長谷 あきら

Last Update: 2018/08/01 17:33:04

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Name(Kanji/Kana/Abecedarium Latinum)
長谷 あきら/ナガタニ アキラ/Nagatani, Akira
Primary Affiliation(Org1/Job title)
Graduate Schools Science/Professor
Faculty
Org1 Job title
理学部
Contact Address
Type Address(Japanese) Address(English)
Office 京都市左京区北白川追分町
Phone
Type Number
Office 075-753-4123
Academic Organizations You are Affiliated to in Japan
Organization name(Japanese) Organization name(English)
植物生理学会 The Japanese Society of Plant Physiologists
植物学会 The Botanical Society of Japan
Academic Degree
Field(Japanese) Field(English) University(Japanese) University(English) Method
博士(理学) 東京大学 The University of Tokyo
Graduate School
University(Japanese) University(English) Faculty(Japanese) Faculty(English) Major(Japanese) Major(English) Degree
東京大学 The University of Tokyo 大学院理学系研究科生物化学専攻修士課程 修了
東京大学 The University of Tokyo 大学院理学系研究科生物化学専攻博士課程 修了
Work Experience
Period Organization(Japanese) Organization(English) Job title(Japanese) Job title(English)
1984/04/01-1987/03/31 日本学術振興会(基礎生物学研究所) JSPS 奨励研究院、特別研究員
1987/04/01-1995/03/31 理化学研究所 RIKEN フロンティア研究員、基礎科学特別研究員、副チームリーダー
1995/04/01-1998/03/31 東京大学 The University of Tokyo 助教授 Associate Professor
Language of Instruction
Language
English
ORCID ID
https://orcid.org/0000-0002-4284-3140
researchmap URL
https://researchmap.jp/read0069957
Research Topics
(Japanese)
植物の光応答の分子機構の研究
(English)
Molecular mechanisms for plant responses to light stimuli
Overview of the research
(Japanese)
光は植物にとって最も重要な環境要因である。私は、植物が光刺激を感知しそれに応答する仕組みについて研究を進めてきた。具体的には、植物の主要な光受容体であるフィトクロムやフォトトロピンについて、分子種による役割分担、その基盤となる分子構造、シグナル伝達に関わる細胞内での挙動などについて研究している。また最近では、個々の細胞応答の個体応答への統合機構や、自然環境下での分子応答にも興味を持って研究を進めている。
(English)
Light is one of most important environmental factors for plants. I have been studying how plants perceive light stimuli and respond to them. For instance, I am studying the structural bases for the functional diversification of phytochrome and phototropin molecular species. More recently, I expanded my research to study the integration mechanism of individual cell responses to a whole plant response. The molecular response under the natural condition, which would be quite different from the one in a laboratory, is another recent subject of my research.
Fields of research (key words)
Key words(Japanese) Key words(English)
光応答 light response
光受容体 photoreceptor
フィトクロム phytochrome
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
Kim S, Mochizuki N, Deguchi A, Nagano AJ, Suzuki T, Nagatani A Kim S, Mochizuki N, Deguchi A, Nagano AJ, Suzuki T, Nagatani A Kim S, Mochizuki N, Deguchi A, Nagano AJ, Suzuki T, Nagatani A Auxin Contributes to the Intraorgan Regulation of Gene Expression in Response to Shade. Auxin Contributes to the Intraorgan Regulation of Gene Expression in Response to Shade. Auxin Contributes to the Intraorgan Regulation of Gene Expression in Response to Shade. Plant physiology, 177, 2, 847-862 Plant physiology, 177, 2, 847-862 Plant physiology, 177, 2, 847-862 2018/06 Refereed Disclose to all
Qiu Y, Pasoreck EK, Reddy AK, Nagatani A, Ma W, Chory J, Chen M Qiu Y, Pasoreck EK, Reddy AK, Nagatani A, Ma W, Chory J, Chen M Qiu Y, Pasoreck EK, Reddy AK, Nagatani A, Ma W, Chory J, Chen M Mechanism of early light signaling by the carboxy-terminal output module of Arabidopsis phytochrome B. Mechanism of early light signaling by the carboxy-terminal output module of Arabidopsis phytochrome B. Mechanism of early light signaling by the carboxy-terminal output module of Arabidopsis phytochrome B. Nature communications, 8, 1, 1905 Nature communications, 8, 1, 1905 Nature communications, 8, 1, 1905 2017/12 Refereed Disclose to all
Dietrich D, Pang L, Kobayashi A, Fozard JA, Boudolf V, Bhosale R, Antoni R, Nguyen T, Hiratsuka S, Fujii N, Miyazawa Y, Bae TW, Wells DM, Owen MR, Band LR, Dyson RJ, Jensen OE, King JR, Tracy SR, Sturrock CJ, Mooney SJ, Roberts JA, Bhalerao RP, Dinneny JR, Rodriguez PL, Nagatani A, Hosokawa Y, Baskin TI, Pridmore TP, De Veylder L, Takahashi H, Bennett MJ Dietrich D, Pang L, Kobayashi A, Fozard JA, Boudolf V, Bhosale R, Antoni R, Nguyen T, Hiratsuka S, Fujii N, Miyazawa Y, Bae TW, Wells DM, Owen MR, Band LR, Dyson RJ, Jensen OE, King JR, Tracy SR, Sturrock CJ, Mooney SJ, Roberts JA, Bhalerao RP, Dinneny JR, Rodriguez PL, Nagatani A, Hosokawa Y, Baskin TI, Pridmore TP, De Veylder L, Takahashi H, Bennett MJ Dietrich D, Pang L, Kobayashi A, Fozard JA, Boudolf V, Bhosale R, Antoni R, Nguyen T, Hiratsuka S, Fujii N, Miyazawa Y, Bae TW, Wells DM, Owen MR, Band LR, Dyson RJ, Jensen OE, King JR, Tracy SR, Sturrock CJ, Mooney SJ, Roberts JA, Bhalerao RP, Dinneny JR, Rodriguez PL, Nagatani A, Hosokawa Y, Baskin TI, Pridmore TP, De Veylder L, Takahashi H, Bennett MJ Root hydrotropism is controlled via a cortex-specific growth mechanism. Root hydrotropism is controlled via a cortex-specific growth mechanism. Root hydrotropism is controlled via a cortex-specific growth mechanism. Nature plants, 3, 17057 Nature plants, 3, 17057 Nature plants, 3, 17057 2017/05 Refereed Disclose to all
Jeong AR, Lee SS, Han YJ, Shin AY, Baek A, Ahn T, Kim MG, Kim YS, Lee KW, Nagatani A, Kim JI Jeong AR, Lee SS, Han YJ, Shin AY, Baek A, Ahn T, Kim MG, Kim YS, Lee KW, Nagatani A, Kim JI Jeong AR, Lee SS, Han YJ, Shin AY, Baek A, Ahn T, Kim MG, Kim YS, Lee KW, Nagatani A, Kim JI New Constitutively Active Phytochromes Exhibit Light-Independent Signaling Activity. New Constitutively Active Phytochromes Exhibit Light-Independent Signaling Activity. New Constitutively Active Phytochromes Exhibit Light-Independent Signaling Activity. Plant physiology, 171, 4, 2826-2840 Plant physiology, 171, 4, 2826-2840 Plant physiology, 171, 4, 2826-2840 2016/08 Refereed Disclose to all
Endo M, Araki T, Nagatani A Endo M, Araki T, Nagatani A Endo M, Araki T, Nagatani A Tissue-specific regulation of flowering by photoreceptors. Tissue-specific regulation of flowering by photoreceptors. Tissue-specific regulation of flowering by photoreceptors. Cellular and molecular life sciences : CMLS, 73, 4, 829-839 Cellular and molecular life sciences : CMLS, 73, 4, 829-839 Cellular and molecular life sciences : CMLS, 73, 4, 829-839 2016/02 Refereed Disclose to all
Ibata H, Nagatani A, Mochizuki N Ibata H, Nagatani A, Mochizuki N Ibata H, Nagatani A, Mochizuki N CHLH/GUN5 Function in Tetrapyrrole Metabolism Is Correlated with Plastid Signaling but not ABA Responses in Guard Cells. CHLH/GUN5 Function in Tetrapyrrole Metabolism Is Correlated with Plastid Signaling but not ABA Responses in Guard Cells. CHLH/GUN5 Function in Tetrapyrrole Metabolism Is Correlated with Plastid Signaling but not ABA Responses in Guard Cells. Frontiers in plant science, 7, 1650 Frontiers in plant science, 7, 1650 Frontiers in plant science, 7, 1650 2016 Refereed Disclose to all
Nagatani A, Mimura T Nagatani A, Mimura T Nagatani A, Mimura T Editorial: Emerging Technologies for the Study of Plant Environmental Sensing. Editorial: Emerging Technologies for the Study of Plant Environmental Sensing. Editorial: Emerging Technologies for the Study of Plant Environmental Sensing. Plant & cell physiology, 56, 7, 1249-1251 Plant & cell physiology, 56, 7, 1249-1251 Plant & cell physiology, 56, 7, 1249-1251 2015/07 Refereed Disclose to all
Kajiyama T, Fujii A, Arikawa K, Habu T, Mochizuki N, Nagatani A, Kambara H Kajiyama T, Fujii A, Arikawa K, Habu T, Mochizuki N, Nagatani A, Kambara H Kajiyama T, Fujii A, Arikawa K, Habu T, Mochizuki N, Nagatani A, Kambara H Position-Specific Gene Expression Analysis Using a Microgram Dissection Method Combined with On-Bead cDNA Library Construction. Position-Specific Gene Expression Analysis Using a Microgram Dissection Method Combined with On-Bead cDNA Library Construction. Position-Specific Gene Expression Analysis Using a Microgram Dissection Method Combined with On-Bead cDNA Library Construction. Plant & cell physiology, 56, 7, 1320-1328 Plant & cell physiology, 56, 7, 1320-1328 Plant & cell physiology, 56, 7, 1320-1328 2015/07 Refereed Disclose to all
Takahashi K, Kozuka T, Anegawa A, Nagatani A, Mimura T Takahashi K, Kozuka T, Anegawa A, Nagatani A, Mimura T Takahashi K, Kozuka T, Anegawa A, Nagatani A, Mimura T Development and Application of a High-Resolution Imaging Mass Spectrometer for the Study of Plant Tissues. Development and Application of a High-Resolution Imaging Mass Spectrometer for the Study of Plant Tissues. Development and Application of a High-Resolution Imaging Mass Spectrometer for the Study of Plant Tissues. Plant & cell physiology, 56, 7, 1329-1338 Plant & cell physiology, 56, 7, 1329-1338 Plant & cell physiology, 56, 7, 1329-1338 2015/07 Refereed Disclose to all
Nito K, Kajiyama T, Unten-Kobayashi J, Fujii A, Mochizuki N, Kambara H, Nagatani A Nito K, Kajiyama T, Unten-Kobayashi J, Fujii A, Mochizuki N, Kambara H, Nagatani A Nito K, Kajiyama T, Unten-Kobayashi J, Fujii A, Mochizuki N, Kambara H, Nagatani A Spatial Regulation of the Gene Expression Response to Shade in Arabidopsis Seedlings. Spatial Regulation of the Gene Expression Response to Shade in Arabidopsis Seedlings. Spatial Regulation of the Gene Expression Response to Shade in Arabidopsis Seedlings. Plant & cell physiology, 56, 7, 1306-1319 Plant & cell physiology, 56, 7, 1306-1319 Plant & cell physiology, 56, 7, 1306-1319 2015/07 Refereed Disclose to all
Van Buskirk, E.K., A.K. Reddy, A. Nagatani and M. Chen Van Buskirk EK, Reddy AK, Nagatani A, Chen M Van Buskirk, E.K., A.K. Reddy, A. Nagatani and M. Chen Photobody localization of phytochrome B is tightly correlated with prolonged and light-dependent inhibition of hypocotyl elongation in the dark phyB光ボディーの形成と光依存的な胚軸伸長阻害の相関関係 Photobody localization of phytochrome B is tightly correlated with prolonged and light-dependent inhibition of hypocotyl elongation in the dark Plant Physiol, 165, 165, 595-607 Plant physiology, 165, 165, 595-607 Plant Physiol, 165, 165, 595-607 2014/06 Refereed Disclose to all
Sharma, S., E. Kharshiing, A. Srinivas, K. Zikihara, S. Tokutomi, A. Nagatani, H. Fukuyuma, R. Bodanapu, R. K. Behera, Y. Sreelakshmi and R. Sharm Sharma S, Kharshiing E, Srinivas A, Zikihara K, Tokutomi S, Nagatani A, Fukayama H, Bodanapu R, Behera RK, Sreelakshmi Y, Sharma R Sharma, S., E. Kharshiing, A. Srinivas, K. Zikihara, S. Tokutomi, A. Nagatani, H. Fukuyuma, R. Bodanapu, R. K. Behera, Y. Sreelakshmi and R. Sharm A novel mutation in the N terminal region of LOV2 domain impairs phototropin1 signaling in tomato トマトのphot1のLOV2ドメインのN末端側で新規に発見された変異 A novel mutation in the N terminal region of LOV2 domain impairs phototropin1 signaling in tomato Plant Physiol, 164, 164, 2030-2044 Plant physiology, 164, 164, 2030-2044 Plant Physiol, 164, 164, 2030-2044 2014/04 Refereed Disclose to all
Yamamoto, K., T. Suzuki1, Y. Aihara1, K. Haga, T. Sakai and A. Nagatani Yamamoto K, Suzuki T, Aihara Y, Haga K, Sakai T, Nagatani A Yamamoto, K., T. Suzuki1, Y. Aihara1, K. Haga, T. Sakai and A. Nagatani The phototropic response is locally regulated within the topmost light-responsive region of the Arabidopsis thaliana seedling. 光屈性応答は芽生えの最上部で制御される The phototropic response is locally regulated within the topmost light-responsive region of the Arabidopsis thaliana seedling. Plant Cell Physiol, 55, 55, 497-506 Plant & cell physiology, 55, 55, 497-506 Plant Cell Physiol, 55, 55, 497-506 2014/03 Refereed Disclose to all
Mano*, S., T. Nakamura, M. Kondo, T. Miwa, S.I. Nishikawa, T. Mimura, A. Nagatani and M. Nishimura Mano S, Nakamura T, Kondo M, Miwa T, Nishikawa S, Mimura T, Nagatani A, Nishimura M Mano*, S., T. Nakamura, M. Kondo, T. Miwa, S.I. Nishikawa, T. Mimura, A. Nagatani and M. Nishimura The Plant Organelles Database 3 (PODB3) update 2014: Integrating electron micrographs and new options for plant organelle research PODB3の更新2014:植物オルガネラ研究のための新機能 The Plant Organelles Database 3 (PODB3) update 2014: Integrating electron micrographs and new options for plant organelle research Plant Cell Physiol, 55, 1, 1-9 Plant & cell physiology, 55, 1, 1-9 Plant Cell Physiol, 55, 1, 1-9 2014/01 Refereed Disclose to all
Okajima, K., Y. Aihara, Y. Takayama, M. Nakajima, S. Kashojiya, T. Hikima, T. Oroguchi, A. Kobayashi, Y. Sekiguchi, M. Yamamoto, T. Suzuki, A. Nagatani, M. Nakasako* and S. Tokutomi Okajima K, Aihara Y, Takayama Y, Nakajima M, Kashojiya S, Hikima T, Oroguchi T, Kobayashi A, Sekiguchi Y, Yamamoto M, Suzuki T, Nagatani A, Nakasako M, Tokutomi S Okajima, K., Y. Aihara, Y. Takayama, M. Nakajima, S. Kashojiya, T. Hikima, T. Oroguchi, A. Kobayashi, Y. Sekiguchi, M. Yamamoto, T. Suzuki, A. Nagatani, M. Nakasako* and S. Tokutomi Light-induced conformational changes of LOV (Light Oxygen Voltage-sensing domain) 1 and LOV2 relative to the kinase domain and regulation of kinase activity in Chlamydomonas phototropin. 光によって引起されるLOV1とLOV2のキナーゼドメインに対するコンフォメーション変化 Light-induced conformational changes of LOV (Light Oxygen Voltage-sensing domain) 1 and LOV2 relative to the kinase domain and regulation of kinase activity in Chlamydomonas phototropin. J Biol Cehm, 289, 289, 413-422 The Journal of biological chemistry, 289, 289, 413-422 J Biol Cehm, 289, 289, 413-422 2014/01 Refereed Disclose to all
Takenaka, M., T. Iino, A. Nagatani and Y. Hosokawa Takenaka, M., T. Iino, A. Nagatani and Y. Hosokawa Nanoscale bending movement of biological micro-object induced by femtosecond laser impulse and its detection by atomic force microscopy. フェムト秒レーザーによって引き起こされる生物材料のナノスケールの屈曲変形 Nanoscale bending movement of biological micro-object induced by femtosecond laser impulse and its detection by atomic force microscopy. Appl. Phys. Express, 7, 87002 , 7, 87002 Appl. Phys. Express, 7, 87002 2014 Refereed Disclose to all
Endo*, M., Y. Tanigawa, T. Murakami, T. Araki* and A. Nagatani Endo M, Tanigawa Y, Murakami T, Araki T, Nagatani A Endo*, M., Y. Tanigawa, T. Murakami, T. Araki* and A. Nagatani PHYTOCHROME-DEPENDENT LATE-FLOWERING accelerates flowering through physical interactions with phytochrome B and CONSTANS. PHLはphyBやCOとの物理的相互作用を通じて花芽形成を制御する。 PHYTOCHROME-DEPENDENT LATE-FLOWERING accelerates flowering through physical interactions with phytochrome B and CONSTANS. Proc. Natl. Acad. Sci. USA,, 110, 44, 18017-18022 Proceedings of the National Academy of Sciences of the United States of America, 110, 44, 18017-18022 Proc. Natl. Acad. Sci. USA,, 110, 44, 18017-18022 2013/10 Refereed Disclose to all
Kozuka, T., N. Suetsugu, M. Wada and A. Nagatani Kozuka T, Suetsugu N, Wada M, Nagatani A Kozuka, T., N. Suetsugu, M. Wada and A. Nagatani Antagonistic regulation of leaf flattening by phytochrome B and phototropins in Arabidopsis thaliana. 葉の偏平化のphyBとフォトトロピンによる拮抗的制御 Antagonistic regulation of leaf flattening by phytochrome B and phototropins in Arabidopsis thaliana. Plant Cell Physiol, 54, 1, 69-79 Plant & cell physiology, 54, 1, 69-79 Plant Cell Physiol, 54, 1, 69-79 2013/01 Refereed Disclose to all
Kong*, S.-G., T. Kagawa, M. Wada and A. Nagatani Kong SG, Kagawa T, Wada M, Nagatani A Kong*, S.-G., T. Kagawa, M. Wada and A. Nagatani A carboxy-terminal membrane association domain of phototropin 2 is necessary for chloroplast movement. phot2のC-末端膜結合ドメインは葉緑体の運動に必要である A carboxy-terminal membrane association domain of phototropin 2 is necessary for chloroplast movement. Plant Cell Physiol, 54, 1, 80-92 Plant & cell physiology, 54, 1, 80-92 Plant Cell Physiol, 54, 1, 80-92 2013/01 Refereed Disclose to all
Chen, J., K. Sonobe, N. Ogawa, S. Masuda, A. Nagatani, Y. Kobayashi and H. Ohta Chen J, Sonobe K, Ogawa N, Masuda S, Nagatani A, Kobayashi Y, Ohta H Chen, J., K. Sonobe, N. Ogawa, S. Masuda, A. Nagatani, Y. Kobayashi and H. Ohta Inhibition of Arabidopsis hypocotyl elongation by jasmonates is enhanced under red light in phytochrome B dependent manner. 赤色光下でのフィトクロムBによるジャスモン酸依存的胚軸伸長阻害の促進 Inhibition of Arabidopsis hypocotyl elongation by jasmonates is enhanced under red light in phytochrome B dependent manner. J Plant Res, 126, 1, 161-168 Journal of plant research, 126, 1, 161-168 J Plant Res, 126, 1, 161-168 2013/01 Refereed Disclose to all
Kong, S.-G., N. Suetsugu, S. Kikuchi, M. Nakai, A. Nagatani and M. Wada Kong SG, Suetsugu N, Kikuchi S, Nakai M, Nagatani A, Wada M Kong, S.-G., N. Suetsugu, S. Kikuchi, M. Nakai, A. Nagatani and M. Wada Both phototropin 1 and 2 localise on the chloroplast outer membrane with distinct localisation activity フォトトロピン1と2の葉緑体外膜局在活性の比較 Both phototropin 1 and 2 localise on the chloroplast outer membrane with distinct localisation activity Plant Cell Physiol, 54, 1, 57-68 Plant & cell physiology, 54, 1, 57-68 Plant Cell Physiol, 54, 1, 57-68 2013/01 Refereed Disclose to all
Ibata, H., A. Nagatani and N. Mochizuki Ibata, H., A. Nagatani and N. Mochizuki Perforated-tape epidermal detachment (PED): A simple and rapid method for isolating epidermal peels from specific areas of Arabidopsis leaves. PED法:シロイヌナズナの葉の特定部位より表皮を単離する新手法 Perforated-tape epidermal detachment (PED): A simple and rapid method for isolating epidermal peels from specific areas of Arabidopsis leaves. Plant Biotechnol, 30, 497-506 , 30, 497-506 Plant Biotechnol, 30, 497-506 2013 Refereed Disclose to all
Park, E., J. Park, J. Kim, A. Nagatani, J.C. Lagarias and G. Choi Park E, Park J, Kim J, Nagatani A, Lagarias JC, Choi G Park, E., J. Park, J. Kim, A. Nagatani, J.C. Lagarias and G. Choi Phytochrome B inhibits binding of Phytochrome-Interacting Factors to their target promoters. フィトクロムBによるPIFタンパク質のプロモーターへの結合の阻害 Phytochrome B inhibits binding of Phytochrome-Interacting Factors to their target promoters. Plant J, 72, 4, 537-546 The Plant journal : for cell and molecular biology, 72, 4, 537-546 Plant J, 72, 4, 537-546 2012/11 Refereed Disclose to all
Oka, Y., Y. Ono, G. Toledo-Ortiz, K. Kokaji, M. Matsui, N. Mochizuki and A. Nagatani Oka Y, Ono Y, Toledo-Ortiz G, Kokaji K, Matsui M, Mochizuki N, Nagatani A Oka, Y., Y. Ono, G. Toledo-Ortiz, K. Kokaji, M. Matsui, N. Mochizuki and A. Nagatani Arabidopsis phytochrome A is modularly structured to integrate the multiple features that are required for a highly sensitized phytochrome. 高感度フィトクロムとしてのフィトクロムAのモジュラー構造 Arabidopsis phytochrome A is modularly structured to integrate the multiple features that are required for a highly sensitized phytochrome. Plant Cell, 24, 7, 2949-2962 The Plant cell, 24, 7, 2949-2962 Plant Cell, 24, 7, 2949-2962 2012/07 Refereed English Research paper(scientific journal) Disclose to all
Aihara, Y., T. Yamamoto, K. Okajima, K. Yamamoto, T. Suzuki, S. Tokutomi, K. Tanaka and A. Nagatani Aihara Y, Yamamoto T, Okajima K, Yamamoto K, Suzuki T, Tokutomi S, Tanaka K, Nagatani A Aihara, Y., T. Yamamoto, K. Okajima, K. Yamamoto, T. Suzuki, S. Tokutomi, K. Tanaka and A. Nagatani Mutations in the N-terminal flanking region of the blue-light sensing domain LOV2 disrupt its repressive activity on the kinase domain in the Chlamydomonas Phototropin. 光受容LOV2ドメインのN末端側近傍領域が持つ抑制的効果の変異による破壊 Mutations in the N-terminal flanking region of the blue-light sensing domain LOV2 disrupt its repressive activity on the kinase domain in the Chlamydomonas Phototropin. J Biol Cehm, 287, 13, 9901-9909 The Journal of biological chemistry, 287, 13, 9901-9909 J Biol Cehm, 287, 13, 9901-9909 2012/03 Refereed English Research paper(scientific journal) Disclose to all
Kozuka, T., S-G. Kong, M. Doi, K. Shimazaki and A. Nagatani Kozuka T, Kong SG, Doi M, Shimazaki K, Nagatani A Kozuka, T., S-G. Kong, M. Doi, K. Shimazaki and A. Nagatani Tissue-autonomous promotion of palisade cell development by phototropin 2 in Arabidopsis thaliana. シロイヌナズナにおけるphot2による柵状組織の発生制御 Tissue-autonomous promotion of palisade cell development by phototropin 2 in Arabidopsis thaliana. Plant Cell, 23, 10, 3684-3695 The Plant cell, 23, 10, 3684-3695 Plant Cell, 23, 10, 3684-3695 2011/10 Refereed English Research paper(scientific journal) Disclose to all
Nagatani A Nagatani A Nagatani A Phytochrome: structural basis for its functions. Phytochrome: structural basis for its functions. Phytochrome: structural basis for its functions. Current opinion in plant biology, 13, 5, 565-570 Current opinion in plant biology, 13, 5, 565-570 Current opinion in plant biology, 13, 5, 565-570 2010/10 Refereed Disclose to all
Toledo-Ortiz G, Kiryu Y, Kobayashi J, Oka Y, Kim Y, Nam HG, Mochizuki N, Nagatani A Toledo-Ortiz G, Kiryu Y, Kobayashi J, Oka Y, Kim Y, Nam HG, Mochizuki N, Nagatani A Toledo-Ortiz G, Kiryu Y, Kobayashi J, Oka Y, Kim Y, Nam HG, Mochizuki N, Nagatani A Subcellular sites of the signal transduction and degradation of phytochrome A. Subcellular sites of the signal transduction and degradation of phytochrome A. Subcellular sites of the signal transduction and degradation of phytochrome A. Plant & cell physiology, 51, 10, 1648-1660 Plant & cell physiology, 51, 10, 1648-1660 Plant & cell physiology, 51, 10, 1648-1660 2010/10 Refereed Disclose to all
Kozuka T, Kobayashi J, Horiguchi G, Demura T, Sakakibara H, Tsukaya H, Nagatani A Kozuka T, Kobayashi J, Horiguchi G, Demura T, Sakakibara H, Tsukaya H, Nagatani A Kozuka T, Kobayashi J, Horiguchi G, Demura T, Sakakibara H, Tsukaya H, Nagatani A Involvement of auxin and brassinosteroid in the regulation of petiole elongation under the shade. Involvement of auxin and brassinosteroid in the regulation of petiole elongation under the shade. Involvement of auxin and brassinosteroid in the regulation of petiole elongation under the shade. Plant physiology, 153, 4, 1608-1618 Plant physiology, 153, 4, 1608-1618 Plant physiology, 153, 4, 1608-1618 2010/08 Refereed Disclose to all
Jang IC, Henriques R, Seo HS, Nagatani A, Chua NH Jang IC, Henriques R, Seo HS, Nagatani A, Chua NH Jang IC, Henriques R, Seo HS, Nagatani A, Chua NH Arabidopsis PHYTOCHROME INTERACTING FACTOR proteins promote phytochrome B polyubiquitination by COP1 E3 ligase in the nucleus. Arabidopsis PHYTOCHROME INTERACTING FACTOR proteins promote phytochrome B polyubiquitination by COP1 E3 ligase in the nucleus. Arabidopsis PHYTOCHROME INTERACTING FACTOR proteins promote phytochrome B polyubiquitination by COP1 E3 ligase in the nucleus. The Plant cell, 22, 7, 2370-2383 The Plant cell, 22, 7, 2370-2383 The Plant cell, 22, 7, 2370-2383 2010/07 Refereed Disclose to all
Kikis EA, Oka Y, Hudson ME, Nagatani A, Quail PH Kikis EA, Oka Y, Hudson ME, Nagatani A, Quail PH Kikis EA, Oka Y, Hudson ME, Nagatani A, Quail PH Residues clustered in the light-sensing knot of phytochrome B are necessary for conformer-specific binding to signaling partner PIF3. Residues clustered in the light-sensing knot of phytochrome B are necessary for conformer-specific binding to signaling partner PIF3. Residues clustered in the light-sensing knot of phytochrome B are necessary for conformer-specific binding to signaling partner PIF3. PLoS genetics, 5, 1, e1000352 PLoS genetics, 5, 1, e1000352 PLoS genetics, 5, 1, e1000352 2009/01 Refereed Disclose to all
Kobayashi K, Awai K, Nakamura M, Nagatani A, Masuda T, Ohta H Kobayashi K, Awai K, Nakamura M, Nagatani A, Masuda T, Ohta H Kobayashi K, Awai K, Nakamura M, Nagatani A, Masuda T, Ohta H Type-B monogalactosyldiacylglycerol synthases are involved in phosphate starvation-induced lipid remodeling, and are crucial for low-phosphate adaptation. Type-B monogalactosyldiacylglycerol synthases are involved in phosphate starvation-induced lipid remodeling, and are crucial for low-phosphate adaptation. Type-B monogalactosyldiacylglycerol synthases are involved in phosphate starvation-induced lipid remodeling, and are crucial for low-phosphate adaptation. The Plant journal : for cell and molecular biology, 57, 2, 322-331 The Plant journal : for cell and molecular biology, 57, 2, 322-331 The Plant journal : for cell and molecular biology, 57, 2, 322-331 2009/01 Refereed Disclose to all
Aihara Y, Tabata R, Suzuki T, Shimazaki K, Nagatani A Aihara Y, Tabata R, Suzuki T, Shimazaki K, Nagatani A Aihara Y, Tabata R, Suzuki T, Shimazaki K, Nagatani A Molecular basis of the functional specificities of phototropin 1 and 2. Molecular basis of the functional specificities of phototropin 1 and 2. Molecular basis of the functional specificities of phototropin 1 and 2. The Plant journal : for cell and molecular biology, 56, 3, 364-375 The Plant journal : for cell and molecular biology, 56, 3, 364-375 The Plant journal : for cell and molecular biology, 56, 3, 364-375 2008/11 Refereed Disclose to all
Mochizuki N, Tanaka R, Tanaka A, Masuda T, Nagatani A Mochizuki N, Tanaka R, Tanaka A, Masuda T, Nagatani A Mochizuki N, Tanaka R, Tanaka A, Masuda T, Nagatani A The steady-state level of Mg-protoporphyrin IX is not a determinant of plastid-to-nucleus signaling in Arabidopsis. The steady-state level of Mg-protoporphyrin IX is not a determinant of plastid-to-nucleus signaling in Arabidopsis. The steady-state level of Mg-protoporphyrin IX is not a determinant of plastid-to-nucleus signaling in Arabidopsis. Proceedings of the National Academy of Sciences of the United States of America, 105, 39, 15184-15189 Proceedings of the National Academy of Sciences of the United States of America, 105, 39, 15184-15189 Proceedings of the National Academy of Sciences of the United States of America, 105, 39, 15184-15189 2008/09 Refereed Disclose to all
Oka Y, Matsushita T, Mochizuki N, Quail PH, Nagatani A Oka Y, Matsushita T, Mochizuki N, Quail PH, Nagatani A Oka Y, Matsushita T, Mochizuki N, Quail PH, Nagatani A Mutant screen distinguishes between residues necessary for light-signal perception and signal transfer by phytochrome B. Mutant screen distinguishes between residues necessary for light-signal perception and signal transfer by phytochrome B. Mutant screen distinguishes between residues necessary for light-signal perception and signal transfer by phytochrome B. PLoS genetics, 4, 8, e1000158 PLoS genetics, 4, 8, e1000158 PLoS genetics, 4, 8, e1000158 2008/08 Refereed Disclose to all
Kong SG, Nagatani A Kong SG, Nagatani A Kong SG, Nagatani A Where and how does phototropin transduce light signals in the cell? Where and how does phototropin transduce light signals in the cell? Where and how does phototropin transduce light signals in the cell? Plant signaling & behavior, 3, 4, 275-277 Plant signaling & behavior, 3, 4, 275-277 Plant signaling & behavior, 3, 4, 275-277 2008/04 Refereed Disclose to all
Endo M, Nagatani A Endo M, Nagatani A Endo M, Nagatani A Flowering regulation by tissue specific functions of photoreceptors. Flowering regulation by tissue specific functions of photoreceptors. Flowering regulation by tissue specific functions of photoreceptors. Plant signaling & behavior, 3, 1, 47-48 Plant signaling & behavior, 3, 1, 47-48 Plant signaling & behavior, 3, 1, 47-48 2008/01 Refereed Disclose to all
Kong SG, Kinoshita T, Shimazaki K, Mochizuki N, Suzuki T, Nagatani A Kong SG, Kinoshita T, Shimazaki K, Mochizuki N, Suzuki T, Nagatani A Kong SG, Kinoshita T, Shimazaki K, Mochizuki N, Suzuki T, Nagatani A The C-terminal kinase fragment of Arabidopsis phototropin 2 triggers constitutive phototropin responses. The C-terminal kinase fragment of Arabidopsis phototropin 2 triggers constitutive phototropin responses. The C-terminal kinase fragment of Arabidopsis phototropin 2 triggers constitutive phototropin responses. The Plant journal : for cell and molecular biology, 51, 5, 862-873 The Plant journal : for cell and molecular biology, 51, 5, 862-873 The Plant journal : for cell and molecular biology, 51, 5, 862-873 2007/09 Refereed Disclose to all
Usami T, Matsushita T, Oka Y, Mochizuki N, Nagatani A Usami T, Matsushita T, Oka Y, Mochizuki N, Nagatani A Usami T, Matsushita T, Oka Y, Mochizuki N, Nagatani A Roles for the N- and C-terminal domains of phytochrome B in interactions between phytochrome B and cryptochrome signaling cascades. Roles for the N- and C-terminal domains of phytochrome B in interactions between phytochrome B and cryptochrome signaling cascades. Roles for the N- and C-terminal domains of phytochrome B in interactions between phytochrome B and cryptochrome signaling cascades. Plant & cell physiology, 48, 3, 424-433 Plant & cell physiology, 48, 3, 424-433 Plant & cell physiology, 48, 3, 424-433 2007/03 Refereed Disclose to all
Iwama A, Yamashino T, Tanaka Y, Sakakibara H, Kakimoto T, Sato S, Kato T, Tabata S, Nagatani A, Mizuno T Iwama A, Yamashino T, Tanaka Y, Sakakibara H, Kakimoto T, Sato S, Kato T, Tabata S, Nagatani A, Mizuno T Iwama A, Yamashino T, Tanaka Y, Sakakibara H, Kakimoto T, Sato S, Kato T, Tabata S, Nagatani A, Mizuno T AHK5 histidine kinase regulates root elongation through an ETR1-dependent abscisic acid and ethylene signaling pathway in Arabidopsis thaliana. AHK5 histidine kinase regulates root elongation through an ETR1-dependent abscisic acid and ethylene signaling pathway in Arabidopsis thaliana. AHK5 histidine kinase regulates root elongation through an ETR1-dependent abscisic acid and ethylene signaling pathway in Arabidopsis thaliana. Plant & cell physiology, 48, 2, 375-380 Plant & cell physiology, 48, 2, 375-380 Plant & cell physiology, 48, 2, 375-380 2007/02 Refereed Disclose to all
Endo M, Mochizuki N, Suzuki T, Nagatani A Endo M, Mochizuki N, Suzuki T, Nagatani A Endo M, Mochizuki N, Suzuki T, Nagatani A CRYPTOCHROME2 in vascular bundles regulates flowering in Arabidopsis. CRYPTOCHROME2 in vascular bundles regulates flowering in Arabidopsis. CRYPTOCHROME2 in vascular bundles regulates flowering in Arabidopsis. The Plant cell, 19, 1, 84-93 The Plant cell, 19, 1, 84-93 The Plant cell, 19, 1, 84-93 2007/01 Refereed Disclose to all
Kong SG, Suzuki T, Tamura K, Mochizuki N, Hara-Nishimura I, Nagatani A Kong SG, Suzuki T, Tamura K, Mochizuki N, Hara-Nishimura I, Nagatani A Kong SG, Suzuki T, Tamura K, Mochizuki N, Hara-Nishimura I, Nagatani A Blue light-induced association of phototropin 2 with the Golgi apparatus. Blue light-induced association of phototropin 2 with the Golgi apparatus. Blue light-induced association of phototropin 2 with the Golgi apparatus. The Plant journal : for cell and molecular biology, 45, 6, 994-1005 The Plant journal : for cell and molecular biology, 45, 6, 994-1005 The Plant journal : for cell and molecular biology, 45, 6, 994-1005 2006/03 Refereed Disclose to all
Endo M, Nakamura S, Araki T, Mochizuki N, Nagatani A Endo M, Nakamura S, Araki T, Mochizuki N, Nagatani A Endo M, Nakamura S, Araki T, Mochizuki N, Nagatani A Phytochrome B in the mesophyll delays flowering by suppressing FLOWERING LOCUS T expression in Arabidopsis vascular bundles. Phytochrome B in the mesophyll delays flowering by suppressing FLOWERING LOCUS T expression in Arabidopsis vascular bundles. Phytochrome B in the mesophyll delays flowering by suppressing FLOWERING LOCUS T expression in Arabidopsis vascular bundles. The Plant cell, 17, 7, 1941-1952 The Plant cell, 17, 7, 1941-1952 The Plant cell, 17, 7, 1941-1952 2005/07 Refereed Disclose to all
Nakamura M, Satoh T, Tanaka S, Mochizuki N, Yokota T, Nagatani A Nakamura M, Satoh T, Tanaka S, Mochizuki N, Yokota T, Nagatani A Nakamura M, Satoh T, Tanaka S, Mochizuki N, Yokota T, Nagatani A Activation of the cytochrome P450 gene, CYP72C1, reduces the levels of active brassinosteroids in vivo. Activation of the cytochrome P450 gene, CYP72C1, reduces the levels of active brassinosteroids in vivo. Activation of the cytochrome P450 gene, CYP72C1, reduces the levels of active brassinosteroids in vivo. Journal of experimental botany, 56, 413, 833-840 Journal of experimental botany, 56, 413, 833-840 Journal of experimental botany, 56, 413, 833-840 2005/03 Refereed Disclose to all
Onodera A, Kong SG, Doi M, Shimazaki K, Christie J, Mochizuki N, Nagatani A Onodera A, Kong SG, Doi M, Shimazaki K, Christie J, Mochizuki N, Nagatani A Onodera A, Kong SG, Doi M, Shimazaki K, Christie J, Mochizuki N, Nagatani A Phototropin from Chlamydomonas reinhardtii is functional in Arabidopsis thaliana. Phototropin from Chlamydomonas reinhardtii is functional in Arabidopsis thaliana. Phototropin from Chlamydomonas reinhardtii is functional in Arabidopsis thaliana. Plant & cell physiology, 46, 2, 367-374 Plant & cell physiology, 46, 2, 367-374 Plant & cell physiology, 46, 2, 367-374 2005/02 Refereed Disclose to all
Usami T, Mochizuki N, Kondo M, Nishimura M, Nagatani A Usami T, Mochizuki N, Kondo M, Nishimura M, Nagatani A Usami T, Mochizuki N, Kondo M, Nishimura M, Nagatani A Cryptochromes and phytochromes synergistically regulate Arabidopsis root greening under blue light. Cryptochromes and phytochromes synergistically regulate Arabidopsis root greening under blue light. Cryptochromes and phytochromes synergistically regulate Arabidopsis root greening under blue light. Plant & cell physiology, 45, 12, 1798-1808 Plant & cell physiology, 45, 12, 1798-1808 Plant & cell physiology, 45, 12, 1798-1808 2004/12 Refereed Disclose to all
Nagatani A Nagatani A Nagatani A Light-regulated nuclear localization of phytochromes. Light-regulated nuclear localization of phytochromes. Light-regulated nuclear localization of phytochromes. Current opinion in plant biology, 7, 6, 708-711 Current opinion in plant biology, 7, 6, 708-711 Current opinion in plant biology, 7, 6, 708-711 2004/12 Refereed Disclose to all
Oka Y, Matsushita T, Mochizuki N, Suzuki T, Tokutomi S, Nagatani A Oka Y, Matsushita T, Mochizuki N, Suzuki T, Tokutomi S, Nagatani A Oka Y, Matsushita T, Mochizuki N, Suzuki T, Tokutomi S, Nagatani A Functional analysis of a 450-amino acid N-terminal fragment of phytochrome B in Arabidopsis. Functional analysis of a 450-amino acid N-terminal fragment of phytochrome B in Arabidopsis. Functional analysis of a 450-amino acid N-terminal fragment of phytochrome B in Arabidopsis. The Plant cell, 16, 8, 2104-2116 The Plant cell, 16, 8, 2104-2116 The Plant cell, 16, 8, 2104-2116 2004/08 Refereed Disclose to all
Matsushita T, Nagatani A Matsushita T, Nagatani A Matsushita T, Nagatani A [Reconsideration of phytochrome signal transduction]. [Reconsideration of phytochrome signal transduction]. [Reconsideration of phytochrome signal transduction]. Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 49, 6, 749-757 Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 49, 6, 749-757 Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 49, 6, 749-757 2004/05 Refereed Disclose to all
Seo HS, Watanabe E, Tokutomi S, Nagatani A, Chua NH Seo HS, Watanabe E, Tokutomi S, Nagatani A, Chua NH Seo HS, Watanabe E, Tokutomi S, Nagatani A, Chua NH Photoreceptor ubiquitination by COP1 E3 ligase desensitizes phytochrome A signaling. Photoreceptor ubiquitination by COP1 E3 ligase desensitizes phytochrome A signaling. Photoreceptor ubiquitination by COP1 E3 ligase desensitizes phytochrome A signaling. Genes & development, 18, 6, 617-622 Genes & development, 18, 6, 617-622 Genes & development, 18, 6, 617-622 2004/03 Refereed Disclose to all
Yamamoto Y, Sato E, Shimizu T, Nakamich N, Sato S, Kato T, Tabata S, Nagatani A, Yamashino T, Mizuno T Yamamoto Y, Sato E, Shimizu T, Nakamich N, Sato S, Kato T, Tabata S, Nagatani A, Yamashino T, Mizuno T Yamamoto Y, Sato E, Shimizu T, Nakamich N, Sato S, Kato T, Tabata S, Nagatani A, Yamashino T, Mizuno T Comparative genetic studies on the APRR5 and APRR7 genes belonging to the APRR1/TOC1 quintet implicated in circadian rhythm, control of flowering time, and early photomorphogenesis. Comparative genetic studies on the APRR5 and APRR7 genes belonging to the APRR1/TOC1 quintet implicated in circadian rhythm, control of flowering time, and early photomorphogenesis. Comparative genetic studies on the APRR5 and APRR7 genes belonging to the APRR1/TOC1 quintet implicated in circadian rhythm, control of flowering time, and early photomorphogenesis. Plant & cell physiology, 44, 11, 1119-1130 Plant & cell physiology, 44, 11, 1119-1130 Plant & cell physiology, 44, 11, 1119-1130 2003/11 Refereed Disclose to all
Tamura K, Shimada T, Ono E, Tanaka Y, Nagatani A, Higashi SI, Watanabe M, Nishimura M, Hara-Nishimura I Tamura K, Shimada T, Ono E, Tanaka Y, Nagatani A, Higashi SI, Watanabe M, Nishimura M, Hara-Nishimura I Tamura K, Shimada T, Ono E, Tanaka Y, Nagatani A, Higashi SI, Watanabe M, Nishimura M, Hara-Nishimura I Why green fluorescent fusion proteins have not been observed in the vacuoles of higher plants. Why green fluorescent fusion proteins have not been observed in the vacuoles of higher plants. Why green fluorescent fusion proteins have not been observed in the vacuoles of higher plants. The Plant journal : for cell and molecular biology, 35, 4, 545-555 The Plant journal : for cell and molecular biology, 35, 4, 545-555 The Plant journal : for cell and molecular biology, 35, 4, 545-555 2003/08 Refereed Disclose to all
Matsushita T, Mochizuki N, Nagatani A Matsushita T, Mochizuki N, Nagatani A Matsushita T, Mochizuki N, Nagatani A Dimers of the N-terminal domain of phytochrome B are functional in the nucleus. Dimers of the N-terminal domain of phytochrome B are functional in the nucleus. Dimers of the N-terminal domain of phytochrome B are functional in the nucleus. Nature, 424, 6948, 571-574 Nature, 424, 6948, 571-574 Nature, 424, 6948, 571-574 2003/07 Refereed Disclose to all
Tanaka S, Nakamura S, Mochizuki N, Nagatani A Tanaka S, Nakamura S, Mochizuki N, Nagatani A Tanaka S, Nakamura S, Mochizuki N, Nagatani A Phytochrome in cotyledons regulates the expression of genes in the hypocotyl through auxin-dependent and -independent pathways. Phytochrome in cotyledons regulates the expression of genes in the hypocotyl through auxin-dependent and -independent pathways. Phytochrome in cotyledons regulates the expression of genes in the hypocotyl through auxin-dependent and -independent pathways. Plant & cell physiology, 43, 10, 1171-1181 Plant & cell physiology, 43, 10, 1171-1181 Plant & cell physiology, 43, 10, 1171-1181 2002/10 Refereed Disclose to all
Nagatani A Nagatani A Nagatani A [Plant photoreceptors and their signal transduction]. [Plant photoreceptors and their signal transduction]. [Plant photoreceptors and their signal transduction]. Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 47, 12 Suppl, 1700-1704 Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 47, 12 Suppl, 1700-1704 Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 47, 12 Suppl, 1700-1704 2002/09 Refereed Disclose to all
Kasahara M, Swartz TE, Olney MA, Onodera A, Mochizuki N, Fukuzawa H, Asamizu E, Tabata S, Kanegae H, Takano M, Christie JM, Nagatani A, Briggs WR Kasahara M, Swartz TE, Olney MA, Onodera A, Mochizuki N, Fukuzawa H, Asamizu E, Tabata S, Kanegae H, Takano M, Christie JM, Nagatani A, Briggs WR Kasahara M, Swartz TE, Olney MA, Onodera A, Mochizuki N, Fukuzawa H, Asamizu E, Tabata S, Kanegae H, Takano M, Christie JM, Nagatani A, Briggs WR Photochemical properties of the flavin mononucleotide-binding domains of the phototropins from Arabidopsis, rice, and Chlamydomonas reinhardtii. Photochemical properties of the flavin mononucleotide-binding domains of the phototropins from Arabidopsis, rice, and Chlamydomonas reinhardtii. Photochemical properties of the flavin mononucleotide-binding domains of the phototropins from Arabidopsis, rice, and Chlamydomonas reinhardtii. Plant physiology, 129, 2, 762-773 Plant physiology, 129, 2, 762-773 Plant physiology, 129, 2, 762-773 2002/06 Refereed Disclose to all
Tanaka S, Mochizuki N, Nagatani A Tanaka S, Mochizuki N, Nagatani A Tanaka S, Mochizuki N, Nagatani A Expression of the AtGH3a gene, an Arabidopsis homologue of the soybean GH3 gene, is regulated by phytochrome B. Expression of the AtGH3a gene, an Arabidopsis homologue of the soybean GH3 gene, is regulated by phytochrome B. Expression of the AtGH3a gene, an Arabidopsis homologue of the soybean GH3 gene, is regulated by phytochrome B. Plant & cell physiology, 43, 3, 281-289 Plant & cell physiology, 43, 3, 281-289 Plant & cell physiology, 43, 3, 281-289 2002/03 Refereed Disclose to all
Nagatani A, Matsushita T Nagatani A, Matsushita T Nagatani A, Matsushita T Light-induced nuclear targeting of phytochromeB-sgreen fluorescent protein in plants. Light-induced nuclear targeting of phytochromeB-sgreen fluorescent protein in plants. Light-induced nuclear targeting of phytochromeB-sgreen fluorescent protein in plants. Methods in molecular biology (Clifton, N.J.), 183, 163-170 Methods in molecular biology (Clifton, N.J.), 183, 163-170 Methods in molecular biology (Clifton, N.J.), 183, 163-170 2002 Refereed Disclose to all
長谷 あきら 長谷 あきら 長谷 あきら Lighting up the nucleus Lighting up the nucleus Lighting up the nucleus American Association for the Advancement of Science, Science,/288,821-822, 288, 5467, 821-822 American Association for the Advancement of Science, Science,/288,821-822, 288, 5467, 821-822 American Association for the Advancement of Science, Science,/288,821-822, 288, 5467, 821-822 2000 English Research paper(scientific journal) Disclose to all
長谷 あきら 長谷 あきら 核に光を当てる 核に光を当てる アメリカ科学振興協会科学,/288,821-822, 288, 821-822 アメリカ科学振興協会科学,/288,821-822, 288, 821-822 , 288, 821-822 2000 Japanese Research paper(scientific journal) Disclose to all
長谷 あきら 長谷 あきら 長谷 あきら Light-dependent translocation of a phytochrome B-GFP Eusion protein to the nucleus in transgenic Arabidopsis Light-dependent translocation of a phytochrome B-GFP Eusion protein to the nucleus in transgenic Arabidopsis Light-dependent translocation of a phytochrome B-GFP Eusion protein to the nucleus in transgenic Arabidopsis Rockefeller University Press Journal of Cell Biology,/145,437-445, 145, 3, 437-445 Rockefeller University Press Journal of Cell Biology,/145,437-445, 145, 3, 437-445 Rockefeller University Press Journal of Cell Biology,/145,437-445, 145, 3, 437-445 1999 English Research paper(scientific journal) Disclose to all
長谷 あきら 長谷 あきら 光依存的なphyB-GFPタンパク質の核移行 光依存的なphyB-GFPタンパク質の核移行 ロックフェラー大学出版局細胞生物学雑誌,/145,437-445, 145, 437-445 ロックフェラー大学出版局細胞生物学雑誌,/145,437-445, 145, 437-445 , 145, 437-445 1999 Japanese Research paper(scientific journal) Disclose to all
長谷 あきら 長谷 あきら フィトクロムA欠損変異体の単離と解析 フィトクロムA欠損変異体の単離と解析 米国植物生理学会植物生理学,/102,269-277, 102, 269-277 米国植物生理学会植物生理学,/102,269-277, 102, 269-277 , 102, 269-277 1993 Japanese Research paper(scientific journal) Disclose to all
長谷 あきら 長谷 あきら 長谷 あきら Isolation and Initial charactenization of Arabidopsis mutants that are deficient in phytochrome A Isolation and Initial charactenization of Arabidopsis mutants that are deficient in phytochrome A Isolation and Initial charactenization of Arabidopsis mutants that are deficient in phytochrome A American Society of Plant Physiologists Plant Physiology,/102,269-277 American Society of Plant Physiologists Plant Physiology,/102,269-277 American Society of Plant Physiologists Plant Physiology,/102,269-277 1993 English Research paper(scientific journal) Disclose to all

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Title language:
Misc
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Bibliography Bibliography(Japanese) Bibliography(English) Publication date Refereed paper Language Publishing type Disclose
NAGATANI A NAGATANI A Lighting up the nucleus Lighting up the nucleus American Association for the Advancement of Science, Science, 288, 5467, 821-822 , 288, 5467, 821-822 American Association for the Advancement of Science, Science, 288, 5467, 821-822 2000 Disclose to all
YAMAGUCHI R, NAKAMURA M, MOCHIZUKI N, KAY S A, NAGATANI A YAMAGUCHI R, NAKAMURA M, MOCHIZUKI N, KAY S A, NAGATANI A Light-dependent translocation of a phytochrome B-GFP Eusion protein to the nucleus in transgenic Arabidopsis Light-dependent translocation of a phytochrome B-GFP Eusion protein to the nucleus in transgenic Arabidopsis Rockefeller University Press Journal of Cell Biology, 145, 3, 437-445 , 145, 3, 437-445 Rockefeller University Press Journal of Cell Biology, 145, 3, 437-445 1999 Disclose to all
Isolation and Initial charactenization of Arabidopsis mutants that are deficient in phytochrome A Isolation and Initial charactenization of Arabidopsis mutants that are deficient in phytochrome A American Society of Plant Physiologists Plant Physiology, 102, 269-277 , 102, 269-277 American Society of Plant Physiologists Plant Physiology, 102, 269-277 1993 Disclose to all
Title language:
Awards
Title(Japanese) Title(English) Organization name(Japanese) Organization name(English) Date
日本植物生理学会奨励賞 日本植物生理学会 The Japanese Society of Plant Physiologists 1995
木原財団学術賞 ㈶木原記念 2007/05/01
日本光生物学協会・協会賞 Photobiology Association of Japan Award 日本光生物学協会 Photobiology Association of Japan 2013/01/01
External funds: competitive funds and Grants-in-Aid for Scientific Research (Kakenhi)
Type Position Title(Japanese) Title(English) Period
特定領域研究 フォトトロピンによる運動制御の分子機構の解明 2005-2009
基盤研究(B) フィトクロムAによる超高感度光応答の分子機構の解明 2009-2011
新学術領域研究 光に対する植物の細胞応答機構の解析 2010-2014
新学術領域研究 植物の環境感覚:刺激受容から細胞応答まで 2010-2014
新学術領域研究(研究領域提案型) Representative 植物の環境感覚:刺激受容から細胞応答まで 2010-2014
新学術領域研究(研究領域提案型) Representative 光に対する植物の細胞応答機構の解析 2010-2014
新学術領域研究(研究領域提案型) Representative 植物の環境感覚:刺激受容から細胞応答まで (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 植物の環境感覚:刺激受容から細胞応答まで (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 光に対する植物の細胞応答機構の解析 (平成26年度分) 2014/04/01-2015/03/31
基盤研究(B) Representative 植物の光応答の空間構造とその制御機構の解明 (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) Representative 植物の環境感覚:刺激受容から細胞応答まで (平成27年度分) 2015/04/01-2016/03/31
挑戦的萌芽研究 Representative 物理学的・生理学的実験手法を融合した植物個体の力学刺激応答メカニズムの解明 (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) Representative 光に対する植物の細胞応答機構の解析 (平成27年度分) 2015/04/01-2016/03/31
挑戦的萌芽研究 Representative 物理学的・生理学的実験手法を融合した植物個体の力学刺激応答メカニズムの解明 (平成28年度分) 2016/04/01-2017/03/31
基盤研究(B) Representative 植物の光応答の空間構造とその制御機構の解明 (平成28年度分) 2016/04/01-2017/03/31
基盤研究(B) Representative 植物の光応答の空間構造とその制御機構の解明 (平成28年度分) 2016/04/01-2017/03/31
挑戦的研究(萌芽) Representative 植物生理学と生態学の融合による野外光応答の実態解明と原理探究 (平成29年度分) 2017/04/01-2018/03/31
基盤研究(B) Representative 植物の光応答の空間構造とその制御機構の解明 (平成29年度分) 2017/04/01-2018/03/31
基盤研究(B) Representative 植物の光応答の空間構造とその制御機構の解明 (平成29年度分) 2017/04/01-2018/03/31
挑戦的萌芽研究 Representative 物理学的・生理学的実験手法を融合した植物個体の力学刺激応答メカニズムの解明 (平成29年度分) 2017/04/01-2018/03/31

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External funds: other than those above
System Main person Title(Japanese) Title(English) Period
植物の光応答機構 Plant responses to light -
Teaching subject(s)
Name(Japanese) Name(English) Term Department Period
生理機能学特論A 前期 理学研究科 2011/04-2012/03
生理機能学特論B 後期 理学研究科 2011/04-2012/03
生理機能学ゼミナールA 前期 理学研究科 2011/04-2012/03
生理機能学ゼミナールB 後期 理学研究科 2011/04-2012/03
生理機能学ゼミナールC 前期 理学研究科 2011/04-2012/03
生理機能学ゼミナールD 後期 理学研究科 2011/04-2012/03
現代植物学 Modern Plant Science 前期 全学共通科目 2011/04-2012/03
植物生理学 前期 理学部 2011/04-2012/03
生物学実習C (2) 前期 理学部 2011/04-2012/03
生物学セミナ-B (3) 後期 理学部 2011/04-2012/03
生物科学課題研究9 通年 理学部 2011/04-2012/03
基礎生物学B Basic Biology B 後期 全学共通科目 2011/04-2012/03
基礎生物学B Basic Biology B 後期 全学共通科目 2012/04-2013/03
植物生理学 Plant Physiology 前期 理学部 2012/04-2013/03
植物を考える Let's think about plants 前期 全学共通科目 2012/04-2013/03
現代植物学 Modern Plant Science 前期 全学共通科目 2012/04-2013/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2012/04-2013/03
生物学実習C Laboratory work in Biological Science C 前期 理学部 2012/04-2013/03
生物科学課題研究9 Special Study CourseII(Biological Sciences) 9 通年 理学部 2012/04-2013/03
植物生理学 Plant Physiology 前期 理学部 2013/04-2014/03
生物学実習C Laboratory work in Biological Science C 前期 理学部 2013/04-2014/03
生物学セミナ−B Seminars in Biological Science B 後期 理学部 2013/04-2014/03
生物科学課題研究9 Special Study CourseII(Biological Sciences) 9 通年 理学部 2013/04-2014/03
基礎生物学II Basic Biology II 後期 全学共通科目 2013/04-2014/03
現代植物学 Modern Plant Science 前期 全学共通科目 2013/04-2014/03
植物を考える Let's think about plants 前期 全学共通科目 2013/04-2014/03
植物生理学 Plant Physiology 前期 理学部 2014/04-2015/03
生物学実習C Laboratory work in Biological Science C 前期 理学部 2014/04-2015/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2014/04-2015/03
生物科学課題研究9 Special Study CourseII(Biological Sciences) 9 通年 理学部 2014/04-2015/03
生理機能学特論A Advanced Lectures : Plant Physiology A 前期 理学研究科 2014/04-2015/03
生理機能学特論B Advanced Lectures : Plant Physiology B 後期 理学研究科 2014/04-2015/03
生理機能学ゼミナールA Seminar on Plant Physiology A 前期 理学研究科 2014/04-2015/03
生理機能学ゼミナールB Seminar on Plant Physiology B 後期 理学研究科 2014/04-2015/03
生理機能学ゼミナールC Seminar on Plant Physiology C 前期 理学研究科 2014/04-2015/03
生理機能学ゼミナールD Seminar on Plant Physiology D 後期 理学研究科 2014/04-2015/03
統合生物多様性論 Advanced Lectures : Integrative Biological Diversity 前期 理学研究科 2014/04-2015/03
基礎生物学II Basic Biology II 後期 全学共通科目 2014/04-2015/03
現代植物学 Modern Plant Science 前期 全学共通科目 2014/04-2015/03
植物を考える Let's think about plants 前期 全学共通科目 2014/04-2015/03
基礎生物学II Basic Biology II 後期 全学共通科目 2015/04-2016/03
植物生理学 Plant Physiology 前期 理学部 2015/04-2016/03
植物を考える Let's think about plants 前期 全学共通科目 2015/04-2016/03
現代植物学 Modern Plant Science 前期 全学共通科目 2015/04-2016/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2015/04-2016/03
生物学実習C Laboratory work in Biological Science C 前期 理学部 2015/04-2016/03
生物科学課題研究9 Special Study CourseII(Biological Sciences) 9 通年 理学部 2015/04-2016/03
生理機能学ゼミナールA Seminar on Plant Physiology A 前期 理学研究科 2015/04-2016/03
生理機能学ゼミナールB Seminar on Plant Physiology B 後期 理学研究科 2015/04-2016/03
生理機能学ゼミナールC Seminar on Plant Physiology C 前期 理学研究科 2015/04-2016/03
生理機能学ゼミナールD Seminar on Plant Physiology D 後期 理学研究科 2015/04-2016/03
生理機能学特論A Advanced Lectures : Plant Physiology A 前期 理学研究科 2015/04-2016/03
生理機能学特論B Advanced Lectures : Plant Physiology B 後期 理学研究科 2015/04-2016/03
統合生物多様性論 Advanced Lectures : Integrative Biological Diversity 前期 理学研究科 2015/04-2016/03
ILASセミナー ILAS Seminar 前期 全学共通科目 2016/04-2017/03
植物生理学 Plant Physiology 前期 理学部 2016/04-2017/03
植物科学のフロンティア Frontiers in Plant Science 前期 全学共通科目 2016/04-2017/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2016/04-2017/03
生物学実習C Laboratory work in Biological Science C 前期集中 理学部 2016/04-2017/03
生物科学課題研究9 Special Study CourseII(Biological Sciences) 9 通年 理学部 2016/04-2017/03
生理機能学ゼミナールA Seminar on Plant Physiology A 前期 理学研究科 2016/04-2017/03
生理機能学ゼミナールB Seminar on Plant Physiology B 後期 理学研究科 2016/04-2017/03
生理機能学ゼミナールC Seminar on Plant Physiology C 前期 理学研究科 2016/04-2017/03
生理機能学ゼミナールD Seminar on Plant Physiology D 後期 理学研究科 2016/04-2017/03
生理機能学特論A Advanced Lectures : Plant Physiology A 前期 理学研究科 2016/04-2017/03
生理機能学特論B Advanced Lectures : Plant Physiology B 後期 理学研究科 2016/04-2017/03
細胞と分子の基礎生物学 Fundamentals of Cell and Molecular Biology 後期 全学共通科目 2016/04-2017/03
統合生物多様性論 Advanced Lectures : Integrative Biological Diversity 前期 理学研究科 2016/04-2017/03
ILASセミナー ILAS Seminar 前期 全学共通科目 2017/04-2018/03
植物生理学 Plant Physiology 前期 理学部 2017/04-2018/03
植物科学のフロンティア Frontiers in Plant Science 前期 全学共通科目 2017/04-2018/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2017/04-2018/03
生物学実習C Laboratory work in Biological Science C 前期集中 理学部 2017/04-2018/03
生物科学課題研究9 Special Study CourseII(Biological Sciences) 9 通年 理学部 2017/04-2018/03
生理機能学ゼミナールA Seminar on Plant Physiology A 前期 理学研究科 2017/04-2018/03
生理機能学ゼミナールB Seminar on Plant Physiology B 後期 理学研究科 2017/04-2018/03
生理機能学ゼミナールC Seminar on Plant Physiology C 前期 理学研究科 2017/04-2018/03
生理機能学ゼミナールD Seminar on Plant Physiology D 後期 理学研究科 2017/04-2018/03
生理機能学特論A Advanced Lectures : Plant Physiology A 前期 理学研究科 2017/04-2018/03
生理機能学特論B Advanced Lectures : Plant Physiology B 後期 理学研究科 2017/04-2018/03
細胞と分子の基礎生物学 Fundamentals of Cell and Molecular Biology 後期 全学共通科目 2017/04-2018/03
統合生物多様性論 Advanced Lectures : Integrative Biological Diversity 前期 理学研究科 2017/04-2018/03
ILASセミナー ILAS Seminar 前期 全学共通科目 2018/04-2019/03
植物生理学 Plant Physiology 前期 理学部 2018/04-2019/03
植物科学のフロンティア Frontiers in Plant Science 前期 全学共通科目 2018/04-2019/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2018/04-2019/03
生物学実習C Laboratory work in Biological Science C 前期集中 理学部 2018/04-2019/03
生物科学特別講義5 Special Lecture on Biological Sciences 5 後期集中 理学部 2018/04-2019/03
生物科学課題研究9 Special Study CourseII(Biological Sciences) 9 通年 理学部 2018/04-2019/03
生理機能学ゼミナールA Seminar on Plant Physiology A 前期 理学研究科 2018/04-2019/03
生理機能学ゼミナールB Seminar on Plant Physiology B 後期 理学研究科 2018/04-2019/03
生理機能学ゼミナールC Seminar on Plant Physiology C 前期 理学研究科 2018/04-2019/03
生理機能学ゼミナールD Seminar on Plant Physiology D 後期 理学研究科 2018/04-2019/03
生理機能学特論A Advanced Lectures : Plant Physiology A 前期 理学研究科 2018/04-2019/03
生理機能学特論B Advanced Lectures : Plant Physiology B 後期 理学研究科 2018/04-2019/03
細胞と分子の基礎生物学 Fundamentals of Cell and Molecular Biology 後期 全学共通科目 2018/04-2019/03
統合生物多様性論 Advanced Lectures:Integrative Biological Diversity 前期 全学共通科目 2018/04-2019/03
統合生物多様性論 Advanced Lectures : Integrative Biological Diversity 前期 理学研究科 2018/04-2019/03

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School management (title, position)
Title Period
放射性同位元素等管理委員会 委員 2008/04/01-2010/03/31
放射線障害予防小委員会 委員長 2008/04/01-2009/03/31
放射性同位元素等管理委員会 委員長 2010/04/01-2011/03/31
放射線障害予防小委員会 委員 2010/04/01-2011/03/31
学生生活委員会 委員 2014/04/01-2016/03/31
環境安全保健委員会 委員 2013/04/01-2015/03/31
学生生活委員会第二小委員会 委員長 2014/04/01-2016/03/31
環境安全保健委員会 3号・7号委員 -
原子力研究整備委員会 委員 2015/04/01-2017/03/31
原子力研究整備委員会 委員 2017/04/01-
原子力研究整備委員会 委員 2017/04/01-2018/03/31

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Faculty management (title, position)
Title Period
生物科学専攻副専攻長 2015/04/01-2016/03/31
放射性同位元素総合センター共同利用検討委員会委員 2012/06/01-2016/03/31
放射線管理部門長 2013/04/01-2014/09/30
附属放射性同位元素総合センター長 2013/04/01-2015/03/31
理学部・教育委員会委員 2014/04/01-2015/03/31
理学部・教育委員会 常任委員会委員 2014/04/01-2015/03/31
理学研究科環境・安全委員会委員 2014/04/01-2015/03/31
理学研究科放射線委員会委員長 2014/04/01-2015/03/31
理学部・教育委員会委員 2015/04/01-2016/03/31
理学部・教育委員会 常任委員会委員 2015/04/01-2016/03/31
理学研究科放射線委員会委員長 2015/04/01-2016/03/31
理学研究科動物実験委員会委員 2015/04/01-2016/03/31
理学研究科情報セキュリティ委員会委員 2015/04/01-2016/03/31
理学研究科会議構成員 2015/04/01-2016/03/31
環境安全保健機構附属放射性同位元素総合センター共同利用検討委員会委員 2012/06/01-2018/03/31
理学研究科将来計画委員会委員 2016/04/01-2017/03/31
理学研究科将来計画委員会・プロジェクトスペース委員会委員 2016/04/01-2017/03/31
理学研究科大学院教育教務委員会委員 2016/04/01-2017/03/31
理学研究科放射線委員会委員委員長 2016/04/01-2017/03/31
理学研究科相談室運営委員会委員 2016/04/01-2017/03/31
理学研究科情報セキュリティ委員会委員 2016/04/01-2017/03/31
理学研究科将来計画委員会委員 2017/04/01-2018/03/31
理学研究科将来計画委員会・プロジェクトスペース委員会委員 2017/04/01-2018/03/31
理学研究科大学院教育教務委員会委員 2017/04/01-2018/03/31
理学研究科放射線委員会委員長 2017/04/01-2018/03/31
理学研究科情報セキュリティ委員会委員 2017/04/01-2018/03/31
理学研究科情報セキュリティ委員会 ネットワーク小委員会委員 2017/04/01-2018/03/31
理学研究科相談室運営委員会委員 2016/04/01-2018/03/31
理学研究科サイエンス倶楽部運営委員会委員 2017/04/01-2018/03/31
理学研究科相談室運営委員会委員 2017/04/01-2018/03/31
理学研究科生物科学専攻副専攻長 2018/04/01-2019/03/31
理学研究科将来計画委員会・プロジェクトスペース委員会委員 2018/04/01-2019/03/31
理学研究科放射線委員会委員 2018/04/01-2019/03/31
理学研究科動物実験委員会委員 2018/04/01-2019/03/31
理学研究科研究科会議構成員 2018/04/01-2019/03/31
理学研究科専攻長会議構成員 2018/04/01-2019/03/31

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