Meiotic spindle organization in fertilized Drosophila oocyte: presence of centrosomal components in the meiotic apparatus.

We examined spindle reorganization during the completion of meiosis in fertilized and unfertilized oocytes of Drosophila using indirect immunofluorescence and laser scanning confocal microscopy. The results defined a complex pathway of spindle assembly during resumption of meiosis, and revealed a transient array of microtubules radiating from the equatorial region of the spindle towards discrete foci in the egg cortex. A monastral array of microtubules was observed between twin metaphase II spindles in fertilized and unfertilized eggs. The microtubules originated from disk-shaped material stained with Rb188 antibody specific for an antigen associated with the centrosome of Drosophila embryos. The Drosophila egg, therefore, contains a maternal pool of centrosomal components undetectable in mature inactivated oocytes. These components nucleate microtubules in a monastral array after activation, but are unable to organize bipolar spindles.