SURFACE SPECIALIZATIONS OF FUNDULUS CELLS AND THEIR RELATION TO CELL MOVEMENTS DURING GASTRULATION

doi:10.1083/jcb.32.1.139

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SURFACE SPECIALIZATIONS OF FUNDULUS CELLS AND THEIR RELATION TO CELL MOVEMENTS DURING GASTRULATION

J. P. Trinkaus ¹ and Thomas L. Lentz ¹

¹ From the Departments of Biology and Anatomy, Yale University, New Haven, Connecticut, and The Marine Biological Laboratory, Woods Hole, Massachusetts

Cell movements in Fundulus blastoderms during gastrulationwere studied utilizing time-lapse cinemicrography and electronmicroscopy. Time-lapse films reveal that cells of the envelopinglayer undulate and sometimes separate briefly but remain togetherin a cohesive layer. During epiboly, the marginal envelopinglayer cells move over the periblast as it expands over the yolksphere. Movement occurs as a result of ruffled membrane activityof the free borders of the marginal cells. Deep blastomeresbecome increasingly active during blastula and gastrula stages.Lobopodia project from the blastomeres in blastulae and adhereto other cells in gastrulae, giving the cells traction for movement.Contact specializations are formed by the lateral adjacent plasmamembranes of enveloping layer cells. An apical junction is characterizedby an intercellular gap of 60–75 A. Below this contact,the plasma membranes are separated by 120 A or more. In mid-gastrulae,cytoplasmic fibrils occur adjacent to some apical junctions,and small desmosomes appear below the apical junction. Septatedesmosomes also appear at this time. A junction with an intercellulargap of 60 A occurs between marginal enveloping layer cells andperiblast. Contacts between deep blastomeres become numerousin gastrulae and consist of contacts at the crests of surfaceundulations, short areas of contact in which the plasma membranesare 60 or 120 A apart, and long regions characterized by a 200-Aintercellular gap. Lobopodia contact other blastomeres onlyin gastrulae. These junctions contain a 200-A intercellularspace. Some deep blastomeres are in contact with the tips ofperiblast microvilli. The mechanism of epiboly in Fundulus isdiscussed and reevaluated in terms of these observations. Theenveloping layer is adherent to the margin of the periblastand moves over it as a coherent cellular sheet. Periblast epibolyinvolves a controlled flow of cytoplasm from the thicker periblastinto the thinner yolk cytoplasmic layer with which it is continuous.Deep cells move by adhering to each other, to the inner surfaceof the enveloping layer, and to the periblast.

Submitted on July 5, 1966

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