Nishiyama Masayoshi

ニシヤママサヨシ | Nishiyama Masayoshi

Affiliation and department：
Job title：准教授

Research field (3)： Biophysics , Nanobioscience , Nanomaterials

Research keywords (7)：生命動態物理学 , Mechanobiology , Molecular Machinery , Cell Motility , High-pressure microscope , Dynamics of Biomolecules , Single Molecule Detection

Research theme for competitive and other funds (26)：

2023 - 2027 Exploration and application of outer membrane vesicle-producing bacteria for the development of novel nanomaterials
2023 - 2026 Development of near-infrared light-responsive flexible nitric oxide-emitting nanomaterials.
2022 - 2025 Visualizing the activation of flagellar beating at high-pressure.
2022 - 2024 Survival Strategy for Extremophiles around hydrothermal vents
2022 - 2024 麻酔薬圧拮抗作用の実時間イメージング

2021 - 2024 新規メカニカル負荷装置の開発を通した次世代メカノメディスンへの挑戦

2019 - 2022 Mechanical control of rhythmic flagellar beating motions

2019 - 2021 Manipulating nano-structures with hydrostatic pressures and optical forces

2017 - 2020 Reconsitutive studies on molecular mechanisms underlying regulation of rotational molecular machines

2016 - 2020 High-resolution imaging of intermolecular interactions undergoing mechanical modulation

2017 - 2019 大腸菌べん毛モーターの回転コントロールによるスイッチング機構の解明

2015 - 2017 極限環境下にある深海微生物の生存戦略イメージング

2013 - 2016 High-pressure microscopy for controlling the structure of protein filaments

2013 - 2015 極限環境下にある超好熱始原菌の運動観察

2011 - 2013 好熱菌由来ATP駆動型分子モーターの運動測定

2011 - 2012 Visualization of Mechanical Response of Molecular Machines working in vivo

2009 - 2011 ATP駆動型分子モーターの圧力変調と運動解析

2009 - 2010 ロータリー型分子モーターのトルク発生コントロールと運動計測

2008 - 2009 Manipulation and nano-measurement of the structural fluctuation of biomolecules.

2007 - 2009 Molecular mechanisms of various side effects of volatile anesthetics

2006 - 2008 1分子イメージングのための高圧力蛍光顕微鏡の開発

2006 - 2007 高圧力顕微鏡の開発と生体システムへの応用

2006 - 2007 生物分子モーター1分子のメガヘルツ応答計測と熱ラチェット型メカニズムの解明

2004 - 2006 Study on adaptation of single photosynthetic cells against environmental stress by using three-dimensional super-resolution microscopy with time resolution ability

2003 - 2005 生体分子機械の構造揺らぎと機能発現のメカニズムの解明

1998 - 2000 単一生体分子内のオングストロームの動きを見る顕微鏡の開発

Show all

Papers (53)：

Mullane KK, Nishiyama M, Kurihara T, Bartlett DH. Compounding deep sea physical impacts on marine microbial motility. Frontiers in Marine Science. 2023. 10. 1181062
Yamaguchi Y, Nishiyama M, Kai H, Kaneko T, Kaihara K, Iribe G, Takai A, Naruse K, Morimatsu M. High hydrostatic pressure induces slow contraction in mouse cardiomyocytes. Biophysical journal. 2022
Toshiki YAGI, Masayoshi NISHIYAMA. Activation of Eukaryotic Flagellar Beating at High-Pressure. The Review of High Pressure Science and Technology. 2021. 31. 2. 66-73
Okamoto K, Watanabe TM, Horie M, Nishiyama M, Harada Y, Fujita H. Pressure-induced changes on the morphology and gene expression in mammalian cells. Biology Open. 2021. 10. 7. 1-7
Takamitsu J Morikawa, Masayoshi Nishiyama, Keiko Yoshizawa, Hideaki Fujita, Tomonobu M Watanabe. Glycine insertion modulates the fluorescence properties of Aequorea victoria green fluorescent protein and its variants in their ambient environment. Biophysics and Physicobiology. 2021. 18. 145-158

ｍore...

MISC (12)：

西山雅祥, 山口陽平, 金子智之, 森松賢順. Cardiomyocyte contraction measured by high-pressure microscopy. 月刊細胞. 2023. 55. 14
八木俊樹, 西山雅祥. 高圧力下で蘇る鞭毛運動. 化学. 2021. 76. 4. 41-45
Masayoshi Nishiyama. High-pressure microscopy for manipulating bionanomachines in living cells. Optical Manipulation and Structured Materials Conference 2020. 2020. 11522. 1152216
西山雅祥. 極限環境を利用した化学の新展開高圧力技術を用いた生命活動操作イメージング. 現代化学. 2016. 538
西山雅祥. <研究の現場から>フォースでいのちはあやつれるか?. 京都大学白眉センターだより. 2015. 10. 13-13

ｍore...

Patents (2)：

精液の処理方法
HIGH PRESSURE SAMPLE CONTAINER FOR OPTICAL MICROSCOPIC OBSERVATION

Books (8)：

極限環境微生物の先端科学と社会実装最前線
エヌ・ティー・エス 2023 ISBN:9784860438487
高圧力の科学・技術辞典
朝倉書店 2022
The Role of Water in ATP Hydrolysis Energy Transduction
Springer 2018
高度物理刺激と生体応答
養賢堂 2017
The bacterial flagellum : methods and protocols
Humana Press 2017 ISBN:9781493969265

ｍore...

Lectures and oral presentations (84)：

High-pressure microscopy for tracking the swimming motion of single bacterial cells
(Sensory Transduction in Microorganisms Gordon Research Conference 2024)
REAL-TIME IMAGING OF PRESSURE RESPONSE OF BACTERIAL MOTILITY
(Sensory Transduction in Microorganisms Gordon Research Conference 2024)
Viewing the swimming motion of a unicellular organism in extreme environmental conditions.
(Exploration and Application of Extracellular Membrane Vesicle-Producing Bacteria as a Basic Technology for Aquaculture Augmentation 2024)
E!ects of high hydrostatic pressure to swimming sea urchin sperm flagella
(An ASCB/EMBO Meeting CELL BIO 23 2023)
Depressurization microscopy.
(The 61st Annual Meeting of the Biophysical Society of Japan 2023)

ｍore...

Education (1)：

1996 - 1998 Osaka University

Professional career (1)：

Doctor(Science) (Osaka University)

Committee career (4)：

2010/01 - 現在日本生物物理学会分野別専門委員
2022/10 - 2024/09 日本高圧力学会評議員
2018/04 - 2021/03 日本生物物理学会代議員
2004/01 - 2004/12 日本生物物理学会「生物物理」編集地区委員

Awards (4)：

2011/04 - Minister of Education, Culture, Sports, Science and Technology The Young Scientists’ Prize
2009/10 - Biophysical Society of Japan Early Career Award in Biophysics
2001/07 - 日本工業新聞社主催先端技術学生論文表彰制度文部科学大臣賞(最優秀賞)
2000/09 - Young Scientist Award for the Presentation of an Excellent Paper, The Japan Society of Applied Physics

Association Membership(s) (5)：

The Japanese Society of Mechanobiology , THE JAPAN SOCIETY OF APPLIED PHYSICS , The Biophysical Society of Japan , Biophysical Society , THE JAPAN SOCIETY OF HIGH PRESSURE SCIENCE AND TECHNOLOGY

※ Researcher’s information displayed in J-GLOBAL is based on the information registered in researchmap. For details, see here.

Return to Previous Page