KAKEN — Research Projects | Researcher Number: 80324979

Search Results: 23 results / Researcher Number: 80324979

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1. 根とシュートのメリステム運命決定・維持の新規メカニズムの解明

Research Project

Research Category	Grant-in-Aid for Scientific Research (B)
Review Section	Basic Section 44030:Plant molecular biology and physiology-related
Research Institution	Kobe University
Principal Investigator	深城英弘神戸大学, 理学研究科, 教授
Project Period (FY)	2025-04-01 – 2028-03-31Adopted

2. A new role for abscisic acid in the regulation of root growth.

Research Project

Research Category	Grant-in-Aid for Scientific Research (B)
Review Section	Basic Section 38060:Applied molecular and cellular biology-related
Research Institution	Japan International Research Center for Agricultural Sciences
Principal Investigator	Fujita Yasunari 国立研究開発法人国際農林水産業研究センター, 食料プログラム, プログラムディレクター
Project Period (FY)	2021-04-01 – 2024-03-31Completed
Keywords	アブシシン酸 / オーキシン / 側根 / ストレス / アブシジン酸 / 植物ホルモンクロストーク / ストレス耐性
Outline of Research at the Start	植物体内への水分吸収の大部分を担う側根は、干ばつ下における作物の生産性に直結する重要な器官である。乾燥ストレス応答において主要な役割を担うアブシジン酸(ABA)は、側根の発達を抑制すると考えられてきた。本研究では、従来の知見とは逆にABAが、植物の成長制御を担うオーキシンシグナルを介して側根成長 ...
Outline of Final Research Achievements	In this study, we revealed the mechanism by which ABA signaling factors responsible for drought stress responses control lateral root growth through c ...

3. Biochemical mechanism of reactive carbonyl signaling in plants

Research Project

Research Category	Grant-in-Aid for Scientific Research (B)
Review Section	Basic Section 44030:Plant molecular biology and physiology-related
Research Institution	Yamaguchi University
Principal Investigator	Mano Jun'ichi 山口大学, 大学研究推進機構, 教授
Project Period (FY)	2020-04-01 – 2023-03-31Completed
Keywords	環境ストレス / 植物ホルモン / シグナル伝達 / レドックスシグナル / グルタチオントランスフェラーゼ / 活性酸素 / 親電子物質 / アクロレイン / 活性カルボニル / 塩ストレス / 青色光シグナル / 気孔 / グルタチオントランスフェラーぜ / 活性カルボニル種 / 酸化ストレス / オキシリピン / ストレス耐性 / 脂質 / 植物 / ホルモン応答 / 環境応答 / ストレス防御
Outline of Research at the Start	植物において活性酸素（ROS）のシグナル伝達機構は未解明である。過酸化脂質からつくられる「活性カルボニル種（RCS）」は酸化シグナルをタンパク質に伝える。本研究では植物でのRCSシグナル応答機構とRCS制御機構を解明する。(I) オーキシン応答，気孔開閉制御，プログラム細胞死に関わるRCS受容体タン ...
Outline of Final Research Achievements	We found the following facts. (1) RCS suppresses the plasma membrane H+-ATPase activity/activation in the guard cell and thereby inhibit the blue ligh ...

Research Products of this project	Int'l Joint Research (7 results) Journal Article (9 results, of which Int'l Joint Research: 7 results, Peer Reviewed: 7 results, Open Access: 2 results) Presentation (3 results) Book (1 results)

4. 側根新生の時空間的周期性と可塑性を実現する仕組みの解明

Planned Research

Research Category	Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
Review Section	Biological Sciences
Research Institution	Kobe University
Principal Investigator	深城英弘神戸大学, 理学研究科, 教授
Project Period (FY)	2019-06-28 – 2024-03-31Granted
Keywords	器官発生 / 側根形成 / 植物ホルモン / シロイヌナズナ / イメージング / オーキシン / 側根プレパターニング / 長時間広域イメージング / 側根発生 / 分子遺伝学 / 側根新生周期 / Root Clock
Outline of Research at the Start	維管束植物の根は、内生・外生の要因に応じた側根形成を通じて根系構造を可塑的に構築する。側根は主根に沿って一定の間隔で作られるが、その周期性は根端付近における数千遺伝子の発現振動の総体として観測されるRoot clockに相関している。本研究では、側根新生の長時間広域発光・蛍光イメージング系や変異体・ ...
Outline of Annual Research Achievements	維管束植物の根は，内生・外生の要因に応じた側根形成を通じて根系構造を可塑的に構築する。側根は一次根に沿って一定の間隔で作られるが，その周期性は根端付近における数千遺伝子の発現振動の総体として観測されるRoot clockに相関している。この時間周期が一次根軸に沿って一定の間隔でオーキシン応答極大を形 ...
Current Status of Research Progress	2: Research has progressed on the whole more than it was originally planned.
Project Area	Intrinsic periodicity of cellular systems and its modulation as the driving force behind plant development

Research Products of this project	Int'l Joint Research (2 results) Journal Article (11 results, of which Int'l Joint Research: 6 results, Peer Reviewed: 11 results, Open Access: 6 results) Presentation (9 results, of which Invited: 2 results) Book (1 results) Remarks (3 results)

5. Intrinsic periodicity of cellular systems and its modulation as the driving force be

Administrative Group

Research Category	Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
Review Section	Biological Sciences
Research Institution	Nara Institute of Science and Technology
Principal Investigator	中島敬二奈良先端科学技術大学院大学, 先端科学技術研究科, 教授
Project Period (FY)	2019-06-28 – 2024-03-31Granted
Keywords	植物発生 / 周期性 / 画像解析 / 数理解析 / 人間拡張工学 / 細胞動態
Outline of Research at the Start	植物は一生を通じて器官や組織を作り続けながら成長する。このような特性に起因して、植物の形態には固有の周期性が現れる。植物の周期形態は遺伝的プログラムや環境変化といった、内的・外的因子により変化し、植物はこれを積極的に利用することで、器官のかたちや細胞の機能を変化させる。植物の形態や成長に現われるこの ...
Outline of Annual Research Achievements	本年度もCovid-19による制限下でオンラインツールを併用し活発な活動を展開した。年度当初に公募班グループミーティングをオンラインで開催した。領域会議と総括班会議は６月と１月にハイブリッド方式で開催した。
Current Status of Research Progress	2: Research has progressed on the whole more than it was originally planned.
Project Area	Intrinsic periodicity of cellular systems and its modulation as the driving force behind plant development

Research Products of this project	Int'l Joint Research (18 results) Journal Article (111 results, of which Int'l Joint Research: 33 results, Peer Reviewed: 111 results, Open Access: 74 results) Presentation (18 results, of which Int'l Joint Research: 7 results, Invited: 2 results) Book (1 results) Remarks (8 results) Funded Workshop (3 results)

6. Establishment mechanism of local auxin accumulation to determine the initiation position of plant organogenesis

Research Project

Research Category	Grant-in-Aid for Scientific Research (B)
Review Section	Basic Section 44030:Plant molecular biology and physiology-related
Research Institution	Kobe University
Principal Investigator	Fukaki Hidehiro 神戸大学, 理学研究科, 教授
Project Period (FY)	2018-04-01 – 2021-03-31Completed
Keywords	器官形成 / 側根形成 / オーキシン / 細胞内膜輸送 / シロイヌナズナ / 器官発生
Outline of Final Research Achievements	To elucidate the establishment mechanism of local auxin accumulation that determines the initiation of plant organogenesis, this research focused on G ...

Research Products of this project	Journal Article (15 results, of which Int'l Joint Research: 8 results, Peer Reviewed: 14 results, Open Access: 10 results) Presentation (12 results, of which Int'l Joint Research: 1 results, Invited: 1 results) Remarks (2 results)

7. Development of research base to elucidate the mechanism of stem endodermis formation

Research Project

Research Category	Grant-in-Aid for Challenging Exploratory Research
Research Field	Plant molecular biology/Plant physiology
Research Institution	Kobe University
Principal Investigator	Hidehiro Fukaki 神戸大学, 理学研究科, 教授
Project Period (FY)	2015-04-01 – 2017-03-31Completed
Keywords	維管束植物 / 茎 / 内皮 / 放射パターン / 幹細胞 / 維管束書植物
Outline of Final Research Achievements	On the cross section of the stem of the plant, tissues such as epidermis, cortex and endodermis are concentrically arranged from the outside. Radial p ...

Research Products of this project	Journal Article (1 results, of which Int'l Joint Research: 1 results, Peer Reviewed: 1 results) Remarks (2 results)

8. Elucidation of logics of root growth and development

Planned Research

Research Category	Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
Review Section	Biological Sciences
Research Institution	Kobe University
Principal Investigator	FUKAKI HIDEHIRO 神戸大学, 理学研究科, 教授
Project Period (FY)	2013-06-28 – 2018-03-31Completed
Keywords	側根 / オーキシン / ペプチドホルモン / 遺伝子発現 / 転写因子 / シロイヌナズナ / 放射パターン / 根 / 側根形成 / 放射パターン形成 / ミチタネツケバナ / 植物 / 発生・分化 / 遺伝子 / 突然変異体
Outline of Final Research Achievements	The roots of vascular plants play important roles in their growth and development, such as absorption of water and nutrients from the soil, and suppor ...
Project Area	Multidimensional Exploration of Logics of Plant Development

Research Products of this project	Int'l Joint Research (10 results) Journal Article (24 results, of which Int'l Joint Research: 12 results, Peer Reviewed: 24 results, Open Access: 9 results) Presentation (30 results, of which Int'l Joint Research: 4 results, Invited: 6 results) Book (2 results) Remarks (7 results)

9. Multidimensional Exploration of Logics of Plant Development

Administrative Group

Research Category	Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
Review Section	Biological Sciences
Research Institution	The University of Tokyo
Principal Investigator	Tsukaya Hirokazu 東京大学, 大学院理学系研究科(理学部), 教授
Project Period (FY)	2013-06-28 – 2018-03-31Completed
Keywords	植物発生 / ロジック / 形態形成 / メタボロミクス / e-learning / 転写因子 / ゼニゴケ / 数理解析 / 国際シンポジウム / アウトリーチ
Outline of Final Research Achievements	We tried to reveal 'logics of plant development' in this project. As a result of exploration of new research fields with young talented scientists, we ...
Project Area	Multidimensional Exploration of Logics of Plant Development

Research Products of this project	Journal Article (17 results, of which Int'l Joint Research: 12 results, Peer Reviewed: 17 results, Open Access: 14 results, Acknowledgement Compliant: 17 results) Presentation (21 results, of which Int'l Joint Research: 6 results, Invited: 8 results) Remarks (5 results) Funded Workshop (4 results)

10. Regulatory mechanisms of the auxin response mediated by nuclear-cytoplasmic transport systems

Research Project

Research Category	Grant-in-Aid for Scientific Research (B)
Research Field	Plant molecular biology/Plant physiology
Research Institution	Kobe University
Principal Investigator	FUKAKI Hidehiro 神戸大学, 理学(系)研究科(研究院), 准教授
Project Period (FY)	2010-04-01 – 2013-03-31Completed
Keywords	植物ホルモン / 遺伝子発現 / 核-細胞質間輸送 / シロイヌナズナ / マイクロRNA / 側根形成 / オーキシン / 核ー細胞質間輸送
Research Abstract	Auxin is one of the important hormones for growth and development in plants. In general, auxin-mediated growth and developmental processes are regulat ...

Research Products of this project	Journal Article (12 results, of which Peer Reviewed: 11 results) Presentation (17 results, of which Invited: 1 results) Book (3 results) Remarks (4 results)

11. Role of plant vacuoles as environmental perception systems.

Planned Research

Research Category	Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
Review Section	Biological Sciences
Research Institution	Kobe University
Principal Investigator	Mimura Tetsuro 神戸大学, 理学(系)研究科(研究院), 教授
Project Period (FY)	2010-04-01 – 2016-03-31Completed
Keywords	液胞 / 小胞輸送 / リン酸 / 温度障害 / セントポーリア / シロイヌナズナ / ミロシン細胞 / ポプラ / 病害応答 / 温度ストレス / 無機イオン環境 / 食害応答 / 単膜系オルガネラ / 代謝物質
Outline of Final Research Achievements	Changes in organelle situation and cellular components under various environmental conditions (Temperature, Nutritional conditions, Pests and disease ...
Project Area	Environmental sensing of plants: Signal perception, processing and cellular responses

Research Products of this project	Int'l Joint Research (3 results) Journal Article (20 results, of which Peer Reviewed: 20 results, Acknowledgement Compliant: 9 results, Open Access: 2 results) Presentation (24 results, of which Int'l Joint Research: 3 results, Invited: 5 results) Book (1 results)

12. Functional analysis of the auxin-inducible LBD/ASL family in the lateral root formation

Research Project

Research Category	Grant-in-Aid for Young Scientists (B)
Research Field	Plant molecular biology/Plant physiology
Research Institution	Kobe University
Principal Investigator	GOH Tatsuaki Kobe University
Project Period (FY)	2009 – 2010Completed
Keywords	シロイヌナズナ / オーキシン / 転写制御 / LBD / ASL遺伝子群 / 側根形成 / LBD/ASLファミリー / 非対称分裂
Research Abstract	In Arabidopsis thaliana, lateral root (LR) formation is initiated from asymmetric cell divisions (ACDs) of the xylem pole pericycle cells (XPPs) of th ...

Research Products of this project	Journal Article (4 results, of which Peer Reviewed: 4 results) Presentation (12 results) Remarks (1 results)

13. Functional analysis of the LBD/ASL genes that are involved in auxin responses in Arabidopsis thaliana

Research Project

Research Category	Grant-in-Aid for Young Scientists (B)
Research Field	植物生理・分子
Research Institution	Kobe University
Principal Investigator	FUKAKI Hidehiro Kobe University
Project Period (FY)	2007 – 2008Completed
Keywords	シロイヌナズナ / オーキシン / 転写制御 / LBD / ASL / 遺伝子群 / 分子遺伝学 / 側根形成 / ASL遺伝子群
Research Abstract	シロイヌナズナのLBD/ASL遺伝子群(転写因子をコード)に属するLBD16,17,29,33は、根の側根形成開始部位で発現し、その発現はオーキシンによって誘導される。多重変異体などを用いた解析から、オーキシンを介した側根形成において3つ以上のLBD遺伝子による重複した機能が重要なことが強く示唆され ...

Research Products of this project	Journal Article (8 results, of which Peer Reviewed: 8 results) Presentation (9 results) Book (1 results) Remarks (2 results)

14. High-sensitivity analysis of expression profile and subcellular dynamics of gene products in shoot apical meristem

Planned Research

Research Category	Grant-in-Aid for Scientific Research on Priority Areas
Review Section	Biological Sciences
Research Institution	Kyoto University
Principal Investigator	ARAKI Takashi 京都大学, 大学院・生命科学研究科, 教授
Project Period (FY)	2007 – 2012Completed
Keywords	植物 / 生体分子 / 網羅的遺伝子解析 / 分子間相互作用 / イメージング / マイクロアレイ / タイリングアレイ / ジーンチップ / 発現制御 / エピジェネティクス
Research Abstract	Arabidopsis microarray analysis was performed in Fukuda Lab upon request from project members (total of 143 analyses from 39 laboratories). Based on t ...
Project Area	Plant regulatory systems that control developmental interactions between meristems and lateral organs

Research Products of this project	Journal Article (73 results, of which Peer Reviewed: 61 results) Presentation (73 results) Book (17 results)

15. Plant regulatory systems that control developmental interactions between meristems and lateral organs

Administrative Group

Research Category	Grant-in-Aid for Scientific Research on Priority Areas
Review Section	Biological Sciences
Research Institution	Nagoya University
Principal Investigator	MACHIDA Yasunori 名古屋大学, 大学院理学研究科, 特任教授
Project Period (FY)	2007-07-25 – 2014-03-31Completed
Keywords	メリステム / シグナル伝達 / 植物 / 発現制御 / 発生・分化 / 細胞内局在 / エピジェネティクス / 低分子 RNA / 発生分化 / 低分子RNA / シグナル伝逹
Research Abstract	本研究の目的は、平成19年度から24年度まで続いた特定領域研究「植物メリステムと器官の発生を支える情報統御系」の成果を取りまとめることである。具体的には、第一に平成25年度9月に予定されていた事後評価ヒアリングのための準備をすること、冊子体による成果報告書を作成することである。第二の目的は、成果を広 ...
Project Area	Plant regulatory systems that control developmental interactions between meristems and lateral organs

Research Products of this project	Journal Article (77 results, of which Peer Reviewed: 71 results) Presentation (199 results, of which Invited: 2 results) Book (7 results) Remarks (9 results) Patent(Industrial Property Rights) (2 results, of which Overseas: 1 results)

16. Developmental mechanisms of root apical meristems that are essential for construction of root system

Planned Research

Research Category	Grant-in-Aid for Scientific Research on Priority Areas
Review Section	Biological Sciences
Research Institution	Kobe University
Principal Investigator	FUKAKI Hidehiro (HIDEHIRO Fukaki) 神戸大学, 理学(系)研究科(研究院), 准教授
Project Period (FY)	2007 – 2013Completed
Keywords	発生分化 / メリステム / 側根形成 / 植物ホルモン / オーキシン / シロイヌナズナ / 分子遺伝学 / 発現制御 / 根端メリステム / 転写制御因子
Research Abstract	Branching root systems enable the plants to absorb water and nutrients from the soil and to sustain the shoot parts. In this project, to understand th ...
Project Area	Plant regulatory systems that control developmental interactions between meristems and lateral organs

Research Products of this project	Journal Article (31 results, of which Peer Reviewed: 29 results) Presentation (46 results) Book (6 results) Remarks (14 results)

17. 高等植物の側根形成機構に関する分子遺伝学的研究

Research Project

Research Category	Grant-in-Aid for Scientific Research on Priority Areas
Review Section	Biological Sciences
Research Institution	Kobe University (2006) Nara Institute of Science and Technology (2005)
Principal Investigator	深城英弘神戸大学, 理学部, 助教授
Project Period (FY)	2005 – 2006Completed
Keywords	側根形成 / オーキシン / シロイヌナズナ / 分子遺伝学 / 突然変異体 / 転写制御
Research Abstract	高等植物における側根形成の分子機構を明らかにするために、以下の研究を行った。

Research Products of this project	Journal Article (11 results)

18. Translocation of inorganic phosphate by membrane transport and vascular bundle system.

Research Project

Research Category	Grant-in-Aid for Scientific Research (B)
Research Field	植物生理・分子
Research Institution	Kobe University
Principal Investigator	MIMURA Tetsuro Kobe University, Faculty of Science, Professor
Project Period (FY)	2004 – 2006Completed
Keywords	Inorganic phosphate / Translocation / Membrane transport / Arabidopsis / Vascular Bundle / Source-Sink relationship / Barlev / Egeria
Research Abstract	Inorganic phosphate (Pi) is one of essential elements of plant nutrition. It is well-known that Pi is translocated between tissues dependent on source ...

Research Products of this project	Journal Article (23 results)

19. Role of vacuolar network for ion homeostasis in plant cells under environmental adaptation.

Research Project

Research Category	Grant-in-Aid for Scientific Research on Priority Areas
Review Section	Biological Sciences
Research Institution	Kobe University
Principal Investigator	MIMURA Tetsuro Kobe University
Project Period (FY)	2004 – 2008Completed
Keywords	液胞 / 生体膜輸送系 / H+ポンプ / イオンホメオスタシス / 耐塩性 / シロイヌナズナ / 亜鉛イオン / 小胞輸送 / H^+ポンプ / プロテオーム / Caイオン / Znイオン / ポロテオーム
Research Abstract	植物細胞の生理機能を支える細胞内低分子環境のうち、無機イオンとしてのH^+、リン酸、Na^+、Ca^<2+>、Znなどに注目し、外部環境の変化に対して、イオン濃度がどのように制御されているかを、特に液胞および液胞小胞系の機能との関連で解析した。その結果、1.高塩環境下における液胞への塩蓄積機構と液胞 ...

Research Products of this project	Journal Article (63 results, of which Peer Reviewed: 42 results) Presentation (17 results) Book (4 results) Remarks (3 results) Patent(Industrial Property Rights) (1 results)

20. 高等植物におけるオーキシンを介した根の形態形成機構の分子遺伝学的研究

Research Project

Research Category	Grant-in-Aid for Young Scientists (B)
Research Field	植物生理・分子
Research Institution	Nara Institute of Science and Technology
Principal Investigator	深城英弘奈良先端科学技術大学院大学, バイオサイエンス研究科, 助手
Project Period (FY)	2003 – 2004Completed
Keywords	側根形成 / シロイヌナズナ / オーキシン / 根毛形成 / 重力屈性
Research Abstract	高等植物におけるオーキシンを介した根の形態形成、特に側根形成の分子機構を解明する目的で、シロイヌナズナ側根欠失優性変異体slrと原因遺伝子IAA14、オーキシン応答性転写調節因子ARF7/ARF19を用いた分子遺伝学的研究を行い、以下の成果を得た。

Research Products of this project	Journal Article (1 results) Patent(Industrial Property Rights) (1 results) Publications (1 results)

Project Period (Start Year [FY])

1. 根とシュートのメリステム運命決定・維持の新規メカニズムの解明 Research Project

深城 英弘 神戸大学, 理学研究科, 教授

2. A new role for abscisic acid in the regulation of root growth. Research Project

Fujita Yasunari 国立研究開発法人国際農林水産業研究センター, 食料プログラム, プログラムディレクター

3. Biochemical mechanism of reactive carbonyl signaling in plants Research Project

Mano Jun'ichi 山口大学, 大学研究推進機構, 教授

4. 側根新生の時空間的周期性と可塑性を実現する仕組みの解明 Planned Research

深城 英弘 神戸大学, 理学研究科, 教授

5. Intrinsic periodicity of cellular systems and its modulation as the driving force be Administrative Group

中島 敬二 奈良先端科学技術大学院大学, 先端科学技術研究科, 教授

6. Establishment mechanism of local auxin accumulation to determine the initiation position of plant organogenesis Research Project

Fukaki Hidehiro 神戸大学, 理学研究科, 教授

7. Development of research base to elucidate the mechanism of stem endodermis formation Research Project

Hidehiro Fukaki 神戸大学, 理学研究科, 教授

8. Elucidation of logics of root growth and development Planned Research

FUKAKI HIDEHIRO 神戸大学, 理学研究科, 教授

9. Multidimensional Exploration of Logics of Plant Development Administrative Group

Tsukaya Hirokazu 東京大学, 大学院理学系研究科(理学部), 教授

10. Regulatory mechanisms of the auxin response mediated by nuclear-cytoplasmic transport systems Research Project

FUKAKI Hidehiro 神戸大学, 理学(系)研究科(研究院), 准教授

11. Role of plant vacuoles as environmental perception systems. Planned Research

Mimura Tetsuro 神戸大学, 理学(系)研究科(研究院), 教授

12. Functional analysis of the auxin-inducible LBD/ASL family in the lateral root formation Research Project

GOH Tatsuaki Kobe University

13. Functional analysis of the LBD/ASL genes that are involved in auxin responses in Arabidopsis thaliana Research Project

FUKAKI Hidehiro Kobe University

14. High-sensitivity analysis of expression profile and subcellular dynamics of gene products in shoot apical meristem Planned Research

ARAKI Takashi 京都大学, 大学院・生命科学研究科, 教授

15. Plant regulatory systems that control developmental interactions between meristems and lateral organs Administrative Group

MACHIDA Yasunori 名古屋大学, 大学院理学研究科, 特任教授

16. Developmental mechanisms of root apical meristems that are essential for construction of root system Planned Research

FUKAKI Hidehiro (HIDEHIRO Fukaki) 神戸大学, 理学(系)研究科(研究院), 准教授

17. 高等植物の側根形成機構に関する分子遺伝学的研究 Research Project

深城 英弘 神戸大学, 理学部, 助教授

18. Translocation of inorganic phosphate by membrane transport and vascular bundle system. Research Project

MIMURA Tetsuro Kobe University, Faculty of Science, Professor

19. Role of vacuolar network for ion homeostasis in plant cells under environmental adaptation. Research Project

MIMURA Tetsuro Kobe University

20. 高等植物におけるオーキシンを介した根の形態形成機構の分子遺伝学的研究 Research Project

深城 英弘 奈良先端科学技術大学院大学, バイオサイエンス研究科, 助手

1. 根とシュートのメリステム運命決定・維持の新規メカニズムの解明

Research Project

深城英弘神戸大学, 理学研究科, 教授

2. A new role for abscisic acid in the regulation of root growth.

Research Project

3. Biochemical mechanism of reactive carbonyl signaling in plants

Research Project

4. 側根新生の時空間的周期性と可塑性を実現する仕組みの解明

Planned Research

深城英弘神戸大学, 理学研究科, 教授

5. Intrinsic periodicity of cellular systems and its modulation as the driving force be

Administrative Group

中島敬二奈良先端科学技術大学院大学, 先端科学技術研究科, 教授

6. Establishment mechanism of local auxin accumulation to determine the initiation position of plant organogenesis

Research Project

7. Development of research base to elucidate the mechanism of stem endodermis formation

Research Project

8. Elucidation of logics of root growth and development

Planned Research

9. Multidimensional Exploration of Logics of Plant Development

Administrative Group

10. Regulatory mechanisms of the auxin response mediated by nuclear-cytoplasmic transport systems

Research Project

11. Role of plant vacuoles as environmental perception systems.

Planned Research

12. Functional analysis of the auxin-inducible LBD/ASL family in the lateral root formation

Research Project

13. Functional analysis of the LBD/ASL genes that are involved in auxin responses in Arabidopsis thaliana

Research Project

14. High-sensitivity analysis of expression profile and subcellular dynamics of gene products in shoot apical meristem

Planned Research

15. Plant regulatory systems that control developmental interactions between meristems and lateral organs

Administrative Group

16. Developmental mechanisms of root apical meristems that are essential for construction of root system

Planned Research

17. 高等植物の側根形成機構に関する分子遺伝学的研究

Research Project

深城英弘神戸大学, 理学部, 助教授

18. Translocation of inorganic phosphate by membrane transport and vascular bundle system.

Research Project

19. Role of vacuolar network for ion homeostasis in plant cells under environmental adaptation.

Research Project

20. 高等植物におけるオーキシンを介した根の形態形成機構の分子遺伝学的研究

Research Project

深城英弘奈良先端科学技術大学院大学, バイオサイエンス研究科, 助手