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ver080319 【原著】 (1) The immune system is involved in Xenopus metamorphosis Yumi Izutsu Front. Biosci., 2009 14:141-149. (2) Involvement of AP-2rep in morphogenesis of the axial mesoderm in Xenopus embryo. Saito Y, Gotoh M, Ujiie Y, Izutsu Y, Maéno M. Cell Tissue Res. 2009 335(2):357-69. (3) A role of D domain-related proteins in differentiation and migration of embryonic cells in Xenopus laevis. Shibata T, Takahashi Y, Tasaki J, Saito Y, Izutsu Y, Maéno M. Mech Dev. 2008 125(3-4):284-98. (4) Tashiro, S., Izutsu, Y., Sedohara, A., Asashima, M., & Maéno, M. Characterization of myeloid cells derived from the anterior ventral mesoderm in the Xenopus laevis embryo Dev. Growth Differ., 48:499-512 (2006). (5) Takeda, M., Kurauchi, T., Yamazaki, T., Izutsu, Y., & Maéno, M. Neptune is involved in posterior axis and tail formation in Xenopus embryogenesis. Dev. Dyn., 234, 63-73 (2005). (6) Sanada, T. , Park, M. J., Araki, A., Gotoh, M., Izutsu, Y., & Maéno, M. A BMP-4-dependent transcriptional control element in the 5' flanking region of Xenopus SCL gene. Biochem. Biophys. Res. Commun., 310: 1160-1167 (2003) (7) Gotoh, M., Izutsu, Y., & Maéno, M. Complementary expression of AP-2 and AP-2rep in ectodermal derivatives of Xenopus embryos. Dev. Genes Evol., 213:363-367 (2003). (8) Watanabe, M., Ohshima, M., Morohashi, M., Maéno, M., & Izutsu, Y. Ontogenic emergence and localization of larval skin antigen molecule recognized by adult T cells of Xenopus laevis : its regulation by thyroid hormone during metamorphosis. Dev. Growth Differ., 45:77-84 (2003). (9) Izutsu, Y., Tochinai, S., Maéno, M., Iwabuchi, K., & Onoé, K. Larval antigen molecules recognized by adult immune cells of inbred Xenopus laevis; partial characterization and implication in metamorphosis. Dev. Growth Differ., 44:477-488 (2002). (10) Iraha, F., Saito, Y., Yoshida, K., Kawakami, M., Izutsu, Y., Daar, I. O., & Maéno, M. Common and distinct signals specify the distribution of blood and vascular cell lineages in Xenopus laevis embryos. Dev. Growth Differ., 44: 395-407 (2002). (11) Kikkawa, M., Yamazaki, M., Izutsu, Y., & Maéno, M. Two-step induction of primitive erythrocytes in Xenopus laevis embryos: signals from the vegetal endoderm and the overlying ectoderm. Int. J. Dev. Biol., 45:387-396 (2001). (12) Izutsu, Y., Tochinai, S., & Onoé, K. Loss of reactivity to pan-cadherin antibody in epidermal cells as a marker for metamorphic alteration of Xenopus skin. Dev. Growth Differ., 42: 377-383 (2000). (13) Izutsu, Y., Tochinai, S., Iwabuchi, K., & Onoé, K. Larval antigen molecules recognized by adult immune cells of inbred Xenopus laevis; two pathways for recognition by adult splenic T cells. Dev. Biol., 221; 365-374 (2000). (14) Izutsu, Y., Yoshizato, K., & Tochinai, S. Adult-type splenocytes of Xenopus induce apoptosis of histocompatible larval tail cells in vitro. Differentiation, 60; 277-286 (1996). (15) Izutsu, Y., & Yoshizato, K. Metamorphosis-dependent recognition of larval skin as non-self by inbred adult frog (Xenopus laevis). J. Exp. Zool., 266; 163-167 (1993). (16) Izutsu, Y., Kaiho, K., & Yoshizato, K. Differential distribution of epidermal basal cells in the anuran larval skin correlates with the skin's region-specific fate at metamorphosis. J. Exp. Zool., 267; 605-615 (1993). (17) Yoshizato, K., Nishikawa, A., Izutsu, Y., & Kaiho, K. Epidermal cells of the tail of an anuran larva are competent to transform into the adult-type cells. Zool. Sci., 10; 183-187 (1993). 【総説・著書】 (1) 井筒ゆみ 「免疫学的な観点から見るツメガエルの発生」 ISI News letter、 (2009) in press. (2) 井筒ゆみ 「おたまじゃくしの尾はなぜ消える?/免疫学の視点から」 ミクロスコピア、 23;15-21(2006) (3) Izutsu, Y., & Maeno, M. Analyses of immune responses to ontogeny-specific antigens using an inbred strain of Xenopus laevis (J strain). Methods Mol. Med., 105; 149-158 (2005). (4) 井筒ゆみ 「近交系アフリカツメガエルを用いた発生段階特異的な抗原の検出法と組織リ モデリングへのアプローチ」 遺伝子医学別冊; 44-49(2003). (5) 吉里勝利・井筒ゆみ 「幼生組織の成体組織への変態過程における幼生細胞の死と存続」 Cell Science, vol.8, No. 10; 644-651 (1992).