| Abstract: | We have developed two procedures to collect total cortical granule exudate in a soluble form from eggs of the sea urchin Strongylocentrotus purpuratus. Egg suspensions were either treated with dithiothreitol to disrupt the vitelline envelope or divalent cations were removed postinsemination to prevent the normal vitelline-to-fertilization envelope transition. Rapid acidification of the insemination mixture (dithiothreitol-treated eggs) to pH 6.0 prevented precipitation of the paracrystalline protein fraction described by Bryan [1970a]. Exudate was partitioned into three fractions. The pH 8.0-insoluble fraction appeared to be identical to the paracrystalline protein fraction. The pH 8.0-soluble fraction was separated into pH 4.0-soluble and-insoluble fractions. Analysis for peroxidase and protease activities showed that peroxidase activity was localized in all three fractions whereas protease activity was restricted to the pH 4.0 insoluble fraction as reported [Carroll and Epel, 1975]. A minimum of six major proteins were detected on native polyacrylamide gels of total exudate. Under reducing and denaturing conditions, 12 polypeptides ranging from 19,000 to 165,000 in molecular weight were detected in total exudate; six polypeptides were recovered in the pH 8.0-insoluble fraction. To test the hypothesis that protease and peroxidase activities process cortical granule proteins after secretion, we inseminated eggs in solutions containing peroxidase and protease inhibitors. The paracrystalline protein fraction crystallized slowly from insemination mixtures containing both inhibitors compared to controls and there were dramatic differences in exudate electrophoretic patterns. We suggest that cortical granule protease and peroxidase activities process the exudate so that the paracrystalline protein fraction rapidly crystallizes during normal fertilization. |
