- 1) Satoh, S., Kamada, H., Harada, H., and Fujii, T., Auxin-controlled glycoprotein release into the medium of embryogenic carrot cells. Plant Physiol., 81, 931-933 (1986).
- 2) Sung, Z. R. and R. Okimoto, R., Embryogenic proteins in somatic embryos of carrot. Proc. Natl. Acad. Sci. U.S.A., 78, 3683-3687 (1981).
- 3) Sung, Z. R., Coordinate gene expression during somatic embryogenesis in carrot. Proc. Natl. Acad. Sci. U.S.A., 80, 2661-2665 (1983).
- 4) Van Engelen, F. A. and De Vries, S.C., Extracellular proteins in plant embryogenesis. Trends Genet., 8, 66-70 (1992).
- 5) Zimmerman, J. L., Apuya, N., Darwish, K., and O’Carroll, C., Novel regulation of heat shock genes during carrot somatic embryo development. Plant Cell, 1, 1137-1146 (1989).
- 6) Zimmerman, J. L., Somatic embryogenesis: a model for early development in higher plants. Plant Cell, 5, 1411-1423 (1993).
- 7) Choi, J. H. and Sung, Z. R., Two-dimensional gel analysis of carrot somatic embryogenic proteins. Plant Mol. Biol. Reports, 2, 19-25 (1984).
- 8) Choi, J. H., Lui, L. S., Borkird, C., and Sung, Z. R., Cloning of genes developmentally regulated during plant embryogenesis. Proc. Natl. Acad. Sci. U.S.A., 84, 1906-1910 (1987).
- 9) Dudits, D., Bogre, L., and Gyorgyey, J., Molecular and cellular approaches to the analysis of plant embryo development from somatic cells in vitro. J. Cell Sci., 99, 475-484 (1991).
- 10) De Vries, S. C., Booij, H., Janssen, R., Vogels, R., Saris, L., Lo Schiavo, F., Terzi, M., and Van Kammen, A., Carrot somatic embryogenesis depends on the phytohormone-controlled expression of correctly glycosylated extracellular proteins. Genes Dev., 2, 462-476 (1988).
- 11) Halperin, W., Alternative morphogenetic events in cell suspensions. Amer. J. Bot., 53, 443-453 (1966).
- 12) Nomura, K., and Komamine, A., Identification and isolation of single cells that produce somatic embryos at a high frequency in a carrot suspension culture. Plant Physiol., 79, 988-991 (1985).
- 13) De Vries, S. C., Booij, H., Meyerink, P., Huisman, G., Wilde, H. D., Thomas, T. L., and Van Kammen, A., Acquisition of embryogenic potential in carrot cell-suspension culture. Planta, 176, 196-204 (1988).
- 14) Masuda, H., Oohashi, S., Tokuji, Y., and Mizue, Y., Direct embryo formation from epidermal cells of carrot hypocotyls. J. Plant Physiol., 145, 531-534 (1995).
- 15) Masuda H. and Tokuji Y., Observation of early stage of somatic embryogenesis from epidermal cells of carrot hypocotyls by scanning electron microscopy. Biosci. Biotech. Biochem., 60, 598-602 (1996).
- 16) Murashige, T. and Skoog, F., A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant., 15, 473-497 (1962).
- 17) Kato, H., The serial observation of the adventive embryogenesis in the microculture of carrot tissue. Sci. Pap. Coll. Gen. Educ. Univ. Tokyo, 18, 191-197 (1968).
- 18) Husemann, D. B. and Reinert J., Embryo formation by isolated single cells from tissue cultures of Daucus carota. Protoplasma, 70, 49-60 (1970).
- 19) Thomas, E., Konar, R. N., and Street, H. E., The fine structure of the embryogenic callus of Ranunculus scleratus L. J. Cell Sci., 11, 95-109 (1972).
- 20) Street, H. E. and Withers, L. A., The anatomy of embryogenesis in culture. In Tissue Culture and Plant Science, 1974, ed. H. E. Street, pp. 71-100 London:Academic Press.
- 21) McWilliam, A. A., Smith, S. M., and Street, H. E., The origin and development of embryoids in suspension cultures of carrot (Daucus carota). Ann. Bot., 38, 243-250 (1974).
- 22) Brisibe, E. A., Nishioka, D., Miyake, H., Taniguchi T., and Maeda, E., Developmental electron microscopy and histochemistry of somatic embryo differentiation in sugarcane. Plant Science, 89, 85-92 (1993).
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Rapid and Frequent Somatic Embryogenesis from Single Cells of Regenerated Carrot Plantlets
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