永樂 元次

Last Update: 2019/10/01 11:36:40

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Name(Kanji/Kana/Abecedarium Latinum)
永樂 元次/エイラク モトツグ/Eiraku, Mototsugu
Primary Affiliation(Org1/Job title)
Institute for Frontier Life and Medical Sciences/Professor
Affiliated programs (koza)
Org1 Job title
Graduate Schools Engineering Professor
Academic Degree
Field(Japanese) Field(English) University(Japanese) University(English) Method
修士(理学) 京都大学
博士(理学) 京都大学
researchmap URL
https://researchmap.jp/eiraku333
Published Papers
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Bibliography Bibliography(Japanese) Bibliography(English) Publication date Refereed paper Language Publishing type Disclose
Seto Y, Eiraku M. Seto Y, Eiraku M. Seto Y, Eiraku M. Toward the formation of neural circuits in human brain organoids. Toward the formation of neural circuits in human brain organoids. Toward the formation of neural circuits in human brain organoids. Curr Opin Cell Biol., 61, 86-91 Curr Opin Cell Biol., 61, 86-91 Curr Opin Cell Biol., 61, 86-91 2019/08 Refereed English Research paper(scientific journal) Disclose to all
Mori S, Sakakura E, Tsunekawa Y, Hagiwara M, Suzuki T, Eiraku M. Mori S, Sakakura E, Tsunekawa Y, Hagiwara M, Suzuki T, Eiraku M. Mori S, Sakakura E, Tsunekawa Y, Hagiwara M, Suzuki T, Eiraku M. Self-organized formation of developing appendages from murine pluripotent stem cells. Self-organized formation of developing appendages from murine pluripotent stem cells. Self-organized formation of developing appendages from murine pluripotent stem cells. Nat Commun., 10, 2, 4802 Nat Commun., 10, 2, 4802 Nat Commun., 10, 2, 4802 2019/08 Refereed English Research paper(scientific journal) Disclose to all
Seto Y, Eiraku M. Seto Y, Eiraku M. Seto Y, Eiraku M. Human brain development and its in vitro recapitulation. Human brain development and its in vitro recapitulation. Human brain development and its in vitro recapitulation. Neurosci Res., 138, 33-42 Neurosci Res., 138, 33-42 Neurosci Res., 138, 33-42 2019/01 Refereed English Research paper(scientific journal) Disclose to all
Tu HY, Watanabe T, Shirai H, Yamasaki S, Kinoshita M, Matsushita K, Hashiguchi T, Onoe H, Matsuyama T, Kuwahara A, Kishino A, Kimura T, Eiraku M, Suzuma K, Kitaoka T, Takahashi M, Mandai M. Tu HY, Watanabe T, Shirai H, Yamasaki S, Kinoshita M, Matsushita K, Hashiguchi T, Onoe H, Matsuyama T, Kuwahara A, Kishino A, Kimura T, Eiraku M, Suzuma K, Kitaoka T, Takahashi M, Mandai M. Tu HY, Watanabe T, Shirai H, Yamasaki S, Kinoshita M, Matsushita K, Hashiguchi T, Onoe H, Matsuyama T, Kuwahara A, Kishino A, Kimura T, Eiraku M, Suzuma K, Kitaoka T, Takahashi M, Mandai M. Medium- to long-term survival and functional examination of human iPSC-derived retinas in rat and primate models of retinal degeneration. Medium- to long-term survival and functional examination of human iPSC-derived retinas in rat and primate models of retinal degeneration. Medium- to long-term survival and functional examination of human iPSC-derived retinas in rat and primate models of retinal degeneration. EBioMedicine, 39, 562-574 EBioMedicine, 39, 562-574 EBioMedicine, 39, 562-574 2019/01 Refereed English Research paper(scientific journal) Disclose to all
Okuda S, Takata N, Hasegawa Y, Kawada M, Inoue Y, Adachi T, Sasai Y, Eiraku M. Okuda S, Takata N, Hasegawa Y, Kawada M, Inoue Y, Adachi T, Sasai Y, Eiraku M. Okuda S, Takata N, Hasegawa Y, Kawada M, Inoue Y, Adachi T, Sasai Y, Eiraku M. Strain-triggered mechanical feedback in self-organizing optic-cup morphogenesis. Strain-triggered mechanical feedback in self-organizing optic-cup morphogenesis. Strain-triggered mechanical feedback in self-organizing optic-cup morphogenesis. Sci.Adv.4, 4, 11, eaau1354 Sci.Adv., 4, 11, eaau1354 Sci.Adv.4, 4, 11, eaau1354 2018/11 Refereed English Research paper(scientific journal) Disclose to all
Okuda S, Miura T, Inoue Y, Adachi T, Eiraku M Okuda S, Miura T, Inoue Y, Adachi T, Eiraku M Okuda S, Miura T, Inoue Y, Adachi T, Eiraku M Publisher Correction: Combining Turing and 3D vertex models reproduces autonomous multicellular morphogenesis with undulation, tubulation, and branching. Publisher Correction: Combining Turing and 3D vertex models reproduces autonomous multicellular morphogenesis with undulation, tubulation, and branching. Publisher Correction: Combining Turing and 3D vertex models reproduces autonomous multicellular morphogenesis with undulation, tubulation, and branching. Scientific reports, 8, 1, 8522 Scientific reports, 8, 1, 8522 Scientific reports, 8, 1, 8522 2018/06 Refereed Disclose to all
Iraha S, Tu HY, Yamasaki S, Kagawa T, Goto M, Takahashi R, Watanabe T, Sugita S, Yonemura S, Sunagawa GA, Matsuyama T, Fujii M, Kuwahara A, Kishino A, Koide N, Eiraku M, Tanihara H, Takahashi M, Mandai M Iraha S, Tu HY, Yamasaki S, Kagawa T, Goto M, Takahashi R, Watanabe T, Sugita S, Yonemura S, Sunagawa GA, Matsuyama T, Fujii M, Kuwahara A, Kishino A, Koide N, Eiraku M, Tanihara H, Takahashi M, Mandai M Iraha S, Tu HY, Yamasaki S, Kagawa T, Goto M, Takahashi R, Watanabe T, Sugita S, Yonemura S, Sunagawa GA, Matsuyama T, Fujii M, Kuwahara A, Kishino A, Koide N, Eiraku M, Tanihara H, Takahashi M, Mandai M Establishment of Immunodeficient Retinal Degeneration Model Mice and Functional Maturation of Human ESC-Derived Retinal Sheets after Transplantation. Establishment of Immunodeficient Retinal Degeneration Model Mice and Functional Maturation of Human ESC-Derived Retinal Sheets after Transplantation. Establishment of Immunodeficient Retinal Degeneration Model Mice and Functional Maturation of Human ESC-Derived Retinal Sheets after Transplantation. Stem cell reports, 10, 3, 1059-1074 Stem cell reports, 10, 3, 1059-1074 Stem cell reports, 10, 3, 1059-1074 2018/03 Refereed Disclose to all
Okuda S, Miura T, Inoue Y, Adachi T, Eiraku M Okuda S, Miura T, Inoue Y, Adachi T, Eiraku M Okuda S, Miura T, Inoue Y, Adachi T, Eiraku M Combining Turing and 3D vertex models reproduces autonomous multicellular morphogenesis with undulation, tubulation, and branching. Combining Turing and 3D vertex models reproduces autonomous multicellular morphogenesis with undulation, tubulation, and branching. Combining Turing and 3D vertex models reproduces autonomous multicellular morphogenesis with undulation, tubulation, and branching. Scientific reports, 8, 1, 2386 Scientific reports, 8, 1, 2386 Scientific reports, 8, 1, 2386 2018/02 Refereed Disclose to all
Takata N, Eiraku M Takata N, Eiraku M Takata N, Eiraku M Stem cells and genome editing: approaches to tissue regeneration and regenerative medicine. Stem cells and genome editing: approaches to tissue regeneration and regenerative medicine. Stem cells and genome editing: approaches to tissue regeneration and regenerative medicine. Journal of human genetics, 63, 2, 165-178 Journal of human genetics, 63, 2, 165-178 Journal of human genetics, 63, 2, 165-178 2018/02 Refereed Disclose to all
Takata N, Abbey D, Fiore L, Acosta S, Feng R, Gil HJ, Lavado A, Geng X, Interiano A, Neale G, Eiraku M, Sasai Y, Oliver G Takata N, Abbey D, Fiore L, Acosta S, Feng R, Gil HJ, Lavado A, Geng X, Interiano A, Neale G, Eiraku M, Sasai Y, Oliver G Takata N, Abbey D, Fiore L, Acosta S, Feng R, Gil HJ, Lavado A, Geng X, Interiano A, Neale G, Eiraku M, Sasai Y, Oliver G An Eye Organoid Approach Identifies Six3 Suppression of R-spondin 2 as a Critical Step in Mouse Neuroretina Differentiation. An Eye Organoid Approach Identifies Six3 Suppression of R-spondin 2 as a Critical Step in Mouse Neuroretina Differentiation. An Eye Organoid Approach Identifies Six3 Suppression of R-spondin 2 as a Critical Step in Mouse Neuroretina Differentiation. Cell reports, 21, 6, 1534-1549 Cell reports, 21, 6, 1534-1549 Cell reports, 21, 6, 1534-1549 2017/11 Refereed Disclose to all
Takata N, Sakakura E, Eiraku M, Kasukawa T, Sasai Y Takata N, Sakakura E, Eiraku M, Kasukawa T, Sasai Y Takata N, Sakakura E, Eiraku M, Kasukawa T, Sasai Y Self-patterning of rostral-caudal neuroectoderm requires dual role of Fgf signaling for localized Wnt antagonism. Self-patterning of rostral-caudal neuroectoderm requires dual role of Fgf signaling for localized Wnt antagonism. Self-patterning of rostral-caudal neuroectoderm requires dual role of Fgf signaling for localized Wnt antagonism. Nature communications, 8, 1, 1339 Nature communications, 8, 1, 1339 Nature communications, 8, 1, 1339 2017/11 Refereed Disclose to all
Okuda S, Eiraku M Okuda S, Eiraku M Okuda S, Eiraku M Role of molecular turnover in dynamic deformation of a three-dimensional cellular membrane. Role of molecular turnover in dynamic deformation of a three-dimensional cellular membrane. Role of molecular turnover in dynamic deformation of a three-dimensional cellular membrane. Biomechanics and modeling in mechanobiology, 16, 5, 1805-1818 Biomechanics and modeling in mechanobiology, 16, 5, 1805-1818 Biomechanics and modeling in mechanobiology, 16, 5, 1805-1818 2017/10 Refereed Disclose to all
Ohgushi M, Minaguchi M, Eiraku M, Sasai Y Ohgushi M, Minaguchi M, Eiraku M, Sasai Y Ohgushi M, Minaguchi M, Eiraku M, Sasai Y A RHO Small GTPase Regulator ABR Secures Mitotic Fidelity in Human Embryonic Stem Cells. A RHO Small GTPase Regulator ABR Secures Mitotic Fidelity in Human Embryonic Stem Cells. A RHO Small GTPase Regulator ABR Secures Mitotic Fidelity in Human Embryonic Stem Cells. Stem cell reports, 9, 1, 58-66 Stem cell reports, 9, 1, 58-66 Stem cell reports, 9, 1, 58-66 2017/07 Refereed Disclose to all
Okuda S, Unoki K, Eiraku M, Tsubota KI Okuda S, Unoki K, Eiraku M, Tsubota KI Okuda S, Unoki K, Eiraku M, Tsubota KI Contractile actin belt and mesh structures provide the opposite dependence of epithelial stiffness on the spontaneous curvature of constituent cells. Contractile actin belt and mesh structures provide the opposite dependence of epithelial stiffness on the spontaneous curvature of constituent cells. Contractile actin belt and mesh structures provide the opposite dependence of epithelial stiffness on the spontaneous curvature of constituent cells. Development, growth & differentiation, 59, 5, 455-464 Development, growth & differentiation, 59, 5, 455-464 Development, growth & differentiation, 59, 5, 455-464 2017/06 Refereed Disclose to all
Kuwahara A, Nakano T, Eiraku M Kuwahara A, Nakano T, Eiraku M Kuwahara A, Nakano T, Eiraku M Generation of a Three-Dimensional Retinal Tissue from Self-Organizing Human ESC Culture. Generation of a Three-Dimensional Retinal Tissue from Self-Organizing Human ESC Culture. Generation of a Three-Dimensional Retinal Tissue from Self-Organizing Human ESC Culture. Methods in molecular biology (Clifton, N.J.), 1597, 17-29 Methods in molecular biology (Clifton, N.J.), 1597, 17-29 Methods in molecular biology (Clifton, N.J.), 1597, 17-29 2017 Refereed Disclose to all
Hasegawa Y, Takata N, Okuda S, Kawada M, Eiraku M, Sasai Y Hasegawa Y, Takata N, Okuda S, Kawada M, Eiraku M, Sasai Y Hasegawa Y, Takata N, Okuda S, Kawada M, Eiraku M, Sasai Y Emergence of dorsal-ventral polarity in ESC-derived retinal tissue. Emergence of dorsal-ventral polarity in ESC-derived retinal tissue. Emergence of dorsal-ventral polarity in ESC-derived retinal tissue. Development (Cambridge, England), 143, 21, 3895-3906 Development (Cambridge, England), 143, 21, 3895-3906 Development (Cambridge, England), 143, 21, 3895-3906 2016/11 Refereed Disclose to all
Sakakura E, Eiraku M, Takata N Sakakura E, Eiraku M, Takata N Sakakura E, Eiraku M, Takata N Specification of embryonic stem cell-derived tissues into eye fields by Wnt signaling using rostral diencephalic tissue-inducing culture. Specification of embryonic stem cell-derived tissues into eye fields by Wnt signaling using rostral diencephalic tissue-inducing culture. Specification of embryonic stem cell-derived tissues into eye fields by Wnt signaling using rostral diencephalic tissue-inducing culture. Mechanisms of development, 141, 90-99 Mechanisms of development, 141, 90-99 Mechanisms of development, 141, 90-99 2016/08 Refereed Disclose to all
Okuda S, Inoue Y, Eiraku M, Adachi T, Sasai Y Okuda S, Inoue Y, Eiraku M, Adachi T, Sasai Y Okuda S, Inoue Y, Eiraku M, Adachi T, Sasai Y Modeling cell apoptosis for simulating three-dimensional multicellular morphogenesis based on a reversible network reconnection framework. Modeling cell apoptosis for simulating three-dimensional multicellular morphogenesis based on a reversible network reconnection framework. Modeling cell apoptosis for simulating three-dimensional multicellular morphogenesis based on a reversible network reconnection framework. Biomechanics and modeling in mechanobiology, 15, 4, 805-816 Biomechanics and modeling in mechanobiology, 15, 4, 805-816 Biomechanics and modeling in mechanobiology, 15, 4, 805-816 2016/08 Refereed Disclose to all
Takata N, Eiraku M, Sakakura E Takata N, Eiraku M, Sakakura E Takata N, Eiraku M, Sakakura E Data describing Rax positive optic-vesicle generation from mouse embryonic stem cells in vitro. Data describing Rax positive optic-vesicle generation from mouse embryonic stem cells in vitro. Data describing Rax positive optic-vesicle generation from mouse embryonic stem cells in vitro. Data in brief, 8, 465-469 Data in brief, 8, 465-469 Data in brief, 8, 465-469 2016/06 Refereed Disclose to all
Maekawa Y, Onishi A, Matsushita K, Koide N, Mandai M, Suzuma K, Kitaoka T, Kuwahara A, Ozone C, Nakano T, Eiraku M, Takahashi M Maekawa Y, Onishi A, Matsushita K, Koide N, Mandai M, Suzuma K, Kitaoka T, Kuwahara A, Ozone C, Nakano T, Eiraku M, Takahashi M Maekawa Y, Onishi A, Matsushita K, Koide N, Mandai M, Suzuma K, Kitaoka T, Kuwahara A, Ozone C, Nakano T, Eiraku M, Takahashi M Optimized Culture System to Induce Neurite Outgrowth From Retinal Ganglion Cells in Three-Dimensional Retinal Aggregates Differentiated From Mouse and Human Embryonic Stem Cells. Optimized Culture System to Induce Neurite Outgrowth From Retinal Ganglion Cells in Three-Dimensional Retinal Aggregates Differentiated From Mouse and Human Embryonic Stem Cells. Optimized Culture System to Induce Neurite Outgrowth From Retinal Ganglion Cells in Three-Dimensional Retinal Aggregates Differentiated From Mouse and Human Embryonic Stem Cells. Current eye research, 41, 4, 558-568 Current eye research, 41, 4, 558-568 Current eye research, 41, 4, 558-568 2016/04 Refereed Disclose to all
Ozone C, Suga H, Eiraku M, Kadoshima T, Yonemura S, Takata N, Oiso Y, Tsuji T, Sasai Y Ozone C, Suga H, Eiraku M, Kadoshima T, Yonemura S, Takata N, Oiso Y, Tsuji T, Sasai Y Ozone C, Suga H, Eiraku M, Kadoshima T, Yonemura S, Takata N, Oiso Y, Tsuji T, Sasai Y Functional anterior pituitary generated in self-organizing culture of human embryonic stem cells. Functional anterior pituitary generated in self-organizing culture of human embryonic stem cells. Functional anterior pituitary generated in self-organizing culture of human embryonic stem cells. Nature communications, 7, 10351 Nature communications, 7, 10351 Nature communications, 7, 10351 2016/01 Refereed Disclose to all
Shirai H, Mandai M, Matsushita K, Kuwahara A, Yonemura S, Nakano T, Assawachananont J, Kimura T, Saito K, Terasaki H, Eiraku M, Sasai Y, Takahashi M Shirai H, Mandai M, Matsushita K, Kuwahara A, Yonemura S, Nakano T, Assawachananont J, Kimura T, Saito K, Terasaki H, Eiraku M, Sasai Y, Takahashi M Shirai H, Mandai M, Matsushita K, Kuwahara A, Yonemura S, Nakano T, Assawachananont J, Kimura T, Saito K, Terasaki H, Eiraku M, Sasai Y, Takahashi M Transplantation of human embryonic stem cell-derived retinal tissue in two primate models of retinal degeneration. Transplantation of human embryonic stem cell-derived retinal tissue in two primate models of retinal degeneration. Transplantation of human embryonic stem cell-derived retinal tissue in two primate models of retinal degeneration. Proceedings of the National Academy of Sciences of the United States of America, 113, 1, E81-90 Proceedings of the National Academy of Sciences of the United States of America, 113, 1, E81-90 Proceedings of the National Academy of Sciences of the United States of America, 113, 1, E81-90 2016/01 Refereed Disclose to all
Sakaguchi H, Kadoshima T, Soen M, Narii N, Ishida Y, Ohgushi M, Takahashi J, Eiraku M, Sasai Y Sakaguchi H, Kadoshima T, Soen M, Narii N, Ishida Y, Ohgushi M, Takahashi J, Eiraku M, Sasai Y Sakaguchi H, Kadoshima T, Soen M, Narii N, Ishida Y, Ohgushi M, Takahashi J, Eiraku M, Sasai Y Generation of functional hippocampal neurons from self-organizing human embryonic stem cell-derived dorsomedial telencephalic tissue. Generation of functional hippocampal neurons from self-organizing human embryonic stem cell-derived dorsomedial telencephalic tissue. Generation of functional hippocampal neurons from self-organizing human embryonic stem cell-derived dorsomedial telencephalic tissue. Nature communications, 6, 8896 Nature communications, 6, 8896 Nature communications, 6, 8896 2015/11 Refereed Disclose to all
Okuda S, Inoue Y, Eiraku M, Adachi T, Sasai Y Okuda S, Inoue Y, Eiraku M, Adachi T, Sasai Y Okuda S, Inoue Y, Eiraku M, Adachi T, Sasai Y Vertex dynamics simulations of viscosity-dependent deformation during tissue morphogenesis. Vertex dynamics simulations of viscosity-dependent deformation during tissue morphogenesis. Vertex dynamics simulations of viscosity-dependent deformation during tissue morphogenesis. Biomechanics and modeling in mechanobiology, 14, 2, 413-425 Biomechanics and modeling in mechanobiology, 14, 2, 413-425 Biomechanics and modeling in mechanobiology, 14, 2, 413-425 2015/04 Refereed Disclose to all
Kuwahara A, Ozone C, Nakano T, Saito K, Eiraku M, Sasai Y Kuwahara A, Ozone C, Nakano T, Saito K, Eiraku M, Sasai Y Kuwahara A, Ozone C, Nakano T, Saito K, Eiraku M, Sasai Y Generation of a ciliary margin-like stem cell niche from self-organizing human retinal tissue. Generation of a ciliary margin-like stem cell niche from self-organizing human retinal tissue. Generation of a ciliary margin-like stem cell niche from self-organizing human retinal tissue. Nature communications, 6, 6286 Nature communications, 6, 6286 Nature communications, 6, 6286 2015/02 Refereed Disclose to all
Imuta Y, Koyama H, Shi D, Eiraku M, Fujimori T, Sasaki H Imuta Y, Koyama H, Shi D, Eiraku M, Fujimori T, Sasaki H Imuta Y, Koyama H, Shi D, Eiraku M, Fujimori T, Sasaki H Mechanical control of notochord morphogenesis by extra-embryonic tissues in mouse embryos. Mechanical control of notochord morphogenesis by extra-embryonic tissues in mouse embryos. Mechanical control of notochord morphogenesis by extra-embryonic tissues in mouse embryos. Mechanisms of development, 132, 44-58 Mechanisms of development, 132, 44-58 Mechanisms of development, 132, 44-58 2014/05 Refereed Disclose to all
Assawachananont J, Mandai M, Okamoto S, Yamada C, Eiraku M, Yonemura S, Sasai Y, Takahashi M Assawachananont J, Mandai M, Okamoto S, Yamada C, Eiraku M, Yonemura S, Sasai Y, Takahashi M Assawachananont J, Mandai M, Okamoto S, Yamada C, Eiraku M, Yonemura S, Sasai Y, Takahashi M Transplantation of embryonic and induced pluripotent stem cell-derived 3D retinal sheets into retinal degenerative mice. Transplantation of embryonic and induced pluripotent stem cell-derived 3D retinal sheets into retinal degenerative mice. Transplantation of embryonic and induced pluripotent stem cell-derived 3D retinal sheets into retinal degenerative mice. Stem cell reports, 2, 5, 662-674 Stem cell reports, 2, 5, 662-674 Stem cell reports, 2, 5, 662-674 2014/04 Refereed Disclose to all
Kadoshima T, Sakaguchi H, Nakano T, Soen M, Ando S, Eiraku M, Sasai Y Kadoshima T, Sakaguchi H, Nakano T, Soen M, Ando S, Eiraku M, Sasai Y Kadoshima T, Sakaguchi H, Nakano T, Soen M, Ando S, Eiraku M, Sasai Y Self-organization of axial polarity, inside-out layer pattern, and species-specific progenitor dynamics in human ES cell-derived neocortex. Self-organization of axial polarity, inside-out layer pattern, and species-specific progenitor dynamics in human ES cell-derived neocortex. Self-organization of axial polarity, inside-out layer pattern, and species-specific progenitor dynamics in human ES cell-derived neocortex. Proceedings of the National Academy of Sciences of the United States of America, 110, 50, 20284-20289 Proceedings of the National Academy of Sciences of the United States of America, 110, 50, 20284-20289 Proceedings of the National Academy of Sciences of the United States of America, 110, 50, 20284-20289 2013/12 Refereed Disclose to all
Okuda S, Inoue Y, Eiraku M, Sasai Y, Adachi T Okuda S, Inoue Y, Eiraku M, Sasai Y, Adachi T Okuda S, Inoue Y, Eiraku M, Sasai Y, Adachi T Modeling cell proliferation for simulating three-dimensional tissue morphogenesis based on a reversible network reconnection framework. Modeling cell proliferation for simulating three-dimensional tissue morphogenesis based on a reversible network reconnection framework. Modeling cell proliferation for simulating three-dimensional tissue morphogenesis based on a reversible network reconnection framework. Biomechanics and modeling in mechanobiology, 12, 5, 987-996 Biomechanics and modeling in mechanobiology, 12, 5, 987-996 Biomechanics and modeling in mechanobiology, 12, 5, 987-996 2013/10 Refereed Disclose to all
Okuda S, Inoue Y, Eiraku M, Sasai Y, Adachi T Okuda S, Inoue Y, Eiraku M, Sasai Y, Adachi T Okuda S, Inoue Y, Eiraku M, Sasai Y, Adachi T Reversible network reconnection model for simulating large deformation in dynamic tissue morphogenesis. Reversible network reconnection model for simulating large deformation in dynamic tissue morphogenesis. Reversible network reconnection model for simulating large deformation in dynamic tissue morphogenesis. Biomechanics and modeling in mechanobiology, 12, 4, 627-644 Biomechanics and modeling in mechanobiology, 12, 4, 627-644 Biomechanics and modeling in mechanobiology, 12, 4, 627-644 2013/08 Refereed Disclose to all
Okuda S, Inoue Y, Eiraku M, Sasai Y, Adachi T Okuda S, Inoue Y, Eiraku M, Sasai Y, Adachi T Okuda S, Inoue Y, Eiraku M, Sasai Y, Adachi T Apical contractility in growing epithelium supports robust maintenance of smooth curvatures against cell-division-induced mechanical disturbance. Apical contractility in growing epithelium supports robust maintenance of smooth curvatures against cell-division-induced mechanical disturbance. Apical contractility in growing epithelium supports robust maintenance of smooth curvatures against cell-division-induced mechanical disturbance. Journal of biomechanics, 46, 10, 1705-1713 Journal of biomechanics, 46, 10, 1705-1713 Journal of biomechanics, 46, 10, 1705-1713 2013/06 Refereed Disclose to all
Sasai Y, Eiraku M, Suga H Sasai Y, Eiraku M, Suga H Sasai Y, Eiraku M, Suga H In vitro organogenesis in three dimensions: self-organising stem cells. In vitro organogenesis in three dimensions: self-organising stem cells. In vitro organogenesis in three dimensions: self-organising stem cells. Development (Cambridge, England), 139, 22, 4111-4121 Development (Cambridge, England), 139, 22, 4111-4121 Development (Cambridge, England), 139, 22, 4111-4121 2012/11 Refereed Disclose to all
Eiraku M, Sasai Y Eiraku M, Sasai Y Eiraku M, Sasai Y Self-formation of layered neural structures in three-dimensional culture of ES cells. Self-formation of layered neural structures in three-dimensional culture of ES cells. Self-formation of layered neural structures in three-dimensional culture of ES cells. Current opinion in neurobiology, 22, 5, 768-777 Current opinion in neurobiology, 22, 5, 768-777 Current opinion in neurobiology, 22, 5, 768-777 2012/10 Refereed Disclose to all
Nakano T, Ando S, Takata N, Kawada M, Muguruma K, Sekiguchi K, Saito K, Yonemura S, Eiraku M, Sasai Y Nakano T, Ando S, Takata N, Kawada M, Muguruma K, Sekiguchi K, Saito K, Yonemura S, Eiraku M, Sasai Y Nakano T, Ando S, Takata N, Kawada M, Muguruma K, Sekiguchi K, Saito K, Yonemura S, Eiraku M, Sasai Y Self-formation of optic cups and storable stratified neural retina from human ESCs. Self-formation of optic cups and storable stratified neural retina from human ESCs. Self-formation of optic cups and storable stratified neural retina from human ESCs. Cell stem cell, 10, 6, 771-785 Cell stem cell, 10, 6, 771-785 Cell stem cell, 10, 6, 771-785 2012/06 Refereed Disclose to all
Eiraku M, Adachi T, Sasai Y Eiraku M, Adachi T, Sasai Y Eiraku M, Adachi T, Sasai Y Relaxation-expansion model for self-driven retinal morphogenesis: a hypothesis from the perspective of biosystems dynamics at the multi-cellular level. Relaxation-expansion model for self-driven retinal morphogenesis: a hypothesis from the perspective of biosystems dynamics at the multi-cellular level. Relaxation-expansion model for self-driven retinal morphogenesis: a hypothesis from the perspective of biosystems dynamics at the multi-cellular level. BioEssays : news and reviews in molecular, cellular and developmental biology, 34, 1, 17-25 BioEssays : news and reviews in molecular, cellular and developmental biology, 34, 1, 17-25 BioEssays : news and reviews in molecular, cellular and developmental biology, 34, 1, 17-25 2012/01 Refereed Disclose to all
Nasu M, Takata N, Danjo T, Sakaguchi H, Kadoshima T, Futaki S, Sekiguchi K, Eiraku M, Sasai Y Nasu M, Takata N, Danjo T, Sakaguchi H, Kadoshima T, Futaki S, Sekiguchi K, Eiraku M, Sasai Y Nasu M, Takata N, Danjo T, Sakaguchi H, Kadoshima T, Futaki S, Sekiguchi K, Eiraku M, Sasai Y Robust formation and maintenance of continuous stratified cortical neuroepithelium by laminin-containing matrix in mouse ES cell culture. Robust formation and maintenance of continuous stratified cortical neuroepithelium by laminin-containing matrix in mouse ES cell culture. Robust formation and maintenance of continuous stratified cortical neuroepithelium by laminin-containing matrix in mouse ES cell culture. PloS one, 7, 12, e53024 PloS one, 7, 12, e53024 PloS one, 7, 12, e53024 2012 Refereed Disclose to all
Eiraku M, Sasai Y Eiraku M, Sasai Y Eiraku M, Sasai Y Mouse embryonic stem cell culture for generation of three-dimensional retinal and cortical tissues. Mouse embryonic stem cell culture for generation of three-dimensional retinal and cortical tissues. Mouse embryonic stem cell culture for generation of three-dimensional retinal and cortical tissues. Nature protocols, 7, 1, 69-79 Nature protocols, 7, 1, 69-79 Nature protocols, 7, 1, 69-79 2011/12 Refereed Disclose to all
Eiraku M, Takata N, Ishibashi H, Kawada M, Sakakura E, Okuda S, Sekiguchi K, Adachi T, Sasai Y Eiraku M, Takata N, Ishibashi H, Kawada M, Sakakura E, Okuda S, Sekiguchi K, Adachi T, Sasai Y Eiraku M, Takata N, Ishibashi H, Kawada M, Sakakura E, Okuda S, Sekiguchi K, Adachi T, Sasai Y Self-organizing optic-cup morphogenesis in three-dimensional culture. Self-organizing optic-cup morphogenesis in three-dimensional culture. Self-organizing optic-cup morphogenesis in three-dimensional culture. Nature, 472, 7341, 51-56 Nature, 472, 7341, 51-56 Nature, 472, 7341, 51-56 2011/04 Refereed Disclose to all
Danjo T, Eiraku M, Muguruma K, Watanabe K, Kawada M, Yanagawa Y, Rubenstein JL, Sasai Y Danjo T, Eiraku M, Muguruma K, Watanabe K, Kawada M, Yanagawa Y, Rubenstein JL, Sasai Y Danjo T, Eiraku M, Muguruma K, Watanabe K, Kawada M, Yanagawa Y, Rubenstein JL, Sasai Y Subregional specification of embryonic stem cell-derived ventral telencephalic tissues by timed and combinatory treatment with extrinsic signals. Subregional specification of embryonic stem cell-derived ventral telencephalic tissues by timed and combinatory treatment with extrinsic signals. Subregional specification of embryonic stem cell-derived ventral telencephalic tissues by timed and combinatory treatment with extrinsic signals. The Journal of neuroscience : the official journal of the Society for Neuroscience, 31, 5, 1919-1933 The Journal of neuroscience : the official journal of the Society for Neuroscience, 31, 5, 1919-1933 The Journal of neuroscience : the official journal of the Society for Neuroscience, 31, 5, 1919-1933 2011/02 Refereed Disclose to all
Kaneko M, Yamaguchi K, Eiraku M, Sato M, Takata N, Kiyohara Y, Mishina M, Hirase H, Hashikawa T, Kengaku M Kaneko M, Yamaguchi K, Eiraku M, Sato M, Takata N, Kiyohara Y, Mishina M, Hirase H, Hashikawa T, Kengaku M Kaneko M, Yamaguchi K, Eiraku M, Sato M, Takata N, Kiyohara Y, Mishina M, Hirase H, Hashikawa T, Kengaku M Remodeling of monoplanar Purkinje cell dendrites during cerebellar circuit formation. Remodeling of monoplanar Purkinje cell dendrites during cerebellar circuit formation. Remodeling of monoplanar Purkinje cell dendrites during cerebellar circuit formation. PloS one, 6, 5, e20108 PloS one, 6, 5, e20108 PloS one, 6, 5, e20108 2011 Refereed Disclose to all
Ohgushi M, Matsumura M, Eiraku M, Murakami K, Aramaki T, Nishiyama A, Muguruma K, Nakano T, Suga H, Ueno M, Ishizaki T, Suemori H, Narumiya S, Niwa H, Sasai Y Ohgushi M, Matsumura M, Eiraku M, Murakami K, Aramaki T, Nishiyama A, Muguruma K, Nakano T, Suga H, Ueno M, Ishizaki T, Suemori H, Narumiya S, Niwa H, Sasai Y Ohgushi M, Matsumura M, Eiraku M, Murakami K, Aramaki T, Nishiyama A, Muguruma K, Nakano T, Suga H, Ueno M, Ishizaki T, Suemori H, Narumiya S, Niwa H, Sasai Y Molecular pathway and cell state responsible for dissociation-induced apoptosis in human pluripotent stem cells. Molecular pathway and cell state responsible for dissociation-induced apoptosis in human pluripotent stem cells. Molecular pathway and cell state responsible for dissociation-induced apoptosis in human pluripotent stem cells. Cell stem cell, 7, 2, 225-239 Cell stem cell, 7, 2, 225-239 Cell stem cell, 7, 2, 225-239 2010/08 Refereed Disclose to all
Eiraku M, Watanabe K, Matsuo-Takasaki M, Kawada M, Yonemura S, Matsumura M, Wataya T, Nishiyama A, Muguruma K, Sasai Y Eiraku M, Watanabe K, Matsuo-Takasaki M, Kawada M, Yonemura S, Matsumura M, Wataya T, Nishiyama A, Muguruma K, Sasai Y Eiraku M, Watanabe K, Matsuo-Takasaki M, Kawada M, Yonemura S, Matsumura M, Wataya T, Nishiyama A, Muguruma K, Sasai Y Self-organized formation of polarized cortical tissues from ESCs and its active manipulation by extrinsic signals. Self-organized formation of polarized cortical tissues from ESCs and its active manipulation by extrinsic signals. Self-organized formation of polarized cortical tissues from ESCs and its active manipulation by extrinsic signals. Cell stem cell, 3, 5, 519-532 Cell stem cell, 3, 5, 519-532 Cell stem cell, 3, 5, 519-532 2008/11 Refereed Disclose to all
Wataya T, Ando S, Muguruma K, Ikeda H, Watanabe K, Eiraku M, Kawada M, Takahashi J, Hashimoto N, Sasai Y Wataya T, Ando S, Muguruma K, Ikeda H, Watanabe K, Eiraku M, Kawada M, Takahashi J, Hashimoto N, Sasai Y Wataya T, Ando S, Muguruma K, Ikeda H, Watanabe K, Eiraku M, Kawada M, Takahashi J, Hashimoto N, Sasai Y Minimization of exogenous signals in ES cell culture induces rostral hypothalamic differentiation. Minimization of exogenous signals in ES cell culture induces rostral hypothalamic differentiation. Minimization of exogenous signals in ES cell culture induces rostral hypothalamic differentiation. Proceedings of the National Academy of Sciences of the United States of America, 105, 33, 11796-11801 Proceedings of the National Academy of Sciences of the United States of America, 105, 33, 11796-11801 Proceedings of the National Academy of Sciences of the United States of America, 105, 33, 11796-11801 2008/08 Refereed Disclose to all
Fukazawa N, Yokoyama S, Eiraku M, Kengaku M, Maeda N Fukazawa N, Yokoyama S, Eiraku M, Kengaku M, Maeda N Fukazawa N, Yokoyama S, Eiraku M, Kengaku M, Maeda N Receptor type protein tyrosine phosphatase zeta-pleiotrophin signaling controls endocytic trafficking of DNER that regulates neuritogenesis. Receptor type protein tyrosine phosphatase zeta-pleiotrophin signaling controls endocytic trafficking of DNER that regulates neuritogenesis. Receptor type protein tyrosine phosphatase zeta-pleiotrophin signaling controls endocytic trafficking of DNER that regulates neuritogenesis. Molecular and cellular biology, 28, 14, 4494-4506 Molecular and cellular biology, 28, 14, 4494-4506 Molecular and cellular biology, 28, 14, 4494-4506 2008/07 Refereed Disclose to all
Tohgo A, Eiraku M, Miyazaki T, Miura E, Kawaguchi SY, Nishi M, Watanabe M, Hirano T, Kengaku M, Takeshima H Tohgo A, Eiraku M, Miyazaki T, Miura E, Kawaguchi SY, Nishi M, Watanabe M, Hirano T, Kengaku M, Takeshima H Tohgo A, Eiraku M, Miyazaki T, Miura E, Kawaguchi SY, Nishi M, Watanabe M, Hirano T, Kengaku M, Takeshima H Impaired cerebellar functions in mutant mice lacking DNER. Impaired cerebellar functions in mutant mice lacking DNER. Impaired cerebellar functions in mutant mice lacking DNER. Molecular and cellular neurosciences, 31, 2, 326-333 Molecular and cellular neurosciences, 31, 2, 326-333 Molecular and cellular neurosciences, 31, 2, 326-333 2006/02 Refereed Disclose to all
Eiraku M, Tohgo A, Ono K, Kaneko M, Fujishima K, Hirano T, Kengaku M Eiraku M, Tohgo A, Ono K, Kaneko M, Fujishima K, Hirano T, Kengaku M Eiraku M, Tohgo A, Ono K, Kaneko M, Fujishima K, Hirano T, Kengaku M DNER acts as a neuron-specific Notch ligand during Bergmann glial development. DNER acts as a neuron-specific Notch ligand during Bergmann glial development. DNER acts as a neuron-specific Notch ligand during Bergmann glial development. Nature neuroscience, 8, 7, 873-880 Nature neuroscience, 8, 7, 873-880 Nature neuroscience, 8, 7, 873-880 2005/07 Refereed Disclose to all
Kawaji K, Umeshima H, Eiraku M, Hirano T, Kengaku M Kawaji K, Umeshima H, Eiraku M, Hirano T, Kengaku M Kawaji K, Umeshima H, Eiraku M, Hirano T, Kengaku M Dual phases of migration of cerebellar granule cells guided by axonal and dendritic leading processes. Dual phases of migration of cerebellar granule cells guided by axonal and dendritic leading processes. Dual phases of migration of cerebellar granule cells guided by axonal and dendritic leading processes. Molecular and cellular neurosciences, 25, 2, 228-240 Molecular and cellular neurosciences, 25, 2, 228-240 Molecular and cellular neurosciences, 25, 2, 228-240 2004/02 Refereed Disclose to all
Eiraku M, Hirata Y, Takeshima H, Hirano T, Kengaku M Eiraku M, Hirata Y, Takeshima H, Hirano T, Kengaku M Eiraku M, Hirata Y, Takeshima H, Hirano T, Kengaku M Delta/notch-like epidermal growth factor (EGF)-related receptor, a novel EGF-like repeat-containing protein targeted to dendrites of developing and adult central nervous system neurons. Delta/notch-like epidermal growth factor (EGF)-related receptor, a novel EGF-like repeat-containing protein targeted to dendrites of developing and adult central nervous system neurons. Delta/notch-like epidermal growth factor (EGF)-related receptor, a novel EGF-like repeat-containing protein targeted to dendrites of developing and adult central nervous system neurons. The Journal of biological chemistry, 277, 28, 25400-25407 The Journal of biological chemistry, 277, 28, 25400-25407 The Journal of biological chemistry, 277, 28, 25400-25407 2002/07 Refereed Disclose to all

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Title language:
Conference Activities & Talks
Title Title(Japanese) Title(English) Conference Conference(Japanese) Conference(English) Promotor Promotor(Japanese) Promotor(English) Date Language Assortment Disclose
Self-organization of patterned functional tissues from pluripotent stem cells[Invited] Self-organization of patterned functional tissues from pluripotent stem cells [Invited] Self-organization of patterned functional tissues from pluripotent stem cells [Invited] 119th International Titisee Conference:Tissue formation and regeneration: from molecules to models 119th International Titisee Conference:Tissue formation and regeneration: from molecules to models 119th International Titisee Conference:Tissue formation and regeneration: from molecules to models 2019/03/30 English Oral presentation(invited, special) Disclose to all
発生システムの試験管内構築と制御[Invited] 発生システムの試験管内構築と制御 [Invited] 発生システムの試験管内構築と制御 [Invited] 日本発生生物学会秋季シンポジウム2018 日本発生生物学会秋季シンポジウム2018 日本発生生物学会秋季シンポジウム2018 2018/11/24 Oral presentation(invited, special) Disclose to all
Self-organization of patterned tissues from mouse and human stem cells[Invited] Self-organization of patterned tissues from mouse and human stem cells [Invited] Self-organization of patterned tissues from mouse and human stem cells [Invited] EMBO Workshop :Molecular mechanisms of developmental and regenerative biology EMBO Workshop :Molecular mechanisms of developmental and regenerative biology EMBO Workshop :Molecular mechanisms of developmental and regenerative biology 2018/11/12 English Oral presentation(invited, special) Disclose to all
多能性幹細胞からの神経組織形成~海馬組織の再構成はできるか?~[Invited] 多能性幹細胞からの神経組織形成~海馬組織の再構成はできるか?~ [Invited] 多能性幹細胞からの神経組織形成~海馬組織の再構成はできるか?~ [Invited] 第27回 海馬と高次脳機能学会 第27回 海馬と高次脳機能学会 第27回 海馬と高次脳機能学会 2018/09/29 Oral presentation(invited, special) Disclose to all
Functional three-dimensional tissue formation by in vitro manipulation and multicellular autonomy[Invited] 多細胞の自己組織発生制御によるin vitro での機能的な神経組織形成 [Invited] Functional three-dimensional tissue formation by in vitro manipulation and multicellular autonomy [Invited] 第56回日本生物物理学会年会 第56回日本生物物理学会年会 2018/09/16 Oral presentation(invited, special) Disclose to all
Self-organized formation of neural organoids from stem cells[Invited] Self-organized formation of neural organoids from stem cells [Invited] Self-organized formation of neural organoids from stem cells [Invited] 第40回日本生物学的精神医学会・第61回日本神経化学会大会 第40回日本生物学的精神医学会・第61回日本神経化学会大会 2018/09/07 Oral presentation(invited, special) Disclose to all
多細胞体の自己組織的なパターン形成および形態形成メカニズム[Invited] 多細胞体の自己組織的なパターン形成および形態形成メカニズム [Invited] 多細胞体の自己組織的なパターン形成および形態形成メカニズム [Invited] Cell aggregation meeting 2018 Cell aggregation meeting 2018 Cell aggregation meeting 2018 2018/07/27 Oral presentation(invited, special) Disclose to all
多細胞の自己組織化能を利用したin vitro での機能的立体組織の構築[Invited] 多細胞の自己組織化能を利用したin vitro での機能的立体組織の構築 [Invited] 多細胞の自己組織化能を利用したin vitro での機能的立体組織の構築 [Invited] 日本機械学会第30回バイオエンジニアリング講演会 日本機械学会第30回バイオエンジニアリング講演会 日本機械学会第30回バイオエンジニアリング講演会 2017/12/15 Oral presentation(invited, special) Disclose to all
Self-organization of patterned tissues from mouse and human stem cells[Invited] Self-organization of patterned tissues from mouse and human stem cells [Invited] Self-organization of patterned tissues from mouse and human stem cells [Invited] Cold Spring Harbor Laboratory Symposium Cold Spring Harbor Laboratory Symposium Cold Spring Harbor Laboratory Symposium 2017/12/08 Oral presentation(invited, special) Disclose to all
細胞の自己組織化能を利用したin vitroでの機能的立体組織の構築[Invited] 細胞の自己組織化能を利用したin vitroでの機能的立体組織の構築 [Invited] 細胞の自己組織化能を利用したin vitroでの機能的立体組織の構築 [Invited] 第37回比較眼科学会年次大会 第37回比較眼科学会年次大会 第37回比較眼科学会年次大会 2017/07/30 Oral presentation(invited, special) Disclose to all
多能性幹細胞からの神経組織形成[Invited] 多能性幹細胞からの神経組織形成 [Invited] 多能性幹細胞からの神経組織形成 [Invited] 日本バイオマテリアル学会シンポジウム2016 日本バイオマテリアル学会シンポジウム2016 日本バイオマテリアル学会シンポジウム2016 2016/11/21 Oral presentation(invited, special) Disclose to all
Self-organized formation of patterned tissues from embryonic stem cells[Invited] Self-organized formation of patterned tissues from embryonic stem cells [Invited] Self-organized formation of patterned tissues from embryonic stem cells [Invited] Engineering the embryo: beyond Systems Biology Engineering the embryo: beyond Systems Biology Engineering the embryo: beyond Systems Biology 2016/11/14 English Oral presentation(invited, special) Disclose to all
Self-organized formation of tissue architectures from pluripotent stem cells[Invited] Self-organized formation of tissue architectures from pluripotent stem cells [Invited] Self-organized formation of tissue architectures from pluripotent stem cells [Invited] Society for Developmental Biology, 75th annual meeting International Society of Differentiation , 19th International Conference Society for Developmental Biology, 75th annual meeting International Society of Differentiation , 19th International Conference Society for Developmental Biology, 75th annual meeting International Society of Differentiation , 19th International Conference 2016/08/06 English Oral presentation(invited, special) Disclose to all
細胞の自己組織化能を利用した in vitro での機能的立体組織の構築[Invited] 細胞の自己組織化能を利用した in vitro での機能的立体組織の構築 [Invited] 細胞の自己組織化能を利用した in vitro での機能的立体組織の構築 [Invited] 第15回日本再生医療学会総会 第15回日本再生医療学会総会 第15回日本再生医療学会総会 2016/03/19 Oral presentation(invited, special) Disclose to all
Generation of complex tissue structure In stem cell culture.[Invited] Generation of complex tissue structure In stem cell culture. [Invited] Generation of complex tissue structure In stem cell culture. [Invited] CRTD/ISSCR International Symposium CRTD/ISSCR International Symposium CRTD/ISSCR International Symposium 2016/02/01 English Oral presentation(invited, special) Disclose to all
Self-organized formation of complex tissues from stem cells[Invited] Self-organized formation of complex tissues from stem cells [Invited] Self-organized formation of complex tissues from stem cells [Invited] BMB2015 (第38回日本分子生物学会年会_第88回日本生化学会大会 合同大会) BMB2015 (第38回日本分子生物学会年会_第88回日本生化学会大会 合同大会) BMB2015 (第38回日本分子生物学会年会_第88回日本生化学会大会 合同大会) 2015/12/04 Oral presentation(invited, special) Disclose to all
Self-organized formation of complex tissues from stem cells[Invited] Self-organized formation of complex tissues from stem cells [Invited] Self-organized formation of complex tissues from stem cells [Invited] 48th Annual Meeting of the Developmental Biologists 48th Annual Meeting of the Developmental Biologists 48th Annual Meeting of the Developmental Biologists 2015/06/05 Oral presentation(invited, special) Disclose to all
細胞の自己組織化を利用したin vitroでの機能的立体組織の構築[Invited] 細胞の自己組織化を利用したin vitroでの機能的立体組織の構築 [Invited] 細胞の自己組織化を利用したin vitroでの機能的立体組織の構築 [Invited] 第29回日本医学会総会2015関西 第29回日本医学会総会2015関西 第29回日本医学会総会2015関西 2015/04/12 Oral presentation(invited, special) Disclose to all
Self-organized formation of complex tissues from stem cells[Invited] Self-organized formation of complex tissues from stem cells [Invited] Self-organized formation of complex tissues from stem cells [Invited] 細胞機能と分子活性の多次元蛍光生体イメージング 細胞機能と分子活性の多次元蛍光生体イメージング 2015/01/28 Oral presentation(invited, special) Disclose to all
Tissue intrinsic mechanisms underlying retinal neuroepithelial patterning and morphogenesis[Invited] Tissue intrinsic mechanisms underlying retinal neuroepithelial patterning and morphogenesis [Invited] Tissue intrinsic mechanisms underlying retinal neuroepithelial patterning and morphogenesis [Invited] 第87回日本生化学会大会 第87回日本生化学会大会 2014/10/17 Oral presentation(invited, special) Disclose to all
多能性幹細胞からの立体神経組織構築手法の確立及びその構築過程の解析[Invited] 多能性幹細胞からの立体神経組織構築手法の確立及びその構築過程の解析 [Invited] 多能性幹細胞からの立体神経組織構築手法の確立及びその構築過程の解析 [Invited] Merk Bioscience Forum 2014 Merk Bioscience Forum 2014 Merk Bioscience Forum 2014 2014/08/01 Oral presentation(invited, special) Disclose to all
幹細胞からの網膜組織の自己組織化とその応用への課題[Invited] 幹細胞からの網膜組織の自己組織化とその応用への課題 [Invited] 幹細胞からの網膜組織の自己組織化とその応用への課題 [Invited] 第118回日本眼科学会総会 第118回日本眼科学会総会 第118回日本眼科学会総会 2014/04/04 Japanese Oral presentation(invited, special) Disclose to all

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Title language:
External funds: competitive funds and Grants-in-Aid for Scientific Research (Kakenhi)
Type Position Title(Japanese) Title(English) Period
基盤研究(B) Representative 幹細胞から初期胚様構造を誘導するための新しい方法論の確立 (平成29年度分) 2017/04/01-2018/03/31
新学術領域研究(研究領域提案型) Representative 種特異的発生時間スケールを規定する分子基盤の解析と制御 (平成29年度分) 2017/04/01-2018/03/31
基盤研究(B) Representative 幹細胞から初期胚様構造を誘導するための新しい方法論の確立 (平成30年度分) 2018/04/01-2019/03/31
新学術領域研究(研究領域提案型) Representative 種特異的発生時間スケールを規定する分子基盤の解析と制御 (平成30年度分) 2018/04/01-2019/03/31
Teaching subject(s)
Name(Japanese) Name(English) Term Department Period
先端生命科学 Frontier in Life Sciences 後期集中 生命科学研究科 2017/04-2018/03
多細胞体ネットワーク特論 Advanced Course in Multicellular Network 前期集中 生命科学研究科 2017/04-2018/03
ILASセミナー ILAS Seminar 前期 全学共通科目 2018/04-2019/03
化学生物学 Chemical Biology 後期 工学部 2018/04-2019/03
生命医科学 Life and Medical Sciences 前期 工学研究科 2018/04-2019/03
生命医科学特論 Life and Medical Sciences, Adv. 前期 工学研究科 2018/04-2019/03
化学生物学 Chemical Biology 後期 工学部 2019/04-2020/03
生命医科学 Life and Medical Sciences 前期 工学研究科 2019/04-2020/03
生命医科学特論 Life and Medical Sciences, Adv. 前期 工学研究科 2019/04-2020/03
Faculty management (title, position)
Title Period
化学物質管理委員会 委員 2016/10/01-
(旧再生研)予算委員会 委員 2016/10/01-
再生医科学動物実験専門委員会 2016/10/01-2020/03/31
研究データ保全委員会 2018/04/01-2020/03/31
再生医学・再生医療の先端融合的共同研究拠点運営委員会 2018/04/01-
再生医学・再生医療の先端融合的共同研究拠点専門委員会 2018/04/01-

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