The tension at the top of the animal pole decreases during meiotic cell division.

Meiotic maturation is essential for the reproduction procedure of many animals. During this process an oocyte produces a large egg cell and tiny polar bodies by highly asymmetric division. In this study, to fully understand the sophisticated spatiotemporal regulation of accurate oocyte meiotic division, we focused on the global and local changes in the tension at the surface of the starfish (Asterina pectinifera) oocyte in relation to the surface actin remodeling.

Microinjected Polystyrene Beads Move Along Astral Rays in Sand Dollar Eggs: (astral rays/fertilization/mitosis/microinjected polystyrene beads/sand dollar eggs).

Movements of polystyrene beads along astral rays of the sperm aster and the mitotic aster were investigated in eggs of the sand dollars, Clypeaster japonicus and Scaphechinus mirabilis. Polystyrene beads injected into the unfertilized egg were at a standstill in the protoplasm. After fertilization, these beads exhibited movements toward the center of the sperm aster along the rays, and finally gathered around the astral center.

Analysis of the Role of Astral Rays in Pronuclear Migration in Sand Dollar Eggs by the Colcemid-UV Method: (sperm aster/pronuclear migration/sand dollar/colcemid-UV method).

The formation and migration of the sperm aster, and the migration of male and female pronuclei during fertilization were investigated in the eggs of the sand dollar, Clypeaster japonicus using the Colcemid-UV method. When an egg in Colcemid sea water was irradiated locally with UV light (about 365 nm wavelength) at a limited region containing sperm head, a sperm aster formed in this region, and migrated to the center of the UV-irradiated region during its formation. When the UV-irradiated region was displaced or its shape was changed after the formation of the sperm aster, the aster migrated to the center of the new UV-irradiated region.