Hyalin release during normal sea urchin development and its replacement after removal at fertilization

Abstract

All stages of sea urchin embryos through pluteus can be dissociated to their component cells through the use of a 1 M solution of glycine containing EDTA, and a similar glycine solution can be used to prevent the formation of the fertilization membrane and remove the hyaline layer material released at fertilization. The protein hyalin, which makes up the bulk of the hyaline layer, can be recovered from these glycine solutions by calcium addition and quantitative agreement was found between the hyalin released at fertilization and the hyalin present at all later developmental stages. However, embryos stripped of their hyalin at fertilization often develop normally, which is unexpected in view of the apparent involvement of the hyaline layer in developmental mechanics. Such embryos are found to have regenerated an appreciable fraction of the hyalin removed at fertilization and this regeneration occurs at the time of blastulation. Thus the regeneration appears to be stimulated by hyaline layer removal at fertilization, but it does not take place until several hours later, at the time this layer has been postulated to play a role in development.