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Bates, W. and Jeffery, W (1987). Localization of axial determinants in the vegetal pole region of ascidian eggs. Dev. Biol 124, 65-76.

Brownlee, C. and Dale, B (1990). Temporal and Spatial correlation of fertilization current, calcium waves and cytoplasmic contraction in eggs of Ciona intestinalis. Proc. R. Soc. Lond 239, 321-328.[Medline]

Cheer, A., Vincent, J., Nuccitelli, R. and Oster, G (1987). Cortical activity in vertebrate eggs. I: The activation waves. J. Theor. Biol 124, 377-404.[Medline]

Conklin, E (1905). Organ-forming substances in the eggs of ascidians. Biol. Bull 8, 205-230.[Free Full Text]

Conklin, E (1931). The development of centrifuged eggs of ascidians. J. Exp. Zool 60, 1-119.

Deshler, J., Highett, M. and Schnapp, B (1997). Localization of Xenopus Vg1 mRNA by Vera protein and the endoplasmic reticulum. Science 276, 1128-31.[Abstract/Free Full Text]

DiGregorio, A. and Levine, M (1998). Ascidian embryogenesis and the origins of the chordate body plan. Curr. opin. Gen. Dev 8, 457-463.[Medline]

Eddy, E (1975). Germ plasm and the differentiation of the germ cell line. Int. Rev. Cytol 43, 229-280.[Medline]

Elinson, R (1983). Cytoplasmic phases in the first cell cycle of the activated frog egg. Dev. Biol 100, 440-451.[Medline]

Fernandez, J., Roegiers, F., Cantillana, V. and Sardet, C (1998). Formation and localization of cytoplasmic domains in leech and ascidian zygotes. Int. J. Dev. Biol 42, 1075-1084.[Medline]

Gualtieri, R. and Sardet, C (1989). The endoplasmic reticulum network in the ascidian egg: localization and calcium content. Biol. Cell 65, 301-304.

Hara, K., Tydeman, P. and Kirschner, M (1980). A cytoplasmic clock with the same period as the division cycle in Xenopus eggs. Proc. Natl. Acad. Sci. USA 77, 462-466.[Abstract/Free Full Text]

Hibino, T., Nishikata, T. and Nishida, H (1998). Centrosome-attracting body: a novel structure closely related to unequal cleavages in the ascidian embryo. Dev. Growth Differ 40, 85-95.[Medline]

Hird, S. and White, J (1993). Cortical and cytoplasmic flow polarity in early embryonic cells of Caenorhabditis elegans. J. Cell Biol 121, 1343-1355.[Abstract/Free Full Text]

Houliston, E. and Elinson, R (1991). Patterns of microtubule polymerization relating to cortical rotation in Xenopus laevis eggs. Development 112, 107-117.[Abstract]

Houliston, E., Carre, D., Chang, P. and Sardet, C (1995). Cytoskeleton and ctenophore development. Curr. Top. Dev. Biol 31, 41-63.[Medline]

Houliston, E., Carre, D., Johnston, J. and Sardet, C (1993). Axis establishment and micrtotubule-mediated waves prior to first cleavage in Beroe ovata. Development 117, 75-87.[Abstract/Free Full Text]

Houliston, E., Guellec, R. L., Kress, M., Philippe, M. and Guellec, K. L (1994). The kinesin-related protein Eg5 associates with both interphase and spindle microtubules during Xenopus early development. Dev. Biol 164, 147-159.[Medline]

Iwamatsu, T (1998). Studies on fertilization in the teleost. I. dynamic responses of fertilized Medaka eggs. Develop. Growth Differ 40, 475-483.[Medline]

Jaffe, L. and Creton, R (1998). On the conservation of calcium wave speeds. Cell Calcium 24, 1-8.[Medline]

Jeffery, W (1990). Ultraviolet irradiation during ooplasmic segregation prevents gastrulation, sensory cell induction, and axis formation in the ascidian embryo. Dev. Biol 140, 388-400.[Medline]

Jeffery, W (1990). An ultraviolet-sensitive maternal mRNA encoding a cytoskeletal protein may be involved in axis formation in the ascidian embryo. Dev. Biol 141, 141-148.[Medline]

Jeffery, W (1995). Development and evolution of an egg cytoskeletal domain in ascidians. Curr. Top. Dev. Biol 31, 243-276.[Medline]

Jeffery, W. and Swalla, B (1990). The myoplasm of ascidian eggs: a localized cytoskeletal domain with multiple roles in embryonic development. Sem. Cell Biol 1, 373-381.[Medline]

Lutz, D. and Inoue, S (1986). Techniques for observing living gametes and embryos. Methods in Cell Biol 27, 89-110.[Medline]

McDougall, A. and Sardet, C (1995). Function and characteristics of repetitive calcium waves associated with meiosis. Curr. Biol 5, 318-328.[Medline]

McNeil, P. and Steinhardt, R (1997). Loss, restoration, and maintenance of plasma membrane integrity. J. Cell Biol 137, 390-393.

Meedel, T., Crowther, R. and Whittaker, J (1987). Determinative properties of muscle lineages in ascidian embryos. Development 100, 245-260.[Abstract/Free Full Text]

Nishida, H (1987). Cell lineage analysis in ascidian embryos by intracellular injection of a tracer enzyme lll. Up to tissue restricted stage. Dev. Biol 121, 526-541.[Medline]

Nishida, H (1992). Regionality of egg cytoplasm that promotes muscle differentiation in embryo of the ascidian, Halocynthia roretzi. Development 116, 521-529.[Abstract]

Nishida, H (1993). Localized regions of egg cytoplasm that promote expression of endoderm-specific alkaline phosphatase in embryos of the ascidian Halocynthia roretzi. Development 118, 1-7.[Abstract]

Nishida, H (1994). Localization of egg cytoplasm that promotes differentiation to epidermis in embryos of the ascidian, Halocynthia roretzi. Development 120, 235-243.[Abstract]

Nishida, H (1996). Vegetal egg cytoplasm promotes gastrulation and is responsible for specification of vegetal blastomeres in embryos of the ascidian Halocynthia roretzi. Development 122, 1271-1279.[Abstract]

Nishida, H (1997). Cell fate specification by localized cytoplasmic determinants and cell interactions in ascidian embryos. Inter. Rev. Cytol 176, 245-306.[Medline]

Nishida, H. and Satoh, N (1985). Cell lineage analysis in ascidian embryos by intracellular injection of a tracer enzyme ll. the 16 and 32 cell stages. Dev. Biol 110, 440-454.[Medline]

Rankin, S. and Kirschner, M (1997). The surface contraction waves of Xenopus eggs reflect the metachronous cell-cycle state of the cytoplasm. Curr. Biol 7, 451-454.[Medline]

Reverberi, G (1956). The mitochondrial pattern in the development of the ascidian egg. Experientia 12, 55-56.

Roegiers, F., McDougall, A. and Sardet, C (1995). The sperm entry point defines the orientation of the calcium-induced contraction wave that directs the first phase of cytoplasmic reorganization in the ascidian egg. Development 121, 3457-3466.[Abstract]

Russo, G., Kyozuka, K., Antonazzo, L., Tosti, E. and Dale, B (1996). Maturation promoting factor in ascidian oocytes is regulated by different intracellular signals at meiosis I and II. Development 122, 1995-2003.[Abstract]

Sardet, C., Speksnijder, J., Inoue, S. and Jaffe, L (1989). Fertilization and ooplasmic movements in the ascidian egg. Development 105, 237-249.[Abstract]

Sardet, C., Speksnijder, J., Terasaki, M. and Chang, P (1992). Polarity of the ascidian egg cortex before fertilization. Development 115, 221-237.[Abstract]

Sasakura, Y., Ogasawara, M. and Makabe, K (1998). HrWnt-5 : a maternally expressed ascidian Wnt gene with posterior localization in early embryos. Int. J. Dev. Biol 42, 573-579.[Medline]

Satoh, N. and Jeffery, W (1995). Chasing tails in ascidians: developmental insights into the origin and evolution of chordates. Trends Genet 11, 354-359.[Medline]

Satoh, N., Makabe, K., Katsuyama, Y., Wada, S. and Saiga, H (1996). The ascidian embryo: An experimental system for studying genetic circuitry for embryonic cell specification and morphogenesis. Dev. Growth Differ 38, 325-340.

Savage, R. and Danilchik, M (1993). Dynamics of germ plasm localization and its inhibition by ultraviolet irradiation in early cleavage Xenopus embryos. Dev. Biol 157, 371-382.[Medline]

Sawada, T (1988). The mechanism of ooplasmic segregation in the ascidian egg. Zool. Sci 5, 667-675.

Sawada, T. and Schatten, G (1988). Microtubules in ascidian eggs during meiosis, fertilization, and mitosis. Cell Motil. Cytoskel 9, 219-230.[Medline]

Sawada, T. and Schatten, G (1989). Effects of cytoskeletal inhibitors on ooplasmic segregation and microtubule organization during fertilization and early development in the ascidian Molgula occidentalis. Dev. Biol 132, 331-342.[Medline]

Shinagawa, A., Konno, S., Yoshimoto, Y. and Hiramoto, Y (1989). Nuclear involvement in localisation of the intiation site of surface contraction waves in Xenopus eggs. Dev. Growth Differ 31, 249-255.

Speksnijder, J., Corson, D., Sardet, C. and Jaffe, L (1989). Free calcium pulses following fertilization in the ascidian egg. Dev. Biol 135, 182-190.[Medline]

Speksnijder, J., Jaffe, L. and Sardet, C (1989). Polarity of sperm entry in the ascidian egg. Dev. Biol 133, 180-184.[Medline]

Speksnijder, J., Sardet, C. and Jaffe, L (1990). The activation wave of calcium in the ascidian egg and its role in ooplasmic segregation. J. Cell. Biol 110, 1589-1598.[Abstract/Free Full Text]

Speksnijder, J., Sardet, C. and Jaffe, L (1990). Periodic calcium waves cross ascidian eggs after fertilization. Dev. Biol 142, 246-249.[Medline]

Speksnijder, J., Terasaki, M., Hage, W., Jaffe, L. and Sardet, C (1993). Polarity and reorganization of the endoplasmic reticulum during fertilization and ooplasmic segregation in the ascidian egg. J. Cell Biol 120, 1337-1346.[Abstract/Free Full Text]

Stricker, S., Silva, R. and Smythe, T (1998). Calcium and endoplasmic reticulum dynamics during oocyte maturation and fertilization in the marine worm Cerebratulus lacteus. Dev. Biol 203, 305-322.[Medline]

Swalla, B., Badgett, M. and Jeffery, W (1991). Identification of a cytoskeletal protein localized in the myoplasm of ascidian eggs: localization is modified during anural development. Development 111, 425-436.[Abstract]

Terasaki, M (1996). Actin filament translocations in sea urchin eggs. Cell Motil. Cytoskel 34, 48-56.[Medline]

Terasaki, M., Miyake, K. and McNeil, P (1997). Large plasma membrane disruptions are rapidly resealed by Ca2+-dependent vesicle-vesicle fusion events. J. Cell Biol 139, 63-74.[Abstract/Free Full Text]

Venuti, J. and Jeffery, W (1989). Cell Lineage and determination of cell fate in ascidian embryos. Int. J. Dev. Biol 33, 197-212.[Medline]

White, J. and Strome, S (1996). Cleavage plane specification in C. elegans: how to divide the spoils. Cell 84, 195-198.[Medline]

Whittaker, J (1973). Segregation during ascidian embryogenesis of egg cytoplasmic information for tissue specific enzyme development. Proc. Natl. Acad. Sci. USA 79, 2927-2931.

Whittaker, J (1977). Segregation during cleavage of a factor determining endodermal alkaline phosphatase development in ascidian embryos. J. Exp. Zool 202, 139-153.[Medline]

Yoshida, M., Sensui, N., Inoue, T., Morisawa, M. and Mikoshiba, K (1998). Role of two series of Ca2+ oscillations in activation of ascidian eggs. Dev. Biol 203, 122-133.[Medline]

Yoshida, S., Marikawa, Y. and Satoh, N (1996). Posterior end mark, a novel maternal gene encoding a localized factor in the ascidian embryo. Development 122, 2005-2012.[Abstract]

Yoshida, S., Satou, Y. and Satoh, N (1997). Maternal genes with localized mRNA and pattern formation of the ascidian embryo. Cold Spring Harbor Symp. Quant. Biol 62, 89-96.[Abstract/Free Full Text]

Zalokar, M (1980). Activation of ascidian eggs with lectins. Dev. Biol 79, 232-237.[Medline]

Zalokar, M. and Sardet, C (1984). Tracing of cell lineage in embryonic development of Phallusia mammillata (Ascidia) by vital stainning of mitochondria. Dev. Biol 102, 195-205.[Medline]
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