[
Ann N Y Acad Sci,
1992]
The freeze-fracture technique offers a unique view of intramembrane particles (IMPs), which derive from large membrane-associated molecules such as gap junctions, receptors, and ion channels. We are particularly interested in the gap junction (gj) and its role in intercellular communication. The anatomy of the soil nematode, C. elegans, has been studied extensively in serial thin sections and gjs have been noted in many cell types. Although gjs vary in frequency and extent, their appearance in sectioned material is rather uniform. The freeze-fracture technique can be used to identify and differentiate gjs according to IMP size, packing density, and preferred fracture face. For instance, in the planarian, Dugesia, this technique revealed three classes of gjs occurring in different tissues. The nematode usually fractures lengthwise; the fracture plane preferentially travels along membranes, splitting the unit membrane into two opposing halves (the P- and E-faces). Many tissues are recognizable: hypodermis, muscle, neurons, nerve cords, intestine, and so forth...