Abstract
The sea urchin fertilization envelope (FE) is a complex, macromolecular aggregate assembled by the addition of cortical granule secretions to the vitelline layer. The completed, trilaminar structure has a dense layer sandwiched between surface coats of paracrystalline material. Two cortical granule enzymes, ovoperoxidase and protease, and a cell surface transglutaminase are required for the assembly process. We have examined, by quick-freeze, deep-etch, rotary-shadow electron microscopy, the effects of inhibiting each of these enzymes upon FE assembly. These experiments reveal two domains within the FE, distinguishable by their enzymatic requirements for proper maturation. The first domain consists of the microvillar casts which require both protease and transglutaminase activities to obtain a normal paracrystalline coat. The second domain comprises the regions between casts and appears to mature by ovoperoxidase-mediated cross-linking of paracrystalline material to the envelope.
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