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Suzuki Iwane

face
Affiliation
Faculty of Life and Environmental Sciences
Official title
Professor
Birth date
1966-11
URL
Email
 
Office
Buld. Biol. Agric. Sci. B312
Phone
4908(Lab.), 4666(Office)
Research fields
Plant molecular biology/Plant physiology
Molecular biology
Genetics/Chromosome dynamics
Ecology/Environment
Research keywords
ラン藻
cyanobacteria
acclimation
two-component system
histidine kinase
response regulator
gene expression
signal transduction
photosynthesis
phosphorylation
Research projects
アルケノン生産性藻類の物質生産性向上のための基盤技術の研究2017 -- 2021鈴木 石根Japan Society for the Promotion of Science/Grant-in-Aid for Scientific Research(A)42,510,000Yen
Analysis of molecular mechanisms of sensing of gravity in microorganism.2005-12 -- 2007-03鈴木石根日本宇宙フォーラム/出資金による受託研究5,040,000Yen
Identification of molecular mechanisms for signal perception by a multi-stress sensor Hik33.2008-06 -- 2010-03鈴木石根細胞分子生物学センター・所長代理・ Sisinty Shivaji/国際共同研究2,000,000Yen
From Photoreaction to Biomass: phototrophs in ecosystems and biotechnology2009-06 -- 2009-06鈴木石根DFG/国際共同研究2,500,000Yen
光合成生物を用いたプロパノール発酵技術の開発2010-01 -- 2010-12鈴木石根科学技術振興機構/出資金による受託研究5,000,000Yen
藻類ファージの生活史をまねた多元代謝経路によるアルカン高生産系の構築2012 -- 2013Ministry of Education, Culture, Sports, Science and Technology, Japan/新学術領域研究5,400,000Yen
キメラセンサーを用いたヒスチジンキナーゼの機能解析2011 -- 2013Japan Society of for the Promotion of Science/基盤研究(C)2,470,000Yen
葉緑体の新規環境適応機構と植物の生存戦略の研究 2005 -- 2006Ministry of Education, Culture, Sports, Science and Technology, Japan/特定領域研究2,600,000Yen
Career history
1995-04 -- 1995-05日本学術振興会 特別研究員PD
1995-06 -- 1996-03基礎生物学研究所 COE非常勤研究員
1996-04 -- 2004-12基礎生物学研究所 制御機構研究系 助手
1999-04 -- 2004-12総合研究大学院大学 助手 併任
2005-01 -- 2008-06筑波大学 大学院生命環境科学研究科 講師
2008-07 -- 2011-04筑波大学 大学院生命環境科学研究科 准教授
2009-08 -- 2011-07Ministry of Education, Culture, Sports, Science and Technology 研究振興局 Program Officer Grants-in-Aid for Scientific Resaerch (KAKENHI Ministry of Education, Culture, Sports, Science and Tschnoligy
2011-05 -- (current)筑波大学 大学院生命環境科学研究科 教授
2011-10 -- (current)筑波大学 大学院生命環境系
Academic background
1987-04 -- 1991-03Nagoya University Faculty of Agriculture 農芸科学科および食品工業化学科Graduated
1989-04 -- 1991-03Nagoya University Graduate School, Division of Agriculture Agricultural SciencesCompleted
1991-04 -- 1994-03Nagoya University Graduate School, Division of Agriculture Agricultural SciencesCompleted
Degree
1995-04PH. D.Nagoya University
Academic societies
-- (current)THE JAPANESE SOCIETY OF PLANT PHYSIOLOGISTS
-- (current)THE BOTANICAL SOCIETY OF JAPAN
-- (current)The Molecular Biology Society of Japan
-- (current)THE JAPANESE CONFERENCE ON THE BIOCHEMISRTY OF LIPIDS
-- (current)日本光合成研究会
-- (current)日本植物脂質研究会
Honors & Awards
2004-09-11日本植物学会 奨励賞
Articles
Books
  • 光合成細胞における炭素同化系および窒素同化系の遺伝子の窒素による発現制御
    鈴木 石根
    1995-04
  • 葉組織からの核の単離法
    鈴木石根
    植物細胞工学 2(5), 1990-01
  • 窒素をシグナルとする光合成タンパク質遺伝子の制御
    鈴木石根
    化学と生物 28(7), 1990-01
  • Gene expression and regulation of nitrate assimilating enzymes in Synechococcus PCC7942.
    I. Suzuki
    Research in Photosynthesis, vol.IV, N. Murata (ed.), 1992-01
  • 窒素による植物遺伝子の発現制御
    榊原均; 鈴木石根; 杉山達夫
    蛋白質/核酸/酵素 37, 1993-01
  • Nitrogen regulation of the genes involved in nitrate and carbon assimilation in the cyanobacterium Synechococcus sp. PCC7942.
    I. Suzuki
    Photosysthesis: from Light to Biosphere, vol. III, P. Mathis (ed.), 1995-01
  • 低温ストレス応答のシグナル伝達
    鈴木石根・村田紀夫; +鈴木 石根
    蛋白質/核酸/酵素 環境応答・適応の分子機構 44, 1999-01
  • Sensors of abiotic stress in Synechocystis.
    K. Mikami; I. Suzuki; N. Murata
    The Cyanobacteria: Molecular Biology, Genomics and Evolution. eds. E. Flores and A. Herrero. Caister Academic Press, 2003-01
  • ラン藻の低温センサーと低温適応
    鈴木石根
    低温生物工学会誌 49 (1), 2003-01
  • シアノバクテリアの環境ストレスの検知機構と環境応答
    鈴木石根
    蛋白質核酸酵素, 2007-05
  • Stress Responses in Synechocystis: Regulated Genes and Regulatory Systems.
    Los DA; Suzuki I; Zinchenko VV; Murata N
    The Cyanobacteria: Molecular Biology, Genomics and Evolution. eds. E. Flores and A. Herrero. Caister Academic Press, 2008-01
  • Sensors and Signal Transducers of Environmental Stress in Cyanobacteria
    Y. Kanesaki; D.A. Los; I. Suzuki; N. Murata
    Abiotic Stress Adaptation in Plants: Physiological, Molecular and Genomic Foundation, eds. A. Pareek, S.K. Sopory, H.J. Bohnert, Govindjee, Springer, Dordrecht, The Netherlands., 2010-01
  • 海洋ハプト藻類のアルケノン合成経路の解明とオイル生産への基盤技術の開発に向けて
    1) 鈴木石根・白岩善博; +鈴木 石根
    光合成研究, 2012-04
Conference, etc.
  • Characterization of cyanobacterial cells synthesizing 10-methyl stearic acid
    Machida Shuntaro; Suzuki Iwane
    8th International Conference on Photosynthesis and Hydrogen Energy Research for Sustainability in honor of Agepati S Raghavendra, William A Cramer, and Govindjee
  • Homologous expression of lipid droplet protein-enhanced neutral lipid accumulation in the marine diatom Phaeodactylum tricornutum
    Yoneda Kohei; Yoshida Masaki; Suzuki Iwane; Watanabe Mako...
    6th Congress of the International-Society-for-Applied-Phycology (ISAP)/2017-06--2017-06
  • 微細藻類の培養と バイオマス・新規油脂生産
    鈴木 石根
    日本石鹸洗剤工業会/2017-6-16
  • Production of novel fatty acids in cyanobacteria and its effects on photosynthesis
    Suzuki Iwane
    TGSW2017/2017-09-27
  • 下水処理施設での微細藻類を利用した
    鈴木 石根
    2017防災産業展/2017-11-26
  • Modification of cyanobacteria for the production of useful compounds
    Suzuki Iwane
    8th Photosynthesis and H2 Energy Research for Sustainability/2017-10-30--2017-11-5
  • Development of engineered sensor perceiving gaseous toluene signal in the cyanobacterium Synechocystis sp PCC 6803
    Inaba Yu; Morioka Ryo; Junaid Muhammad; Shiraiwa Yoshihir...
    9th Asia Pacific Conference on Algal Biotechnology (APCAB) - Algae for Food, Feed, Fuel and Beyond/2016-11-15--2016-11-18
  • Identification of extracellular proteins from Aurantiochytrium sp 18W-13a
    Juntila Darryl Joy; Yoneda Kohei; Suzuki Iwane
    9th Asia Pacific Conference on Algal Biotechnology (APCAB) - Algae for Food, Feed, Fuel and Beyond/2016-11-15--2016-11-18
  • Changes in the accumulation of alkenones and lipids under nitrogen limitation and its relation to other energy storage metabolites in the haptophyte alga Emiliania huxleyi CCMP 2090
    Bakku Ranjith Kumar; Araie Hiroya; Hanawa Yutaka; Shiraiw...
    9th Asia Pacific Conference on Algal Biotechnology (APCAB) - Algae for Food, Feed, Fuel and Beyond/2016-11-15--2016-11-18
  • 藻類バイオマスの 現状と将来展望
    鈴木石根
    群馬大学先端研究講座/2011-11-14
  • Functional analysis of domains for the signal perception of Hik33 in Synechocystis sp. PCC 6803. (Elected as an Outstanding Poster)
    Yohei Shimura; Satoshi Kimura; Yoshihiro Shiraiwa; Iwane ...
    The 13th International Symposium on Photosynthetic Prokaryoutes/2009-08-14
  • Analysis of physiological function of RTX protein S111951 from Synechocystis sp PCC 6803
    Sakiyama T; Suzuki I; Kuwabara T
    47th Annual Meeting of the Japanese-Society-of-Plant-Physiologists
  • A mechanism of photosynthetic carbon fixation in the haptophyte alga, Emiliania huxleyi
    Tsuji Y; Iwamoto K; Suzuki I; Shiraiwa Y
    47th Annual Meeting of the Japanese-Society-of-Plant-Physiologists/2006-3-19--2006-3-21
Teaching
2018-10 -- 2019-03Life Science Innovation Master's Special Seminar I FallUniversity of Tsukuba.
2018-10 -- 2019-03Life Science Innovation Master's Special Research I FallUniversity of Tsukuba.
2018-10 -- 2019-03Life Science Innovation Master’s Special Seminar II FallUniversity of Tsukuba.
2018-10 -- 2019-03Life Science Innovation Master’s Special Research II FallUniversity of Tsukuba.
2018-10 -- 2019-03Life Science Innovation Doctor's Special Seminar I FallUniversity of Tsukuba.
2018-10 -- 2019-03Life Science Innovation Doctor's Special Seminar II FallUniversity of Tsukuba.
2018-10 -- 2019-03Life Science Innovation Doctor's Special Seminar III FallUniversity of Tsukuba.
2018-10 -- 2019-03Life Science Innovation Doctor's Special Research I FallUniversity of Tsukuba.
2018-10 -- 2019-03Life Science Innovation Doctor's Special Research II FallUniversity of Tsukuba.
2018-10 -- 2019-03Life Science Innovation Doctor's Special Research III FallUniversity of Tsukuba.
Talks
  • 微細藻類による油生産の最前線
    鈴木石根
    第63回日本海水学会 シンポジウム/2012-06-08
  • 石油代替を可能とする 微細藻類技術
    鈴木石根
    化学工学会関東支部 第18回イブニングセミナー/2012-03-30
  • Projects for Biofuel Production by Microalgae in the case of Japan
    Iwane Suzuki
    International Symposium for 20th Anniversary of World Water Day 2012/2012-03-12
  • 炭化水素産生藻類 ~被災地復興に貢献する 藻類バイオマス~
    鈴木石根
    第2回「筑波大学研究成果発表フォーラム 2012」/2012-01-28
  • 石油を作る「藻」
    鈴木石根
    2011 CEATEC JAPAN「未来予測レポート」/2011-12-01
  • 藻類バイオ燃料の現状と 将来展望
    鈴木石根
    第6回先端農学シンポジウム/2011-11-24
  • In vivo analyses of sensory kinases by chimeric proteins
    Iwane Suzuki
    2011 German-Japan Binational Seminar/2011-11-01
  • 石油起源生物円石藻類の アルケノン合成経路の解明 とその利用
    鈴木石根; 白岩善博
    第5回微細藻類生産性研究会/2011-09-30
  • 海洋ハプト藻類のアルケノン 合成経路の解明とオイル生産への 基盤技術の開発に向けて
    鈴木石根; 白岩善博
    日本光合成学会シンポジウム/2011-06-04
  • Expression of the chimeric kinases elucidates mechanisms of signal perception of histidine kinases in the Cyanobacterium Synechocystis sp. PCC 6803
    Iwane Suzuki
    The 15th International Congress of Photosynthesis/2010-08-23
  • ラン藻の環境センサーの シグナル検知のメカニズム
    鈴木石根
    低温生物工学会セミナー/2010-06-25
  • Functional Analysis of Histidine Kinases in the Cyanobacterium Synechocystis sp. PCC 6803 using Chimeric Sensor System.
    I. Suzuki
    Pep-Con 2010 (BIT’s 3rd Annual Protein and Peptide Conference), “After a Solution for the Machines of Life”/2010-03-01
  • Botryococcus’s Potential for Biofuel Production
    I. Suzuki
    2nd Algae World Asia 2009/2009-09-01
  • How the Cyanobacterium Synechocystis Perceives Environmental Stimuli?
    I. Suzuki
    The 13th International Symposium on Photosynthetic Prokaryoutes/2009-08-13
  • Mechanisms of signal sensing by histidine kinases in cyanobacteria
    I. Suzuki
    5th Germany-Japan Binational Seminar/2009-06-05
  • Genome analysis of the Coccolithophorid, Emiliania huxleyi, its unique characteristics of inorganic carbon fixation
    I. Suzuki
    The Frontier of genome Analysis for Eukaryotic Algae; Euglena Research Association/2008-11-15
  • Characterization of the amino-terminal region of SphS, a histidine kinase sensing phosphate availability, in Synechocystis sp. PCC 6803.
    S. Kimura; Y. Shiraiwa; I. Suzuki
    7th Europian Workshop on Molecular Biology of Cyanobacteria/2008-08-31
  • シアノバクテリアのオミクス解析とそのポストゲノム解析への応用
    鈴木石根; 白岩善博; 村田紀夫
    BMB 2007/2007-12-14
  • Functional Analysis of the Two-component System Conserved in the Genomes of Both Cyanobacteria and Chloroplast of the Haptophyta Emiliania huxley.
    I. Suzuki
    The 4th German-Japan binational Seminar Evolution of complexity from primitive cyanobacterial cells to chloroplasts/2007-06-13
  • シアノバクテリアの二成分制御系を介した環境応答機構
    鈴木石根
    第48回植物生理学会年会 シンポジウム 「シアノバクテリアのストレス応答機構」/2007-03-28
  • ラン藻の2成分制御系のシグナル検知とクロストークの分子機構
    鈴木石根
    第80回日本細菌学会シンポジウム 「細菌環境応答シグナル伝達系の分子メカニズム」/2007-03-27
  • ラン藻Synechocystis sp. PCC 6803の環境ストレスセンサー
    鈴木石根
    NBRP「藻類」ワークショップ/2007-03-05
  • ラン藻の環境ストレスセンサーとその調節機構
    鈴木石根
    「バイオ分子センサー連携研究プロジェクト」 レクチャーコース/2006-09-09
  • A novel protein regulates the actuvuty of histidine kinase Hik33 in Synechocystis
    T. Sakayori; S. Sato; S. Tabata; Y. Shiraiwa; I. Suzuki
    12th International Symposium on Photosynthetic Prokaryotes/2006-09-01
  • A novel regulatpry protein for histidine kinase Hik33 in Synechocystis.
    T. Sakayori; Y. Shiraiwa; I. Suzuki
    Photosynthesis in the post-genomic era: Structure and Function of Photosystems/2006-08-25
University Management
2018-04 -- (current)研究基盤総合センター分析部門運営委員
2018-04 -- (current)下田臨海実験センター運営委員
2016-04 -- (current)学長補佐(環境)
2012-04 -- 2018-03環境バイオマス共生学専攻長
2011-04 -- (current)アイソトープ総合センター運営委員会委員
Message
The Aims of my study is understanding of acclimation mechanisms of cyanobacteiria through the elucidation of function and mechanism of perception of the changes of the intra- and extra-cellular environment. And I also modulate the signal perception and transduction systems artificially and develop the novel system to regulate the metabolism to increase the production of useful biomass via photosynthesis. Recent years I started the study in Aurantiochytrium, which produces abundant hydrocarbon (i.e. squalene) and polyunsaturated fatty acids (i.e. DHA and EPA). We identified molecular mechanism for essentiality of salt for the growth. Furthermore, we are attempting the breeding of Aurantiochytrium to improve the productivity and utility of organic mater in wastewater.

(Last updated: 2018-08-25)