner that C. elegans was unsuitable for electron microscopy and that Brenner should choose another species. Other experienced microscopists have probably shared similar dark thoughts from time to time. Nonetheless, the worm's very small size, simple organization, and cablelike nervous system have permitted Brenner's colleagues to characterize every cell and cell contact in the wild-type animal, potentiating the genetic characterization of cellular development in remarkable detail. We attempt to provide an adequate background for anyone to initiate EM studies of C. elegans. Two decades ago, as the first of Brenner's postdoctoral fellows left his laboratory to establish new worm laboratories, it was standard practice to include an EM component in their studies. Their combined efforts to characterize the adult animal's cell types and the essential steps in its development helped to erect a lovely scaffold of key manuscripts, capped by the description of the "Mind of the Worm" in some 600 micrographs and 175 drawings. Many of these works required technical heroics or suffered long delays before publication. Most people later chose to leave electron microscopy behind in pursuit of molecular quarry. The fruits of their molecular and genetic studies should soon stimulate a renewed flowering of electron microscopy. We hope to smooth your entry or reentry into these techniques. We also summarize our methods for three-dimensional (3D) image reconstruction, based largely on film techniques introduced by John White and Randle Ware. Digital imaging techniques seem poised to make 3D reconstruction more accessible, and may simplify the exchange of morphological data between laboratories. We discuss several computer systems that the C. elegans community could adopt for high-resolution studies of structure and function. In addition, we briefly cover several specialized specimen preparation techniques for electron microscopy, including freeze fracture and electron microscopic immunocytochemistry.