Rchr

J-GLOBAL ID：200901052305523869 Update date: Apr. 23, 2024

Yoshikawa Kenichi

ヨシカワケンイチ | Yoshikawa Kenichi

Homepage URL (1)： http://dmpl.doshisha.ac.jp/

Research field (5)： Bio-, chemical, and soft-matter physics , Nanobioscience , Basic physical chemistry , Biophysics , Semiconductors, optical and atomic physics

Research keywords (5)： Physical Chemistry , Nonequilibrium Physics , Medical Physics , Nonlinear Science , Life Physics

Research theme for competitive and other funds (79)：

2020 - 2023 Real-world modeling of life: From DNA to Organoid
2016 - 2020 Construction of micro-mechanical machine based on nonlinear dynamics
2015 - 2020 Living Matter as a Super Parallel Autonomous System
2015 - 2018 Conformationally restricted polyamines: Solid-phase synthesis and biological evaluation
2013 - 2018 Synergy of Fluctuation and Structure : Quest for Universal Laws in Non-Equilibrium Systems

2013 - 2018 Synergy of Fluctuation and Structure : Quest for Universal Laws in Non-Equilibrium Systems

2013 - 2018 Spatiotemporal ordering and its extension to biological phenomena

2014 - 2017 Non-Equilibrium Dynamics of Cytoskeleton During Cell Migration

2013 - 2016 Mode Bifurcation from Non-equilibrium Fluctuation into Autonomous Motion: Novel Scenario in Dissipative System

2013 - 2016 Mode-bifurcation from nonequilibrium fluctuation into autonomous motion: Novel scenario on dissipative system

2013 - 2015 Mode-bifurcation from nonequilibrium fluctuation into autonomous motion: Novel scenario on dissipative system

2011 - 2015 Real-world modeling on the hierarchical dynamics of life

2011 - 2015 生命現象の階層ダイナミクスの実空間モデリング

2008 - 2014 Emergence Chemistry of Nano-scale Molecular system

2011 - 2014 Real-world modeling on the hierarchical dynamics of life

2010 - 2014 Generation of macroscopic autonomous motion induced photon flux

2011 - 2012 Molecular science on soft-interface

2010 - 2012 Generation of macroscopic autonomous motion induced photon flux

2006 - 2010 Physico-chemical approach on the construction of functional denovo cell

2005 - 2010 System Cell Engineering by Multi-scale Manipulation

2005 - 2009 Real-World Modeling of Self-Emergent Active Cell

2008 - 2008 ミクロ環境場における単分子ゲノムDNAの高次構造相転移

2006 - 2007 Micro chemical machinery working under isothermal condition

2005 - 2007 Hierarchical Structures and Phase Transitions of Lipid Membranes

2004 - 2005 水を舞台とするDNAの高次構造相転移

2004 - 2005 キラル低分子による長鎖DNAの折り畳み

2002 - 2005 Nonlinear Dynamics of Mesoscopic Systems under Laser Irradiation

2004 - 2004 DNAの折り畳み相転移と遺伝子群の発現制御

2003 - 2004 単一荷電高分子鎖の折り畳み転移の統計熱力学

2003 - 2004 単一高分子鎖の折り畳み転移の統計熱力学

2003 - 2003 DNAの折り畳み相転移と遺伝子群の発現制御

2000 - 2001 単一荷電子分子鎖の高次構造相転移に関する研究

1999 - 2001 Study on the singularity of spatio-temporal disorder in large degree-freedom systems

1998 - 2000 Formation of Nano-Ordered Structure through Folding Transition of Single Polymer Chain

1998 - 2000 Thermodynamics and Kinetics on the Folding Transition of Single Molecular Chain

1998 - 1999 Phase Transitions in the Higher Order Structure of Giant DNA Single Molecular Chain

1998 - 1998 低分子化合物による巨大DNAの折り畳みの立体制御

1997 - 1997 低分子化合物による巨大DNAの折り畳みの立体制御

1996 - 1997 非線形特性を活用した化学エネルギーのマクロな機械的エネルギーへの直接変換

1996 - 1997 Higher Order Structure of Long DNA Molecules : Controlling the Structure Based on the Knoledge of the Mechanism in the Transition

1996 - 1997 Phase Transitions in the Higher Order Structure of Giant DNA

1996 - 1996 低分子化合物による巨大DNAの折り畳みの立体制御

1996 - 1996 非線形ダイナミクスを活用した情報の高次元化と縮約

1996 - 1996 ホストポリマー中での長鎖DNA分子のダイナミクス

1994 - 1996 Development of olfactory and taste sensor based on the dynamical information in nonlinear response

1995 - 1995 非線形ダイナミクスを活用した情報の高次元化と縮約

1994 - 1994 パターン形成の動力学-非平衡物理学の新局面-

1993 - 1994 Direct Conversion of Chemical Energy into Macroscopic Mechanical Energy by Use of Nonlinear Dynamics

1992 - 1994 Hierarchy and indeterminacy ruling biological phenomena

1993 - 1993 非平衡構造の形成・発展機構の解明

1991 - 1993 Analysis of Coupled Oscillator Networks and Application to Chemical Reaction Oscillations and Biological Rhythms

1992 - 1992 複合散逸呉の非線形現象とパターン形成

1992 - 1992 巨大DNAの動的分子形態と反応性

1992 - 1992 ニューラルコンピュータ構築のための興奮性分子素子の研究

1991 - 1992 Vectorial Process Induced by Chemical Energy Utilizing Nonlinear Characteristics

1991 - 1992 Study of Taste and Odor Recognition Systems Mimicking Gustation and Olfaction

1991 - 1991 巨大DNAの動的分子形態と反応性

1991 - 1991 ニュ-ラルコンピュ-タ構築のための興奮性分子素子の研究

1990 - 1990 ニュ-ラルコンピュ-タ構築のための興奮性分子素子の研究

1989 - 1990 New Functions in Artificial Membranes Based on Nonlinear Characteristics

1989 - 1989 ニュ-ロコンピュ-タ演算素子としてのリン脂質超薄膜

1988 - 1988 膜・界面における多重周期振動・引き込み・カオス

1987 - 1988 Enlightenment of teaching material for cultivate the creation

1986 - 1987 Development of Drug Sensing System by use of Self-Sustained Oscillatory Membranes

1986 - 1987 Self-Oscillation, Negative Resistance and Switching in Thin Phospholipid Membrane

1985 - 1985 興奮性人工膜の光学活性物質に対する特異的応答

1985 - 1985 人工膜による分子認識-自励発振現象の応用

1984 - 1984 イオンの濃度差によって駆動される人工膜の興奮現象

1984 - 1984 人工膜による分子認識-自励発振現象の応用

1984 - 1984 興奮性を有する非対称膜の分子設計

1983 - 1983 興奮性を有する非対称膜の分子設計

1982 - 1982 非平衡のモデル膜系における自発的pH振動

1980 - 1980 人工膜におけるプロトン輸送

1979 - 1979 分子レベルからみた膜の動力学的性質と機能発現

時空間秩序プロジェクト

短周期遺伝子発現リズムの動作原理

Self-organized nano-structure of single macromolecule under confinement

ソフトインターフェースの分子科学

生命現象の階層ダイナミクスの実空間モデリング

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Papers (707)：

Mayu Shono, Koki Aburatani, Miho Yanagisawa, Kenichi Yoshikawa, Akihisa Shioi. Periodic Alignment of Binary Droplets via a Microphase Separation of a Tripolymer Solution under Tubular Confinement. ACS Macro Letters. 2024. 207-211
Shusuke Ishida, Satoshi Takatori, Ken Hirano, Daigo Yamamoto, Yohei Oe, Kenichi Yoshikawa. Micro-DC rotary-motor working smoothly with neither contact brush nor fixed-axis. AIP Advances. 2023. 13. 11
Mayu Shono, Fumika Fujita, Kenichi Yoshikawa, Akihisa Shioi. Stabilization of DNA-encapsulating Droplets through Negative Charge at the Droplet Interface. Chemistry Letters. 2023. 52. 10. 794-797
Yutaka Sumino, Ryo Yamashita, Kazuki Miyaji, Hiroaki Ishikawa, Maho Otani, Daigo Yamamoto, Erika Okita, Yasunao Okamoto, Marie Pierre Kraff, Kenichi Yoshikawa, et al. Droplet duos on water display pairing, autonomous motion, and periodic eruption. Scientific Reports. 2023. 12377. 13. 1-10
Maho Kuroda, Satoshi Takatori, Takahiro Kenmotsu, Kenichi Yoshikawa, Chwen-Yang Shew. Stiffness of Confinement Controls the Localization of an Object under Crowding: Macroscale Real-World and Microscale Numerical Modelings on the Specificity of Intracellular Positioning. Journal of the Physical Society of Japan. 2023. 92. 6

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MISC (268)：

小川遥士, 西尾天志, 吉川祐子, 吉川研一, 貞包浩一朗, 剣持貴弘. Quantitative evaluation of DNA double-strand breaks induced by reactive oxygen through single molecule observation: protective effect of a natural polyphenol, chlorogenic acid. 日本化学会春季年会講演予稿集(Web). 2022. 102nd
NISHIO Takashi, YOSHIKAWA Yuko, YOSHIKAWA Kenichi, SATO Shin-ichi. Longer DNA enhances the efficiency of cell free-gene expression. 生物物理(Web). 2021. 61. Supplement 1-2
NISHIO Takashi, YOSHIKAWA Yuko, KENMOTSU Takahiro, YOSHIKAWA Kenichi, SATO Shin-ichi. Longer DNA promotes gene expression through its conformational specificity. 日本分子生物学会年会プログラム・要旨集(Web). 2021. 44th
島田耀士, 西尾天志, 吉川祐子, 剣持貴弘, 吉川研一. Effect of daunomycin on higher-order structure of DNA and on gene-expression. 日本分子生物学会年会プログラム・要旨集(Web). 2021. 44th
藤野航平, 西尾天志, 吉川祐子, 剣持貴弘, 吉川研一. Quantitative evaluation of DNA double-strand breaks by single molecule observation: Protective effect of retinoic acid. 日本分子生物学会年会プログラム・要旨集(Web). 2021. 44th

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Patents (35)：

LIQUID FLOW FORMATION METHOD AND OBJECT MOVING METHOD USING SAME
MICRODROPLET AND PREPARATION METHOD THEREFOR
QUANTITATIVE MEASUREMENT METHOD OF BODY FLUCTUATION
細胞の配置方法
上皮間葉転換阻害剤及び癌転移治療剤

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Books (10)：

リズム現象の世界
東京大学出版会 2023 ISBN:9784130613170
有機・無機材料の相転移ダイナミクス : 数理から未来のマテリアル開発まで
化学同人 2020 ISBN:9784759813951
Highly Concentrated Ethanol Solution Behaves as a Good Solvent for DNA as Revealed by Single-Molecule Observation
ChemPhysChem 2016
Highly Concentrated Ethanol Solution Behaves as a Good Solvent for DNA as Revealed by Single-Molecule Observation
ChemPhysChem 2016
『非平衡開放系の物理学』「現代物理学の世界トップ研究者からのメッセージ」(講談社基礎物理学シリーズ 11)
講談社 2010

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Lectures and oral presentations (64)：

水/水相分離ミクロ液滴に局在する微小管・キネシンの自発的対流生成
(第11回ソフトマター研究会 2023)
How does the aqueous environment on DNA concern the promotion/inhibition of genomic activity?
(Workshop “Physics of Soft and Active Matter in Different Spatio-Temporal Domains” 2023)
Nonlinear dynamics in life: From higher-order structure of DNA to multicellular system
(International Symposium ”Transposons, lamina, genome instability, DNA repair, and cancer” 2023)
Self-Emergent Structure & Function on Hierarchical Life System: Real-World Modeling
(25th Anniversary Symposium of German-Japanese Joint Research Project on Nonequilibrium Statistical Physics Perspectives for Future Collaboration 2022)
Change of the higher-order structure in DNA causes significant effect on genetic activity: a physical view.
(Riga International Symposium: "Spatial-temporal genome regulation in stress- response and cell-fate change“ 2022)

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Education (4)：

- 1971 Kyoto University Faculty of Engineering
- 1971 Kyoto University Faculty of Engineering
Kyoto University
Kyoto University Graduate School, Division of Engineering

Professional career (1)：

工学博士 (Kyoto University)

Work history (10)：

2022/09 - 現在同志社大学研究開発推進機構自己組織化科学研究センター客員教授(嘱託研究員)
2020/04 - 2022/08 Doshisha University Office for Research Initiatives and Development
2019/04 - 2020/03 Doshisha University Faculty of Life and Medical Sciences Guest Professor
2012/04 - 2019/03 Doshisha University Faculty of Life and Medical Sciences
1998 - Kyoto University Graduate School of Science

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Committee career (3)：

2011 - 2014 Biological Physics (C6), International Union Pure and Applied Physics (IUPAP) ; (2009 to date) Chair
2009 - Biological Physics (C6), International Union Pure and Applied Physics (IUPAP) Vice-President
2009 - Biological Physics (C6), IUPAP Vice-President;

Awards (1)：

1991 - 第5回日本IBM科学賞

Association Membership(s) (11)：

高分子学会 , 生物物理学会 , 物理学会 , 化学会 , アメリカ生物物理学会 , アメリカ化学会 , International Union Pure and Applied Physics (IUPAP) ; (2009 to date) , Biological Physics (C6) , International Union Pure and Applied Physics (IUPAP) , IUPAP , Biological Physics (C6)

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