Abstract

The divalent ionophores A23187 and X-537A induce parthenogenesis in sea urchin eggs. This results from their ability to mobilize intracellular Ca 2+, which is implicated in both artificial parthenogenesis as well as the natural fertilization process. A23187 causes expulsion of cortical granules and elevation of the fertilization membrane within 0.5–9 min followed by an initiation of cell cleavage. The broader spectrum ionophore X-537A is less potent, but the production of cytoplasmic aberrations are more apparent. In contrast to the sperm-activated egg, the initial phase of ionophore induced activation is accompanied either by relatively insignificant changes in membrane resistance, or an increase.

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