Surface activity and locomotion of Fundulus deep cells during blastula and gastrula stages

The surface activity and locomotion of deep cells of the Fundulus blastoderm were studied in vivo with time-lapse cinemicrography. During late cleavage, the surfaces of the blastomeres begin to undulate gently. By early blastula, these undulations increase gradually in amplitude and hemispherical surface protrusions called blebs appear. These blebs form and retract rapidly, and at mid blastula some may be seen adhering to the surfaces of other cells. At the same time, they often expand into elongate lobopodia. Cell locomotion is first evident in mid blastula and continues throughout gastrulation. During locomotion, the leading edge of a deep cell behaves in various ways. When blebs and lobopodia adhere to a substratum (other deep cells, the undersurface of the enveloping layer, or the periblast) and retract, the cell may move in the direction of the shortening cell process. Alternatively, blebs and lobopodia may adhere, but not shorten. Locomotion is accomplished rather by protoplasmic flow into the protrusion. Blebs and lobopodia also may flatten and spread on the substratum as lamellipodia. Variations in the contact and locomotory behavior of deep cells and in the rate of their movement during blastula and gastrula stages are described in detail.