学士(香川大学), 修士(香川大学), Ph.D(University of Nevada Reno), 博士(生物化学及び分子生物学)(ネバダ大学リノ校)
科研費研究者番号
50735925
J-Global ID
201401089213197583
プロフィール
2004年-2009年 University of Nevada, Reno 植物の熱ストレス応答を制御する分子生物学的機構 2009年-2014年 University of North Texas環境ストレスへの全身獲得抵抗性を制御する活性酸素シグナル 2014年-現在 上智大学理工学部物質生命理工学科 異なる環境ストレス応答を制御するシグナルネットワーク (研究テーマ) 植物の異なる熱ストレス応答を制御する分子生物学的機構 複合ストレスへの植物の応答
Nobuhiro Suzuki   Shai Koussevitzky   Ron Mittler   Gad Miller   
Plant, cell & environment 35(2) 259-70 2012年2月
The redox state of the chloroplast and mitochondria, the two main powerhouses of photosynthesizing eukaryotes, is maintained by a delicate balance between energy production and consumption, and affected by the need to avoid increased production of...
Current opinion in plant biology 14(6) 691-9 2011年12月
Reactive oxygen species (ROS) play a key signal transduction role in cells. They are involved in the regulation of growth, development, responses to environmental stimuli and cell death. The level of ROS in cells is determined by interplay between...
Ron Mittler   Sandy Vanderauwera   Nobuhiro Suzuki   Gad Miller   Vanesa B Tognetti   Klaas Vandepoele   Marty Gollery   Vladimir Shulaev   Frank Van Breusegem   
Trends in plant science 16(6) 300-9 2011年6月
Reactive oxygen species (ROS) play a multitude of signaling roles in different organisms from bacteria to mammalian cells. They were initially thought to be toxic byproducts of aerobic metabolism, but have now been acknowledged as central players ...
P>Brief periods of heat stress of even a few days can have a detrimental effect on yield production worldwide, causing devastating economic and societal impacts. Here we report on the identification of a new heat-response regulon in plants cont...
Sandy Vanderauwera   Nobuhiro Suzuki   Gad Miller   Brigitte van de Cotte   Stijn Morsa   Jean-Luc Ravanat   Alicia Hegie   Christian Triantaphylides   Vladimir Shulaev   Marc C. E. Van Montagu   Frank Van Breusegem   Ron Mittler   
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA 108(4) 1711-1716 2011年1月
Eukaryotic organisms evolved under aerobic conditions subjecting nuclear DNA to damage provoked by reactive oxygen species (ROS). Although ROS are thought to be a major cause of DNA damage, little is known about the molecular mechanisms protecting...
Regulatory systems of reactive oxygen species (ROS) are known to be integrated with other pathways involving Ca2+ signaling, protein kinases, hormones and programmed cell death (PCD) pathways to regulate defense mechanisms in plants. Coordination ...
As sessile organisms, plants are continuously exposed to various environmental stresses. In contrast to the controlled conditions employed in many researches, more than one or more abiotic and/or biotic stresses simultaneously occur and highly imp...