Cortical differentiation of the animal pole during maturation division in fertilized eggs of Tubifex (Annelida,Oligochaeta): I. Meiotic apparatus formation

The fine structure of the animal pole cortex is examined in the fertilized Tubifex egg undergoing the formation of the second meiotic apparatus (MA). The fully formed MA which orients its axis at right angles to the surface is found at the animal pole about 40 min after formation of the first polar body. It is composed of a spindle and asters at its poles; a centriole is found in the inner aster, but not in the peripheral aster adjacent to the surface. During the formation of the MA, the animal pole surface is lined with a 0.15-μm-thick, electron-dense cortical layer, which is rich in microfilaments. The arrangement of the filaments in the layer changes from a parallel array to a meshwork with progressive formation of the MA. Microtubules of the peripheral aster terminate in the cortical layer. When a jet stream of glycerol/dimethyl sulfoxide solution is applied to an egg fragment glued on a polylysine-coated coverslip, an egg cortex-MA complex is isolated on the coverslip; the MA appears to be tethered to the egg surface by the structural connection between the filamentous cortical layer and microtubules of the peripheral aster. Cytochalasin B (50 μg/ml), when administrated at early phase of the MA formation, does not show any effect on the structure of the cortical layer and the MA; however, if eggs shortly before the termination of the first polar body formation are immersed in the same test solution, the cortical layer of the animal pole becomes thinner, and the filamentous material is not observed in it. Furthermore, in these eggs, the peripheral aster and the spindle are not structurally discernible because of the suppression of microtubule assembly, whereas microtubules on kinetochores and in the inner aster are normally developed. These results are discussed in relation to the role of the animal pole cortex in fixing of the MA to the egg surface and in forming of the MA.