Elongated microvilli support the sea urchin embryo concentrically within the perivitelline space until hatching

[1]  E. Spiegel,et al.  Extracellular matrix of sea urchin and other marine invertebrate embryos , 1989, Journal of morphology.

[2]  M. Spiegel,et al.  Protein composition of the hyaline layer of sea urchin embryos and reaggregating cells. , 1983, Cell differentiation.

[3]  N. Oshima MECHANICAL PROPERTIES OF PERIVITELLINE FIBERS OF SEA URCHIN EGGS AS STUDIED BY APPLICATION OF CENTRIFUGAL AND ELECTROPHORETIC FORCES , 1983 .

[4]  R D Allen,et al.  Video‐enhanced microscopy with a computer frame memory , 1983, Journal of microscopy.

[5]  D. McClay,et al.  Sea urchin hyalin: appearance and function in development. , 1982, Developmental biology.

[6]  N. Oshima Electrophoretic movement of fertilized sea-urchin eggs. , 1982, Journal of cell science.

[7]  E. Spiegel,et al.  The internal clock of reaggregating embryonic sea urchin cells , 1980 .

[8]  E. Spiegel,et al.  The hyaline layer is a collagen-containing extracellular matrix in sea urchin embryos and reaggregating cells. , 1979, Experimental cell research.

[9]  D. McClay,et al.  Separation of ectoderm and endoderm from sea urchin pluteus larvae and demonstration of germ layer-specific antigens. , 1979, Developmental biology.

[10]  R. Markwald,et al.  Morphologic recognition of complex carbohydrates in embryonic cardiac extracellular matrix. , 1979, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[11]  T. Aoyagi,et al.  Biochemical studies of the hatching process in sea urchin embryos. I. Effects of protease inhibitors , 1979 .

[12]  E. Spiegel,et al.  The morphology and specificity of cell adhesion of echinoderm embryonic cells. , 1978, Experimental cell research.

[13]  H. Hall Hardening of the sea urchin fertilization envelope by peroxidase-catalyzed phenolic coupling of tyrosines , 1978, Cell.

[14]  T. E. Schroeder,et al.  Microvilli on sea urchin eggs: a second burst of elongation. , 1978, Developmental biology.

[15]  E. Spiegel,et al.  Microvilli in sea urchin eggs. Differences in their formation and type. , 1977, Experimental cell research.

[16]  E. Spiegel,et al.  A scanning electron microscope study of early sea urchin reaggregation. , 1977, Experimental cell research.

[17]  Melvin Spiegel,et al.  The Reaggregation of Dissociated Embryonic Sea Urchin Cells , 1975 .

[18]  J. Luft Ruthenium red and violet. I. Chemistry, purification, methods of use for electron microscopy and mechanism of action , 1971, The Anatomical record.

[19]  W. Auclair,et al.  Cilia Regeneration in the Sea Urchin Embryo: Evidence for a Pool of Ciliary Proteins , 1966, Science.

[20]  L. Wolpert,et al.  An electron microscope study of the development of the blastula of the sea urchin embryo and its radial polarity. , 1963, Experimental cell research.

[21]  Y. Hiramoto Nature of the Perivitelline Space in Sea Urchin Eggs III.On the Mechanism of Membrane Elevation , 1955 .

[22]  C. Herbst über das Auseinandergehen von Furchungs- und Gewebezellen in kalkfreiem Medium , 1900, Archiv für Entwicklungsmechanik der Organismen.

[23]  E. Spiegel,et al.  Cell-cell interactions during sea urchin morphogenesis. , 1986, Developmental biology.

[24]  K. Okazaki Normal Development to Metamorphosis , 1975 .

[25]  J. Brachet,et al.  The sea urchin embryo : biochemistry and morphogenesis , 1975 .

[26]  K. Dan Cyto-embryology of echinoderms and amphibia. , 1960, International review of cytology.