2021
福建省“外专百人计划”
古谷 将彦

2019
福建省, 引进高层次人才
境外C类
古谷 将彦

2019
福建省教育厅, "閩江学者奨励計画"
特聘教授
古谷 将彦

2014
奈良先端科学技術大学院大学バイオサイエンス研究科, 梅園賞
古谷 将彦

2007
日本植物学会, JPR Best Paper Award 2007
Akitoshi Iwamoto, Daisuke Satoh, Masahiko Furutani, Shinichiro Maruyama, Hideaki Ohba and Munetaka Sugiyama

TCA cycle impairment leads to PIN2 internalization and degradation via reduced MAB4 level and ARA6 components in Arabidopsis roots
Xiaomin Song; Iwai Ohbayashi; Song Sun; Qiuli Wang; Yi Yang; Mengyuan Lu; Yuanyuan Liu; Shinichiro Sawa; Masahiko Furutani
Frontiers in Plant Science, 16 Dec. 2024, 15, Refereed
Corresponding

Multiple layers of regulators emerge in the network controlling lateral root organogenesis.
Antoine Beckers; Akihito Mamiya; Masahiko Furutani; Malcolm J Bennett; Hidehiro Fukaki; Shinichiro Sawa; Pascal Gantet; Laurent Laplaze; Soazig Guyomarc'h
Trends in plant science, 24 Oct. 2024, Refereed

LAZY1-LIKE-mediated Gravity Signaling Pathway in Root Gravitropic Set-Point Angle Control
Masahiko Furutani; Miyo Terao Morita
Plant Physiology, 08 May 2021, Refereed
Lead

Polar recruitment of RLD by LAZY1-like protein during gravity signaling in root branch angle control.
Masahiko Furutani; Yoshinori Hirano; Takeshi Nishimura; Moritaka Nakamura; Masatoshi Taniguchi; Kanako Suzuki; Ryuichiro Oshida; Chiemi Kondo; Song Sun; Kagayaki Kato; Yoichiro Fukao; Toshio Hakoshima; Miyo Terao Morita
Nature communications, 03 Jan. 2020, 11(1):76 - 76, Refereed
Lead

Mitochondrial Pyruvate Dehydrogenase Contributes to Auxin-Regulated Organ Development.
Iwai Ohbayashi; Shaobai Huang; Hidehiro Fukaki; Xiaomin Song; Song Sun; Miyo Terao Morita; Masao Tasaka; A Harvey Millar; Masahiko Furutani
Plant physiology, Jun. 2019, 180(2):896 - 909, Refereed
Corresponding

The Arabidopsis LAZY1 Family Plays a Key Role in Gravity Signaling within Statocytes and in Branch Angle Control of Roots and Shoots.
Masatoshi Taniguchi; Masahiko Furutani; Takeshi Nishimura; Moritaka Nakamura; Toyohito Fushita; Kohta Iijima; Kenichiro Baba; Hirokazu Tanaka; Masatsugu Toyota; Masao Tasaka; Miyo Terao Morita
The Plant cell, Aug. 2017, 29(8):1984 - 1999, Refereed
Lead

Auxin-dependent compositional change in Mediator in ARF7- and ARF19-mediated transcription.
Jun Ito; Hidehiro Fukaki; Makoto Onoda; Lin Li; Chuanyou Li; Masao Tasaka; Masahiko Furutani
Proceedings of the National Academy of Sciences of the United States of America, 07 Jun. 2016, 113(23):6562 - 7, Refereed
Corresponding

Auxin transport sites are visualized in planta using fluorescent auxin analogs.
Ken-ichiro Hayashi; Shouichi Nakamura; Shiho Fukunaga; Takeshi Nishimura; Mark K Jenness; Angus S Murphy; Hiroyasu Motose; Hiroshi Nozaki; Masahiko Furutani; Takashi Aoyama
Proceedings of the National Academy of Sciences of the United States of America, 05 Aug. 2014, 111(31):11557 - 62, Refereed

MAB4-induced auxin sink generates local auxin gradients in Arabidopsis organ formation.
Masahiko Furutani; Yasukazu Nakano; Masao Tasaka
Proceedings of the National Academy of Sciences of the United States of America, 21 Jan. 2014, 111(3):1198 - 203, Refereed
Lead

The CUC1 and CUC2 genes promote carpel margin meristem formation during Arabidopsis gynoecium development.
Yuri Kamiuchi; Kayo Yamamoto; Masahiko Furutani; Masao Tasaka; Mitsuhiro Aida
Frontiers in plant science, 2014, 5:165 - 165, Refereed

CRYPTIC PRECOCIOUS/MED12 is a novel flowering regulator with multiple target steps in Arabidopsis.
Yuri Imura; Yasushi Kobayashi; Sumiko Yamamoto; Masahiko Furutani; Masao Tasaka; Mitsutomo Abe; Takashi Araki
Plant & cell physiology, Feb. 2012, 53(2):287 - 303, Refereed

Polar-localized NPH3-like proteins regulate polarity and endocytosis of PIN-FORMED auxin efflux carriers.
Masahiko Furutani; Norihito Sakamoto; Shuhei Yoshida; Takahito Kajiwara; Hélène S Robert; Jirí Friml; Masao Tasaka
Development (Cambridge, England), May 2011, 138(10):2069 - 78, Refereed
Lead

MACCHI-BOU 2 is required for early embryo patterning and cotyledon organogenesis in Arabidopsis.
Jun Ito; Takako Sono; Masao Tasaka; Masahiko Furutani
Plant & cell physiology, Mar. 2011, 52(3):539 - 52, Refereed
Corresponding

Alkoxy-auxins are selective inhibitors of auxin transport mediated by PIN, ABCB, and AUX1 transporters.
Etsuko Tsuda; Haibing Yang; Takeshi Nishimura; Yukiko Uehara; Tatsuya Sakai; Masahiko Furutani; Tomokazu Koshiba; Masakazu Hirose; Hiroshi Nozaki; Angus S Murphy; Ken-ichiro Hayashi
The Journal of biological chemistry, 21 Jan. 2011, 286(3):2354 - 64, Refereed

Membrane association of the Arabidopsis ARF exchange factor GNOM involves interaction of conserved domains.
Nadine Anders; Michael Nielsen; Jutta Keicher; York-Dieter Stierhof; Masahiko Furutani; Masao Tasaka; Karen Skriver; Gerd Jürgens
The Plant cell, Jan. 2008, 20(1):142 - 51, Refereed

The gene MACCHI-BOU 4/ENHANCER OF PINOID encodes a NPH3-like protein and reveals similarities between organogenesis and phototropism at the molecular level.
Masahiko Furutani; Takahito Kajiwara; Takehide Kato; Birgit S Treml; Christine Stockum; Ramón A Torres-Ruiz; Masao Tasaka
Development (Cambridge, England), Nov. 2007, 134(21):3849 - 59, Refereed
Lead

TCP transcription factors control the morphology of shoot lateral organs via negative regulation of the expression of boundary-specific genes in Arabidopsis.
Tomotsugu Koyama; Masahiko Furutani; Masao Tasaka; Masaru Ohme-Takagi
The Plant cell, Feb. 2007, 19(2):473 - 84, Refereed

Arabidopsis CUP-SHAPED COTYLEDON3 regulates postembryonic shoot meristem and organ boundary formation.
Ken-ichiro Hibara; Md Rezaul Karim; Shinobu Takada; Ken-ichiro Taoka; Masahiko Furutani; Mitsuhiro Aida; Masao Tasaka
The Plant cell, Nov. 2006, 18(11):2946 - 57, Refereed

Insight into the basis of root growth in Arabidopsis thaliana provided by a simple mathematical model.
Akitoshi Iwamoto; Daisuke Satoh; Masahiko Furutani; Shinichiro Maruyama; Hideaki Ohba; Munetaka Sugiyama
Journal of plant research, Mar. 2006, 119(2):85 - 93, Refereed

PIN-FORMED1 and PINOID regulate boundary formation and cotyledon development in Arabidopsis embryogenesis.
Masahiko Furutani; Teva Vernoux; Jan Traas; Takehide Kato; Masao Tasaka; Mitsuhiro Aida
Development (Cambridge, England), Oct. 2004, 131(20):5021 - 30, Refereed
Lead

The GURKE gene encoding an acetyl-CoA carboxylase is required for partitioning the embryo apex into three subregions in Arabidopsis.
Takahito Kajiwara; Masahiko Furutani; Ken-ichiro Hibara; Masao Tasaka
Plant & cell physiology, Sep. 2004, 45(9):1122 - 8, Refereed

Pattern formation during dicotyledonous plant embryogenesis
M Furutani; M Aida; M Tasaka
MORPHOGENESIS AND PATTERN FORMATION IN BIOLOGICAL SYSTEMS: EXPERIMENTS AND MODELS, 2003, :139 - 152

Roles of PIN-FORMED1 and MONOPTEROS in pattern formation of the apical region of the Arabidopsis embryo.
Mitsuhiro Aida; Teva Vernoux; Masahiko Furutani; Jan Traas; Masao Tasaka
Development (Cambridge, England), Sep. 2002, 129(17):3965 - 74, Refereed

[The establishment of the fundamental system in Dicot embryogenesis].
Yasufumi Daimon; Masahiko Furutani; Masao Tasaka
Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, Sep. 2002, 47(12 Suppl):1518 - 23, Refereed

3. 蛍光オーキシンアナログを用いたオーキシン分布の可視化に関する研究(口頭発表,植物化学調節学会第47回大会)
Nakamura Shouichi; Fukunaga Shiho; Aoyama Takashi; Furutani Masahiko; Nishimura Takeshi; Koshiba Tomokazu; Nozaki Hiroshi; Hayashi Ken-ichiro
植物化学調節学会研究発表記録集, 05 Oct. 2012, 47:20 - 20

8.新規オーキシン極性輸送阻害剤の生理活性と作用機構(口頭発表)
Tsuda Etsuko; Sakai Tatsuya; Nishimura Takeshi; Yang Haibing; Murphy Angus; Koshiba Tomokazu; Furutani Masahiko; Nozaki Hiroshi; Hayashi Ken-ichiro
植物化学調節学会研究発表記録集, 06 Oct. 2009, (44):22 - 22

80.新規オーキシン極性輸送阻害剤の合成と活性(口頭発表)
Tuda Etsuko; Hayashi Ken-ichiro; Furutani Masahiko; Tasaka Masao; Nozaki Hiroshi
植物化学調節学会研究発表記録集, 06 Oct. 2008, (43):94 - 94

The MACCHI-BOU genes are involved in Arabidopsis organogenesis
M Furutani; T Kajiwara; H Fukaki; T Kato; M Aida; M Tasaka
PLANT AND CELL PHYSIOLOGY, 2006, 47:S74 - S74

器官形成に関わるシロイヌナズナMACCHI-BOU遺伝子の解析
古谷将彦; 梶原隆仁; 深城英弘; 加藤壮英; 相田光宏; 田坂昌生
日本植物生理学会年会要旨集, 2006, 47th

シロイヌナズナにおける器官形成機構の解析
古谷将彦; 梶原隆仁; 深城英弘; 加藤壮英; 相田光宏; 田坂昌生
日本分子生物学会年会講演要旨集, 2005, 28th

Auxin involved in the bilateral pattern formation during Arabidopsis embryogenesis
M Furutani; M Aida; M Tasaka
PLANT AND CELL PHYSIOLOGY, 2003, 44:S145 - S145

Roles of PIN-FORMED1 and MONOPTEROS in pattern formation of the apical region of the Arabidopsis embryo (vol 129, pg 3965, 2002)
M Aida; Vernoux, X; M Furutani; M Traas; M Tasaka
DEVELOPMENT, Oct. 2002, 129(20):4877 - 4877

植物の重力屈性の分子メカニズム
古谷 将彦; 西村 岳志; 森田(寺尾) 美代, Joint work, p624-630
化学と生物 Vol.55, 2017

オーキシン極性輸送〜植物の”かたち”を生み出す原動力〜
古谷 将彦, Joint work, p350-355
NTS 生物の科学「遺伝」9月号 Vol.70, 2016

オーキシン
古谷 将彦; 笠原 博幸, Joint work, p4-21
講談社 新しい植物ホルモンの科学 第3版, 2016

シロイヌナズナの胚発生過程における基本的体制の確立
大門 靖史; 古谷 将彦; 田坂 昌生, Joint work, p1518-1523
蛋白質核酸酵素 9月号増刊“植物の形づくり 遺伝子から見た分子メカニズム”, 2002

Apr. 2013 - Present
日本植物学会

Apr. 2005 - Present
日本植物生理学会

液－液相分離が担うオーキシン輸送制御機構の解明
Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (C)
Kumamoto University
01 Apr. 2023 - 31 Mar. 2026

拟南芥避盐过程中调控生长素极性运输的分子机制研究
National Natural Science Foundation of China, General Program
Fujian Agriculture and Forestry University
Jan. 2020 - Dec. 2023

生长素极性转运调控蛋白在蛋白质水平上的功能分析
Grant-in-Aid for Science and Technology, Fujian Province, General Program, General Program
Fujian Agriculture and Forestry University
Jan. 2019 - Dec. 2022

重力感受細胞コルメラに特異的なPIN輸送経路の解明
基礎生物学研究所, 共同利用研究, 個別
Oct. 2020 - Mar. 2021

植物结构调控过程中生长素极性运输的分子机制研究
福建省科学技术厅, 高端外国专家引进计划
福建農林大学
Jan. 2020 - Dec. 2020

重力を指標とした植物の側生器官の成長方向制御の分子機構の解析
Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (B), Grant-in-Aid for Scientific Research (B)
Nagoya University
01 Apr. 2015 - 31 Mar. 2018

pH依存的オーキシン輸送モデルの構築と実験的研究
Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area), Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area)
Nagoya University
Apr. 2016 - Mar. 2018

オーキシン極性輸送に関する理論的・実験的研究
日本学術振興会, 科学研究費助成事業 新学術領域研究(研究領域提案型), 新学術領域研究(研究領域提案型)
奈良先端科学技術大学院大学
01 Apr. 2014 - 31 Mar. 2016

高等植物の胚発生における配偶子効果の解析
Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Challenging Exploratory Research, Grant-in-Aid for Challenging Exploratory Research
Nara Institute of Science and Technology
01 Apr. 2013 - 31 Mar. 2016

植物の胚発生における配偶子効果因子の解析
住友財団, 基礎科学研究助成, 基礎科学研究助成
奈良先端科学技術大学院大学
2012 - 2013

茎頂メリステム形成の統御系
Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research on Priority Areas, Grant-in-Aid for Scientific Research on Priority Areas
Nara Institute of Science and Technology
2007 - 2012

高等植物の受精卵における細胞極性形成機構の解明
内藤記念財団, 海外研究留学助成金, 海外研究留学助成金
奈良先端科学技術大学院大学
2010 - 2011

高等植物における細胞極性形成機構の解明
上原記念生命科学財団, リサーチフェローシップ, リサーチフェローシップ
奈良先端科学技術大学院大学
2010 - 2011

高等植物におけるオーキシン極性輸送機構の解析
Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Young Scientists (B), Grant-in-Aid for Young Scientists (B)
Nara Institute of Science and Technology
2008 - 2009

シロイヌナズナの胚における体軸やパターン形成に関わる遺伝子の解析
日本学術振興会, 科学研究費助成事業 特別研究員奨励費, 特別研究員奨励費
奈良先端科学技術大学院大学
2003 - 2004