研究業績
Original papers
(1) Yuna Asagoshi, Eri Hitomi, Noriko Nakamura, Seiji Takeda*. Gene-flow investigation between garden and wild roses planted in close distance. Plant Biotechnology, 40 (4), 283-388 (2023 Dec). (*Corresponding author)
(2) Tomoko Hirano, Ayaka Okamoto, Yoshihisa Oda, Tomoaki Sakamoto, Seiji Takeda, Takakazu Matsuura, Yoko Ikeda, Takumi Higaki, Seisuke Kimura, Masa H. Sato. Ab-GALFA, a bioassay for insect gall formation using the model plant Arabidopsis thaliana. Scientific Reports 13, 2554 (2023 Feb).
(3) Haruka Temman, Takuya Sakamoto, Minoru Ueda, Koru Sugimoto, Masako Migihashi Kazunari Yaamoto Yayoi Inui, Hikaru Sato, Mio K Shibuta, Norikazu Nishino, Tomoe Nakamura, Hiroaki Shimada, Yukimi Y Tanigushi, Seiji Takeda, Mitsuhiro Aida, Takamasa Suzuki, Motoaki Seki, Sachihiro Matsunaga. Histone deacetylation regulates de novo shoot regeneration. PNAS nexus, pgad002 (2023 Jan).
(4) Seiji Takeda*, Yuki Hamamura, Tomoaki Sakamoto, Seisuke Kimura, Mitsuhiro Aida, Tetsuya Higashiyama. Non-cell-autonomous regulation of petal initiation in Arabidopsis thaliana. Development 149 (17), dev200648 (2022 Sep). (*Corresponding author)
(5) Eri Hitomi, Seiji Takeda*. Relationship between pollen formation and vase life in Arabidopsis thaliana. ISHS Acta Horticulturae 1336 (2022). (*Corresponding author) DOI: 10.17660/ActaHortic.2022.1336.7
(6) Ayaka Shimoki+, Satoru Tsugawa+, Keiichiro Ohashi, Masahito Toda, Akiteru Maeno, Tomoaki Sakamoto, Seisuke Kimura, Takashi Nobusawa, Mika Nagao, Eiji Nitasaka, Taku Demura, Kiyotaka Okada, Seiji Takeda*. Reduction in organ-organ friction is critical for corolla elongation in morning glory. Communications Biology 4, 285 (2021). (+Equally contributed, *Corresponding author)
(7) Tsutomu Tachibana, Yuki Nishikawa, Nakao Kubo, Seiji Takeda*. Morphological and genetic diversities of Habenaria radiata (Orchidaceae) in the Kinki area, Japan. International Journal of Molecular Sciences 22 (1), 311 (2021). (*Corresponding author)
(8) Mitsuhiro Aida, Yuka Tsubakimoto, Satoko Shimizu, Hiroyuki Ogisu, Masako Kamiya, Ryosuke Iwamoto, Seiji Takeda, Md Rezaul Karim, Masaharu Mizutani, Michael Lenhard, Masao Tasaka. Establishment of the embryonic shoot meristem involves activation of two classes of genes with opposing functions for meristem activities. International Journal of Molecular Sciences 21 (16), 5864 (2020).
(9) Tomoko Hirano, Seisuke Kimura, Tomoaki Sakamoto, Ayaka Okamoto, Takumi Nakayama, Takakazu Matsuura, Yoko Ikeda, Seiji Takeda, Yohihito Suzuki, Issei Oshima, and Masa H. Sato. Reprogramming of the developmental program of Rhus javanica during initial stage of gall induction by Schlechtendalia chinensis. Frontiers in Plant Science 11, 471 (2020).
(10) Ryouhei Sato, Azusa Sasaki, Yuko Mori, Mio Komai, Shogo Kamo, Mai Onuki, Takafumi Seki, Zen Kawabe, Shu Miyajima, Shunsuke Tomoshige, Tsuneomi Kawasaki, Shuichi Sato, Takako Nakamura, Nakao Kubo, Seiji Takeda, Shuichi Date, Shigehisa Okamoto, Panida Boonyaritthongchai, Krit Thirapanmethee, Mullika traidej Chomonawang, Ghanubong Bongcheewin, Thuy Linh Nguyen, Huong Lan Thi Nguyen, Huong Thi Le, Yasushi Nakamura, Kouji Kuramochi. Investigation on epoxidation of piperitenone, and structure-activity relationships of piperitenone oxide for differentiation-inducing activity. Journal of Oleo Science 69 (8), 951-958 (2020).
(11) Seiji Takeda*, Makiko Yoza, Taisuke Amano, Issei Ohshima, Tomoko Hirano, Masa H. Sato, Tomoaki Sakamoto, and Seisuke Kimura*. Comparative transcriptome analysis of galls from four different host plants suggests the molecular mechanism of gall development. PLOS ONE 14 (10), e0223686 (2019). (*Co-corresponding authors)
(12) Anurag Sunpapao, Prisana Wonglom, Shigeru Satoh, Seiji Takeda, and Samak Kaewsuksaeng. Pulsing with magnesium oxide nanoparticles maintains postharvest quality of cut lotus flowers (Nelumbo nucifera Gaertn) ‘Sattabongkot’ and ‘Saddhabutra’. The Horticulture Journal 88 (3), 420-426 (2019).
(13) Antoine Guiguet, Issei Ohshima, Seiji Takeda, Francoise Laurans, Carlos Lopez-Vaamonde, and David Giron. Origin of gall-inducing from leaf-mining in Caloptilia micromoths (Lepidoptera, Gracillariidae). Scientific Reports 9, 6794 (2019).
(14) Hidetka Kaya+, Seiji Takeda+, Masaki J. Kobayashi, Sachie Kimura, Ayako Iizuka, Aya Imai, Haruka Hishinuma, Tomoko Kawarazaki, Kyoichiro Mori, Yuta Yamamoto, Yuki Murakami, Ayuko Nakauchi, Mitsutomo Abe, and Kazuyuki Kuchitsu. Comparative analyes of ROS-producing enzymatic activity of Arabidopsis NADPH oxidases. Plant Journal 98 (2), 291-300 (2018). (+equally contributed)
(15) Antoine Guiiguet, Akihisa Hamatani, Taisuke Amano, Seiji Takeda, Caros Lopez-Vaamonde, David Giron, and Issei Oshima. Inside the horn of plenty: leaf-mining micromoth manipulates its host plant to obtain unending food provisioning. PLOS ONE 13 (12): e0209485 (2018).
(16) Seiji Takeda*, Yusuke Onishi, Yoshio Fukui, Takanori Osaka, Nakao Kubo. Life cycle and genetic diversity of Symplocarpus nipponicus (Araceae), an endangered species in Japan. Plants 7, E73 (2018).
(17) Tomoko Hirano, Hiroki Konno, Seiji Takeda, Liam Dolan, Mariko Kato, Takashi Aoyama, Takumi Higaki, Hisako Takigawa-Imamura, Masa Sato. PI(3,5)P2 mediates root hair shank hardening in Arabidopsis. Nature Plants 4, 888-897 (2018).
(18) Seiji Takeda*, Kohki Ochiai, Yasuaki Kagaya, Wataru Egusa, Hiroaki Morimoto, Satomi Sakazono, Masaoki Osaka, Moe Nabemoto, Go Suzuki, Masao Watanabe*, Keita Suwabe*. Abscisic acid-mediated developmental flexibility of stigmatic papillae in response to ambient humidity in Arabidopsis thaliana. Genes & Genetic Systems 93 (5), 209-220 (2018) . (* Co-corresponding authors)
(19) Nurainee Salaemae, Shigeru Satoh, Wachiraya Imsabai, Seiji Takeda, Samak Kaewsuksaeng. The combination of EthylBloc Sachet and 2,4-pyridinedicarboxylic acid reduces petal blackening and prolongs vase life of cut flowers of lotus (Nelumbo nucifera Gaertn) cvs. Sattabongkot and Saddhabutra. Scientica Horticulturae 240, 133-138 (2018).
(20) Nurainee Salaemae, Seiji Takeda, Nakao Kubo, Samak Kaewsuksaeng. Molecular phylogeny and postharvest morphology of petals in two major Nelumbo nucifera cultivars in Thailand. Agriculture and Natural Resources 52, 45-52 (2017).
(21) Seiji Takeda*, Kasumi Arakawa, and Takeshi Kawai. Morphological changes in shoot apex predicts anthesis time in Chrysanthemum morifolium. The Horticulture Journal 86, 113-120 (2017). (*corresponding author)
(22) Benoit Landrein, Annamaria Kiss, Massimiliano Sassi, Aurelie Chauvet, Pradeep Das, Millan Cortizo, Patrick Laus, Seiji Takeda, Mitsuhiro Aida, Jan Traas, Teva Vernoux, Arezki Boudaoud, and Olivier Hamant. Mechanical stress contributes to the expression of the STM homeobox gene in Arabidopsis shoot meristems. eLife 4, e07811 (2015).
(23) Beatriz Goncaleves, Alice Hasson, Katia Belcram, Millan Cortizo, Halima Mrin, Krisztina Nikovics, Aurelie Vialette-Guiaud, Seiji Takeda, Mitsuhiro Aida, Patrick Laufs, and Nicolas Arnaud. A conserved role for CUP-SHAPED COTYLEDON genes during ovule development. Plant Journal 83, 732-742 (2015).
(24) Hidetaka Kaya+, Megumi Iwano+, Seiji Takeda+, Masahiro M. Kanaoka, Sachie Kimura, Mitsutomo Abe, and Kazuyuki Kuchitsu. Apoplastic ROS production upon pollination by RbohH and RbohJ in Arabidopsis. Plant Signaling Behavior, 2, e989050 (2015). (+HK, MI and ST are equally contributed)
(25) Seiji Takeda*+, Akira Iwasaki+, Kiyoshi Tatematsu, and Kiyotaka Okada. The half-size ABC transporter FOLDED PETALS 2/ABCG13 is involved in petal elongation through narrow spaces in Arabidopsis thaliana floral buds. Plants 3, 348-358 (2014). (*corresponding author, +ST and AI are equally contributed)
(26) Jorg Becker, Seiji Takeda, Filipe Borges, Liam Dolan, and Jose Feijo. Transcriptional profiling of Arabidopsis root hairs and pollen defines an apical cell growth signature. BMC Plant Biology, 14, 197 (2014).
(27) Hidetaka Kaya, Ryo Nakajima, Megumi Iwano, Masahiro M. Kanaoka, Sachie Kimura, Seiji Takeda, Tomoko Kawarazaki, Eriko Senzaki, Yuki Hamamura, Tetsuya Higashiyama, Seiji Takayama, Mitsutomo Abe and Kazuyuki Kuchitsu. Ca2+-activated ROS production by AtRbohH and AtRbohJ is essential for proper pollen tube tip growth. Plant Cell 26, 1069-80 (2014).
(28) Seiji Takeda*, Mariko Noguchi, Yuki Hamamura and Tetsuya Higashiyama. Spatial distribution of the RABBIT EARS protein and effects of its ectopic expression in Arabidopsis thaliana flowers. Planta 239, 707-715 (2014). (*Corresponding author)
(29) Seiji Takeda, Akira Iwasaki, Noritaka Matsumoto, Tomohiro Uemura, Kiyoshi Tatematsu and Kiyotaka Okada. Physical interaction of floral organs controls petal morphogenesis in Arabidopsis thaliana. Plant Physiology 161, 1242-1250 (2013).
(30) Seiji Takeda, Keiko Hanano, Ayano Kariya, Satoko Shimizu, Li Zhao, Mimami Matsui, Masao Tasaka and Mitsuhiro Aida. CUP-SHAPED COTYLEDON1 transcription factor activates the expression of LSH4 and LSH3, two members of the ALOG gene family, in shoot organ boundary cells. Plant Journal 66, 1066-1077 (2011).
(31) Noriyoshi Yagi, Seiji Takeda, Noritaka Matsumoto and Kiyotaka Okada. VAJ/GFA1/CLO is involved in the directional control of floral organ growth. Plant and Cell Physiology 50, 515-527 (2009).
(32) Tadashi Kunieda, Nobutaka Mitsuda, Masaru Ohme-Takagi, Seiji Takeda, Mitsuhiro Aida, Masao Tasaka, Maki Kondo, Mikio Nishimura and Ikuko Hara-Nishimura. NAC family proteins NARS1/NAC2 and NARS2/NAM in the outer integument regulate embryogenesis in Arabidopsis. Plant Cell 20, 2631-2642 (2008).
(33) Seiji Takeda, Catherine Gapper, Hidetaka Kaya, Elizabeth Bell, Kazuyuki Kuchitsu and Liam Dolan (2008) Local positive feedback regulation determines cell shape in root hair cells. Science 319, 1241-1244 (2008).
(34) Neil Macpherson, Seiji Takeda, Zhonglin Shang, Abeeba Dark, Jennifer C. Mortimer, Colin Brownlee, Liam Dolan and Julia M. Davies. NADPH oxidase involvement in cellular integrity. Planta 227, 1415-1418 (2008).
(35) Rachel J. Carol, Seiji Takeda, Paul Linstead, Marcus C. Durrant, Hana Kakesova, Paul Derbyshire, Sinead Drea, Viktor Zarsky, and Liam Dolan. RhoGDP dissociation inhibitor spatially regulates growth in root hair cells. Nature 438, 1013-1016 (2005).
(36) Seiji Takeda, Noritaka Matsumoto, and Kiyotaka Okada. RABBIT EARS, encoding a SUPERMAN-like zinc finger protein, regulates petal development in Arabidopsis thaliana. Development 131, 425-43 (2004).
Reviews / Book chapters / Proceedings / Books
(1) 笹川創平、武田征士(2023) 自然栽培と慣行農業圃場の微生物叢の比較調査 京都府立大学学術報告生命環境学 第75号: 7-13頁
(2) 山田康志、武田征士(2022) 花弁表面に形成される毛状突起の機能 京都府立大学学術報告生命環境学 第74号: 7-11頁
(3) Seiji Takeda, Tomoko Hirano, Issei Ohshima, Masa H. Sato (2021) Recent progress regarding the molecular aspects of insect gall formation. International Journal of Molecular Sciences 22 (17), 9424.
(4) 武田セイジ 地球・生命ヒストリー 地球と生命の歴史を学んで自分について考える本 デザインエッグ社 ISBN: 978-4815022617
(5) 武田征士、福井善男、渋谷満男、大迫敬義、糟谷信彦、中尾史郎、桂明宏 (2018) 綾部市・光野のヒメザゼンソウ自生地の発見・調査と保全活動に向けた取り組み 京都府立大学学術報告生命環境学 70号: 25-30頁
(6) 西川友貴、武田征士 (2017) 無菌培養によるサギソウ増殖法の試み 京都府立大学学術報告生命環境学 69号: 1-8頁
(7) 立花耕、武田征士 (2016) 異なる土壌を用いたサギソウの栽培条件検討 京都府立大学学術報告生命環境学 68号: 1-5頁
(8) Seiji Takeda (2013) 花びら作りの分子メカニズム / Molecular mechanism of the petal morphogenesis. Plant Morphology 25, 95-99 (Invited review).
(9) Seiji Takeda and Mitsuhiro Aida (2011) Establishment of the embryonic shoot apical meristem in Arabidopsis thaliana. Journal of Plant Research 124, 211-219.
(10) Elizabeth Bell, Seiji Takeda and Liam Dolan (2009) Reactive oxygen species in plant development. Reactive Oxygen in Plant Signalling, L. Del Rio and Alain Puppy eds., Springer Verlag, Heidelberg, pp. 43-53.
(11) Rebecca Horn*, Keke Yi*, Benoit Menand*, Monica Pernas-Ochoa*, Seiji Takeda*, Tom Walker* and Liam Dolan [*Authors contributed equally to this work] (2009) Root Epidermal Development in Arabidopsis. Annual Plant Reviews 37, 64-82. *Authors equally contributed.
(12) 武田征士 (2009) 根毛細胞の極性成長の仕組み~細胞はいかに方向性をもって成長するのか. 化学と生物 47, 374-376.
(13) 武田征士、賀屋秀隆、Liam Dolan、朽津和幸 (2008) 植物のストレス応答・形態形成における活性酸素種生成酵素NADPH oxidaseのCa2+を介した活性化メカニズム. 細胞工学27, 600-601.
(14) 武田征士、岡田清孝 (2002) 植物のパターン形成 生物のボディープラン第10章、日本生化学会編、共立出版
(15) 武田征士 (2001) 無限と有限?花序分裂組織と花芽分裂組織 蛋白質核酸酵素 46, 1996-1997
(16) 武田征士 (2001) 花弁の形態進化にDNAメチル化が関与 蛋白質核酸酵素 45, 74-75
Grants
研究代表者
(1) 科研費 基盤C(2023-2025)3,500千円
腺毛だらけのヨモギ虫こぶの発生機構の解明と機能性成分の量産に向けた技術開発
(2) 科研費 基盤C(2021-2023)4,160千円
虫こぶを用いた植物ソース器官からシンク器官への転換機構の解明
(3) 科研費 基盤C (2018-2020) 3,400千円
複雑な花弁形態が作られるメカニズムを探る:至近要因と究極要因の統合的解析
(4) 平和中島財団 外国人研究者等招致助成(2015) 756千円
園芸植物アンスリウムの老化に伴う形態変化の細胞レベルでの解析
(5) 科研費 基盤C (2010-2012) 3,850千円
植物の器官形成における、細胞の位置認識と情報伝達機構の解明
(6) 科研費 若手研究(スタートアップ、2008-2010) 2,540千円
植物器官と器官境界部形成の細胞レベルでの解析
(7) 住友財団 平成20年度基礎科学研究助成 (2008-2010) 1,500千円
植物の器官と器官境界部形成メカニズムの細胞レベルでの解析
(8) Marie Curie Actions; Incoming Interaction Fellowship (2006-2007) Project ID: 022275
Root hair growth regulation by Arabidopsis RHD2 and ROP-GTPase genes
研究分担者
(1) 科研費 基盤B(2021-2025)(代表:京都産業大、木村成介教授)
植物の新奇器官「再生繁殖芽」の発生メカニズムと進化的基盤の解明
(2) ゲノム編集技術を活用した農作物品種・育種素材の開発(2019-2023、包括、代表:大阪大学)
(3) 科研費 挑戦的開拓(2017-2020)(代表:京都府大、大島一正助教)
虫こぶはなぜできる?:昆虫が持つ植物発生プログラムハッキング能力の謎に迫る
(4) 科研費 基盤B(2015-2019)(代表:京都府大、中村考志教授)
ベトナム少数民族の伝統野菜と伝統果実の遺伝的特性と食品機能性の探索研究
Awards
日本植物形態学会 奨励賞(2012年)