[
1980]
A number of review articles on the nematode cuticle have been published in the last decade. The most recent of these are those of Bird and Lee and Atkinson. These authors, while emphasizing the complexity and variability of nematode cuticles, support the use of a simplified nomenclature of cuticle structure which divides the cuticle into three regions or zones-namely, cortical, median, and basal. It is obvious that many exceptions to this fundamental pattern occur, and I shall mention some of these below. However, I think that they are adaptations to survival in changing environments, particularly where parasitism is involved. In particular, I propose to consider the structure and functions of the surface or epicuticle of the cortical zone, for it is here that reactions similar to those occurring at cell surfaces and in cell membranes are thought to occur in a wide range of "helminth" organisms. At the moment, particularly for the Nematoda, these ideas require more experimental evidence to establish them as facts. However, the use of sensitive techniques currently employed by membrane physicists and chemists to isolate, label, analyze, measure, and observe interactions taking place in cell membranes have in many instances yet to be used on the nematode cuticle. There is no doubt that the free-living bacterial-feeding nematodes such as those belonging to the genus Caenorhabditis, and in particular C. elegans, are the experimental models of choice for this purpose.