Abstract

The ultrastructure of cells in the vegetal pole region of sea urchin embryos during early development to the mesenchyme blastula stage was examined by scanning electron microscopy. Vegetal pole cells in the ectoderm with longer microvilli than those of neighboring cells were first detectable at the early blastula stage just before hatching. These cells with elongated microvilli remained in the central region of the vegetal plate when most vegetal plate cells ingressed into the blastocoel to form primary mesenchyme. When first detectable in the sea urchin, Anthocidaris crassispina, four vegetal pole cells had elongated microvilli, but at the time of primary mesenchyme cell ingression, the number of cells with elongated microvilli had increased to eight, apparently by cell division. These vegetal pole cells were wedge-shaped with a broad surface adhering to the hyaline layer at the time of primary mesenchyme cell ingression. SEM observation of the outer surface of embryos showed that the microvilli extended into the hyaline layer. The reinforced attachment of vegetal pole cells to the hyaline layer through their elongated microvilli may explain why these cells could remain at the vegetal pole when the surrounding cells ingressed into the blastocoel as primary mesenchyme cells.

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