SEARCH

SEARCH BY CITATION

References

  • 1
    Abbott, D. P., 1953. Asexual reproduction in the colonial ascidian Metandrocarpa taylori Huntsman. Univ. Calif. Publ. Zool., 61, 178.
  • 2
    Akam, M., 1987. The molecular basis for metameric pattern in the Drosophila embryo. Development, 101, 122.
  • 3
    Baguñà, J., 1981. Planarian neoblasts. Nature, 290, 1415.
  • 4
    Baguñà, J., E. Saló and C. Auladell, 1989. Regeneration and pattern formation in planarians. III. Evidence that neoblasts are totipotent stem cells and the source of blastema cells. Development, 107, 7786.
  • 5
    Berrill, N. J., 1940. The development of a colonial organism: Symplegma viride. Biol. Bull., 79, 272281.
  • 6
    Berrill, N. J., 1941. The development of the bud in Botryllus. Biol. Bull., 80, 169184.
  • 7
    Berrill, N. J., 1947. The developmental cycle of Botrylloides. Quart. J. Microsc. Sci., 88, 393407.
  • 8
    Berrill, N. J., 1950. The Tunicata, with an Account of the British Species. Ray Society, London .
  • 9
    Berrill, N. J., 1951. Regeneration and budding in tunicates. Biol. Rev., 26, 451475.
  • 10
    Bode, H. R. and C. N. David, 1978. Regulation of a multipotent stem cell, the interstitial cell of hydra. Prog. Biophys. Mol. Biol., 33, 189206.
  • 11
    Bode, H., J. Dunne, S. Heimfeld, L. Huang and L. Javois, 1986. Transdifferentiation occurs continuously in adult hydra. Curr. Top. Dev. Biol., 20, 257280.
  • 12
    Brien, P. and E. Brien-Gavage, 1927. Contribution à l'étude de la blastogénèse des tuniciers. IV. Recherches. sur le bourgeonnement de Perophora listeri Weigm. (origine mésoblastique du septum stolonial). Rec. Inst. Zool. Torley-Rousseau, 1, 123152.
  • 13
    David, C. N. and A. Gierer, 1974. Cell cycle kinetics and development of Hydra attenuata. III. Nerve and nematocyte differentiation. J. Cell Sci., 16, 359375.
  • 14
    Dubois, F., 1949. Contribution à l'étude de la régénération chez planaires dulcicoles. Bull. Biol. Fr. Belg., 83, 213288.
  • 15
    Freeman, G., 1964. The role of blood cells in the process of asexual reproduction in the tunicate Perophora viridis. J. Exp. Zool., 156, 157184.
  • 16
    Gabriel, A., 1970. Etude morphologique et évolution biochimique des néoblastes au cours des premières phases de la régénération des planaires d'eau douce. Ann. Embryol. et Morphogen., 3, 4969.
  • 17
    Galfré, G., S. C. Howe, C. Milstein, G. W. Butcher and J. C. Howard, 1977. Antibodies to major histocompatibility antigens produced by hybrid cell lines. Nature, 266, 550552.
  • 18
    Gremigni, V. and C. Miceli, 1980. Cytophotometric evidence for cell ‘transdifferentiation’ in planarian regeneration. Roux's Arch. Dev. Biol., 188, 107113.
  • 19
    Ingham, P. W., 1988. The molecular genetics of embryonic pattern formation in Drosophila. Nature, 335, 2534.
  • 20
    Izzard, C. S., 1973. Development of polarity and bilateral asymmetry in the palleal bud of Botryllus schlosseri (Pallas). J. Morphol., 139, 126.
  • 21
    Kawamura, K. and M. Nakauchi, 1984. Changes of the atrial epithelium during the development of anteroposterior organization in palleal buds of the polystyelid ascidian, Polyandrocarpa misakiensis. (Ser. D). Mem. Fac. Sci. Kochi, Univ., 5, 1535.
  • 22
    Kawamura, K. and M. Nakauchi, 1986. Mitosis and body patterning during morphallactic development of palleal buds in ascidians. Develop. Biol., 116, 3950.
  • 23
    Kawamura, K. and M. Nakauchi, 1991a. Homeostatic integration of stem cell dynamics during palleal budding of ascidians. Zool. Sci., 8, 1122.
  • 24
    Kawamura, K. and M. Nakauchi, 1991b. The effect of aphidicolin on morphogenesis of epithelial stem cells during budding in ascidians. Mem. Fac. Sci. Kochi Univ., 12 (Ser. D), 6165.
  • 25
    Kawamura, K., S. Ohkawa, H. Michibata and M. Nakauchi, 1988. Autoradiographic studies on cell population kinetics in epithelial and haematopoietic stem cell lines in the process of palleal budding of ascidians. Mem. Fac. Sci. Kochi Univ., 9 (Ser. D), 112.
  • 26
    Kawamura, K., S. Fujiwara and Y. M. Sugino, 1991. Budding-specific lectin induced in epithelial cells is an extracellular matrix component for stem cell aggregation in tunicates. Development, 113, 9951005.
  • 27
    Kawamura, K. and H. Watanabe, 1982. Localized morphogenetic activity in the palleal bud of a polystyelid ascidian. Polyandrocarpa misakiensis. I. A histological study. Mem. Fac. Sci. Kochi Univ., 3 (Ser. D), 5569.
  • 28
    Kowalevsky, A. O., 1874. Sur le bourgeonnement du Perophora listeri Weigm. Rev. Sci. Nat. Montpell., 3, 213235.
  • 29
    Lefèvre, G., 1898. Budding in Perophora. J. Morphol., 14, 367424.
  • 30
    Lender, T. H., 1962. Factors in morphogenesis of regenerating fresh-water planaria. In Advances in Morphogenesis. Vol. 2 (Eds. M.Abercrombie and J.Brachet), pp. 305331. Academic Press, London .
  • 31
    Littlefield, J. W., 1964. Selection of hybrids from matings of fibroblasts in vitro and their presumed recombinants. Science, 145, 709710.
  • 32
    Nakauchi, M., 1966. Regeneration in the zooid of Polycitor mutabilis (a compound ascidian). Sci. Rep. Tokyo Kyoiku Daigaku. (Sec. B), 12, 151189.
  • 33
    Nakauchi, M., 1982. Asexual development of ascidians: its biological significance, diversity, and morphogenesis. Amer. Zool., 22, 753763.
  • 34
    Nakauchi, M. and K. Kawamura, 1990. Problems on the asexual reproduction of ascidians. Advances in invertebrate Reproduction, 5, 4954.
  • 35
    New, H. V., G. Howes and J. C. Smith, 1991. Inductive interactions in early embryonic development. Curr. Op. Genet. Dev., 1, 196203.
  • 36
    Okada, T. S., 1983. Recent progress in studies of the transdifferentiation of eye tissue in vitro. Cell Differ., 13, 177183.
  • 37
    Okada, T. S. and H. Kondoh, (Vol. Ed.) 1986. Commitment and Instability in Differentiation. Curr. Top. Dev. Biol., 20.
  • 38
    Pritchard, D. J., R. M. Clayton and D. I. de Pomerai, 1978. “Transdifferentiation” of chicken neural retina into lens and pigment epithelium in culture: controlling influences. J. Embryol. exp. Morph., 48, 121.
  • 39
    Schmid, V. and H. Alder, 1984. Isolated mononucleated, striated muscle can undergo pluripotent transdifferentiation and form a complex regenerate. Cell, 38, 801809.
  • 40
    Schmid, V., M. Wydler and H. Alder, 1982. Transdifferentiation and regeneration in vitro. Develop. Biol., 92, 476488.
  • 41
    Scott, S. F. M., 1952. The developmental history of Amaroucium constellatum. III. Metamorphosis. Biol. Bull., 103, 226241.
  • 42
    Selman, K. and F. C. Kafatos, 1974. Transdifferentiation in the labial gland of silk moth: Is DNA required for cellular metamorphosis. Cell Differ., 3, 8194.
  • 43
    Slack, J. M. W., 1980. The source of cells for regeneration. Nature, 288, 760.
  • 44
    Suzuki, T., T. Takagi, T. Furukohri, K. Kawamura and M. Nakauchi, 1990. A calcium-dependent galactose-binding lectin from the tunicate Polyandrocarpa misakiensis. J. Biol. Chem., 265, 12741281.
  • 45
    Wright, R. K., 1981. Urochordates. In Invertebrate Blood Cells. Vol. 2 (Eds. N. A.Ratcliffe and A. F.Rowley), pp. 565626. Academic Press, London .
  • 46
    Zamboni, L. and C. de Martino, 1967. Buffered picric acid-formaldehyde: A new, rapid fixative for electron microscopy. J. Cell Biol., 35, 148A.