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Summary Anatomy Item Literature (271) Expression Attributions Wiki
ECB-ANAT-257

Papers associated with archenteron

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Determination and morphogenesis in the sea urchin embryo., Wilt FH., Development. August 1, 1987; 100 (4): 559-76.

Archenteron elongation in the sea urchin embryo is a microtubule-independent process., Hardin JD., Dev Biol. May 1, 1987; 121 (1): 253-62.

Cell behaviour during active cell rearrangement: evidence and speculations., Keller R., J Cell Sci Suppl. January 1, 1987; 8 369-93.

Ultrastructural aspects of mouth formation in the starfish Pisaster ochraceus., Abed M., J Morphol. May 1, 1986; 188 (2): 239-250.

Sequential expression of germ-layer specific molecules in the sea urchin embryo., Wessel GM., Dev Biol. October 1, 1985; 111 (2): 451-63.

The origin of pigment cells in embryos of the sea urchin Strongylocentrotus purpuratus., Gibson AW., Dev Biol. February 1, 1985; 107 (2): 414-9.

Allocation of mesendodermal cells during early embryogenesis in the starfish, Asterina pectinifera., Kominami T., J Embryol Exp Morphol. December 1, 1984; 84 177-90.

Sulfated glycan present in the EDTA extract of Hemicentrotus embryos (mid-gastrula)., Akasaka K., Exp Cell Res. June 1, 1983; 146 (1): 177-85.

The role of the basal lamina in mouth formation in the embryo of the starfish Pisaster ochraceus., Crawford B., J Morphol. May 1, 1983; 176 (2): 235-246.

Inhibition of archenteron formation by the inhibitors of prolyl hydroxylase in sea urchin embryos., Mizoguchi H., Cell Differ. April 1, 1983; 12 (4): 225-31.

Glycoprotein synthesis and embryonic development., Lennarz WJ., CRC Crit Rev Biochem. January 1, 1983; 14 (4): 257-72.

Electron microscopy of extracellular materials during the development of a sea star, Patiria miniata (Echinodermata: Asteroidea)., Cameron RA., Cell Tissue Res. January 1, 1983; 234 (1): 193-200.

Degeneration of archenteron in sea urchin embryos caused by alpha,alpha''-dipyridyl., Mizoguchi H., Differentiation. January 1, 1983; 25 (2): 106-12.

Archenteron formation induced by ascorbate and alpha-ketoglutarate in sea urchin embryos kept in SO2- 4 -free artificial seawater., Mizoguchi H., Dev Biol. September 1, 1982; 93 (1): 119-25.

Archenteron cells are responsible for the increase in ribosomal RNA synthesis in sea urchin gastrulae., Roccheri MC., Cell Biol Int Rep. December 1, 1979; 3 (9): 733-7.

Coelomic pouch formation in the starfish Pisaster ochraceus (Echinodermata: Asteroidea)., Crawford BJ., J Morphol. July 1, 1978; 157 (1): 99-119.

Action of crude and fractioned homogenates of the midgut gland of the sea hare Aplysia brasiliana Rang, 1828 on some cholinoceptive structures., de Freitas JC., Comp Biochem Physiol C. January 1, 1977; 56 (1): 57-61.

3H-amino acid uptake and incorporation in sea urchin gastrulae and exogastrulae: an autoradiographic study., Karp GC., J Exp Zool. December 1, 1975; 194 (3): 535-45.

[Localization of cholinesterase-Activity during gastrulation of the sea urchin embryo]., Kocher-Becker U., Wilehm Roux Arch Dev Biol. June 1, 1975; 178 (2): 157-165.

Cholinesterase in embryonic development., Drews U., Prog Histochem Cytochem. January 1, 1975; 7 (3): 1-52.

Reduction of the archenteron in sea urchin larvae without typical animalization., Hörstadius S., Exp Cell Res. May 1, 1972; 72 (1): 140-4.

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