スマートフォンサイトはこちら

研究成果

コンテンツタイトル下地

豊田 正嗣 Masatsugu Toyota 理工学研究科(分子生物)

2019年1月21日

【研究論文】

植物の全身カルシウムイメージング
アグリバイオ,3(2):23 - 27 2019
豊田正嗣

植物におけるカルシウム/グルタミン酸のリアルタイムイメージング
バイオサイエンスとインダストリー,77(2):110-111 2019
豊田正嗣

グルタミン酸はカルシウムシグナルを介して植物の全身性傷害防御を引き起こす
バイオサイエンスとインダストリー,77(2):134-135 2019
豊田正嗣

植物の全身を流れる高速シグナルを見る
日経バイオテク(902):44-46 2019
豊田正嗣

Toyota M, Furuichi T, Iida H
Molecular Mechanisms of Mechanosensing and Mechanotransduction,Plant Biomechanics:375-397 2018

Toyota M, Spencer D, Sawai-Toyota S, Wang J, Zhang T, Koo AJ, Howe GA, Gilroy S
Glutamate triggers long-distance, calcium-based plant defense signaling.Science,361:1112-1115 2018

植物が傷つけられたことを全身へ伝えるしくみを解明!
月刊「化学」,73(11):73 2018
豊田正嗣

グルタミン酸とカルシウムシグナルを介した傷害応答
植物の生長調節 ,53(2):146-151 2018
豊田正嗣

Lenglet A, Jaslan D, Toyota M, Mueller M, Muller T, Schonknecht G, Marten I, Gilroy S, Hedrich R, Farmer EE
Control of basal jasmonate signalling and defence through modulation of intracellular cation flux capacity,New Phytologist ,216:1161-1169 2017

Taniguchi M, Furutani M, Nishimura T, Nakamura M, Fushita T, Iijima K, Baba K, Tanaka H, Toyota M, Tasaka M, Morita MT
The Arabidopsis LAZY1 Family Plays a Key Role in Gravity Signaling within Statocytes and in Branch Angle Control of Roots and Shoots,Plant Cell,29:1984-1999 2017

Vincent T, Canham J, Toyota M, Avramova M, Mugford S, Gilroy S, Miller A, Hogenhout S, Sanders S
Real-time In Vivo Recording of Arabidopsis Calcium Signals During Insect Feeding Using a Fluorescent Biosensor,Journal of Visualized Experiments,126 2017

Vincent TR, Avramova M, Canham J, Higgins P, Bilkey N, Mugford ST, Pitino M, Toyota M, Gilroy S, Miller AJ, Hogenhout SA, Sanders D
Interplay of Plasma Membrane and Vacuolar Ion Channels, Together with BAK1, Elicits Rapid Cytosolic Calcium Elevations in Arabidopsis during Aphid Feeding.,Plant Cell,29:1460-1479 2017

DeFalco TA, Toyota M, Phan V, Karia P, Moeder W, Gilroy S, Yoshioka K
Using GCaMP3 To Study Ca2+ Signaling In Nicotiana Species,Plant Cell Physiolgy,58:1173-1184 2017

Alvarez A, Han SW, Toyota M, Brillada C, Zheng J, Gilroy S, Rojas-Pierce M
Wortmannin-induced vacuole fusion enhances amyloplast dynamics in Arabidopsis zigzag1 hypocotyls,Journal of Experimental Botany,67:6459-6472 2016

Mori A, Toyota M, Shimada M, Mekata M, Kurata T, Tasaka M, Morita MT
Isolation of new gravitropic mutants under hypergravity conditions,Frontiers in Plant Science,7:1443 2016

Nakamura M, Toyota M, Tasaka M, Morita MT
Live cell imaging of cytoskeletal and organelle dynamics in gravity-sensing cells in plant gravitropism. Methods in Molecular Biology 1309:57-69.2015

Toyota M, Ikeda N, Tasaka M, Morita MT
Centrifuge microscopy to analyze the sedimentary movements of amyloplasts. Bio-protocol 4:e1229.2014

Gilroy S, Suzuki N, Miller G, Choi WG, Toyota M, Devireddy AR, Mittler R
A tidal wave of signals: calcium and ROS at the forefront of rapid systemic signaling. Trends in Plant Science 19:623-630.2014

Tatsumi H, Furuichi T, Nakano M, Toyota M, Hayakawa K, Sokabe M, Iida H
Mechanosensitive channels are activated by stress in the actin stress fibres, and could be involved in gravity sensing in plants. Plant Biology 16 Suppl 1:18-22.2014

Iida H, Furuichi T, Nakano M, Toyota M, Sokabe M, Tatsumi H
New candidates for mechano-sensitive channels potentially involved in gravity sensing in Arabidopsis thaliana. Plant Biology 16 Suppl 1:39-42.2014

Tatsumi H, Toyota M, Furuichi T, Sokabe M
Calcium mobilizations in response to changes in the gravity vector in Arabidopsis seedlings: Possible cellular mechanisms. Plant signaling & behavior 9:e29099.2014

Toyota M, Ikeda N, Sawai-Toyota S, Kato T, Gilroy S, Tasaka M, Morita MT
Amyloplast displacement is necessary for gravisensing in Arabidopsis shoots as revealed by a centrifuge microscope. Plant Journal 76:648-660.2013

Toyota M, Furuichi T, Sokabe M, Tatsumi H
Analyses of a Gravistimulation-Specific Ca2+ Signature in Arabidopsis using Parabolic Flights. Plant Physiology 163:543-554.2013

Toyota M, Gilroy S
Gravitropism and mechanical signaling in plants. American Journal Botany 100:111-125.2013

Toyota M, Matsuda K, Kakutani T, Morita MT, Tasaka M
Developmental changes in crossover frequency in Arabidopsis. Plant Journal 65:589-599.2011

Nakamura M, Toyota M, Tasaka M, Morita MT
An Arabidopsis E3 Ligase, SHOOT GRAVITROPISM9, Modulates the Interaction between Statoliths and F-Actin in Gravity Sensing. Plant Cell 23:1830-1848.2011

Toyota M, Furuichi T, Tatsumi H, Sokabe M
Cytoplasmic calcium increases in response to changes in the gravity vector in hypocotyls and petioles of Arabidopsis seedlings. Plant Physiology 146:505-514.2008

Toyota M, Furuichi T, Tatsumi H, Sokabe M
Critical consideration on the relationship between auxin transport and calcium transients in gravity perception of Arabidopsis seedlings. Plant signaling & behavior 3:521-524.2008

Toyota M, Furuichi T, Tatsumi H, Sokabe M
Hypergravity stimulation induces changes in intracellular calcium concentration in Arabidopsis seedlings. Advances in Space Research 39:1190-1197.2007

【著書】

重力感知のメカノバイオロジーⅢ:植物細胞
メカノバイオロジー: 細胞が力を感じ応答する仕組み (DOJIN BIOSCIENCE SERIES) (曽我部正博 編) 化学同人:125-139 2015
豊田正嗣

Kato T, Toyota M, Tasaka M, Morita MT
Chapter 1: Mini-History of Map-Based Cloning in Arabidopsis. Cleaved Amplified Polymorphic Sequences (CAPS) Markers in Plant Biology, ed Shavrukov Y (Nova Science Publishers, Inc., New York, USA), pp 1-20 2014

重力感受をライブで視るための新しい顕微鏡技術
Plant Morphology 24:23-32 2012
豊田正嗣, 森田(寺尾)美代, 池田憲文, 田坂昌生

植物の重力(機械)刺激受容機構の解明に向けて
JAROS 宇宙環境利用の展望:1-30 2011
豊田正嗣

植物の重力感受機構モデル~デンプン平衡石仮説~の再検証
生化学 82:730-734 2010
豊田正嗣, 森田(寺尾)美代

研究成果カテゴリ: 研究論文。研究者名: 豊田 正嗣
コンテンツ本文の先頭へ戻る ページの先頭へ戻る
コンテンツ本文の先頭へ戻る ページの先頭へ戻る