Crystalline layer in Drosophila melanogaster eggshell: arrangement of components as revealed by negative staining and reconstruction

Eggshell formation in Drosophila melanogaster is used as a model system in studies of cellular differentiation. A detailed knowledge of eggshell structure is necessary for this purpose and also to permit correlation of eggshell structure with function. Unique among the eggshell layers, the innermost chorionic layer (ICL) was investigated by means of transmission electron microscopy of thin sections and whole mounts, utilizing conventional fixation. LaNO₃ impregnation and negative staining with uranyl acetate. Whole mount face views of negatively stained ICLs were processed by means of optical and computer reconstruction. The ICL, which almost fully covers the oocyte, consists of 4 5 bilaminar sublayers with a total thickness of 400–500 Å. It appears to be formed by crystallites 1– μm in size, containing roughtly spherical molecules which are 30 Å in diameter approximately. Each unit cell probably includes 8 molecules and also distinct vacant spaces, differing in size, ICL may be involved in the exchange of the respiratory gases during embryogenesis.