FINE STRUCTURE AND MORPHOGENIC MOVEMENTS IN THE GASTRULA OF THE TREEFROG, HYLA REGILLA

doi:10.1083/jcb.24.1.95

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ARTICLE

FINE STRUCTURE AND MORPHOGENIC MOVEMENTS IN THE GASTRULA OF THE TREEFROG, HYLA REGILLA

Patricia C. Baker Ph.D.¹

¹ From the Department of Zoology, University of California, Berkeley, California.

Dr. Baker's present address is Department of Pathology, University of Oregon Medical School, Portland, Oregon

The blastoporal groove of the early gastrula of the treefrog,Hyla regilla, was examined with the electron microscope. Theinnermost extension of the groove is lined with invaginatingflask- and wedge-shaped cells of entoderm and mesoderm. Thedistal surfaces of these cells bear microvilli which are underlainwith an electron-opaque layer composed of fine granular materialand fibrils. The dense layer and masses of vesicles proximalto it fill the necks of the cells. In flask cells borderingthe forming archenteron the vesicles are replaced by large vacuolessurrounded by layers of membranes. The cells lining the grooveare tightly joined at their distal ends in the region of thedense layer. Proximally, the cell bodies are separated by wideintercellular spaces. The cell body, which is migrating towardthe interior of the gastrula, contains the nucleus plus otherorganalles and inclusions common to amphibian gastrular cells.A dense layer of granular material, vesicles, and membraneslies beneath the surface of the cell body and extends into pseudopodium-likeprocesses and surface undulations which cross the intercellularspaces. A special mesodermal cell observed in the dorsal liningof the groove is smaller and denser than the surrounding presumptivechordamesodermal cells. A long finger of cytoplasm, filled witha dense layer, vesicles and membranes, extends from its distalsurface along the edge of the groove, ending in a tight interlockingwith another mesodermal cell. Some correlations between finestructure and the mechanics of gastrulation are discussed, anda theory of invagination is proposed, based on contraction andexpansion of the dense layer and the tight junctions at distalcell surfaces.

Submitted on February 10, 1964

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