今村 博臣

最終更新日時: 2019/06/17 17:14:36

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氏名(漢字/フリガナ/アルファベット表記)
今村 博臣/イマムラ ヒロミ/Imamura, Hiromi
所属部署・職名(部局/所属/講座等/職名)
生命科学研究科/高次生命科学専攻高次生体統御学講座/准教授
連絡先住所
種別 住所(日本語) 住所(英語)
職場 京都市左京区吉田近衛町 京都大学医学部キャンパス 先端科学研究棟305号室 Room 305, Science Frontier Laboratory Building, Faculty of Medicine Campus, Yoshida-konoe-cho, Sakyo-ku, Kyoto
所属学会(国内)
学会名(日本語) 学会名(英語)
日本生物物理学会 The Biophysical Society of Japan
日本生化学会 The Japanese Biochemical Society
日本蛋白質科学会 Protein Science Society of Japan
所属学会(海外)
学会名(英語) 国名
Biophysical Society USA
取得学位
学位名(日本語) 学位名(英語) 大学(日本語) 大学(英語) 取得区分
修士(農学) 東京大学
博士(農学) 東京大学
出身大学院・研究科等
大学名(日本語) 大学名(英語) 研究科名(日本語) 研究科名(英語) 専攻名(日本語) 専攻名(英語) 修了区分
東京大学 大学院農学生命科学研究科修士課程応用生命工学専攻 修了
東京大学 大学院農学生命科学研究科博士課程応用生命工学専攻 修了
出身学校・専攻等
大学名(日本語) 大学名(英語) 学部名(日本語) 学部名(英語) 学科名(日本語) 学科名(英語) 卒業区分
東京大学 農学部農芸化学科 卒業
東京大学 教養学部理科Ⅰ類
職歴
期間 組織名(日本語) 組織名(英語) 職名(日本語) 職名(英語)
2000/01/〜2002/03/ 日本学術振興会 Japan Society for the Promotion of Science 特別研究員DC2 Research Fellow DC2
2002/04/00〜2006/03/ 科学技術振興機構 Japan Science and Technology Agency ERATOプロジェクト研究員 ERATO Project Researcher
2006/04/〜2007/09/ 日本学術振興会 Japan Society for the Promotion of Science 特別研究員PD Research Fellow PD
2007/10/〜2011/03/ 科学技術振興機構 Japan Science and Technology Agency さきがけ研究者 PRESTO Researcher
2011/04/01〜2015/03/31 京都大学 白眉センター Kyoto University 特定准教授 Associate Professor
2015/04/01〜 京都大学 生命科学研究科 Kyoto University, Graduate School of Biostudies 准教授 Associate Professor
個人ホームページ
URL
http://www.imamura.lif.kyoto-u.ac.jp/index.html
ORCID ID
https://orcid.org/0000-0002-1896-0443
researchmap URL
https://researchmap.jp/read0122718
研究テーマ
(日本語)
細胞内エネルギー代謝可視化技術を用いた代謝と疾患の研究
(英語)
Visualization of cellular energy metabolism
研究概要
(日本語)
タンパク質の働きを利用して、生物内部の情報、特にエネルギー物質の分布と動きを高い空間分解能と時間分解能で可視化するための技術を開発している。生体内のエネルギー物質を「観る」ことにこだわり、環境の変化に応答して生物が自らのエネルギー代謝状態を適応させるしくみを明らかにしようとしている。
研究分野(キーワード)
キーワード(日本語) キーワード(英語)
生物物理 Biophysics
生化学 Biochemistry
化学生物学 Chemical Biology
細胞生物学 Cell Biology
論文
著者 著者(日本語) 著者(英語) タイトル タイトル(日本語) タイトル(英語) 書誌情報等 書誌情報等(日本語) 書誌情報等(英語) 出版年月 査読の有無 記述言語 掲載種別 公開
Yamamoto K, Imamura H, Ando J Yamamoto K, Imamura H, Ando J Yamamoto K, Imamura H, Ando J Shear stress augments mitochondrial ATP generation that triggers ATP release and Ca<sup>2+</sup> signaling in vascular endothelial cells. Shear stress augments mitochondrial ATP generation that triggers ATP release and Ca<sup>2+</sup> signaling in vascular endothelial cells. Shear stress augments mitochondrial ATP generation that triggers ATP release and Ca<sup>2+</sup> signaling in vascular endothelial cells. American journal of physiology. Heart and circulatory physiology American journal of physiology. Heart and circulatory physiology American journal of physiology. Heart and circulatory physiology 2018/08 公開
Inoue H, Kunida K, Matsuda N, Hoshino D, Wada T, Imamura H, Noji H, Kuroda S Inoue H, Kunida K, Matsuda N, Hoshino D, Wada T, Imamura H, Noji H, Kuroda S Inoue H, Kunida K, Matsuda N, Hoshino D, Wada T, Imamura H, Noji H, Kuroda S Automatic Quantitative Segmentation of Myotubes Reveals Single-cell Dynamics of S6 Kinase Activation. Automatic Quantitative Segmentation of Myotubes Reveals Single-cell Dynamics of S6 Kinase Activation. Automatic Quantitative Segmentation of Myotubes Reveals Single-cell Dynamics of S6 Kinase Activation. Cell structure and function, 43, 2, 153-169 Cell structure and function, 43, 2, 153-169 Cell structure and function, 43, 2, 153-169 2018/08 公開
Oshima K, Saiki N, Tanaka M, Imamura H, Niwa A, Tanimura A, Nagahashi A, Hirayama A, Okita K, Hotta A, Kitayama S, Osawa M, Kaneko S, Watanabe A, Saito MK Oshima K, Saiki N, Tanaka M, Imamura H, Niwa A, Tanimura A, Nagahashi A, Hirayama A, Okita K, Hotta A, Kitayama S, Osawa M, Kaneko S, Watanabe A, Saito MK Oshima K, Saiki N, Tanaka M, Imamura H, Niwa A, Tanimura A, Nagahashi A, Hirayama A, Okita K, Hotta A, Kitayama S, Osawa M, Kaneko S, Watanabe A, Saito MK Human AK2 links intracellular bioenergetic redistribution to the fate of hematopoietic progenitors. Human AK2 links intracellular bioenergetic redistribution to the fate of hematopoietic progenitors. Human AK2 links intracellular bioenergetic redistribution to the fate of hematopoietic progenitors. Biochemical and biophysical research communications Biochemical and biophysical research communications Biochemical and biophysical research communications 2018/03 公開
Maeshima K, Matsuda T, Shindo Y, Imamura H, Tamura S, Imai R, Kawakami S, Nagashima R, Soga T, Noji H, Oka K, Nagai T Maeshima K, Matsuda T, Shindo Y, Imamura H, Tamura S, Imai R, Kawakami S, Nagashima R, Soga T, Noji H, Oka K, Nagai T Maeshima K, Matsuda T, Shindo Y, Imamura H, Tamura S, Imai R, Kawakami S, Nagashima R, Soga T, Noji H, Oka K, Nagai T A Transient Rise in Free Mg2+ Ions Released from ATP-Mg Hydrolysis Contributes to Mitotic Chromosome Condensation. A Transient Rise in Free Mg2+ Ions Released from ATP-Mg Hydrolysis Contributes to Mitotic Chromosome Condensation. A Transient Rise in Free Mg2+ Ions Released from ATP-Mg Hydrolysis Contributes to Mitotic Chromosome Condensation. Current biology : CB Current biology : CB Current biology : CB 2018/02 公開
Analysis of mitochondrial function in human induced pluripotent stem cells from patients with mitochondrial diabetes due to the A3243G mutation Analysis of mitochondrial function in human induced pluripotent stem cells from patients with mitochondrial diabetes due to the A3243G mutation Analysis of mitochondrial function in human induced pluripotent stem cells from patients with mitochondrial diabetes due to the A3243G mutation Scientific Reports Scientific Reports Scientific Reports 2018/01 公開
Masaki Matsubara, Hajime Kanda, Hiromi Imamura, Mayumi Inoue, Michio Noguchi, Kiminori Hosoda, Akira Kakizuka, Kazuwa Nakao Masaki Matsubara, Hajime Kanda, Hiromi Imamura, Mayumi Inoue, Michio Noguchi, Kiminori Hosoda, Akira Kakizuka, Kazuwa Nakao Masaki Matsubara, Hajime Kanda, Hiromi Imamura, Mayumi Inoue, Michio Noguchi, Kiminori Hosoda, Akira Kakizuka, Kazuwa Nakao Analysis of mitochondrial function in human induced pluripotent stem cells from patients with mitochondrial diabetes due to the A3243G mutation Analysis of mitochondrial function in human induced pluripotent stem cells from patients with mitochondrial diabetes due to the A3243G mutation Analysis of mitochondrial function in human induced pluripotent stem cells from patients with mitochondrial diabetes due to the A3243G mutation Scientific Reports, 8, 1 Scientific Reports, 8, 1 Scientific Reports, 8, 1 2018/01 公開
Kishikawa JI, Inoue Y, Fujikawa M, Nishimura K, Nakanishi A, Tanabe T, Imamura H, Yokoyama K Kishikawa JI, Inoue Y, Fujikawa M, Nishimura K, Nakanishi A, Tanabe T, Imamura H, Yokoyama K Kishikawa JI, Inoue Y, Fujikawa M, Nishimura K, Nakanishi A, Tanabe T, Imamura H, Yokoyama K General anesthetics cause mitochondrial dysfunction and reduction of intracellular ATP levels. General anesthetics cause mitochondrial dysfunction and reduction of intracellular ATP levels. General anesthetics cause mitochondrial dysfunction and reduction of intracellular ATP levels. PloS one PloS one PloS one 2018 公開
Masaki Nakano, Hiromi Imamura, Norio Sasaoka, Masamichi Yamamoto, Norihito Uemura, Toshiyuki Shudo, Tomohiro Fuchigami, Ryosuke Takahashi, Akira Kakizuka Masaki Nakano, Hiromi Imamura, Norio Sasaoka, Masamichi Yamamoto, Norihito Uemura, Toshiyuki Shudo, Tomohiro Fuchigami, Ryosuke Takahashi, Akira Kakizuka Masaki Nakano, Hiromi Imamura, Norio Sasaoka, Masamichi Yamamoto, Norihito Uemura, Toshiyuki Shudo, Tomohiro Fuchigami, Ryosuke Takahashi, Akira Kakizuka ATP Maintenance via Two Types of ATP Regulators Mitigates Pathological Phenotypes in Mouse Models of Parkinson's Disease ATP Maintenance via Two Types of ATP Regulators Mitigates Pathological Phenotypes in Mouse Models of Parkinson's Disease ATP Maintenance via Two Types of ATP Regulators Mitigates Pathological Phenotypes in Mouse Models of Parkinson's Disease EBioMedicine, 22, 225 EBioMedicine, 22, 225 EBioMedicine, 22, 225 2017/08 公開
Sayaka Hayashi, Yosuke Nakazaki, Kei Kagii, Hiromi Imamura, Yo-hei Watanabe Sayaka Hayashi, Yosuke Nakazaki, Kei Kagii, Hiromi Imamura, Yo-hei Watanabe Sayaka Hayashi, Yosuke Nakazaki, Kei Kagii, Hiromi Imamura, Yo-hei Watanabe Fusion protein analysis reveals the precise regulation between Hsp70 and Hsp100 during protein disaggregation Fusion protein analysis reveals the precise regulation between Hsp70 and Hsp100 during protein disaggregation Fusion protein analysis reveals the precise regulation between Hsp70 and Hsp100 during protein disaggregation Scientific Reports, 7, 1 Scientific Reports, 7, 1 Scientific Reports, 7, 1 2017/08 公開
Takuma Yoshizumi, Hiromi Imamura, Tomohiro Taku, Takahiro Kuroki, Atsushi Kawaguchi, Kaori Ishikawa, Kazuto Nakada, Takumi Koshiba Takuma Yoshizumi, Hiromi Imamura, Tomohiro Taku, Takahiro Kuroki, Atsushi Kawaguchi, Kaori Ishikawa, Kazuto Nakada, Takumi Koshiba Takuma Yoshizumi, Hiromi Imamura, Tomohiro Taku, Takahiro Kuroki, Atsushi Kawaguchi, Kaori Ishikawa, Kazuto Nakada, Takumi Koshiba RLR-mediated antiviral innate immunity requires oxidative phosphorylation activity RLR-mediated antiviral innate immunity requires oxidative phosphorylation activity RLR-mediated antiviral innate immunity requires oxidative phosphorylation activity Scientific Reports, 7, 1 Scientific Reports, 7, 1 Scientific Reports, 7, 1 2017/07 公開
Kon S, Ishibashi K, Katoh H, Kitamoto S, Shirai T, Tanaka S, Kajita M, Ishikawa S, Yamauchi H, Yako Y, Kamasaki T, Matsumoto T, Watanabe H, Egami R, Sasaki A, Nishikawa A, Kameda I, Maruyama T, Narumi R, Fujita Y, Nature cell biology, vol. 19, no. 5, pp. 530-541 Kon S, Ishibashi K, Katoh H, Kitamoto S, Shirai T, Tanaka S, Kajita M, Ishikawa S, Yamauchi H, Yako Y, Kamasaki T, Matsumoto T, Watanabe H, Egami R, Sasaki A, Nishikawa A, Kameda I, Maruyama T, Narumi R, Fujita Y, Nature cell biology, vol. 19, no. 5, pp. 530-541 Kon S, Ishibashi K, Katoh H, Kitamoto S, Shirai T, Tanaka S, Kajita M, Ishikawa S, Yamauchi H, Yako Y, Kamasaki T, Matsumoto T, Watanabe H, Egami R, Sasaki A, Nishikawa A, Kameda I, Maruyama T, Narumi R, Fujita Y, Nature cell biology, vol. 19, no. 5, pp. 530-541 Cell competition with normal epithelial cells promotes apical extrusion of transformed cells through metabolic changes. Cell competition with normal epithelial cells promotes apical extrusion of transformed cells through metabolic changes. Cell competition with normal epithelial cells promotes apical extrusion of transformed cells through metabolic changes. , 19, 5, 530-541 , 19, 5, 530-541 , 19, 5, 530-541 2017/05 公開
Suzuki M, Sato M, Koyama H, Hara Y, Hayashi K, Yasue N, Imamura H, Fujimori T, Nagai T, Campbell RE, Ueno N, Development, Cambridge, England), vol. 144, no. 7, pp. 1307-1316 Suzuki M, Sato M, Koyama H, Hara Y, Hayashi K, Yasue N, Imamura H, Fujimori T, Nagai T, Campbell RE, Ueno N, Development, Cambridge, England), vol. 144, no. 7, pp. 1307-1316 Suzuki M, Sato M, Koyama H, Hara Y, Hayashi K, Yasue N, Imamura H, Fujimori T, Nagai T, Campbell RE, Ueno N, Development, Cambridge, England), vol. 144, no. 7, pp. 1307-1316 Distinct intracellular Ca2+ dynamics regulate apical constriction and differentially contribute to neural tube closure. Distinct intracellular Ca2+ dynamics regulate apical constriction and differentially contribute to neural tube closure. Distinct intracellular Ca2+ dynamics regulate apical constriction and differentially contribute to neural tube closure. , 144, 7, 1307-1316 , 144, 7, 1307-1316 , 144, 7, 1307-1316 2017/04 公開
Trevisiol A, Saab AS, Winkler U, Marx G, Imamura H, Möbius W, Kusch K, Nave KA, Hirrlinger J, eLife, vol. 6 Trevisiol A, Saab AS, Winkler U, Marx G, Imamura H, Möbius W, Kusch K, Nave KA, Hirrlinger J, eLife, vol. 6 Trevisiol A, Saab AS, Winkler U, Marx G, Imamura H, Möbius W, Kusch K, Nave KA, Hirrlinger J, eLife, vol. 6 Monitoring ATP dynamics in electrically active white matter tracts. Monitoring ATP dynamics in electrically active white matter tracts. Monitoring ATP dynamics in electrically active white matter tracts. , 6 , 6 , 6 2017/04 公開
Tsuyama T, Tsubouchi A, Usui T, Imamura H, Uemura T, The Journal of cell biology, vol. 216, no. 3, pp. 815-834 Tsuyama T, Tsubouchi A, Usui T, Imamura H, Uemura T, The Journal of cell biology, vol. 216, no. 3, pp. 815-834 Tsuyama T, Tsubouchi A, Usui T, Imamura H, Uemura T, The Journal of cell biology, vol. 216, no. 3, pp. 815-834 Mitochondrial dysfunction induces dendritic loss via eIF2α phosphorylation. Mitochondrial dysfunction induces dendritic loss via eIF2α phosphorylation. Mitochondrial dysfunction induces dendritic loss via eIF2α phosphorylation. , 216, 3, 815-834 , 216, 3, 815-834 , 216, 3, 815-834 2017/03 公開
Yusuke Matsui, Yosuke Funato, Hiromi Imamura, Hiroaki Miki, Shin Mizukami, Kazuya Kikuchi Yusuke Matsui, Yosuke Funato, Hiromi Imamura, Hiroaki Miki, Shin Mizukami, Kazuya Kikuchi Yusuke Matsui, Yosuke Funato, Hiromi Imamura, Hiroaki Miki, Shin Mizukami, Kazuya Kikuchi Visualization of long-term Mg2+ dynamics in apoptotic cells using a novel targetable fluorescent probe Visualization of long-term Mg2+ dynamics in apoptotic cells using a novel targetable fluorescent probe Visualization of long-term Mg2+ dynamics in apoptotic cells using a novel targetable fluorescent probe Chemical Science, 8, 12, 8255 Chemical Science, 8, 12, 8255 Chemical Science, 8, 12, 8255 2017 公開
Yoshida T, Alfaqaan S, Sasaoka N, Imamura H, Methods in molecular biology, Clifton, N.J.), vol. 1567, pp. 231-243 Yoshida T, Alfaqaan S, Sasaoka N, Imamura H, Methods in molecular biology, Clifton, N.J.), vol. 1567, pp. 231-243 Yoshida T, Alfaqaan S, Sasaoka N, Imamura H, Methods in molecular biology, Clifton, N.J.), vol. 1567, pp. 231-243 Application of FRET-Based Biosensor "ATeam" for Visualization of ATP Levels in the Mitochondrial Matrix of Living Mammalian Cells. Application of FRET-Based Biosensor "ATeam" for Visualization of ATP Levels in the Mitochondrial Matrix of Living Mammalian Cells. Application of FRET-Based Biosensor "ATeam" for Visualization of ATP Levels in the Mitochondrial Matrix of Living Mammalian Cells. , 1567, 231-243 , 1567, 231-243 , 1567, 231-243 2017 公開
Yoshida T, Kakizuka A, Imamura H, Scientific reports, vol. 6, pp. 39618 Yoshida T, Kakizuka A, Imamura H, Scientific reports, vol. 6, pp. 39618 Yoshida T, Kakizuka A, Imamura H, Scientific reports, vol. 6, pp. 39618 BTeam, a Novel BRET-based Biosensor for the Accurate Quantification of ATP Concentration within Living Cells. BTeam, a Novel BRET-based Biosensor for the Accurate Quantification of ATP Concentration within Living Cells. BTeam, a Novel BRET-based Biosensor for the Accurate Quantification of ATP Concentration within Living Cells. , 6, 39618 , 6, 39618 , 6, 39618 2016/12 公開
Hidaka M, Gotoh A, Shimizu T, Minamisawa K, Imamura H, Uchida T, The Journal of biological chemistry, vol. 291, no. 5, pp. 2260-2269 Hidaka M, Gotoh A, Shimizu T, Minamisawa K, Imamura H, Uchida T, The Journal of biological chemistry, vol. 291, no. 5, pp. 2260-2269 Hidaka M, Gotoh A, Shimizu T, Minamisawa K, Imamura H, Uchida T, The Journal of biological chemistry, vol. 291, no. 5, pp. 2260-2269 Visualization of NO3⁻/NO2⁻ Dynamics in Living Cells by Fluorescence Resonance Energy Transfer (FRET) Imaging Employing a Rhizobial Two-component Regulatory System. Visualization of NO3⁻/NO2⁻ Dynamics in Living Cells by Fluorescence Resonance Energy Transfer (FRET) Imaging Employing a Rhizobial Two-component Regulatory System. Visualization of NO3⁻/NO2⁻ Dynamics in Living Cells by Fluorescence Resonance Energy Transfer (FRET) Imaging Employing a Rhizobial Two-component Regulatory System. , 291, 5, 2260-2269 , 291, 5, 2260-2269 , 291, 5, 2260-2269 2016/01 公開
Ozawa S, Ueda S, Imamura H, Mori K, Asanuma K, Yanagita M, Nakagawa T, Scientific reports, vol. 5, pp. 18575 Ozawa S, Ueda S, Imamura H, Mori K, Asanuma K, Yanagita M, Nakagawa T, Scientific reports, vol. 5, pp. 18575 Ozawa S, Ueda S, Imamura H, Mori K, Asanuma K, Yanagita M, Nakagawa T, Scientific reports, vol. 5, pp. 18575 Glycolysis, but not Mitochondria, responsible for intracellular ATP distribution in cortical area of podocytes. Glycolysis, but not Mitochondria, responsible for intracellular ATP distribution in cortical area of podocytes. Glycolysis, but not Mitochondria, responsible for intracellular ATP distribution in cortical area of podocytes. , 5, 18575 , 5, 18575 , 5, 18575 2015/12 公開
Tanaka Y, Yano H, Ogasawara S, Yoshioka S, Imamura H, Okamoto K, Tsuneoka M, Molecular, cellular biology, vol. 35, no. 24, pp. 4170-4184 Tanaka Y, Yano H, Ogasawara S, Yoshioka S, Imamura H, Okamoto K, Tsuneoka M, Molecular, cellular biology, vol. 35, no. 24, pp. 4170-4184 Tanaka Y, Yano H, Ogasawara S, Yoshioka S, Imamura H, Okamoto K, Tsuneoka M, Molecular, cellular biology, vol. 35, no. 24, pp. 4170-4184 Mild Glucose Starvation Induces KDM2A-Mediated H3K36me2 Demethylation through AMPK To Reduce rRNA Transcription and Cell Proliferation. Mild Glucose Starvation Induces KDM2A-Mediated H3K36me2 Demethylation through AMPK To Reduce rRNA Transcription and Cell Proliferation. Mild Glucose Starvation Induces KDM2A-Mediated H3K36me2 Demethylation through AMPK To Reduce rRNA Transcription and Cell Proliferation. , 35, 24, 4170-4184 , 35, 24, 4170-4184 , 35, 24, 4170-4184 2015/12 公開
Groen J, Foschepoth D, te Brinke E, Boersma AJ, Imamura H, Rivas G, Heus HA, Huck WT, Journal of the American Chemical Society, vol. 137, no. 40, pp. 13041-13048 Groen J, Foschepoth D, te Brinke E, Boersma AJ, Imamura H, Rivas G, Heus HA, Huck WT, Journal of the American Chemical Society, vol. 137, no. 40, pp. 13041-13048 Groen J, Foschepoth D, te Brinke E, Boersma AJ, Imamura H, Rivas G, Heus HA, Huck WT, Journal of the American Chemical Society, vol. 137, no. 40, pp. 13041-13048 Associative Interactions in Crowded Solutions of Biopolymers Counteract Depletion Effects. Associative Interactions in Crowded Solutions of Biopolymers Counteract Depletion Effects. Associative Interactions in Crowded Solutions of Biopolymers Counteract Depletion Effects. , 137, 40, 13041-13048 , 137, 40, 13041-13048 , 137, 40, 13041-13048 2015/10 公開
James AD, Patel W, Butt Z, Adiamah M, Dakhel R, Latif A, Uggenti C, Swanton E, Imamura H, Siriwardena AK, Bruce JI, The Journal of biological chemistry, vol. 290, no. 41, pp. 24760-24771 James AD, Patel W, Butt Z, Adiamah M, Dakhel R, Latif A, Uggenti C, Swanton E, Imamura H, Siriwardena AK, Bruce JI, The Journal of biological chemistry, vol. 290, no. 41, pp. 24760-24771 James AD, Patel W, Butt Z, Adiamah M, Dakhel R, Latif A, Uggenti C, Swanton E, Imamura H, Siriwardena AK, Bruce JI, The Journal of biological chemistry, vol. 290, no. 41, pp. 24760-24771 The Plasma Membrane Calcium Pump in Pancreatic Cancer Cells Exhibiting the Warburg Effect Relies on Glycolytic ATP. The Plasma Membrane Calcium Pump in Pancreatic Cancer Cells Exhibiting the Warburg Effect Relies on Glycolytic ATP. The Plasma Membrane Calcium Pump in Pancreatic Cancer Cells Exhibiting the Warburg Effect Relies on Glycolytic ATP. , 290, 41, 24760-24771 , 290, 41, 24760-24771 , 290, 41, 24760-24771 2015/10 公開
Distelmaier F, Valsecchi F, Liemburg-Apers DC, Lebiedzinska M, Rodenburg RJ, Heil S, Keijer J, Fransen J, Imamura H, Danhauser K, Seibt A, Viollet B, Gellerich FN, Smeitink JA, Wieckowski MR, Willems PH, Koopman WJ Distelmaier F, Valsecchi F, Liemburg-Apers DC, Lebiedzinska M, Rodenburg RJ, Heil S, Keijer J, Fransen J, Imamura H, Danhauser K, Seibt A, Viollet B, Gellerich FN, Smeitink JA, Wieckowski MR, Willems PH, Koopman WJ Distelmaier F, Valsecchi F, Liemburg-Apers DC, Lebiedzinska M, Rodenburg RJ, Heil S, Keijer J, Fransen J, Imamura H, Danhauser K, Seibt A, Viollet B, Gellerich FN, Smeitink JA, Wieckowski MR, Willems PH, Koopman WJ Mitochondrial dysfunction in primary human fibroblasts triggers an adaptive cell survival program that requires AMPK-α. Mitochondrial dysfunction in primary human fibroblasts triggers an adaptive cell survival program that requires AMPK-α. Mitochondrial dysfunction in primary human fibroblasts triggers an adaptive cell survival program that requires AMPK-α. Biochimica et biophysica acta, 1852, 3, 529-540 Biochimica et biophysica acta, 1852, 3, 529-540 Biochimica et biophysica acta, 1852, 3, 529-540 2015/03 公開
Yaginuma H, Kawai S, Tabata KV, Tomiyama K, Kakizuka A, Komatsuzaki T, Noji H, Imamura H Yaginuma H, Kawai S, Tabata KV, Tomiyama K, Kakizuka A, Komatsuzaki T, Noji H, Imamura H Yaginuma H, Kawai S, Tabata KV, Tomiyama K, Kakizuka A, Komatsuzaki T, Noji H, Imamura H Diversity in ATP concentrations in a single bacterial cell population revealed by quantitative single-cell imaging. Diversity in ATP concentrations in a single bacterial cell population revealed by quantitative single-cell imaging. Diversity in ATP concentrations in a single bacterial cell population revealed by quantitative single-cell imaging. Scientific reports, 4, 6522 Scientific reports, 4, 6522 Scientific reports, 4, 6522 2014/10 公開
Shintani Y, Drexler HC, Kioka H, Terracciano CM, Coppen SR, Imamura H, Akao M, Nakai J, Wheeler AP, Higo S, Nakayama H, Takashima S, Yashiro K, Suzuki K Shintani Y, Drexler HC, Kioka H, Terracciano CM, Coppen SR, Imamura H, Akao M, Nakai J, Wheeler AP, Higo S, Nakayama H, Takashima S, Yashiro K, Suzuki K Shintani Y, Drexler HC, Kioka H, Terracciano CM, Coppen SR, Imamura H, Akao M, Nakai J, Wheeler AP, Higo S, Nakayama H, Takashima S, Yashiro K, Suzuki K Toll-like receptor 9 protects non-immune cells from stress by modulating mitochondrial ATP synthesis through the inhibition of SERCA2. Toll-like receptor 9 protects non-immune cells from stress by modulating mitochondrial ATP synthesis through the inhibition of SERCA2. Toll-like receptor 9 protects non-immune cells from stress by modulating mitochondrial ATP synthesis through the inhibition of SERCA2. EMBO reports, 15, 4, 438-445 EMBO reports, 15, 4, 438-445 EMBO reports, 15, 4, 438-445 2014/04 公開
Vishnu N, Jadoon Khan M, Karsten F, Groschner LN, Waldeck-Weiermair M, Rost R, Hallström S, Imamura H, Graier WF, Malli R, Molecular biology of the cell, vol. 25, no. 3, pp. 368-379 Vishnu N, Jadoon Khan M, Karsten F, Groschner LN, Waldeck-Weiermair M, Rost R, Hallström S, Imamura H, Graier WF, Malli R, Molecular biology of the cell, vol. 25, no. 3, pp. 368-379 Vishnu N, Jadoon Khan M, Karsten F, Groschner LN, Waldeck-Weiermair M, Rost R, Hallström S, Imamura H, Graier WF, Malli R, Molecular biology of the cell, vol. 25, no. 3, pp. 368-379 ATP increases within the lumen of the endoplasmic reticulum upon intracellular Ca2+ release. ATP increases within the lumen of the endoplasmic reticulum upon intracellular Ca2+ release. ATP increases within the lumen of the endoplasmic reticulum upon intracellular Ca2+ release. , 25, 3, 368-379 , 25, 3, 368-379 , 25, 3, 368-379 2014/02 公開
H. Kioka; H. Kato; M. Fujikawa; O. Tsukamoto; T. Suzuki; H. Imamura; A. Nakano; S. Higo; S. Yamazaki; T. Matsuzaki; K. Takafuji; H. Asanuma; M. Asakura; T. Minamino; Y. Shintani; M. Yoshida; H. Noji; M. Kitakaze; I. Komuro; Y. Asano; S. Takashima H. Kioka; H. Kato; M. Fujikawa; O. Tsukamoto; T. Suzuki; H. Imamura; A. Nakano; S. Higo; S. Yamazaki; T. Matsuzaki; K. Takafuji; H. Asanuma; M. Asakura; T. Minamino; Y. Shintani; M. Yoshida; H. Noji; M. Kitakaze; I. Komuro; Y. Asano; S. Takashima H. Kioka; H. Kato; M. Fujikawa; O. Tsukamoto; T. Suzuki; H. Imamura; A. Nakano; S. Higo; S. Yamazaki; T. Matsuzaki; K. Takafuji; H. Asanuma; M. Asakura; T. Minamino; Y. Shintani; M. Yoshida; H. Noji; M. Kitakaze; I. Komuro; Y. Asano; S. Takashima Evaluation of intramitochondrial ATP levels identifies G0/G1 switch gene 2 as a positive regulator of oxidative phosphorylation Evaluation of intramitochondrial ATP levels identifies G0/G1 switch gene 2 as a positive regulator of oxidative phosphorylation Evaluation of intramitochondrial ATP levels identifies G0/G1 switch gene 2 as a positive regulator of oxidative phosphorylation Proceedings of the National Academy of Sciences of the United States of America, 111, 1, 273-278 Proceedings of the National Academy of Sciences of the United States of America, 111, 1, 273-278 Proceedings of the National Academy of Sciences of the United States of America, 111, 1, 273-278 2014/01 英語 公開
Tanaka T, Nagashima K, Inagaki N, Kioka H, Takashima S, Fukuoka H, Noji H, Kakizuka A, Imamura H, The Journal of biological chemistry, vol. 289, no. 4, pp. 2205-2216 Tanaka T, Nagashima K, Inagaki N, Kioka H, Takashima S, Fukuoka H, Noji H, Kakizuka A, Imamura H, The Journal of biological chemistry, vol. 289, no. 4, pp. 2205-2216 Tanaka T, Nagashima K, Inagaki N, Kioka H, Takashima S, Fukuoka H, Noji H, Kakizuka A, Imamura H, The Journal of biological chemistry, vol. 289, no. 4, pp. 2205-2216 Glucose-stimulated single pancreatic islets sustain increased cytosolic ATP levels during initial Ca2+ influx and subsequent Ca2+ oscillations. Glucose-stimulated single pancreatic islets sustain increased cytosolic ATP levels during initial Ca2+ influx and subsequent Ca2+ oscillations. Glucose-stimulated single pancreatic islets sustain increased cytosolic ATP levels during initial Ca2+ influx and subsequent Ca2+ oscillations. , 289, 4, 2205-2216 , 289, 4, 2205-2216 , 289, 4, 2205-2216 2014/01 公開
Kiyonaka S, Kajimoto T, Sakaguchi R, Shinmi D, Omatsu-Kanbe M, Matsuura H, Imamura H, Yoshizaki T, Hamachi I, Morii T, Mori Y, Nature methods, vol. 10, no. 12, pp. 1232-1238 Kiyonaka S, Kajimoto T, Sakaguchi R, Shinmi D, Omatsu-Kanbe M, Matsuura H, Imamura H, Yoshizaki T, Hamachi I, Morii T, Mori Y, Nature methods, vol. 10, no. 12, pp. 1232-1238 Kiyonaka S, Kajimoto T, Sakaguchi R, Shinmi D, Omatsu-Kanbe M, Matsuura H, Imamura H, Yoshizaki T, Hamachi I, Morii T, Mori Y, Nature methods, vol. 10, no. 12, pp. 1232-1238 Genetically encoded fluorescent thermosensors visualize subcellular thermoregulation in living cells. Genetically encoded fluorescent thermosensors visualize subcellular thermoregulation in living cells. Genetically encoded fluorescent thermosensors visualize subcellular thermoregulation in living cells. , 10, 12, 1232-1238 , 10, 12, 1232-1238 , 10, 12, 1232-1238 2013/12 公開
Tsuyama T, Kishikawa J, Han YW, Harada Y, Tsubouchi A, Noji H, Kakizuka A, Yokoyama K, Uemura T, Imamura H, Analytical chemistry, vol. 85, no. 16, pp. 7889-7896 Tsuyama T, Kishikawa J, Han YW, Harada Y, Tsubouchi A, Noji H, Kakizuka A, Yokoyama K, Uemura T, Imamura H, Analytical chemistry, vol. 85, no. 16, pp. 7889-7896 Tsuyama T, Kishikawa J, Han YW, Harada Y, Tsubouchi A, Noji H, Kakizuka A, Yokoyama K, Uemura T, Imamura H, Analytical chemistry, vol. 85, no. 16, pp. 7889-7896 In vivo fluorescent adenosine 5'-triphosphate (ATP) imaging of Drosophila melanogaster and Caenorhabditis elegans by using a genetically encoded fluorescent ATP biosensor optimized for low temperatures. In vivo fluorescent adenosine 5'-triphosphate (ATP) imaging of Drosophila melanogaster and Caenorhabditis elegans by using a genetically encoded fluorescent ATP biosensor optimized for low temperatures. In vivo fluorescent adenosine 5'-triphosphate (ATP) imaging of Drosophila melanogaster and Caenorhabditis elegans by using a genetically encoded fluorescent ATP biosensor optimized for low temperatures. , 85, 16, 7889-7896 , 85, 16, 7889-7896 , 85, 16, 7889-7896 2013/08 公開
K. De Bock; M. Georgiadou; S. Schoors; A. Kuchnio; B.W. Wong; A.R. Cantelmo; A. Quaegebeur; B. Ghesquière; S. Cauwenberghs; G. Eelen; L.-K. Phng; I. Betz; B. Tembuyser; K. Brepoels; J. Welti; I. Geudens; I. Segura; B. Cruys; F. Bifari; I. Decimo; R. Blanco; S. Wyns; J. Vangindertael; S. Rocha; R.T. Collins; S. Munck; D. Daelemans; H. Imamura; R. Devlieger; M. Rider; P.P. Van Veldhoven; F. Schuit; R. Bartrons; J. Hofkens; P. Fraisl; S. Telang; R.J. Deberardinis; L. Schoonjans; S. Vinckier; J. Chesney; H. Gerhardt; M. Dewerchin; P. Carmeliet K. De Bock; M. Georgiadou; S. Schoors; A. Kuchnio; B.W. Wong; A.R. Cantelmo; A. Quaegebeur; B. Ghesquière; S. Cauwenberghs; G. Eelen; L.-K. Phng; I. Betz; B. Tembuyser; K. Brepoels; J. Welti; I. Geudens; I. Segura; B. Cruys; F. Bifari; I. Decimo; R. Blanco; S. Wyns; J. Vangindertael; S. Rocha; R.T. Collins; S. Munck; D. Daelemans; H. Imamura; R. Devlieger; M. Rider; P.P. Van Veldhoven; F. Schuit; R. Bartrons; J. Hofkens; P. Fraisl; S. Telang; R.J. Deberardinis; L. Schoonjans; S. Vinckier; J. Chesney; H. Gerhardt; M. Dewerchin; P. Carmeliet K. De Bock; M. Georgiadou; S. Schoors; A. Kuchnio; B.W. Wong; A.R. Cantelmo; A. Quaegebeur; B. Ghesquière; S. Cauwenberghs; G. Eelen; L.-K. Phng; I. Betz; B. Tembuyser; K. Brepoels; J. Welti; I. Geudens; I. Segura; B. Cruys; F. Bifari; I. Decimo; R. Blanco; S. Wyns; J. Vangindertael; S. Rocha; R.T. Collins; S. Munck; D. Daelemans; H. Imamura; R. Devlieger; M. Rider; P.P. Van Veldhoven; F. Schuit; R. Bartrons; J. Hofkens; P. Fraisl; S. Telang; R.J. Deberardinis; L. Schoonjans; S. Vinckier; J. Chesney; H. Gerhardt; M. Dewerchin; P. Carmeliet Role of PFKFB3-driven glycolysis in vessel sprouting Role of PFKFB3-driven glycolysis in vessel sprouting Role of PFKFB3-driven glycolysis in vessel sprouting Cell, 154, 3, 651-663 Cell, 154, 3, 651-663 Cell, 154, 3, 651-663 2013/08 英語 公開
N. Hatsugai; V. Perez Koldenkova; H. Imamura; H. Noji; T. Nagai N. Hatsugai; V. Perez Koldenkova; H. Imamura; H. Noji; T. Nagai N. Hatsugai; V. Perez Koldenkova; H. Imamura; H. Noji; T. Nagai Changes in cytosolic ATP levels and intracellular morphology during bacteria-induced hypersensitive cell death as revealed by real-time fluorescence microscopy imaging Changes in cytosolic ATP levels and intracellular morphology during bacteria-induced hypersensitive cell death as revealed by real-time fluorescence microscopy imaging Changes in cytosolic ATP levels and intracellular morphology during bacteria-induced hypersensitive cell death as revealed by real-time fluorescence microscopy imaging Plant and Cell Physiology, 53, 10, 1768-1775 Plant and Cell Physiology, 53, 10, 1768-1775 Plant and Cell Physiology, 53, 10, 1768-1775 2012/10 英語 公開
Fujikawa M, Imamura H, Nakamura J, Yoshida M, The Journal of biological chemistry, vol. 287, no. 22, pp. 18781-18787 Fujikawa M, Imamura H, Nakamura J, Yoshida M, The Journal of biological chemistry, vol. 287, no. 22, pp. 18781-18787 Fujikawa M, Imamura H, Nakamura J, Yoshida M, The Journal of biological chemistry, vol. 287, no. 22, pp. 18781-18787 Assessing actual contribution of IF1, inhibitor of mitochondrial FoF1, to ATP homeostasis, cell growth, mitochondrial morphology, and cell viability. Assessing actual contribution of IF1, inhibitor of mitochondrial FoF1, to ATP homeostasis, cell growth, mitochondrial morphology, and cell viability. Assessing actual contribution of IF1, inhibitor of mitochondrial FoF1, to ATP homeostasis, cell growth, mitochondrial morphology, and cell viability. , 287, 22, 18781-18787 , 287, 22, 18781-18787 , 287, 22, 18781-18787 2012/05 公開
Komoriya Y, Ariga T, Iino R, Imamura H, Okuno D, Noji H, The Journal of Biological Chemistry, vol. 287, no. 18, pp. 15134-15142 Komoriya Y, Ariga T, Iino R, Imamura H, Okuno D, Noji H, The Journal of Biological Chemistry, vol. 287, no. 18, pp. 15134-15142 Komoriya Y, Ariga T, Iino R, Imamura H, Okuno D, Noji H, The Journal of Biological Chemistry, vol. 287, no. 18, pp. 15134-15142 Principal role of the arginine finger in rotary catalysis of F1-ATPase. Principal role of the arginine finger in rotary catalysis of F1-ATPase. Principal role of the arginine finger in rotary catalysis of F1-ATPase. , 287, 18, 15134-15142 , 287, 18, 15134-15142 , 287, 18, 15134-15142 2012/04 公開
M. Waldeck-Weiermair; M.R. Alam; M.J. Khan; A.T. Deak; N. Vishnu; F. Karsten; H. Imamura; W.F. Graier; R. Malli M. Waldeck-Weiermair; M.R. Alam; M.J. Khan; A.T. Deak; N. Vishnu; F. Karsten; H. Imamura; W.F. Graier; R. Malli M. Waldeck-Weiermair; M.R. Alam; M.J. Khan; A.T. Deak; N. Vishnu; F. Karsten; H. Imamura; W.F. Graier; R. Malli Spatiotemporal Correlations between Cytosolic and Mitochondrial Ca<sup>2+</sup> Signals Using a Novel Red-Shifted Mitochondrial Targeted Cameleon Spatiotemporal Correlations between Cytosolic and Mitochondrial Ca<sup>2+</sup> Signals Using a Novel Red-Shifted Mitochondrial Targeted Cameleon Spatiotemporal Correlations between Cytosolic and Mitochondrial Ca<sup>2+</sup> Signals Using a Novel Red-Shifted Mitochondrial Targeted Cameleon PLoS ONE, 7, 9, e45917 PLoS ONE, 7, 9, e45917 PLoS ONE, 7, 9, e45917 2012 英語 公開
Ando T, Imamura H, Suzuki R, Aizaki H, Watanabe T, Wakita T, Suzuki T Ando T, Imamura H, Suzuki R, Aizaki H, Watanabe T, Wakita T, Suzuki T Ando T, Imamura H, Suzuki R, Aizaki H, Watanabe T, Wakita T, Suzuki T Visualization and measurement of ATP levels in living cells replicating hepatitis C virus genome RNA. Visualization and measurement of ATP levels in living cells replicating hepatitis C virus genome RNA. Visualization and measurement of ATP levels in living cells replicating hepatitis C virus genome RNA. PLoS pathogens, 8, 3, e1002561 PLoS pathogens, 8, 3, e1002561 PLoS pathogens, 8, 3, e1002561 2012 公開
Liemburg-Apers DC, Imamura H, Forkink M, Nooteboom M, Swarts HG, Brock R, Smeitink JA, Willems PH, Koopman WJ Liemburg-Apers DC, Imamura H, Forkink M, Nooteboom M, Swarts HG, Brock R, Smeitink JA, Willems PH, Koopman WJ Liemburg-Apers DC, Imamura H, Forkink M, Nooteboom M, Swarts HG, Brock R, Smeitink JA, Willems PH, Koopman WJ Quantitative glucose and ATP sensing in mammalian cells. Quantitative glucose and ATP sensing in mammalian cells. Quantitative glucose and ATP sensing in mammalian cells. Pharmaceutical research, 28, 11, 2745-2757 Pharmaceutical research, 28, 11, 2745-2757 Pharmaceutical research, 28, 11, 2745-2757 2011/11 公開
Waldeck-Weiermair M, Jean-Quartier C, Rost R, Khan MJ, Vishnu N, Bondarenko AI, Imamura H, Malli R, Graier WF, The Journal of biological chemistry, vol. 286, no. 32, pp. 28444-28455 Waldeck-Weiermair M, Jean-Quartier C, Rost R, Khan MJ, Vishnu N, Bondarenko AI, Imamura H, Malli R, Graier WF, The Journal of biological chemistry, vol. 286, no. 32, pp. 28444-28455 Waldeck-Weiermair M, Jean-Quartier C, Rost R, Khan MJ, Vishnu N, Bondarenko AI, Imamura H, Malli R, Graier WF, The Journal of biological chemistry, vol. 286, no. 32, pp. 28444-28455 Leucine zipper EF hand-containing transmembrane protein 1 (Letm1) and uncoupling proteins 2 and 3 (UCP2/3) contribute to two distinct mitochondrial Ca2+ uptake pathways. Leucine zipper EF hand-containing transmembrane protein 1 (Letm1) and uncoupling proteins 2 and 3 (UCP2/3) contribute to two distinct mitochondrial Ca2+ uptake pathways. Leucine zipper EF hand-containing transmembrane protein 1 (Letm1) and uncoupling proteins 2 and 3 (UCP2/3) contribute to two distinct mitochondrial Ca2+ uptake pathways. , 286, 32, 28444-28455 , 286, 32, 28444-28455 , 286, 32, 28444-28455 2011/08 公開
M. Nakano; H. Imamura; T. Nagai; H. Noji M. Nakano; H. Imamura; T. Nagai; H. Noji M. Nakano; H. Imamura; T. Nagai; H. Noji Ca <sup>2+</sup> regulation of mitochondrial ATP synthesis visualized at the single cell level Ca <sup>2+</sup> regulation of mitochondrial ATP synthesis visualized at the single cell level Ca <sup>2+</sup> regulation of mitochondrial ATP synthesis visualized at the single cell level ACS Chemical Biology, 6, 7, 709-715 ACS Chemical Biology, 6, 7, 709-715 ACS Chemical Biology, 6, 7, 709-715 2011/07 英語 公開
J.-I. Kishikawa; M. Fujikawa; H. Imamura; K. Yasuda; H. Noji; N. Ishii; S. Mitani; K. Yokoyama J.-I. Kishikawa; M. Fujikawa; H. Imamura; K. Yasuda; H. Noji; N. Ishii; S. Mitani; K. Yokoyama J.-I. Kishikawa; M. Fujikawa; H. Imamura; K. Yasuda; H. Noji; N. Ishii; S. Mitani; K. Yokoyama MRT letter: Expression of ATP sensor protein in Caenorhabditis elegans MRT letter: Expression of ATP sensor protein in Caenorhabditis elegans MRT letter: Expression of ATP sensor protein in Caenorhabditis elegans Microscopy Research and Technique, 75, 1, 15-19 Microscopy Research and Technique, 75, 1, 15-19 Microscopy Research and Technique, 75, 1, 15-19 2011 英語 公開
Imamura H, Seikagaku. The Journal of Japanese Biochemical Society, vol. 82, no. 11, pp. 1056-1060 Imamura H, Seikagaku. The Journal of Japanese Biochemical Society, vol. 82, no. 11, pp. 1056-1060 Imamura H, Seikagaku. The Journal of Japanese Biochemical Society, vol. 82, no. 11, pp. 1056-1060 [Fluorescence imaging of intra- and extra-cellular ATP]. [Fluorescence imaging of intra- and extra-cellular ATP]. [Fluorescence imaging of intra- and extra-cellular ATP]. , 82, 11, 1056-1060 , 82, 11, 1056-1060 , 82, 11, 1056-1060 2010/11 公開
I. Kotera; T. Iwasaki; H. Imamura; H. Noji; T. Nagai I. Kotera; T. Iwasaki; H. Imamura; H. Noji; T. Nagai I. Kotera; T. Iwasaki; H. Imamura; H. Noji; T. Nagai Reversible dimerization of aequorea victoria fluorescent proteins increases the dynamic range of FRET-based indicators Reversible dimerization of aequorea victoria fluorescent proteins increases the dynamic range of FRET-based indicators Reversible dimerization of aequorea victoria fluorescent proteins increases the dynamic range of FRET-based indicators ACS Chemical Biology, 5, 2, 215-222 ACS Chemical Biology, 5, 2, 215-222 ACS Chemical Biology, 5, 2, 215-222 2010/02 英語 公開
今村博臣 今村博臣 新規FRETプローブを用いた生細胞内ATP濃度イメージング法 新規FRETプローブを用いた生細胞内ATP濃度イメージング法 実験医学, 28, 8, 1303-8 実験医学, 28, 8, 1303-8 , 28, 8, 1303-8 2010 公開
今村博臣 今村博臣 蛍光イメージングによる細胞内および細胞外ATPの可視化 蛍光イメージングによる細胞内および細胞外ATPの可視化 生化学, 82, 11, 1056-60 生化学, 82, 11, 1056-60 , 82, 11, 1056-60 2010 公開
Imamura H, Noji H, Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, vol. 54, no. 15, pp. 1937-1944 Imamura H, Noji H, Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, vol. 54, no. 15, pp. 1937-1944 Imamura H, Noji H, Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, vol. 54, no. 15, pp. 1937-1944 [Imaging of intracellular ATP using novel fluorescent probes]. [Imaging of intracellular ATP using novel fluorescent probes]. [Imaging of intracellular ATP using novel fluorescent probes]. , 54, 15, 1937-1944 , 54, 15, 1937-1944 , 54, 15, 1937-1944 2009/12 公開
H. Imamura; K.P. Huynh Nhat; H. Togawa; K. Saito; R. Iino; Y. Kato-Yamada; T. Nagai; H. Noji H. Imamura; K.P. Huynh Nhat; H. Togawa; K. Saito; R. Iino; Y. Kato-Yamada; T. Nagai; H. Noji H. Imamura; K.P. Huynh Nhat; H. Togawa; K. Saito; R. Iino; Y. Kato-Yamada; T. Nagai; H. Noji Visualization of ATP levels inside single living cells with fluorescence resonance energy transfer-based genetically encoded indicators Visualization of ATP levels inside single living cells with fluorescence resonance energy transfer-based genetically encoded indicators Visualization of ATP levels inside single living cells with fluorescence resonance energy transfer-based genetically encoded indicators Proceedings of the National Academy of Sciences of the United States of America, 106, 37, 15651-15656 Proceedings of the National Academy of Sciences of the United States of America, 106, 37, 15651-15656 Proceedings of the National Academy of Sciences of the United States of America, 106, 37, 15651-15656 2009/09 英語 公開
今村博臣,野地博行 今村博臣,野地博行 新規蛍光プローブを用いた細胞内ATPイメージング 新規蛍光プローブを用いた細胞内ATPイメージング 蛋白質・核酸・酵素, 54, 15, 1937-44 蛋白質・核酸・酵素, 54, 15, 1937-44 , 54, 15, 1937-44 2009 公開
D. Okuno; R. Fujisawa; R. Iino; Y. Hirono-Hara; H. Imamura; H. Noji D. Okuno; R. Fujisawa; R. Iino; Y. Hirono-Hara; H. Imamura; H. Noji D. Okuno; R. Fujisawa; R. Iino; Y. Hirono-Hara; H. Imamura; H. Noji Correlation between the conformational states of F<sub>1</sub>-ATPase as determined from its crystal structure and single-molecule rotation Correlation between the conformational states of F<sub>1</sub>-ATPase as determined from its crystal structure and single-molecule rotation Correlation between the conformational states of F<sub>1</sub>-ATPase as determined from its crystal structure and single-molecule rotation Proceedings of the National Academy of Sciences of the United States of America, 105, 52, 20722-20727 Proceedings of the National Academy of Sciences of the United States of America, 105, 52, 20722-20727 Proceedings of the National Academy of Sciences of the United States of America, 105, 52, 20722-20727 2008/12 英語 公開
Nakano M, Imamura H, Toei M, Tamakoshi M, Yoshida M, Yokoyama K, The Journal of biological chemistry, vol. 283, no. 30, pp. 20789-20796 Nakano M, Imamura H, Toei M, Tamakoshi M, Yoshida M, Yokoyama K, The Journal of biological chemistry, vol. 283, no. 30, pp. 20789-20796 Nakano M, Imamura H, Toei M, Tamakoshi M, Yoshida M, Yokoyama K, The Journal of biological chemistry, vol. 283, no. 30, pp. 20789-20796 ATP hydrolysis and synthesis of a rotary motor V-ATPase from Thermus thermophilus. ATP hydrolysis and synthesis of a rotary motor V-ATPase from Thermus thermophilus. ATP hydrolysis and synthesis of a rotary motor V-ATPase from Thermus thermophilus. , 283, 30, 20789-20796 , 283, 30, 20789-20796 , 283, 30, 20789-20796 2008/07 公開
Imamura H, Yokoyama K, Seikagaku. The Journal of Japanese Biochemical Society, vol. 79, no. 5, pp. 425-437 Imamura H, Yokoyama K, Seikagaku. The Journal of Japanese Biochemical Society, vol. 79, no. 5, pp. 425-437 Imamura H, Yokoyama K, Seikagaku. The Journal of Japanese Biochemical Society, vol. 79, no. 5, pp. 425-437 [Two rotary molecular motors, V-ATPase and F0F1]. [Two rotary molecular motors, V-ATPase and F0F1]. [Two rotary molecular motors, V-ATPase and F0F1]. , 79, 5, 425-437 , 79, 5, 425-437 , 79, 5, 425-437 2007/05 公開
Shinya Fushinobu, Masafumi Hidaka, Akimasa Miyanaga and Hiromi Imamura Shinya Fushinobu, Masafumi Hidaka, Akimasa Miyanaga and Hiromi Imamura New structural insights on carbohydrate-active enzymes New structural insights on carbohydrate-active enzymes Journal of Applied Glycoscience, 54, 95-102 Journal of Applied Glycoscience, 54, 95-102 , 54, 95-102 2007 公開
今村博臣,横山謙 今村博臣,横山謙 二つの回転分子モータータンパク質;V-ATPaseとFoF1の共通性と多様性 二つの回転分子モータータンパク質;V-ATPaseとFoF1の共通性と多様性 生化学, 79, 5, 425-37 生化学, 79, 5, 425-37 , 79, 5, 425-37 2007 公開
Imamura H, Funamoto S, Yoshida M, Yokoyama K, The Journal of biological chemistry, vol. 281, no. 50, pp. 38582-38591 Imamura H, Funamoto S, Yoshida M, Yokoyama K, The Journal of biological chemistry, vol. 281, no. 50, pp. 38582-38591 Imamura H, Funamoto S, Yoshida M, Yokoyama K, The Journal of biological chemistry, vol. 281, no. 50, pp. 38582-38591 Reconstitution in vitro of V1 complex of Thermus thermophilus V-ATPase revealed that ATP binding to the A subunit is crucial for V1 formation. Reconstitution in vitro of V1 complex of Thermus thermophilus V-ATPase revealed that ATP binding to the A subunit is crucial for V1 formation. Reconstitution in vitro of V1 complex of Thermus thermophilus V-ATPase revealed that ATP binding to the A subunit is crucial for V1 formation. , 281, 50, 38582-38591 , 281, 50, 38582-38591 , 281, 50, 38582-38591 2006/12 公開
Nakajima M, Fushinobu S, Imamura H, Shoun H, Wakagi T, Acta crystallographica. Section F, Structural biology, crystallization communications, vol. 62, no. Pt 2, pp. 104-105 Nakajima M, Fushinobu S, Imamura H, Shoun H, Wakagi T, Acta crystallographica. Section F, Structural biology, crystallization communications, vol. 62, no. Pt 2, pp. 104-105 Nakajima M, Fushinobu S, Imamura H, Shoun H, Wakagi T, Acta crystallographica. Section F, Structural biology, crystallization communications, vol. 62, no. Pt 2, pp. 104-105 Crystallization and preliminary X-ray analysis of cytosolic alpha-mannosidase from Thermotoga maritima. Crystallization and preliminary X-ray analysis of cytosolic alpha-mannosidase from Thermotoga maritima. Crystallization and preliminary X-ray analysis of cytosolic alpha-mannosidase from Thermotoga maritima. , 62, Pt 2, 104-105 , 62, Pt 2, 104-105 , 62, Pt 2, 104-105 2006/02 公開
H. Imamura; M. Takeda; S. Funamoto; K. Shimabukuro; M. Yoshida; K. Yokoyama H. Imamura; M. Takeda; S. Funamoto; K. Shimabukuro; M. Yoshida; K. Yokoyama H. Imamura; M. Takeda; S. Funamoto; K. Shimabukuro; M. Yoshida; K. Yokoyama Rotation scheme of V<sub>1</sub>-motor is different from that of F <sub>1</sub>-motor Rotation scheme of V<sub>1</sub>-motor is different from that of F <sub>1</sub>-motor Rotation scheme of V<sub>1</sub>-motor is different from that of F <sub>1</sub>-motor Proceedings of the National Academy of Sciences of the United States of America, 102, 50, 17929-17933 Proceedings of the National Academy of Sciences of the United States of America, 102, 50, 17929-17933 Proceedings of the National Academy of Sciences of the United States of America, 102, 50, 17929-17933 2005/12 英語 公開
K. Yokoyama; H. Imamura K. Yokoyama; H. Imamura K. Yokoyama; H. Imamura Rotation, structure, and classification of prokaryotic V-ATPase Rotation, structure, and classification of prokaryotic V-ATPase Rotation, structure, and classification of prokaryotic V-ATPase Journal of Bioenergetics and Biomembranes, 37, 6, 405-410 Journal of Bioenergetics and Biomembranes, 37, 6, 405-410 Journal of Bioenergetics and Biomembranes, 37, 6, 405-410 2005/12 英語 公開
H. Makyio; R. Iino; C. Ikeda; H. Imamura; M. Tamakoshi; M. Iwata; D. Stock; R.A. Bernal; E.P. Carpenter; M. Yoshida; K. Yokoyama; S. Iwata H. Makyio; R. Iino; C. Ikeda; H. Imamura; M. Tamakoshi; M. Iwata; D. Stock; R.A. Bernal; E.P. Carpenter; M. Yoshida; K. Yokoyama; S. Iwata H. Makyio; R. Iino; C. Ikeda; H. Imamura; M. Tamakoshi; M. Iwata; D. Stock; R.A. Bernal; E.P. Carpenter; M. Yoshida; K. Yokoyama; S. Iwata Structure of a central stalk subunit F of prokaryotic V-type ATPase/synthase from Thermus thermophilus Structure of a central stalk subunit F of prokaryotic V-type ATPase/synthase from Thermus thermophilus Structure of a central stalk subunit F of prokaryotic V-type ATPase/synthase from Thermus thermophilus EMBO Journal, 24, 22, 3974-3983 EMBO Journal, 24, 22, 3974-3983 EMBO Journal, 24, 22, 3974-3983 2005/11 英語 公開
M. Nakajima; H. Imamura; H. Shoun; S. Horinouchi; T. Wakagi M. Nakajima; H. Imamura; H. Shoun; S. Horinouchi; T. Wakagi M. Nakajima; H. Imamura; H. Shoun; S. Horinouchi; T. Wakagi Transglycosylation activity of Dictyoglomus thermophilum amylase A Transglycosylation activity of Dictyoglomus thermophilum amylase A Transglycosylation activity of Dictyoglomus thermophilum amylase A Bioscience, Biotechnology and Biochemistry, 68, 11, 2369-2373 Bioscience, Biotechnology and Biochemistry, 68, 11, 2369-2373 Bioscience, Biotechnology and Biochemistry, 68, 11, 2369-2373 2004/11 英語 公開
H. Imamura; B.-S. Jeon; T. Wakagi H. Imamura; B.-S. Jeon; T. Wakagi H. Imamura; B.-S. Jeon; T. Wakagi Molecular evolution of the ATPase subunit of three archaeal sugar ABC transporters Molecular evolution of the ATPase subunit of three archaeal sugar ABC transporters Molecular evolution of the ATPase subunit of three archaeal sugar ABC transporters Biochemical and Biophysical Research Communications, 319, 1, 230-234 Biochemical and Biophysical Research Communications, 319, 1, 230-234 Biochemical and Biophysical Research Communications, 319, 1, 230-234 2004/06 英語 公開
Imamura H, Ikeda C, Yoshida M, Yokoyama K, The Journal of biological chemistry, vol. 279, no. 17, pp. 18085-18090 Imamura H, Ikeda C, Yoshida M, Yokoyama K, The Journal of biological chemistry, vol. 279, no. 17, pp. 18085-18090 Imamura H, Ikeda C, Yoshida M, Yokoyama K, The Journal of biological chemistry, vol. 279, no. 17, pp. 18085-18090 The F subunit of Thermus thermophilus V1-ATPase promotes ATPase activity but is not necessary for rotation. The F subunit of Thermus thermophilus V1-ATPase promotes ATPase activity but is not necessary for rotation. The F subunit of Thermus thermophilus V1-ATPase promotes ATPase activity but is not necessary for rotation. , 279, 17, 18085-18090 , 279, 17, 18085-18090 , 279, 17, 18085-18090 2004/04 公開
M. Iwata; H. Imamura; E. Stambouli; C. Ikeda; M. Tamakoshi; K. Nagata; H. Makyio; B. Hankamer; J. Barber; M. Yoshida; K. Yokoyama; S. Iwata M. Iwata; H. Imamura; E. Stambouli; C. Ikeda; M. Tamakoshi; K. Nagata; H. Makyio; B. Hankamer; J. Barber; M. Yoshida; K. Yokoyama; S. Iwata M. Iwata; H. Imamura; E. Stambouli; C. Ikeda; M. Tamakoshi; K. Nagata; H. Makyio; B. Hankamer; J. Barber; M. Yoshida; K. Yokoyama; S. Iwata Crystal structure of a central stalk subunit C and reversible association/dissociation of vacuole-type ATPase Crystal structure of a central stalk subunit C and reversible association/dissociation of vacuole-type ATPase Crystal structure of a central stalk subunit C and reversible association/dissociation of vacuole-type ATPase Proceedings of the National Academy of Sciences of the United States of America, 101, 1, 59-64 Proceedings of the National Academy of Sciences of the United States of America, 101, 1, 59-64 Proceedings of the National Academy of Sciences of the United States of America, 101, 1, 59-64 2004/01 英語 公開
Yokoyama K, Nagata K, Imamura H, Ohkuma S, Yoshida M, Tamakoshi M, The Journal of biological chemistry, vol. 278, no. 43, pp. 42686-42691 Yokoyama K, Nagata K, Imamura H, Ohkuma S, Yoshida M, Tamakoshi M, The Journal of biological chemistry, vol. 278, no. 43, pp. 42686-42691 Yokoyama K, Nagata K, Imamura H, Ohkuma S, Yoshida M, Tamakoshi M, The Journal of biological chemistry, vol. 278, no. 43, pp. 42686-42691 Subunit arrangement in V-ATPase from Thermus thermophilus. Subunit arrangement in V-ATPase from Thermus thermophilus. Subunit arrangement in V-ATPase from Thermus thermophilus. , 278, 43, 42686-42691 , 278, 43, 42686-42691 , 278, 43, 42686-42691 2003/10 公開
Yokoyama K, Nakano M, Imamura H, Yoshida M, Tamakoshi M, The Journal of biological chemistry, vol. 278, no. 27, pp. 24255-24258 Yokoyama K, Nakano M, Imamura H, Yoshida M, Tamakoshi M, The Journal of biological chemistry, vol. 278, no. 27, pp. 24255-24258 Yokoyama K, Nakano M, Imamura H, Yoshida M, Tamakoshi M, The Journal of biological chemistry, vol. 278, no. 27, pp. 24255-24258 Rotation of the proteolipid ring in the V-ATPase. Rotation of the proteolipid ring in the V-ATPase. Rotation of the proteolipid ring in the V-ATPase. , 278, 27, 24255-24258 , 278, 27, 24255-24258 , 278, 27, 24255-24258 2003/07 公開
Nakajima M, Imamura H, Shoun H, Wakagi T, Archives of biochemistry, biophysics, vol. 415, no. 1, pp. 87-93 Nakajima M, Imamura H, Shoun H, Wakagi T, Archives of biochemistry, biophysics, vol. 415, no. 1, pp. 87-93 Nakajima M, Imamura H, Shoun H, Wakagi T, Archives of biochemistry, biophysics, vol. 415, no. 1, pp. 87-93 Unique metal dependency of cytosolic alpha-mannosidase from Thermotoga maritima, a hyperthermophilic bacterium. Unique metal dependency of cytosolic alpha-mannosidase from Thermotoga maritima, a hyperthermophilic bacterium. Unique metal dependency of cytosolic alpha-mannosidase from Thermotoga maritima, a hyperthermophilic bacterium. , 415, 1, 87-93 , 415, 1, 87-93 , 415, 1, 87-93 2003/07 公開
Imamura H, Fushinobu S, Yamamoto M, Kumasaka T, Jeon BS, Wakagi T, Matsuzawa H, The Journal of biological chemistry, vol. 278, no. 21, pp. 19378-19386 Imamura H, Fushinobu S, Yamamoto M, Kumasaka T, Jeon BS, Wakagi T, Matsuzawa H, The Journal of biological chemistry, vol. 278, no. 21, pp. 19378-19386 Imamura H, Fushinobu S, Yamamoto M, Kumasaka T, Jeon BS, Wakagi T, Matsuzawa H, The Journal of biological chemistry, vol. 278, no. 21, pp. 19378-19386 Crystal structures of 4-alpha-glucanotransferase from Thermococcus litoralis and its complex with an inhibitor. Crystal structures of 4-alpha-glucanotransferase from Thermococcus litoralis and its complex with an inhibitor. Crystal structures of 4-alpha-glucanotransferase from Thermococcus litoralis and its complex with an inhibitor. , 278, 21, 19378-19386 , 278, 21, 19378-19386 , 278, 21, 19378-19386 2003/05 公開
H. Imamura; M. Nakano; H. Noji; E. Muneyuki; S. Ohkuma; M. Yoshida; K. Yokoyama H. Imamura; M. Nakano; H. Noji; E. Muneyuki; S. Ohkuma; M. Yoshida; K. Yokoyama H. Imamura; M. Nakano; H. Noji; E. Muneyuki; S. Ohkuma; M. Yoshida; K. Yokoyama Evidence for rotation of V<sub>1</sub>-ATPase Evidence for rotation of V<sub>1</sub>-ATPase Evidence for rotation of V<sub>1</sub>-ATPase Proceedings of the National Academy of Sciences of the United States of America, 100, 5, 2312-2315 Proceedings of the National Academy of Sciences of the United States of America, 100, 5, 2312-2315 Proceedings of the National Academy of Sciences of the United States of America, 100, 5, 2312-2315 2003/03 英語 公開
伏信進矢、日高將文、今村博臣 伏信進矢、日高將文、今村博臣 糖質加水分解酵素のバレル構造:ファミリー42と57のX線結晶構造解析 糖質加水分解酵素のバレル構造:ファミリー42と57のX線結晶構造解析 構造生物, 8, 3, 6-15 構造生物, 8, 3, 6-15 , 8, 3, 6-15 2003 公開
J.F.T. Van Lieshout; C.H. Verhees; T.J.G. Ettema; S. Van Der Sar; H. Imamura; H. Matsuzawa; J. Van Der Oost; W.M. De Vos J.F.T. Van Lieshout; C.H. Verhees; T.J.G. Ettema; S. Van Der Sar; H. Imamura; H. Matsuzawa; J. Van Der Oost; W.M. De Vos J.F.T. Van Lieshout; C.H. Verhees; T.J.G. Ettema; S. Van Der Sar; H. Imamura; H. Matsuzawa; J. Van Der Oost; W.M. De Vos Identification and molecular characterization of a novel type of α-galactosidase from Pyrococcus furiosus Identification and molecular characterization of a novel type of α-galactosidase from Pyrococcus furiosus Identification and molecular characterization of a novel type of α-galactosidase from Pyrococcus furiosus Biocatalysis and Biotransformation, 21, 4-5, 243-252 Biocatalysis and Biotransformation, 21, 4-5, 243-252 Biocatalysis and Biotransformation, 21, 4-5, 243-252 2003 英語 公開
H. Imamura; S. Fushinobu; B.-S. Jeon; T. Wakagi; H. Matsuzawa H. Imamura; S. Fushinobu; B.-S. Jeon; T. Wakagi; H. Matsuzawa H. Imamura; S. Fushinobu; B.-S. Jeon; T. Wakagi; H. Matsuzawa Identification of the catalytic residue of Thermococcus litoralis 4-α-glucanotransferase through mechanism-based labeling Identification of the catalytic residue of Thermococcus litoralis 4-α-glucanotransferase through mechanism-based labeling Identification of the catalytic residue of Thermococcus litoralis 4-α-glucanotransferase through mechanism-based labeling Biochemistry, 40, 41, 12400-12406 Biochemistry, 40, 41, 12400-12406 Biochemistry, 40, 41, 12400-12406 2001/10 英語 公開
今村博臣、伏信進矢、山本雅貴、熊坂崇、若木高善、松澤 洋 今村博臣、伏信進矢、山本雅貴、熊坂崇、若木高善、松澤 洋 超好熱性古細菌 Thermococcus litoralis 由来4-α-グルカノトランスフェラーゼの反応機構と構造解析 超好熱性古細菌 Thermococcus litoralis 由来4-α-グルカノトランスフェラーゼの反応機構と構造解析 応用糖質科学, 48, 171-175 応用糖質科学, 48, 171-175 , 48, 171-175 2001 公開
Imamura H, Jeon B, Wakagi T, Matsuzawa H, FEBS letters, vol. 457, no. 3, pp. 393-396 Imamura H, Jeon B, Wakagi T, Matsuzawa H, FEBS letters, vol. 457, no. 3, pp. 393-396 Imamura H, Jeon B, Wakagi T, Matsuzawa H, FEBS letters, vol. 457, no. 3, pp. 393-396 High level expression of Thermococcus litoralis 4-alpha-glucanotransferase in a soluble form in Escherichia coli with a novel expression system involving minor arginine tRNAs and GroELS. High level expression of Thermococcus litoralis 4-alpha-glucanotransferase in a soluble form in Escherichia coli with a novel expression system involving minor arginine tRNAs and GroELS. High level expression of Thermococcus litoralis 4-alpha-glucanotransferase in a soluble form in Escherichia coli with a novel expression system involving minor arginine tRNAs and GroELS. , 457, 3, 393-396 , 457, 3, 393-396 , 457, 3, 393-396 1999/09 公開
T. Wakagi; T. Oshima; H. Imamura; H. Matsuzawa T. Wakagi; T. Oshima; H. Imamura; H. Matsuzawa T. Wakagi; T. Oshima; H. Imamura; H. Matsuzawa Cloning of the Gene for Inorganic Pyrophosphatase from a Thermoacidophilic Archaeon, Sulfolobus sp. Strain 7, and Overproduction of the Enzyme by Coexpression of tRNA for Arginine Rare Codon Cloning of the Gene for Inorganic Pyrophosphatase from a Thermoacidophilic Archaeon, Sulfolobus sp. Strain 7, and Overproduction of the Enzyme by Coexpression of tRNA for Arginine Rare Codon Cloning of the Gene for Inorganic Pyrophosphatase from a Thermoacidophilic Archaeon, Sulfolobus sp. Strain 7, and Overproduction of the Enzyme by Coexpression of tRNA for Arginine Rare Codon Bioscience, Biotechnology and Biochemistry, 62, 12, 2408-2414 Bioscience, Biotechnology and Biochemistry, 62, 12, 2408-2414 Bioscience, Biotechnology and Biochemistry, 62, 12, 2408-2414 1998/12 英語 公開

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タイトル言語:
学術賞等
賞の名称(日本語) 賞の名称(英語) 授与組織名(日本語) 授与組織名(英語) 年月
日本生物物理学会 若手奨励賞 日本生物物理学会 2007/12/
長瀬研究振興賞 Nagase Foundation Award 公益財団法人 長瀬科学技術振興財団 NAGASE Science Technology Foundation 2016/04/22
中谷賞奨励賞 公益財団法人 中谷医工計測技術振興財団 2019/02/22
外部資金:競争的資金・科学研究費補助金
種別 代表/分担 テーマ(日本語) テーマ(英語) 期間
挑戦的萌芽研究 代表 細胞内タンパク質の微小な構造変化を可視化する手法の開発 2012〜2013
基盤研究(B) 代表 膵臓ランゲルハンス島における細胞外ATPシグナルの時空間動態の解明 (平成26年度分) 2014/04/01〜2015/03/31
基盤研究(A) 分担 Pin1関連分子群を利用した加齢疾患の予防、診断、創薬 2014/04/01〜2019/03/31
挑戦的萌芽研究 分担 光駆動ATP再生小胞を用いた新規な高効率無細胞タンパク質合成システムの創成 2014/04/01〜2015/03/31
挑戦的萌芽研究 分担 腎臓の発生・障害・再生におけるエネルギー代謝時空間ダイナミクスの解析 2014/04/01〜2015/03/31
新学術領域研究(研究領域提案型) 代表 遺伝子コードされたFRET型酸素バイオセンサーの開発 2015/04/01〜2017/03/31
基盤研究(B) 代表 膵臓ランゲルハンス島における細胞外ATPシグナルの時空間動態の解明 (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) 代表 遺伝子コードされたFRET型酸素バイオセンサーの開発 (平成27年度分) 2015/04/01〜2016/03/31
挑戦的萌芽研究 代表 新規発光型ATPバイオセンサーによる光合成生物内ATP動態の定量的解析 (平成28年度分) 2016/04/01〜2017/03/31
基盤研究(B) 代表 膵臓ランゲルハンス島における細胞外ATPシグナルの時空間動態の解明 (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) 代表 遺伝子コードされたFRET型酸素バイオセンサーの開発 (平成28年度分) 2016/04/01〜2017/03/31
挑戦的萌芽研究 代表 新規発光型ATPバイオセンサーによる光合成生物内ATP動態の定量的解析 (平成29年度分) 2017/04/01〜2018/03/31
基盤研究(B) 代表 蛍光バイオセンサーを用いたミトコンドリア分岐鎖アミノ酸輸送体の同定およびその解析 (平成29年度分) 2017/04/01〜2018/03/31
基盤研究(B) 代表 蛍光バイオセンサーを用いたミトコンドリア分岐鎖アミノ酸輸送体の同定およびその解析 (平成30年度分) 2018/04/01〜2019/03/31
基盤研究(B) 代表 蛍光バイオセンサーを用いたミトコンドリア分岐鎖アミノ酸輸送体の同定およびその解析 (平成30年度分) 2018/04/01〜2019/03/31

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講義名(日本語) 講義名(英語) 開講期 学部/研究科 年度
生命科学概論A Perspectives on Life Science A 前期 全学共通科目 2011/04〜2012/03
生命科学概論A Perspectives on Life Science A 前期 全学共通科目 2012/04〜2013/03
タンパク質のかたちを観る/生命現象を観る Direct observation of the protein shape and life phenomenon 前期 全学共通科目 2012/04〜2013/03
Global Frontier in Life Science A Global Frontier in Life Science A 前期 生命科学研究科 2013/04〜2014/03
生命科学概論I Study of Life Science I 前期 全学共通科目 2013/04〜2014/03
生命を知る、観る、創る:いのちの分子科学 In order to Know, Observe, and Create our Life : The Molecular Science for Life 前期 全学共通科目 2013/04〜2014/03
Global Frontier in Life Science A Global Frontier in Life Science A 前期 生命科学研究科 2014/04〜2015/03
分子細胞生物学 Molecular and Cellular Biology 後期 総合生存学館 2014/04〜2015/03
生命科学概論I Study of Life Science I 前期 全学共通科目 2014/04〜2015/03
生命を知る、観る、創る:いのちの科学 Life Sciences: Knowledge, Observation, and Creation of a Life 前期 全学共通科目 2014/04〜2015/03
Global Frontier in Life Science A Global Frontier in Life Science A 前期 生命科学研究科 2015/04〜2016/03
分子細胞生物学 Molecular and Cellular Biology 後期 総合生存学館 2015/04〜2016/03
生命科学概論I Study of Life Science I 前期 全学共通科目 2015/04〜2016/03
いのちを知る科学 Understanding life: From molecule to ecosystem. 前期 全学共通科目 2015/04〜2016/03
Global Frontier in Life Science A Global Frontier in Life Science A 前期 生命科学研究科 2016/04〜2017/03
分子細胞生物学 Molecular and Cellular Biology 後期 総合生存学館 2016/04〜2017/03
Global Frontier in Life Science A Global Frontier in Life Science A 前期 生命科学研究科 2017/04〜2018/03
分子細胞生物学 Molecular and Cellular Biology 後期 総合生存学館 2017/04〜2018/03
Global Frontier in Life Science A Global Frontier in Life Science A 前期 生命科学研究科 2018/04〜2019/03
生物・生命科学入門 Introduction to Biology and Life Science 前期 全学共通科目 2018/04〜2019/03
Global Frontier in Life Science A Global Frontier in Life Science A 前期 生命科学研究科 2019/04〜2020/03
ILASセミナー ILAS Seminar 前期 全学共通科目 2019/04〜2020/03

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学外非常勤講師
講義名(日本語) 講義名(英語) 開講期 学校名 学部/研究科名 期間
龍谷大学 2017/09/20〜2018/01/30
東京大学 大学院農学生命科学研究科 2018/04/01〜2018/06/30
龍谷大学 2018/09/20〜2019/01/21
龍谷大学 2019/09/20〜2020/01/20
全学運営(役職等)
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京都大学放射線予防小委員会委員 2015/04/01〜2019/03/31
男女共同参画推進委員会委員 2016/10/01〜2018/09/30
男女共同参画推進センター 広報・相談・社会連携事業ワーキンググループ委員 2016/10/01〜2018/09/30
部局運営(役職等)
役職名 期間
RI委員会委員 2015/04/01〜
先端科学研究棟RI施設主任者 2015/04/01〜
安全・環境保全委員会委員 2017/04/01〜