中馬 新一郎

Last Update: 2021/06/29 17:56:16

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Name(Kanji/Kana/Abecedarium Latinum)
中馬 新一郎/チユウマ シンイチロウ/Chuma, Shinichiro
Primary Affiliation(Org1/Job title)
Institute for Frontier Life and Medical Sciences (inFront)/Associate Professor
Affiliated programs (koza)
Org1 Job title
Graduate School of Medicine Associate Professor
Graduate School of Medicine Associate Professor
Contact Address
Type Address(Japanese) Address(English)
Office 〒606-8507 京都府京都市左京区聖護院川原町 53
Phone
Type Number
Office 075-751-3821
Academic Degree
Field(Japanese) Field(English) University(Japanese) University(English) Method
博士(理学) 総合研究大学院大学
Academic Resume (Graduate Schools)
University(Japanese) University(English) Faculty(Japanese) Faculty(English) Major(Japanese) Major(English) Completion Status
総合研究大学院大学 生命科学研究科博士後期課程遺伝学専攻 修了
Language of Instruction
Language(japanese) Language(english) Code
英語 English eng
researchmap URL
https://researchmap.jp/read0094704
Research Topics
(Japanese)
生殖系列サイクルの遺伝的安定性の発生制御メカニズム
Overview of the research
(Japanese)
生物の遺伝情報は常に損傷と修復を繰り返して変化する。多細胞生物では受精を起点に個々の細胞の遺伝情報は変異を蓄積して癌や老化等の原因になるものと考えられる。しかし各細胞系譜の遺伝的安定性は均一ではなく、幹細胞システムは分化細胞と比べて遺伝情報をより安定に維持する事で生体恒常性を保ち、また生殖系列サイクルは特に遺伝情報の安定性が高いものと考えられる。しかし、遺伝的安定性がどの様に発生プログラムと連携して機能調節を受けるのか、また何故生殖系列サイクルの遺伝的安定性は特に高いのか、その制御基盤の理解は殆ど進んでいない。我々は哺乳類の初期発生過程と生殖系列サイクルの遺伝的安定性の発生制御メカニズムの解明とその理解に基づいた再構成を目的として、マウス多能性幹細胞と生殖幹細胞の in vitro 増殖分化モデルおよび in vivo 初期胚や生殖細胞を用いた実証研究により、(1)初期発生と生殖系列サイクルの遺伝的安定性の発生制御の全体像、(2)遺伝的安定性の制御遺伝子群の発現調節機構、(3)遺伝的安定性の人為制御が細胞・個体に与える影響、の解明を目指している。遺伝的安定性の発生制御は生物学上の重要課題であると共にその操作技術は幹細胞リソースの応用等にも広く重要である。
Fields of research (key words)
Key words(Japanese) Key words(English)
幹細胞 Stem cell
生殖細胞 Germ cell
ゲノム Genome
エピゲノム Epigenome
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
Deepti Anand, Salma Al Saai, Sanjaya K. Shrestha, Carrie E. Barnum, Shinichiro Chuma, Salil A. Lachke Deepti Anand, Salma Al Saai, Sanjaya K. Shrestha, Carrie E. Barnum, Shinichiro Chuma, Salil A. Lachke Deepti Anand, Salma Al Saai, Sanjaya K. Shrestha, Carrie E. Barnum, Shinichiro Chuma, Salil A. Lachke Genome-Wide Analysis of Differentially Expressed miRNAs and Their Associated Regulatory Networks in Lenses Deficient for the Congenital Cataract-Linked Tudor Domain Containing Protein TDRD7 Genome-Wide Analysis of Differentially Expressed miRNAs and Their Associated Regulatory Networks in Lenses Deficient for the Congenital Cataract-Linked Tudor Domain Containing Protein TDRD7 Genome-Wide Analysis of Differentially Expressed miRNAs and Their Associated Regulatory Networks in Lenses Deficient for the Congenital Cataract-Linked Tudor Domain Containing Protein TDRD7 Frontiers in Cell and Developmental Biology, 9 Frontiers in Cell and Developmental Biology, 9 Frontiers in Cell and Developmental Biology, 9 2021/02/16 Research paper(scientific journal) Disclose to all
Carrie E Barnum, Salma Al Saai, Shaili D Patel, Catherine Cheng, Deepti Anand, Xiaolu Xu, Soma Dash, Archana D Siddam, Lisa Glazewski, Emily Paglione, Shawn W Polson, Shinichiro Chuma, Robert W Mason, Shuo Wei, Mona Batish, Velia M Fowler, Salil A Lachke Carrie E Barnum, Salma Al Saai, Shaili D Patel, Catherine Cheng, Deepti Anand, Xiaolu Xu, Soma Dash, Archana D Siddam, Lisa Glazewski, Emily Paglione, Shawn W Polson, Shinichiro Chuma, Robert W Mason, Shuo Wei, Mona Batish, Velia M Fowler, Salil A Lachke Carrie E Barnum, Salma Al Saai, Shaili D Patel, Catherine Cheng, Deepti Anand, Xiaolu Xu, Soma Dash, Archana D Siddam, Lisa Glazewski, Emily Paglione, Shawn W Polson, Shinichiro Chuma, Robert W Mason, Shuo Wei, Mona Batish, Velia M Fowler, Salil A Lachke The Tudor-domain protein TDRD7, mutated in congenital cataract, controls the heat shock protein HSPB1 (HSP27) and lens fiber cell morphology. The Tudor-domain protein TDRD7, mutated in congenital cataract, controls the heat shock protein HSPB1 (HSP27) and lens fiber cell morphology. The Tudor-domain protein TDRD7, mutated in congenital cataract, controls the heat shock protein HSPB1 (HSP27) and lens fiber cell morphology. Human molecular genetics, 29, 12, 2076-2097 Human molecular genetics, 29, 12, 2076-2097 Human molecular genetics, 29, 12, 2076-2097 2020/07/29 English Research paper(scientific journal) Disclose to all
Hajime Ichimura, Shin Kadota, Toshihide Kashihara, Mitsuhiko Yamada, Kuniaki Ito, Hideki Kobayashi, Yuki Tanaka, Naoko Shiba, Shinichiro Chuma, Shugo Tohyama, Tatsuichiro Seto, Kenji Okada, Koichiro Kuwahara, Yuji Shiba Hajime Ichimura, Shin Kadota, Toshihide Kashihara, Mitsuhiko Yamada, Kuniaki Ito, Hideki Kobayashi, Yuki Tanaka, Naoko Shiba, Shinichiro Chuma, Shugo Tohyama, Tatsuichiro Seto, Kenji Okada, Koichiro Kuwahara, Yuji Shiba Hajime Ichimura, Shin Kadota, Toshihide Kashihara, Mitsuhiko Yamada, Kuniaki Ito, Hideki Kobayashi, Yuki Tanaka, Naoko Shiba, Shinichiro Chuma, Shugo Tohyama, Tatsuichiro Seto, Kenji Okada, Koichiro Kuwahara, Yuji Shiba Increased predominance of the matured ventricular subtype in embryonic stem cell-derived cardiomyocytes in vivo. Increased predominance of the matured ventricular subtype in embryonic stem cell-derived cardiomyocytes in vivo. Increased predominance of the matured ventricular subtype in embryonic stem cell-derived cardiomyocytes in vivo. Scientific reports, 10, 1, 11883-11883 Scientific reports, 10, 1, 11883-11883 Scientific reports, 10, 1, 11883-11883 2020/07/17 English Research paper(scientific journal) Disclose to all
Kaori Yamauchi, Tatsuhiko Ikeda, Mihoko Hosokawa, Norio Nakatsuji, Eihachiro Kawase, Shinichiro Chuma, Kouichi Hasegawa, Hirofumi Suemori Kaori Yamauchi, Tatsuhiko Ikeda, Mihoko Hosokawa, Norio Nakatsuji, Eihachiro Kawase, Shinichiro Chuma, Kouichi Hasegawa, Hirofumi Suemori Kaori Yamauchi, Tatsuhiko Ikeda, Mihoko Hosokawa, Norio Nakatsuji, Eihachiro Kawase, Shinichiro Chuma, Kouichi Hasegawa, Hirofumi Suemori Overexpression of Nuclear Receptor 5A1 Induces and Maintains an Intermediate State of Conversion between Primed and Naive Pluripotency. Overexpression of Nuclear Receptor 5A1 Induces and Maintains an Intermediate State of Conversion between Primed and Naive Pluripotency. Overexpression of Nuclear Receptor 5A1 Induces and Maintains an Intermediate State of Conversion between Primed and Naive Pluripotency. Stem cell reports, 14, 3, 506-519 Stem cell reports, 14, 3, 506-519 Stem cell reports, 14, 3, 506-519 2020/03/10 English Research paper(scientific journal) Disclose to all
Kei-Ichiro Ishiguro, Kumi Matsuura, Naoki Tani, Naoki Takeda, Shingo Usuki, Mariko Yamane, Michihiko Sugimoto, Sayoko Fujimura, Mihoko Hosokawa, Shinichiro Chuma, Minoru S H Ko, Kimi Araki, Hitoshi Niwa Kei-Ichiro Ishiguro, Kumi Matsuura, Naoki Tani, Naoki Takeda, Shingo Usuki, Mariko Yamane, Michihiko Sugimoto, Sayoko Fujimura, Mihoko Hosokawa, Shinichiro Chuma, Minoru S H Ko, Kimi Araki, Hitoshi Niwa Kei-Ichiro Ishiguro, Kumi Matsuura, Naoki Tani, Naoki Takeda, Shingo Usuki, Mariko Yamane, Michihiko Sugimoto, Sayoko Fujimura, Mihoko Hosokawa, Shinichiro Chuma, Minoru S H Ko, Kimi Araki, Hitoshi Niwa MEIOSIN Directs the Switch from Mitosis to Meiosis in Mammalian Germ Cells. MEIOSIN Directs the Switch from Mitosis to Meiosis in Mammalian Germ Cells. MEIOSIN Directs the Switch from Mitosis to Meiosis in Mammalian Germ Cells. Developmental cell, 52, 4, 429-445 Developmental cell, 52, 4, 429-445 Developmental cell, 52, 4, 429-445 2020/02/24 English Research paper(scientific journal) Disclose to all
Yusuke Shiromoto, Satomi Kuramochi-Miyagawa, Ippei Nagamori, Shinichiro Chuma, Tatsuhiko Arakawa, Toru Nishimura, Hidetoshi Hasuwa, Taro Tachibana, Masahito Ikawa, Toru Nakano Yusuke Shiromoto, Satomi Kuramochi-Miyagawa, Ippei Nagamori, Shinichiro Chuma, Tatsuhiko Arakawa, Toru Nishimura, Hidetoshi Hasuwa, Taro Tachibana, Masahito Ikawa, Toru Nakano Yusuke Shiromoto, Satomi Kuramochi-Miyagawa, Ippei Nagamori, Shinichiro Chuma, Tatsuhiko Arakawa, Toru Nishimura, Hidetoshi Hasuwa, Taro Tachibana, Masahito Ikawa, Toru Nakano GPAT2 is required for piRNA biogenesis, transposon silencing, and maintenance of spermatogonia in mice†. GPAT2 is required for piRNA biogenesis, transposon silencing, and maintenance of spermatogonia in mice†. GPAT2 is required for piRNA biogenesis, transposon silencing, and maintenance of spermatogonia in mice†. Biology of reproduction, 101, 1, 248-256 Biology of reproduction, 101, 1, 248-256 Biology of reproduction, 101, 1, 248-256 2019/07/01 English Research paper(scientific journal) Disclose to all
Takuji Yoshimura, Toshiaki Watanabe, Satomi Kuramochi-Miyagawa, Noriaki Takemoto, Yusuke Shiromoto, Akihiko Kudo, Masami Kanai-Azuma, Fumi Tashiro, Satsuki Miyazaki, Ami Katanaya, Shinichiro Chuma, Jun-Ichi Miyazaki Takuji Yoshimura, Toshiaki Watanabe, Satomi Kuramochi-Miyagawa, Noriaki Takemoto, Yusuke Shiromoto, Akihiko Kudo, Masami Kanai-Azuma, Fumi Tashiro, Satsuki Miyazaki, Ami Katanaya, Shinichiro Chuma, Jun-Ichi Miyazaki Takuji Yoshimura, Toshiaki Watanabe, Satomi Kuramochi-Miyagawa, Noriaki Takemoto, Yusuke Shiromoto, Akihiko Kudo, Masami Kanai-Azuma, Fumi Tashiro, Satsuki Miyazaki, Ami Katanaya, Shinichiro Chuma, Jun-Ichi Miyazaki Mouse GTSF1 is an essential factor for secondary piRNA biogenesis. Mouse GTSF1 is an essential factor for secondary piRNA biogenesis. Mouse GTSF1 is an essential factor for secondary piRNA biogenesis. EMBO reports, 19, 4 EMBO reports, 19, 4 EMBO reports, 19, 4 2018/04 English Research paper(scientific journal) Disclose to all
Ayako L Mochizuki, Ami Katanaya, Eri Hayashi, Mihoko Hosokawa, Emiko Moribe, Akira Motegi, Masamichi Ishiai, Minoru Takata, Gen Kondoh, Hitomi Watanabe, Norio Nakatsuji, Shinichiro Chuma Ayako L Mochizuki, Ami Katanaya, Eri Hayashi, Mihoko Hosokawa, Emiko Moribe, Akira Motegi, Masamichi Ishiai, Minoru Takata, Gen Kondoh, Hitomi Watanabe, Norio Nakatsuji, Shinichiro Chuma Ayako L Mochizuki, Ami Katanaya, Eri Hayashi, Mihoko Hosokawa, Emiko Moribe, Akira Motegi, Masamichi Ishiai, Minoru Takata, Gen Kondoh, Hitomi Watanabe, Norio Nakatsuji, Shinichiro Chuma PARI Regulates Stalled Replication Fork Processing To Maintain Genome Stability upon Replication Stress in Mice. PARI Regulates Stalled Replication Fork Processing To Maintain Genome Stability upon Replication Stress in Mice. PARI Regulates Stalled Replication Fork Processing To Maintain Genome Stability upon Replication Stress in Mice. Molecular and cellular biology, 37, 23 Molecular and cellular biology, 37, 23 Molecular and cellular biology, 37, 23 2017/12/01 English Research paper(scientific journal) Disclose to all
Yuka Kabayama, Hidehiro Toh, Ami Katanaya, Takayuki Sakurai, Shinichiro Chuma, Satomi Kuramochi-Miyagawa, Yumiko Saga, Toru Nakano, Hiroyuki Sasaki Yuka Kabayama, Hidehiro Toh, Ami Katanaya, Takayuki Sakurai, Shinichiro Chuma, Satomi Kuramochi-Miyagawa, Yumiko Saga, Toru Nakano, Hiroyuki Sasaki Yuka Kabayama, Hidehiro Toh, Ami Katanaya, Takayuki Sakurai, Shinichiro Chuma, Satomi Kuramochi-Miyagawa, Yumiko Saga, Toru Nakano, Hiroyuki Sasaki Roles of MIWI, MILI and PLD6 in small RNA regulation in mouse growing oocytes. Roles of MIWI, MILI and PLD6 in small RNA regulation in mouse growing oocytes. Roles of MIWI, MILI and PLD6 in small RNA regulation in mouse growing oocytes. Nucleic acids research, 45, 9, 5387-5398 Nucleic acids research, 45, 9, 5387-5398 Nucleic acids research, 45, 9, 5387-5398 2017/05/19 English Research paper(scientific journal) Disclose to all
Hiroki Inoue, Narumi Ogonuki, Michiko Hirose, Yuki Hatanaka, Shogo Matoba, Shinichiro Chuma, Kimio Kobayashi, Shigeharu Wakana, Junko Noguchi, Kimiko Inoue, Kentaro Tanemura, Atsuo Ogura Hiroki Inoue, Narumi Ogonuki, Michiko Hirose, Yuki Hatanaka, Shogo Matoba, Shinichiro Chuma, Kimio Kobayashi, Shigeharu Wakana, Junko Noguchi, Kimiko Inoue, Kentaro Tanemura, Atsuo Ogura Hiroki Inoue, Narumi Ogonuki, Michiko Hirose, Yuki Hatanaka, Shogo Matoba, Shinichiro Chuma, Kimio Kobayashi, Shigeharu Wakana, Junko Noguchi, Kimiko Inoue, Kentaro Tanemura, Atsuo Ogura Mouse D1Pas1, a DEAD-box RNA helicase, is required for the completion of first meiotic prophase in male germ cells. Mouse D1Pas1, a DEAD-box RNA helicase, is required for the completion of first meiotic prophase in male germ cells. Mouse D1Pas1, a DEAD-box RNA helicase, is required for the completion of first meiotic prophase in male germ cells. Biochemical and biophysical research communications, 478, 2, 592-8 Biochemical and biophysical research communications, 478, 2, 592-8 Biochemical and biophysical research communications, 478, 2, 592-8 2016/09/16 English Research paper(scientific journal) Disclose to all
Tomoko Ichiyanagi, Kenji Ichiyanagi, Ayako Ogawa, Satomi Kuramochi-Miyagawa, Toru Nakano, Shinichiro Chuma, Hiroyuki Sasaki, Heiichiro Udono Tomoko Ichiyanagi, Kenji Ichiyanagi, Ayako Ogawa, Satomi Kuramochi-Miyagawa, Toru Nakano, Shinichiro Chuma, Hiroyuki Sasaki, Heiichiro Udono Tomoko Ichiyanagi, Kenji Ichiyanagi, Ayako Ogawa, Satomi Kuramochi-Miyagawa, Toru Nakano, Shinichiro Chuma, Hiroyuki Sasaki, Heiichiro Udono HSP90α plays an important role in piRNA biogenesis and retrotransposon repression in mouse. HSP90α plays an important role in piRNA biogenesis and retrotransposon repression in mouse. HSP90α plays an important role in piRNA biogenesis and retrotransposon repression in mouse. Nucleic acids research, 42, 19, 11903-11 Nucleic acids research, 42, 19, 11903-11 Nucleic acids research, 42, 19, 11903-11 2014/10/29 English Research paper(scientific journal) Disclose to all
Shinichiro Chuma Shinichiro Chuma Shinichiro Chuma LINE-1 of evidence for fetal oocyte attrition by retrotransposon. LINE-1 of evidence for fetal oocyte attrition by retrotransposon. LINE-1 of evidence for fetal oocyte attrition by retrotransposon. Developmental cell, 29, 5, 501-502 Developmental cell, 29, 5, 501-502 Developmental cell, 29, 5, 501-502 2014/06/09 English Research paper(scientific journal) Disclose to all
Radha Raman Pandey, Yoshimi Tokuzawa, Zhaolin Yang, Eri Hayashi, Tomoko Ichisaka, Shimpei Kajita, Yuka Asano, Tetsuo Kunieda, Ravi Sachidanandam, Shinichiro Chuma, Shinya Yamanaka, Ramesh S Pillai Radha Raman Pandey, Yoshimi Tokuzawa, Zhaolin Yang, Eri Hayashi, Tomoko Ichisaka, Shimpei Kajita, Yuka Asano, Tetsuo Kunieda, Ravi Sachidanandam, Shinichiro Chuma, Shinya Yamanaka, Ramesh S Pillai Radha Raman Pandey, Yoshimi Tokuzawa, Zhaolin Yang, Eri Hayashi, Tomoko Ichisaka, Shimpei Kajita, Yuka Asano, Tetsuo Kunieda, Ravi Sachidanandam, Shinichiro Chuma, Shinya Yamanaka, Ramesh S Pillai Tudor domain containing 12 (TDRD12) is essential for secondary PIWI interacting RNA biogenesis in mice. Tudor domain containing 12 (TDRD12) is essential for secondary PIWI interacting RNA biogenesis in mice. Tudor domain containing 12 (TDRD12) is essential for secondary PIWI interacting RNA biogenesis in mice. Proceedings of the National Academy of Sciences of the United States of America, 110, 41, 16492-7 Proceedings of the National Academy of Sciences of the United States of America, 110, 41, 16492-7 Proceedings of the National Academy of Sciences of the United States of America, 110, 41, 16492-7 2013/10/08 English Research paper(scientific journal) Disclose to all
Ai Khim Lim, Chanchao Lorthongpanich, Ting Gang Chew, Chin Wee Godwin Tan, Yan Ting Shue, Sathish Balu, Natalia Gounko, Satomi Kuramochi-Miyagawa, Martin M Matzuk, Shinichiro Chuma, Daniel M Messerschmidt, Davor Solter, Barbara B Knowles Ai Khim Lim, Chanchao Lorthongpanich, Ting Gang Chew, Chin Wee Godwin Tan, Yan Ting Shue, Sathish Balu, Natalia Gounko, Satomi Kuramochi-Miyagawa, Martin M Matzuk, Shinichiro Chuma, Daniel M Messerschmidt, Davor Solter, Barbara B Knowles Ai Khim Lim, Chanchao Lorthongpanich, Ting Gang Chew, Chin Wee Godwin Tan, Yan Ting Shue, Sathish Balu, Natalia Gounko, Satomi Kuramochi-Miyagawa, Martin M Matzuk, Shinichiro Chuma, Daniel M Messerschmidt, Davor Solter, Barbara B Knowles The nuage mediates retrotransposon silencing in mouse primordial ovarian follicles. The nuage mediates retrotransposon silencing in mouse primordial ovarian follicles. The nuage mediates retrotransposon silencing in mouse primordial ovarian follicles. Development (Cambridge, England), 140, 18, 3819-25 Development (Cambridge, England), 140, 18, 3819-25 Development (Cambridge, England), 140, 18, 3819-25 2013/09 English Research paper(scientific journal) Disclose to all
Yusuke Shiromoto, Satomi Kuramochi-Miyagawa, Akito Daiba, Shinichiro Chuma, Ami Katanaya, Akiko Katsumata, Ken Nishimura, Manami Ohtaka, Mahito Nakanishi, Toshinobu Nakamura, Koichi Yoshinaga, Noriko Asada, Shota Nakamura, Teruo Yasunaga, Kanako Kojima-Kita, Daisuke Itou, Tohru Kimura, Toru Nakano Yusuke Shiromoto, Satomi Kuramochi-Miyagawa, Akito Daiba, Shinichiro Chuma, Ami Katanaya, Akiko Katsumata, Ken Nishimura, Manami Ohtaka, Mahito Nakanishi, Toshinobu Nakamura, Koichi Yoshinaga, Noriko Asada, Shota Nakamura, Teruo Yasunaga, Kanako Kojima-Kita, Daisuke Itou, Tohru Kimura, Toru Nakano Yusuke Shiromoto, Satomi Kuramochi-Miyagawa, Akito Daiba, Shinichiro Chuma, Ami Katanaya, Akiko Katsumata, Ken Nishimura, Manami Ohtaka, Mahito Nakanishi, Toshinobu Nakamura, Koichi Yoshinaga, Noriko Asada, Shota Nakamura, Teruo Yasunaga, Kanako Kojima-Kita, Daisuke Itou, Tohru Kimura, Toru Nakano GPAT2, a mitochondrial outer membrane protein, in piRNA biogenesis in germline stem cells. GPAT2, a mitochondrial outer membrane protein, in piRNA biogenesis in germline stem cells. GPAT2, a mitochondrial outer membrane protein, in piRNA biogenesis in germline stem cells. RNA (New York, N.Y.), 19, 6, 803-10 RNA (New York, N.Y.), 19, 6, 803-10 RNA (New York, N.Y.), 19, 6, 803-10 2013/06 English Research paper(scientific journal) Disclose to all
Shinichiro Chuma, Toru Nakano Shinichiro Chuma, Toru Nakano Shinichiro Chuma, Toru Nakano piRNA and spermatogenesis in mice. piRNA and spermatogenesis in mice. piRNA and spermatogenesis in mice. Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 368, 1609, 20110338-20110338 Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 368, 1609, 20110338-20110338 Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 368, 1609, 20110338-20110338 2013/01/05 English Research paper(scientific journal) Disclose to all
Jordi Xiol, Elisa Cora, Rubina Koglgruber, Shinichiro Chuma, Sailakshmi Subramanian, Mihoko Hosokawa, Michael Reuter, Zhaolin Yang, Philipp Berninger, Andres Palencia, Vladimir Benes, Josef Penninger, Ravi Sachidanandam, Ramesh S Pillai Jordi Xiol, Elisa Cora, Rubina Koglgruber, Shinichiro Chuma, Sailakshmi Subramanian, Mihoko Hosokawa, Michael Reuter, Zhaolin Yang, Philipp Berninger, Andres Palencia, Vladimir Benes, Josef Penninger, Ravi Sachidanandam, Ramesh S Pillai Jordi Xiol, Elisa Cora, Rubina Koglgruber, Shinichiro Chuma, Sailakshmi Subramanian, Mihoko Hosokawa, Michael Reuter, Zhaolin Yang, Philipp Berninger, Andres Palencia, Vladimir Benes, Josef Penninger, Ravi Sachidanandam, Ramesh S Pillai A role for Fkbp6 and the chaperone machinery in piRNA amplification and transposon silencing. A role for Fkbp6 and the chaperone machinery in piRNA amplification and transposon silencing. A role for Fkbp6 and the chaperone machinery in piRNA amplification and transposon silencing. Molecular cell, 47, 6, 970-9 Molecular cell, 47, 6, 970-9 Molecular cell, 47, 6, 970-9 2012/09/28 English Research paper(scientific journal) Disclose to all
Yuichi Morozumi, Ryohei Ino, Motoki Takaku, Mihoko Hosokawa, Shinichiro Chuma, Hitoshi Kurumizaka Yuichi Morozumi, Ryohei Ino, Motoki Takaku, Mihoko Hosokawa, Shinichiro Chuma, Hitoshi Kurumizaka Yuichi Morozumi, Ryohei Ino, Motoki Takaku, Mihoko Hosokawa, Shinichiro Chuma, Hitoshi Kurumizaka Human PSF concentrates DNA and stimulates duplex capture in DMC1-mediated homologous pairing. Human PSF concentrates DNA and stimulates duplex capture in DMC1-mediated homologous pairing. Human PSF concentrates DNA and stimulates duplex capture in DMC1-mediated homologous pairing. Nucleic acids research, 40, 7, 3031-41 Nucleic acids research, 40, 7, 3031-41 Nucleic acids research, 40, 7, 3031-41 2012/04 English Research paper(scientific journal) Disclose to all
Ramesh S Pillai, Shinichiro Chuma Ramesh S Pillai, Shinichiro Chuma Ramesh S Pillai, Shinichiro Chuma piRNAs and their involvement in male germline development in mice. piRNAs and their involvement in male germline development in mice. piRNAs and their involvement in male germline development in mice. Development, growth & differentiation, 54, 1, 78-92 Development, growth & differentiation, 54, 1, 78-92 Development, growth & differentiation, 54, 1, 78-92 2012/01 English Research paper(scientific journal) Disclose to all
Michael Reuter, Philipp Berninger, Shinichiro Chuma, Hardik Shah, Mihoko Hosokawa, Charlotta Funaya, Claude Antony, Ravi Sachidanandam, Ramesh S Pillai Michael Reuter, Philipp Berninger, Shinichiro Chuma, Hardik Shah, Mihoko Hosokawa, Charlotta Funaya, Claude Antony, Ravi Sachidanandam, Ramesh S Pillai Michael Reuter, Philipp Berninger, Shinichiro Chuma, Hardik Shah, Mihoko Hosokawa, Charlotta Funaya, Claude Antony, Ravi Sachidanandam, Ramesh S Pillai Miwi catalysis is required for piRNA amplification-independent LINE1 transposon silencing. Miwi catalysis is required for piRNA amplification-independent LINE1 transposon silencing. Miwi catalysis is required for piRNA amplification-independent LINE1 transposon silencing. Nature, 480, 7376, 264-7 Nature, 480, 7376, 264-7 Nature, 480, 7376, 264-7 2011/11/27 English Research paper(scientific journal) Disclose to all
Takashi Tanaka, Mihoko Hosokawa, Vasily V Vagin, Michael Reuter, Eri Hayashi, Ayako L Mochizuki, Kouichi Kitamura, Hidenori Yamanaka, Gen Kondoh, Katsuya Okawa, Satomi Kuramochi-Miyagawa, Toru Nakano, Ravi Sachidanandam, Gregory J Hannon, Ramesh S Pillai, Norio Nakatsuji, Shinichiro Chuma Takashi Tanaka, Mihoko Hosokawa, Vasily V Vagin, Michael Reuter, Eri Hayashi, Ayako L Mochizuki, Kouichi Kitamura, Hidenori Yamanaka, Gen Kondoh, Katsuya Okawa, Satomi Kuramochi-Miyagawa, Toru Nakano, Ravi Sachidanandam, Gregory J Hannon, Ramesh S Pillai, Norio Nakatsuji, Shinichiro Chuma Takashi Tanaka, Mihoko Hosokawa, Vasily V Vagin, Michael Reuter, Eri Hayashi, Ayako L Mochizuki, Kouichi Kitamura, Hidenori Yamanaka, Gen Kondoh, Katsuya Okawa, Satomi Kuramochi-Miyagawa, Toru Nakano, Ravi Sachidanandam, Gregory J Hannon, Ramesh S Pillai, Norio Nakatsuji, Shinichiro Chuma Tudor domain containing 7 (Tdrd7) is essential for dynamic ribonucleoprotein (RNP) remodeling of chromatoid bodies during spermatogenesis. Tudor domain containing 7 (Tdrd7) is essential for dynamic ribonucleoprotein (RNP) remodeling of chromatoid bodies during spermatogenesis. Tudor domain containing 7 (Tdrd7) is essential for dynamic ribonucleoprotein (RNP) remodeling of chromatoid bodies during spermatogenesis. Proceedings of the National Academy of Sciences of the United States of America, 108, 26, 10579-84 Proceedings of the National Academy of Sciences of the United States of America, 108, 26, 10579-84 Proceedings of the National Academy of Sciences of the United States of America, 108, 26, 10579-84 2011/06/28 English Research paper(scientific journal) Disclose to all
Toshiaki Watanabe, Shinichiro Chuma, Yasuhiro Yamamoto, Satomi Kuramochi-Miyagawa, Yasushi Totoki, Atsushi Toyoda, Yuko Hoki, Asao Fujiyama, Tatsuhiro Shibata, Takashi Sado, Toshiaki Noce, Toru Nakano, Norio Nakatsuji, Haifan Lin, Hiroyuki Sasaki Toshiaki Watanabe, Shinichiro Chuma, Yasuhiro Yamamoto, Satomi Kuramochi-Miyagawa, Yasushi Totoki, Atsushi Toyoda, Yuko Hoki, Asao Fujiyama, Tatsuhiro Shibata, Takashi Sado, Toshiaki Noce, Toru Nakano, Norio Nakatsuji, Haifan Lin, Hiroyuki Sasaki Toshiaki Watanabe, Shinichiro Chuma, Yasuhiro Yamamoto, Satomi Kuramochi-Miyagawa, Yasushi Totoki, Atsushi Toyoda, Yuko Hoki, Asao Fujiyama, Tatsuhiro Shibata, Takashi Sado, Toshiaki Noce, Toru Nakano, Norio Nakatsuji, Haifan Lin, Hiroyuki Sasaki MITOPLD is a mitochondrial protein essential for nuage formation and piRNA biogenesis in the mouse germline. MITOPLD is a mitochondrial protein essential for nuage formation and piRNA biogenesis in the mouse germline. MITOPLD is a mitochondrial protein essential for nuage formation and piRNA biogenesis in the mouse germline. Developmental cell, 20, 3, 364-75 Developmental cell, 20, 3, 364-75 Developmental cell, 20, 3, 364-75 2011/03/15 English Research paper(scientific journal) Disclose to all
Yukihiro Yabuta, Hiroshi Ohta, Takaya Abe, Kazuki Kurimoto, Shinichiro Chuma, Mitinori Saitou Yukihiro Yabuta, Hiroshi Ohta, Takaya Abe, Kazuki Kurimoto, Shinichiro Chuma, Mitinori Saitou Yukihiro Yabuta, Hiroshi Ohta, Takaya Abe, Kazuki Kurimoto, Shinichiro Chuma, Mitinori Saitou TDRD5 is required for retrotransposon silencing, chromatoid body assembly, and spermiogenesis in mice. TDRD5 is required for retrotransposon silencing, chromatoid body assembly, and spermiogenesis in mice. TDRD5 is required for retrotransposon silencing, chromatoid body assembly, and spermiogenesis in mice. The Journal of cell biology, 192, 5, 781-95 The Journal of cell biology, 192, 5, 781-95 The Journal of cell biology, 192, 5, 781-95 2011/03/07 English Research paper(scientific journal) Disclose to all
Satomi Kuramochi-Miyagawa, Toshiaki Watanabe, Kengo Gotoh, Kana Takamatsu, Shinichiro Chuma, Kanako Kojima-Kita, Yusuke Shiromoto, Noriko Asada, Atsushi Toyoda, Asao Fujiyama, Yasushi Totoki, Tatsuhiro Shibata, Tohru Kimura, Norio Nakatsuji, Toshiaki Noce, Hiroyuki Sasaki, Toru Nakano Satomi Kuramochi-Miyagawa, Toshiaki Watanabe, Kengo Gotoh, Kana Takamatsu, Shinichiro Chuma, Kanako Kojima-Kita, Yusuke Shiromoto, Noriko Asada, Atsushi Toyoda, Asao Fujiyama, Yasushi Totoki, Tatsuhiro Shibata, Tohru Kimura, Norio Nakatsuji, Toshiaki Noce, Hiroyuki Sasaki, Toru Nakano Satomi Kuramochi-Miyagawa, Toshiaki Watanabe, Kengo Gotoh, Kana Takamatsu, Shinichiro Chuma, Kanako Kojima-Kita, Yusuke Shiromoto, Noriko Asada, Atsushi Toyoda, Asao Fujiyama, Yasushi Totoki, Tatsuhiro Shibata, Tohru Kimura, Norio Nakatsuji, Toshiaki Noce, Hiroyuki Sasaki, Toru Nakano MVH in piRNA processing and gene silencing of retrotransposons. MVH in piRNA processing and gene silencing of retrotransposons. MVH in piRNA processing and gene silencing of retrotransposons. Genes & development, 24, 9, 887-92 Genes & development, 24, 9, 887-92 Genes & development, 24, 9, 887-92 2010/05 English Research paper(scientific journal) Disclose to all
Masashi Yamaji, Takashi Tanaka, Mayo Shigeta, Shinichiro Chuma, Yumiko Saga, Mitinori Saitou Masashi Yamaji, Takashi Tanaka, Mayo Shigeta, Shinichiro Chuma, Yumiko Saga, Mitinori Saitou Masashi Yamaji, Takashi Tanaka, Mayo Shigeta, Shinichiro Chuma, Yumiko Saga, Mitinori Saitou Functional reconstruction of NANOS3 expression in the germ cell lineage by a novel transgenic reporter reveals distinct subcellular localizations of NANOS3. Functional reconstruction of NANOS3 expression in the germ cell lineage by a novel transgenic reporter reveals distinct subcellular localizations of NANOS3. Functional reconstruction of NANOS3 expression in the germ cell lineage by a novel transgenic reporter reveals distinct subcellular localizations of NANOS3. Reproduction (Cambridge, England), 139, 2, 381-93 Reproduction (Cambridge, England), 139, 2, 381-93 Reproduction (Cambridge, England), 139, 2, 381-93 2010/02 English Research paper(scientific journal) Disclose to all
Shinichiro Chuma, Ramesh S Pillai Shinichiro Chuma, Ramesh S Pillai Shinichiro Chuma, Ramesh S Pillai Retrotransposon silencing by piRNAs: ping-pong players mark their sub-cellular boundaries. Retrotransposon silencing by piRNAs: ping-pong players mark their sub-cellular boundaries. Retrotransposon silencing by piRNAs: ping-pong players mark their sub-cellular boundaries. PLoS genetics, 5, 12, e1000770 PLoS genetics, 5, 12, e1000770 PLoS genetics, 5, 12, e1000770 2009/12 English Research paper(scientific journal) Disclose to all
Masanobu Shoji, Takashi Tanaka, Mihoko Hosokawa, Michael Reuter, Alexander Stark, Yuzuru Kato, Gen Kondoh, Katsuya Okawa, Takeshi Chujo, Tsutomu Suzuki, Kenichiro Hata, Sandra L Martin, Toshiaki Noce, Satomi Kuramochi-Miyagawa, Toru Nakano, Hiroyuki Sasaki, Ramesh S Pillai, Norio Nakatsuji, Shinichiro Chuma Masanobu Shoji, Takashi Tanaka, Mihoko Hosokawa, Michael Reuter, Alexander Stark, Yuzuru Kato, Gen Kondoh, Katsuya Okawa, Takeshi Chujo, Tsutomu Suzuki, Kenichiro Hata, Sandra L Martin, Toshiaki Noce, Satomi Kuramochi-Miyagawa, Toru Nakano, Hiroyuki Sasaki, Ramesh S Pillai, Norio Nakatsuji, Shinichiro Chuma Masanobu Shoji, Takashi Tanaka, Mihoko Hosokawa, Michael Reuter, Alexander Stark, Yuzuru Kato, Gen Kondoh, Katsuya Okawa, Takeshi Chujo, Tsutomu Suzuki, Kenichiro Hata, Sandra L Martin, Toshiaki Noce, Satomi Kuramochi-Miyagawa, Toru Nakano, Hiroyuki Sasaki, Ramesh S Pillai, Norio Nakatsuji, Shinichiro Chuma The TDRD9-MIWI2 complex is essential for piRNA-mediated retrotransposon silencing in the mouse male germline. The TDRD9-MIWI2 complex is essential for piRNA-mediated retrotransposon silencing in the mouse male germline. The TDRD9-MIWI2 complex is essential for piRNA-mediated retrotransposon silencing in the mouse male germline. Developmental cell, 17, 6, 775-87 Developmental cell, 17, 6, 775-87 Developmental cell, 17, 6, 775-87 2009/12 English Research paper(scientific journal) Disclose to all
Kanako Kojima, Satomi Kuramochi-Miyagawa, Shinichiro Chuma, Takashi Tanaka, Norio Nakatsuji, Tohru Kimura, Toru Nakano Kanako Kojima, Satomi Kuramochi-Miyagawa, Shinichiro Chuma, Takashi Tanaka, Norio Nakatsuji, Tohru Kimura, Toru Nakano Kanako Kojima, Satomi Kuramochi-Miyagawa, Shinichiro Chuma, Takashi Tanaka, Norio Nakatsuji, Tohru Kimura, Toru Nakano Associations between PIWI proteins and TDRD1/MTR-1 are critical for integrated subcellular localization in murine male germ cells. Associations between PIWI proteins and TDRD1/MTR-1 are critical for integrated subcellular localization in murine male germ cells. Associations between PIWI proteins and TDRD1/MTR-1 are critical for integrated subcellular localization in murine male germ cells. Genes to cells : devoted to molecular & cellular mechanisms, 14, 10, 1155-65 Genes to cells : devoted to molecular & cellular mechanisms, 14, 10, 1155-65 Genes to cells : devoted to molecular & cellular mechanisms, 14, 10, 1155-65 2009/10 English Research paper(scientific journal) Disclose to all
Vasily V Vagin, James Wohlschlegel, Jun Qu, Zophonias Jonsson, Xinhua Huang, Shinichiro Chuma, Angelique Girard, Ravi Sachidanandam, Gregory J Hannon, Alexei A Aravin Vasily V Vagin, James Wohlschlegel, Jun Qu, Zophonias Jonsson, Xinhua Huang, Shinichiro Chuma, Angelique Girard, Ravi Sachidanandam, Gregory J Hannon, Alexei A Aravin Vasily V Vagin, James Wohlschlegel, Jun Qu, Zophonias Jonsson, Xinhua Huang, Shinichiro Chuma, Angelique Girard, Ravi Sachidanandam, Gregory J Hannon, Alexei A Aravin Proteomic analysis of murine Piwi proteins reveals a role for arginine methylation in specifying interaction with Tudor family members. Proteomic analysis of murine Piwi proteins reveals a role for arginine methylation in specifying interaction with Tudor family members. Proteomic analysis of murine Piwi proteins reveals a role for arginine methylation in specifying interaction with Tudor family members. Genes & development, 23, 15, 1749-62 Genes & development, 23, 15, 1749-62 Genes & development, 23, 15, 1749-62 2009/08/01 English Research paper(scientific journal) Disclose to all
Shinichiro Chuma, Mihoko Hosokawa, Takashi Tanaka, Norio Nakatsuji Shinichiro Chuma, Mihoko Hosokawa, Takashi Tanaka, Norio Nakatsuji Shinichiro Chuma, Mihoko Hosokawa, Takashi Tanaka, Norio Nakatsuji Ultrastructural characterization of spermatogenesis and its evolutionary conservation in the germline: germinal granules in mammals. Ultrastructural characterization of spermatogenesis and its evolutionary conservation in the germline: germinal granules in mammals. Ultrastructural characterization of spermatogenesis and its evolutionary conservation in the germline: germinal granules in mammals. Molecular and cellular endocrinology, 306, 1-2, 17-23 Molecular and cellular endocrinology, 306, 1-2, 17-23 Molecular and cellular endocrinology, 306, 1-2, 17-23 2009/07/10 English Research paper(scientific journal) Disclose to all
Seiji Takashima, Masanori Takehashi, Jiyoung Lee, Shinichiro Chuma, Masaki Okano, Kenichiro Hata, Isao Suetake, Norio Nakatsuji, Hiroyuki Miyoshi, Shoji Tajima, Yoriko Tanaka, Shinya Toyokuni, Hiroyuki Sasaki, Mito Kanatsu-Shinohara, Takashi Shinohara Seiji Takashima, Masanori Takehashi, Jiyoung Lee, Shinichiro Chuma, Masaki Okano, Kenichiro Hata, Isao Suetake, Norio Nakatsuji, Hiroyuki Miyoshi, Shoji Tajima, Yoriko Tanaka, Shinya Toyokuni, Hiroyuki Sasaki, Mito Kanatsu-Shinohara, Takashi Shinohara Seiji Takashima, Masanori Takehashi, Jiyoung Lee, Shinichiro Chuma, Masaki Okano, Kenichiro Hata, Isao Suetake, Norio Nakatsuji, Hiroyuki Miyoshi, Shoji Tajima, Yoriko Tanaka, Shinya Toyokuni, Hiroyuki Sasaki, Mito Kanatsu-Shinohara, Takashi Shinohara Abnormal DNA methyltransferase expression in mouse germline stem cells results in spermatogenic defects. Abnormal DNA methyltransferase expression in mouse germline stem cells results in spermatogenic defects. Abnormal DNA methyltransferase expression in mouse germline stem cells results in spermatogenic defects. Biology of reproduction, 81, 1, 155-64 Biology of reproduction, 81, 1, 155-64 Biology of reproduction, 81, 1, 155-64 2009/07 English Research paper(scientific journal) Disclose to all
Michael Reuter, Shinichiro Chuma, Takashi Tanaka, Thomas Franz, Alexander Stark, Ramesh S Pillai Michael Reuter, Shinichiro Chuma, Takashi Tanaka, Thomas Franz, Alexander Stark, Ramesh S Pillai Michael Reuter, Shinichiro Chuma, Takashi Tanaka, Thomas Franz, Alexander Stark, Ramesh S Pillai Loss of the Mili-interacting Tudor domain-containing protein-1 activates transposons and alters the Mili-associated small RNA profile. Loss of the Mili-interacting Tudor domain-containing protein-1 activates transposons and alters the Mili-associated small RNA profile. Loss of the Mili-interacting Tudor domain-containing protein-1 activates transposons and alters the Mili-associated small RNA profile. Nature structural & molecular biology, 16, 6, 639-46 Nature structural & molecular biology, 16, 6, 639-46 Nature structural & molecular biology, 16, 6, 639-46 2009/06 English Research paper(scientific journal) Disclose to all
Jianquan Wang, Jonathan P Saxe, Takashi Tanaka, Shinichiro Chuma, Haifan Lin Jianquan Wang, Jonathan P Saxe, Takashi Tanaka, Shinichiro Chuma, Haifan Lin Jianquan Wang, Jonathan P Saxe, Takashi Tanaka, Shinichiro Chuma, Haifan Lin Mili interacts with tudor domain-containing protein 1 in regulating spermatogenesis. Mili interacts with tudor domain-containing protein 1 in regulating spermatogenesis. Mili interacts with tudor domain-containing protein 1 in regulating spermatogenesis. Current biology : CB, 19, 8, 640-4 Current biology : CB, 19, 8, 640-4 Current biology : CB, 19, 8, 640-4 2009/04/28 English Research paper(scientific journal) Disclose to all
Kaori Yamauchi, Kouichi Hasegawa, Shinichiro Chuma, Norio Nakatsuji, Hirofumi Suemori Kaori Yamauchi, Kouichi Hasegawa, Shinichiro Chuma, Norio Nakatsuji, Hirofumi Suemori Kaori Yamauchi, Kouichi Hasegawa, Shinichiro Chuma, Norio Nakatsuji, Hirofumi Suemori In vitro germ cell differentiation from cynomolgus monkey embryonic stem cells. In vitro germ cell differentiation from cynomolgus monkey embryonic stem cells. In vitro germ cell differentiation from cynomolgus monkey embryonic stem cells. PloS one, 4, 4, e5338 PloS one, 4, 4, e5338 PloS one, 4, 4, e5338 2009 English Research paper(scientific journal) Disclose to all
Mito Kanatsu-Shinohara, Megumi Kato, Masanori Takehashi, Hiroko Morimoto, Seiji Takashima, Shinichiro Chuma, Norio Nakatsuji, Masumi Hirabayashi, Takashi Shinohara Mito Kanatsu-Shinohara, Megumi Kato, Masanori Takehashi, Hiroko Morimoto, Seiji Takashima, Shinichiro Chuma, Norio Nakatsuji, Masumi Hirabayashi, Takashi Shinohara Mito Kanatsu-Shinohara, Megumi Kato, Masanori Takehashi, Hiroko Morimoto, Seiji Takashima, Shinichiro Chuma, Norio Nakatsuji, Masumi Hirabayashi, Takashi Shinohara Production of transgenic rats via lentiviral transduction and xenogeneic transplantation of spermatogonial stem cells. Production of transgenic rats via lentiviral transduction and xenogeneic transplantation of spermatogonial stem cells. Production of transgenic rats via lentiviral transduction and xenogeneic transplantation of spermatogonial stem cells. Biology of reproduction, 79, 6, 1121-8 Biology of reproduction, 79, 6, 1121-8 Biology of reproduction, 79, 6, 1121-8 2008/12 English Research paper(scientific journal) Disclose to all
Mito Kanatsu-Shinohara, Masanori Takehashi, Seiji Takashima, Jiyoung Lee, Hiroko Morimoto, Shinichiro Chuma, Aurelia Raducanu, Norio Nakatsuji, Reinhard Fässler, Takashi Shinohara Mito Kanatsu-Shinohara, Masanori Takehashi, Seiji Takashima, Jiyoung Lee, Hiroko Morimoto, Shinichiro Chuma, Aurelia Raducanu, Norio Nakatsuji, Reinhard Fässler, Takashi Shinohara Mito Kanatsu-Shinohara, Masanori Takehashi, Seiji Takashima, Jiyoung Lee, Hiroko Morimoto, Shinichiro Chuma, Aurelia Raducanu, Norio Nakatsuji, Reinhard Fässler, Takashi Shinohara Homing of mouse spermatogonial stem cells to germline niche depends on beta1-integrin. Homing of mouse spermatogonial stem cells to germline niche depends on beta1-integrin. Homing of mouse spermatogonial stem cells to germline niche depends on beta1-integrin. Cell stem cell, 3, 5, 533-42 Cell stem cell, 3, 5, 533-42 Cell stem cell, 3, 5, 533-42 2008/11/06 English Research paper(scientific journal) Disclose to all
Mito Kanatsu-Shinohara, Tomomi Muneto, Jiyoung Lee, Manami Takenaka, Shinichiro Chuma, Norio Nakatsuji, Toshitaka Horiuchi, Takashi Shinohara Mito Kanatsu-Shinohara, Tomomi Muneto, Jiyoung Lee, Manami Takenaka, Shinichiro Chuma, Norio Nakatsuji, Toshitaka Horiuchi, Takashi Shinohara Mito Kanatsu-Shinohara, Tomomi Muneto, Jiyoung Lee, Manami Takenaka, Shinichiro Chuma, Norio Nakatsuji, Toshitaka Horiuchi, Takashi Shinohara Long-term culture of male germline stem cells from hamster testes. Long-term culture of male germline stem cells from hamster testes. Long-term culture of male germline stem cells from hamster testes. Biology of reproduction, 78, 4, 611-7 Biology of reproduction, 78, 4, 611-7 Biology of reproduction, 78, 4, 611-7 2008/04 English Research paper(scientific journal) Disclose to all
Mihoko Hosokawa, Masanobu Shoji, Kouichi Kitamura, Takashi Tanaka, Toshiaki Noce, Shinichiro Chuma, Norio Nakatsuji Mihoko Hosokawa, Masanobu Shoji, Kouichi Kitamura, Takashi Tanaka, Toshiaki Noce, Shinichiro Chuma, Norio Nakatsuji Mihoko Hosokawa, Masanobu Shoji, Kouichi Kitamura, Takashi Tanaka, Toshiaki Noce, Shinichiro Chuma, Norio Nakatsuji Tudor-related proteins TDRD1/MTR-1, TDRD6 and TDRD7/TRAP: domain composition, intracellular localization, and function in male germ cells in mice. Tudor-related proteins TDRD1/MTR-1, TDRD6 and TDRD7/TRAP: domain composition, intracellular localization, and function in male germ cells in mice. Tudor-related proteins TDRD1/MTR-1, TDRD6 and TDRD7/TRAP: domain composition, intracellular localization, and function in male germ cells in mice. Developmental biology, 301, 1, 38-52 Developmental biology, 301, 1, 38-52 Developmental biology, 301, 1, 38-52 2007/01/01 English Research paper(scientific journal) Disclose to all
Shinichiro Chuma, Mihoko Hosokawa, Kouichi Kitamura, Shinya Kasai, Makio Fujioka, Masateru Hiyoshi, Kazufumi Takamune, Toshiaki Noce, Norio Nakatsuji Shinichiro Chuma, Mihoko Hosokawa, Kouichi Kitamura, Shinya Kasai, Makio Fujioka, Masateru Hiyoshi, Kazufumi Takamune, Toshiaki Noce, Norio Nakatsuji Shinichiro Chuma, Mihoko Hosokawa, Kouichi Kitamura, Shinya Kasai, Makio Fujioka, Masateru Hiyoshi, Kazufumi Takamune, Toshiaki Noce, Norio Nakatsuji Tdrd1/Mtr-1, a tudor-related gene, is essential for male germ-cell differentiation and nuage/germinal granule formation in mice. Tdrd1/Mtr-1, a tudor-related gene, is essential for male germ-cell differentiation and nuage/germinal granule formation in mice. Tdrd1/Mtr-1, a tudor-related gene, is essential for male germ-cell differentiation and nuage/germinal granule formation in mice. Proceedings of the National Academy of Sciences of the United States of America, 103, 43, 15894-9 Proceedings of the National Academy of Sciences of the United States of America, 103, 43, 15894-9 Proceedings of the National Academy of Sciences of the United States of America, 103, 43, 15894-9 2006/10/24 English Research paper(scientific journal) Disclose to all
Takashi Shinohara, Megumi Kato, Masanori Takehashi, Jiyoung Lee, Shinichiro Chuma, Norio Nakatsuji, Mito Kanatsu-Shinohara, Masumi Hirabayashi Takashi Shinohara, Megumi Kato, Masanori Takehashi, Jiyoung Lee, Shinichiro Chuma, Norio Nakatsuji, Mito Kanatsu-Shinohara, Masumi Hirabayashi Takashi Shinohara, Megumi Kato, Masanori Takehashi, Jiyoung Lee, Shinichiro Chuma, Norio Nakatsuji, Mito Kanatsu-Shinohara, Masumi Hirabayashi Rats produced by interspecies spermatogonial transplantation in mice and in vitro microinsemination. Rats produced by interspecies spermatogonial transplantation in mice and in vitro microinsemination. Rats produced by interspecies spermatogonial transplantation in mice and in vitro microinsemination. Proceedings of the National Academy of Sciences of the United States of America, 103, 37, 13624-8 Proceedings of the National Academy of Sciences of the United States of America, 103, 37, 13624-8 Proceedings of the National Academy of Sciences of the United States of America, 103, 37, 13624-8 2006/09/12 English Research paper(scientific journal) Disclose to all
Kouichi Hasegawa, Shinichiro Chuma, Takashi Tada, Takayuki Sakurai, Masaru Tamura, Hirofumi Suemori, Norio Nakatsuji Kouichi Hasegawa, Shinichiro Chuma, Takashi Tada, Takayuki Sakurai, Masaru Tamura, Hirofumi Suemori, Norio Nakatsuji Kouichi Hasegawa, Shinichiro Chuma, Takashi Tada, Takayuki Sakurai, Masaru Tamura, Hirofumi Suemori, Norio Nakatsuji Testatin transgenic and knockout mice exhibit normal sex-differentiation. Testatin transgenic and knockout mice exhibit normal sex-differentiation. Testatin transgenic and knockout mice exhibit normal sex-differentiation. Biochemical and biophysical research communications, 341, 2, 369-75 Biochemical and biophysical research communications, 341, 2, 369-75 Biochemical and biophysical research communications, 341, 2, 369-75 2006/03/10 English Research paper(scientific journal) Disclose to all
Jieyan Pan, Mary Goodheart, Shinichiro Chuma, Norio Nakatsuji, David C Page, P Jeremy Wang Jieyan Pan, Mary Goodheart, Shinichiro Chuma, Norio Nakatsuji, David C Page, P Jeremy Wang Jieyan Pan, Mary Goodheart, Shinichiro Chuma, Norio Nakatsuji, David C Page, P Jeremy Wang RNF17, a component of the mammalian germ cell nuage, is essential for spermiogenesis. RNF17, a component of the mammalian germ cell nuage, is essential for spermiogenesis. RNF17, a component of the mammalian germ cell nuage, is essential for spermiogenesis. Development (Cambridge, England), 132, 18, 4029-39 Development (Cambridge, England), 132, 18, 4029-39 Development (Cambridge, England), 132, 18, 4029-39 2005/09 English Research paper(scientific journal) Disclose to all
Masanobu Shoji, Shinichiro Chuma, Kayo Yoshida, Takashi Morita, Norio Nakatsuji Masanobu Shoji, Shinichiro Chuma, Kayo Yoshida, Takashi Morita, Norio Nakatsuji Masanobu Shoji, Shinichiro Chuma, Kayo Yoshida, Takashi Morita, Norio Nakatsuji RNA interference during spermatogenesis in mice. RNA interference during spermatogenesis in mice. RNA interference during spermatogenesis in mice. Developmental biology, 282, 2, 524-34 Developmental biology, 282, 2, 524-34 Developmental biology, 282, 2, 524-34 2005/06/15 English Research paper(scientific journal) Disclose to all
Ayako Isotani, Tomoko Nakanishi, Shin Kobayashi, Jiyoung Lee, Shinichiro Chuma, Norio Nakatsuji, Fumitoshi Ishino, Masaru Okabe Ayako Isotani, Tomoko Nakanishi, Shin Kobayashi, Jiyoung Lee, Shinichiro Chuma, Norio Nakatsuji, Fumitoshi Ishino, Masaru Okabe Ayako Isotani, Tomoko Nakanishi, Shin Kobayashi, Jiyoung Lee, Shinichiro Chuma, Norio Nakatsuji, Fumitoshi Ishino, Masaru Okabe Genomic imprinting of XX spermatogonia and XX oocytes recovered from XX<-->XY chimeric testes. Genomic imprinting of XX spermatogonia and XX oocytes recovered from XX<-->XY chimeric testes. Genomic imprinting of XX spermatogonia and XX oocytes recovered from XX<-->XY chimeric testes. Proceedings of the National Academy of Sciences of the United States of America, 102, 11, 4039-44 Proceedings of the National Academy of Sciences of the United States of America, 102, 11, 4039-44 Proceedings of the National Academy of Sciences of the United States of America, 102, 11, 4039-44 2005/03/15 English Research paper(scientific journal) Disclose to all
Shinichiro Chuma, Mito Kanatsu-Shinohara, Kimiko Inoue, Narumi Ogonuki, Hiromi Miki, Shinya Toyokuni, Mihoko Hosokawa, Norio Nakatsuji, Atsuo Ogura, Takashi Shinohara Shinichiro Chuma, Mito Kanatsu-Shinohara, Kimiko Inoue, Narumi Ogonuki, Hiromi Miki, Shinya Toyokuni, Mihoko Hosokawa, Norio Nakatsuji, Atsuo Ogura, Takashi Shinohara Shinichiro Chuma, Mito Kanatsu-Shinohara, Kimiko Inoue, Narumi Ogonuki, Hiromi Miki, Shinya Toyokuni, Mihoko Hosokawa, Norio Nakatsuji, Atsuo Ogura, Takashi Shinohara Spermatogenesis from epiblast and primordial germ cells following transplantation into postnatal mouse testis. Spermatogenesis from epiblast and primordial germ cells following transplantation into postnatal mouse testis. Spermatogenesis from epiblast and primordial germ cells following transplantation into postnatal mouse testis. Development (Cambridge, England), 132, 1, 117-22 Development (Cambridge, England), 132, 1, 117-22 Development (Cambridge, England), 132, 1, 117-22 2005/01 English Research paper(scientific journal) Disclose to all
Shinya Kasai, Shinichiro Chuma, Noboru Motoyama, Norio Nakatsuji Shinya Kasai, Shinichiro Chuma, Noboru Motoyama, Norio Nakatsuji Shinya Kasai, Shinichiro Chuma, Noboru Motoyama, Norio Nakatsuji Haploinsufficiency of Bcl-x leads to male-specific defects in fetal germ cells: differential regulation of germ cell apoptosis between the sexes. Haploinsufficiency of Bcl-x leads to male-specific defects in fetal germ cells: differential regulation of germ cell apoptosis between the sexes. Haploinsufficiency of Bcl-x leads to male-specific defects in fetal germ cells: differential regulation of germ cell apoptosis between the sexes. Developmental biology, 264, 1, 202-16 Developmental biology, 264, 1, 202-16 Developmental biology, 264, 1, 202-16 2003/12/01 English Research paper(scientific journal) Disclose to all
Shinichiro Chuma, Masateru Hiyoshi, Akitsugu Yamamoto, Mihoko Hosokawa, Kazufumi Takamune, Norio Nakatsuji Shinichiro Chuma, Masateru Hiyoshi, Akitsugu Yamamoto, Mihoko Hosokawa, Kazufumi Takamune, Norio Nakatsuji Shinichiro Chuma, Masateru Hiyoshi, Akitsugu Yamamoto, Mihoko Hosokawa, Kazufumi Takamune, Norio Nakatsuji Mouse Tudor Repeat-1 (MTR-1) is a novel component of chromatoid bodies/nuages in male germ cells and forms a complex with snRNPs. Mouse Tudor Repeat-1 (MTR-1) is a novel component of chromatoid bodies/nuages in male germ cells and forms a complex with snRNPs. Mouse Tudor Repeat-1 (MTR-1) is a novel component of chromatoid bodies/nuages in male germ cells and forms a complex with snRNPs. Mechanisms of development, 120, 9, 979-90 Mechanisms of development, 120, 9, 979-90 Mechanisms of development, 120, 9, 979-90 2003/09 English Research paper(scientific journal) Disclose to all
M Tamura, Y Kanno, S Chuma, T Saito, N Nakatsuji M Tamura, Y Kanno, S Chuma, T Saito, N Nakatsuji M Tamura, Y Kanno, S Chuma, T Saito, N Nakatsuji Pod-1/Capsulin shows a sex- and stage-dependent expression pattern in the mouse gonad development and represses expression of Ad4BP/SF-1. Pod-1/Capsulin shows a sex- and stage-dependent expression pattern in the mouse gonad development and represses expression of Ad4BP/SF-1. Pod-1/Capsulin shows a sex- and stage-dependent expression pattern in the mouse gonad development and represses expression of Ad4BP/SF-1. Mechanisms of development, 102, 1-2, 135-44 Mechanisms of development, 102, 1-2, 135-44 Mechanisms of development, 102, 1-2, 135-44 2001/04 English Research paper(scientific journal) Disclose to all
S Chuma, N Nakatsuji S Chuma, N Nakatsuji S Chuma, N Nakatsuji Autonomous transition into meiosis of mouse fetal germ cells in vitro and its inhibition by gp130-mediated signaling. Autonomous transition into meiosis of mouse fetal germ cells in vitro and its inhibition by gp130-mediated signaling. Autonomous transition into meiosis of mouse fetal germ cells in vitro and its inhibition by gp130-mediated signaling. Developmental biology, 229, 2, 468-79 Developmental biology, 229, 2, 468-79 Developmental biology, 229, 2, 468-79 2001/01/15 English Research paper(scientific journal) Disclose to all
N Nakatsuji, S Chuma N Nakatsuji, S Chuma N Nakatsuji, S Chuma Differentiation of mouse primordial germ cells into female or male germ cells. Differentiation of mouse primordial germ cells into female or male germ cells. Differentiation of mouse primordial germ cells into female or male germ cells. The International journal of developmental biology, 45, 3, 541-8 The International journal of developmental biology, 45, 3, 541-8 The International journal of developmental biology, 45, 3, 541-8 2001 English Research paper(scientific journal) Disclose to all
Z Huang, M Tamura, T Sakurai, S Chuma, T Saito, N Nakatsuji Z Huang, M Tamura, T Sakurai, S Chuma, T Saito, N Nakatsuji Z Huang, M Tamura, T Sakurai, S Chuma, T Saito, N Nakatsuji In vivo transfection of testicular germ cells and transgenesis by using the mitochondrially localized jellyfish fluorescent protein gene. In vivo transfection of testicular germ cells and transgenesis by using the mitochondrially localized jellyfish fluorescent protein gene. In vivo transfection of testicular germ cells and transgenesis by using the mitochondrially localized jellyfish fluorescent protein gene. FEBS letters, 487, 2, 248-51 FEBS letters, 487, 2, 248-51 FEBS letters, 487, 2, 248-51 2000/12/29 English Research paper(scientific journal) Disclose to all
Y Kanno, M Tamura, S Chuma, T Sakura, T Machida, N Nakatsuji Y Kanno, M Tamura, S Chuma, T Sakura, T Machida, N Nakatsuji Y Kanno, M Tamura, S Chuma, T Sakura, T Machida, N Nakatsuji A cystatin-related gene, testatin/cresp, shows male-specific expression in germ and somatic cells from the initial stage of murine gonadal sex-differentiation. A cystatin-related gene, testatin/cresp, shows male-specific expression in germ and somatic cells from the initial stage of murine gonadal sex-differentiation. A cystatin-related gene, testatin/cresp, shows male-specific expression in germ and somatic cells from the initial stage of murine gonadal sex-differentiation. The International journal of developmental biology, 43, 8, 777-84 The International journal of developmental biology, 43, 8, 777-84 The International journal of developmental biology, 43, 8, 777-84 1999/11 English Research paper(scientific journal) 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
Ultrastructural characteristic of spermatogenesis and its evolutionary conservation in the germline.[Invited] Ultrastructural characteristic of spermatogenesis and its evolutionary conservation in the germline. [Invited] Ultrastructural characteristic of spermatogenesis and its evolutionary conservation in the germline. [Invited] 15th European testis workshop with NAFA annual meeting. 2008.5.2-6. Naantali, Finland 15th European testis workshop with NAFA annual meeting. 2008.5.2-6. Naantali, Finland 15th European testis workshop with NAFA annual meeting. 2008.5.2-6. Naantali, Finland 2008 English Oral presentation(invited, special) Disclose to all
piRNA in germ cell development[Invited] piRNA in germ cell development [Invited] piRNA in germ cell development [Invited] Gordon research conference "germinal stem cell biology" 2015.5.31-6.5, Hong Kong, China Gordon research conference "germinal stem cell biology" 2015.5.31-6.5, Hong Kong, China Gordon research conference "germinal stem cell biology" 2015.5.31-6.5, Hong Kong, China Disclose to all
piRNAs in the testis: mammalian tudor genes and germinal granules.[Invited] piRNAs in the testis: mammalian tudor genes and germinal granules. [Invited] piRNAs in the testis: mammalian tudor genes and germinal granules. [Invited] International Congress of Andrology, 2013.2.23-26, Melbourne, Australia International Congress of Andrology, 2013.2.23-26, Melbourne, Australia International Congress of Andrology, 2013.2.23-26, Melbourne, Australia Disclose to all
Mammalian tudor related genes in the male germline[Invited] Mammalian tudor related genes in the male germline [Invited] Mammalian tudor related genes in the male germline [Invited] 44th meeting of society for the study of reproduction, 2011.7.31-8.4 Portland, USA 44th meeting of society for the study of reproduction, 2011.7.31-8.4 Portland, USA 44th meeting of society for the study of reproduction, 2011.7.31-8.4 Portland, USA Disclose to all
Germline tudor genes, germinal granules and spermatogenesis in mice[Invited] Germline tudor genes, germinal granules and spermatogenesis in mice [Invited] Germline tudor genes, germinal granules and spermatogenesis in mice [Invited] Cold spring harbor laboratory asia conference “Developmental Control of Sex, Growth and Cellular Fate” 2011.10.11-15, Suzhou, China Cold spring harbor laboratory asia conference “Developmental Control of Sex, Growth and Cellular Fate” 2011.10.11-15, Suzhou, China Cold spring harbor laboratory asia conference “Developmental Control of Sex, Growth and Cellular Fate” 2011.10.11-15, Suzhou, China Disclose to all
Protein and RNA assembly of germinal granules/nuage in the germline[Invited] Protein and RNA assembly of germinal granules/nuage in the germline [Invited] Protein and RNA assembly of germinal granules/nuage in the germline [Invited] World Congress on Reproductive Biology 2008.5.24-25, Hawaii, USA World Congress on Reproductive Biology 2008.5.24-25, Hawaii, USA World Congress on Reproductive Biology 2008.5.24-25, Hawaii, USA Disclose to all
Mammalian germ cells and germinal granules/nuage[Invited] Mammalian germ cells and germinal granules/nuage [Invited] Mammalian germ cells and germinal granules/nuage [Invited] Germ cell-soma interactions in gonadal development and germ cell tumors (workshops “current trends in biomedicine”) 2008.10.20-22, Baeza, Spain Germ cell-soma interactions in gonadal development and germ cell tumors (workshops “current trends in biomedicine”) 2008.10.20-22, Baeza, Spain Germ cell-soma interactions in gonadal development and germ cell tumors (workshops “current trends in biomedicine”) 2008.10.20-22, Baeza, Spain Disclose to all
Title language:
Books etc
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Publisher Publisher(Japanese) Publisher(English) Publication date Language Type Disclose
中馬新一郎 中馬新一郎 減数分裂の発生制御とゲノム情報の継承、実験医学 32、853-858 減数分裂の発生制御とゲノム情報の継承、実験医学 32、853-858 2014 Disclose to all
中馬新一郎, 中辻憲夫 中馬新一郎, 中辻憲夫 哺乳類生殖細胞と生殖顆粒構造、生殖細胞の発生・エピジェネティクスと再プログラム化、蛋白質核酸酵素 52(共立出版)、 2102-2108 哺乳類生殖細胞と生殖顆粒構造、生殖細胞の発生・エピジェネティクスと再プログラム化、蛋白質核酸酵素 52(共立出版)、 2102-2108 2007 Disclose to all
中辻憲夫, 中馬新一郎 中辻憲夫, 中馬新一郎 多能性幹細胞と胚形成・生殖系列、 再生医学の基礎 幹細胞と臓器形成(名古屋大学出版会)、1-29 多能性幹細胞と胚形成・生殖系列、 再生医学の基礎 幹細胞と臓器形成(名古屋大学出版会)、1-29 2003 Disclose to all
中馬新一郎 中馬新一郎 始原生殖細胞の培養と減数分裂への移行、幹細胞クローン研究プロトコール(羊土社)、33-41 始原生殖細胞の培養と減数分裂への移行、幹細胞クローン研究プロトコール(羊土社)、33-41 2001 Disclose to all
中馬新一郎, 中辻憲夫 中馬新一郎, 中辻憲夫 胎仔生殖系列細胞の発生と操作、遺伝子医学 4、264-268 胎仔生殖系列細胞の発生と操作、遺伝子医学 4、264-268 2000 Disclose to all
中馬新一郎、田村勝、中辻憲夫 中馬新一郎、田村勝、中辻憲夫 学会見聞記、蛋白質核酸酵素、6月、915-917 学会見聞記、蛋白質核酸酵素、6月、915-917 1999 Disclose to all
Title language:
Industrial Property Rights (Patent)
Inventor(s) Inventor(s) (Japanese) Inventor(s) (English) Title Title(Japanese) Title(English) Stage Patent number Date Disclose
中辻憲夫, 田村勝, 黄振勇, 桜井敬之, 中馬新一郎, 斎藤哲一郎 中辻憲夫, 田村勝, 黄振勇, 桜井敬之, 中馬新一郎, 斎藤哲一郎 トランスジェニック動物の作製方法、トランスジェニック動物 トランスジェニック動物の作製方法、トランスジェニック動物 特許登録 特許3694734 Disclose to all
中辻憲夫, 末盛博文, 中馬新一郎, 鈴木崇 中辻憲夫, 末盛博文, 中馬新一郎, 鈴木崇 細胞の分化状態の評価方法 細胞の分化状態の評価方法 特許出願 特願2014-094507 Disclose to all
Title language:
Awards
Title(Japanese) Title(English) Organization name(Japanese) Organization name(English) Date
DGD Editor-in-Chief Prize 日本発生生物学会 2015/05/
DGD Wiley-Blackwell Prize 日本発生生物学会 2013/05/
External funds: competitive funds and Grants-in-Aid for Scientific Research (Kakenhi)
Type Position Title(Japanese) Title(English) Period
若手研究(B) 生殖幹細胞の減数分裂移行と相同組換え制御の分子基盤 2008-2009
特定領域研究 生殖幹細胞の増殖から減数分裂移行を制御するシグナル伝達クロストーク 2010-2011
若手研究(B) 生殖幹細胞tudor−piwi複合体を介するsmall RNAーエピゲノム制御 2010-2011
若手研究(B) Representative 生殖幹細胞tudor-piwi複合体を介するsmall RNAーエピゲノム制御 2010/2011-
基盤研究(B) Representative 生殖細胞の減数分裂誘導とクロマチン構造転換の制御ネットワーク           2012-2014
基盤研究(B) Representative 生殖細胞の減数分裂誘導とクロマチン構造転換の制御ネットワーク           2012/04/01-2015/03/31
新学術領域研究(研究領域提案型) Representative 生殖幹細胞の増殖分化転換と核ダイナミクス連携 2013-2014
新学術領域研究(研究領域提案型) Representative 生殖幹細胞の減数分裂移行を制御するゲノム-エピゲノムプログラム 2013-2017
新学術領域研究(研究領域提案型) Representative 生殖幹細胞の減数分裂移行を制御するゲノム-エピゲノムプログラム (平成26年度分) 2014/04/01-2015/03/31
基盤研究(B) Representative 生殖細胞の減数分裂誘導とクロマチン構造転換の制御ネットワーク (平成26年度分) 2014/04/01-2015/03/31
新学術領域研究(研究領域提案型) Representative 生殖幹細胞の減数分裂移行を制御するゲノム-エピゲノムプログラム (平成27年度分) 2015/04/01-2016/03/31
新学術領域研究(研究領域提案型) Representative 生殖幹細胞の減数分裂移行を制御するゲノム-エピゲノムプログラム (平成28年度分) 2016/04/01-2017/03/31
新学術領域研究(研究領域提案型) Representative 生殖幹細胞の減数分裂移行を制御するゲノム-エピゲノムプログラム (平成29年度分) 2017/04/01-2018/03/31
基盤研究(B) Representative 生殖系列サイクルの遺伝的安定性の発生制御メカニズム 2018/04/-2021/03/
基盤研究(B) Representative 生殖系列サイクルの遺伝的安定性の発生制御メカニズム (平成30年度分) 2018/04/01-2019/03/31
基盤研究(B) Representative 生殖系列サイクルの遺伝的安定性の発生制御メカニズム (2019年度分) 2019/04/01-2020/03/31
基盤研究(B) Representative 生殖系列サイクルの遺伝的安定性の発生制御メカニズム (2020年度分) 2020/04/01-2021/03/31
新学術領域研究(研究領域提案型) Representative 初期発生軸に沿った幹細胞の増殖分化プログラムと遺伝的安定性の可塑性 (2020年度分) 2020/04/01-2021/03/31

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External funds: other than those above
System Main person Title(Japanese) Title(English) Period
AMED 中辻憲夫 再生医療等の産業化に向けた評価基盤技術開発事業:ヒト多能性幹細胞由来の再生医療製品製造システムの開発 2014/04/-2019/03/
Teaching subject(s)
Name(Japanese) Name(English) Term Department Period
発生再生ゼミナール Seminar on Developmental Biology and Regenerative Medicine 前期 全学共通科目 2015/04-2016/03
発生再生医科学入門 Introduction to Developmental Biology and Regenerative Medicine 前期 全学共通科目 2015/04-2016/03
ILASセミナー:発生再生ゼミナール ILAS Seminar :Seminar on Developmental Biology and Regenerative Medicine 前期 全学共通科目 2020/04-2021/03
School management (title, position)
Title Period
京都大学組み換えDNA実験安全委員会 委員 2013/04/01-2015/03/31
組換えDNA実験安全委員会 1号委員 2015/04/01-2017/03/31
組換えDNA実験安全委員会 1号委員 2017/04/01-2019/03/31
組換えDNA実験安全委員会 委員 2019/04/01-2021/03/31
組換えDNA実験安全委員会 委員 2021/04/01-2023/03/31
Faculty management (title, position)
Title Period
安全衛生委員会 委員 -
ヒトES細胞株樹立・分配事業検討委員会 委員 2016/10/01-
動物実験委員会 委員 -
再生医科学動物実験専門委員会 委員 2016/10/01-
化学物質管理委員会 委員 2016/10/01-
兼業・利益相反審査委員会 2018/10/01-2021/03/31