Ganser Christian ＧａｎｓｅｒＣｈｒｉｓｔｉａｎ

Researcher Number	50846095
Other IDs
Affiliation (Current)	2025: 大学共同利用機関法人自然科学研究機構(機構直轄研究施設), 生命創成探究センター, 特任助教
Affiliation (based on the past Project Information) *help	2023 – 2024: 大学共同利用機関法人自然科学研究機構(機構直轄研究施設), 生命創成探究センター, 特任助教 2019 – 2022: 大学共同利用機関法人自然科学研究機構(新分野創成センター、アストロバイオロジーセンター、生命創成探究, 生命創成探究センター, 特任助教
Review Section/Research Field	Principal Investigator Basic Section 13040:Biophysics, chemical physics and soft matter physics-related / 0701:Biology at molecular to cellular levels, and related fields Except Principal Investigator Transformative Research Areas, Section (II)
Keywords	Principal Investigator Microtubules / high-speed AFM / TIRFM / microtubules / HS-AFM / correlated imaging / mechanical properties / Mechanical Properties / deformation / Microtubule … More / Motor Protein / Motor proteins / Kinesin / AFM force curves / kinesin … More Except Principal Investigator その場観察 / 単分子観察 / 分子集合体 / 高速AFM / 電子顕微鏡 Less

Cinematic Molecular Science of Meso-Hierarchy
- Principal Investigator
  
  原野幸治
- Project Period (FY)
  2023 – 2027
- Research Category
  
  Grant-in-Aid for Transformative Research Areas (A)
- Review Section
  
  Transformative Research Areas, Section (II)
- Research Institution
  National Institute for Materials Science
Mechanical stability of microtubules investigated under unidirectional strain using combined fluorescence microscopy and high-speed atomic force microscopyPrincipal Investigator
- Principal Investigator
  
  Ganser Christian
- Project Period (FY)
  2020 – 2022
- Research Category
  
  Grant-in-Aid for Scientific Research (C)
- Review Section
  
  Basic Section 13040:Biophysics, chemical physics and soft matter physics-related
- Research Institution
  Center for Novel Science Initatives, National Institutes of Natural Sciences
nfluence of microtubule defects on single motor protein motility studied by HS-AFMPrincipal Investigator
- Principal Investigator
  
  Ganser Christian
- Project Period (FY)
  2019 – 2020
- Research Category
  
  Grant-in-Aid for Research Activity Start-up
- Review Section
  
  0701:Biology at molecular to cellular levels, and related fields
- Research Institution
  Center for Novel Science Initatives, National Institutes of Natural Sciences

All 2023 2022 2021 2020 2019

All Journal Article Presentation

[Journal Article] 3D Structure of Ring-shaped Microtubule Swarms Revealed by High-speed Atomic Force Microscopy2023
- Author(s)
  Rashid Mst. Rubaya、Ganser Christian、Akter Mousumi、Nasrin Syeda Rubaiya、Kabir Arif Md. Rashedul、Sada Kazuki、Uchihashi Takayuki、Kakugo Akira
- Journal Title
  
  Chemistry Letters
  
  Volume: 52 Issue: 2 Pages: 100-104
- DOI
  10.1246/cl.220491
- Peer Reviewed / Open Access / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-20K03889, KAKENHI-PROJECT-21K04846, KAKENHI-PUBLICLY-21H00393, KAKENHI-PLANNED-18H05423, KAKENHI-PROJECT-21H04434, KAKENHI-PROJECT-21H01772
[Journal Article] Tip-scan high-speed atomic force microscopy with a uniaxial substrate stretching device for studying dynamics of biomolecules under mechanical stress2022
- Author(s)
  Chan Feng-Yueh、Kurosaki Ryo、Ganser Christian、Takeda Tetsuya、Uchihashi Takayuki
- Journal Title
  
  Review of Scientific Instruments
  
  Volume: 93 Issue: 11 Pages: 113703-113703
- DOI
  10.1063/5.0111017
- Peer Reviewed
- Data Source
  KAKENHI-PROJECT-19KK0180, KAKENHI-PROJECT-21H01772, KAKENHI-PROJECT-20K03889, KAKENHI-PUBLICLY-21H00393
[Journal Article] Recent advances in bioimaging with high-speed atomic force microscopy2020
- Author(s)
  Uchihashi Takayuki、Ganser Christian
- Journal Title
  
  Biophysical Reviews
  
  Volume: 12 Issue: 2 Pages: 363-369
- DOI
  10.1007/s12551-020-00670-z
- Peer Reviewed / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K23737, KAKENHI-PROJECT-19KK0180, KAKENHI-PUBLICLY-18H04512, KAKENHI-PROJECT-18H01837
[Presentation] The influence of microtubule deformation on kinesin motility studied with HS-AFM2021
- Author(s)
  Christian Ganser
- Organizer
  4th ExCELLS Symposium
- Data Source
  KAKENHI-PROJECT-20K03889
[Presentation] Studying the motor protein kinesin with high-speed atomic force microscopy2021
- Author(s)
  Christian Ganser
- Organizer
  International Symposium on Nanoscale Research
- Invited
- Data Source
  KAKENHI-PROJECT-20K03889
[Presentation] Kinesin motility inhibition studied by HS-AFM2021
- Author(s)
  Christian Ganser
- Organizer
  4th ExCELLS Young Researchers Retreat
- Data Source
  KAKENHI-PROJECT-20K03889
[Presentation] High-speed atomic force microscopy based force mapping and multiscale observation in combination with fluorescence microscopy2020
- Author(s)
  Christian Ganser
- Organizer
  3rd ExCELLS retreat for young researchers
- Data Source
  KAKENHI-PROJECT-20K03889
[Presentation] High-speed atomic force microscopy as a versatile tool to study dynamical and mechanical properties of proteins2020
- Author(s)
  Christian Ganser, Kimitoshi Takeda, Ryota Iino, Koichi Kato, Takayuki Uchihashi
- Organizer
  The 58th Annual Meeting of the Biophysical Society of Japan
- Invited / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-20K03889
[Presentation] High-speed atomic force microscopy based force mappingand multiscale observation in combination with fluorescencemicroscopy2020
- Author(s)
  Christian Ganser
- Organizer
  3rd ExCELLS Retreat for Young Scientists
- Data Source
  KAKENHI-PROJECT-19K23737
[Presentation] HS-AFM as a versatile tool to study dynamical and mechanical properties of proteins2020
- Author(s)
  Christian Ganser, Kimitoshi Takeda, Ryota Iino, Koichi Kato and Takayuki Uchihashi
- Organizer
  第58回日本生物物理学会年会: Symposium "The Multiple Modes of Proteins ? From Molecular Dynamics to Pathogenesis -"
- Invited / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K23737
[Presentation] Multimodal high-speed atomic force microscopy to investigate nano-scalemechanical properties and dynamics on the protein and cell level2020
- Author(s)
  Shigetaka Nishiguchi, Christian Ganser
- Organizer
  3rd ExCELLS Symposium
- Data Source
  KAKENHI-PROJECT-19K23737
[Presentation] Multimodal high-speed atomic force microscopy to investigate nano-scalemechanical properties and dynamics on the protein and cell level2020
- Author(s)
  Shigetaka Nishiguchi, Christian Ganser
- Organizer
  3rd ExCELLS Symposium
- Data Source
  KAKENHI-PROJECT-20K03889
[Presentation] Kinesin transport on microtubules studied by high-speed AFM2019
- Author(s)
  Christian Ganser, Syeda Rubaiya Nasrin, Akira Kakugo, Ryota Iino, Takayuki Uchihashi
- Organizer
  Meeting of the Biophysical Society of Japan
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K23737
[Presentation] Defect creation in microtubules and kinesin motility studied by HS-AFM2019
- Author(s)
  Christian Ganser, Kimitoshi Takeda, Ryota Iino, Koichi Kato, Takayuki Uchihashi
- Organizer
  ICSPM27
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K23737

1. 原野幸治 (70451515)

# of Collaborated Projects: 1 results

# of Collaborated Products: 0 results
2. 中室貴幸 (30831276)

# of Collaborated Projects: 1 results

# of Collaborated Products: 0 results
3. 竹田哲也

# of Collaborated Projects: 0 results

# of Collaborated Products: 1 results
4. 内橋貴之

# of Collaborated Projects: 0 results

# of Collaborated Products: 1 results

Ganser Christian Ｇａｎｓｅｒ Ｃｈｒｉｓｔｉａｎ

Research Projects

Research Products

Co-Researchers

Cinematic Molecular Science of Meso-Hierarchy

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

Mechanical stability of microtubules investigated under unidirectional strain using combined fluorescence microscopy and high-speed atomic force microscopyPrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

nfluence of microtubule defects on single motor protein motility studied by HS-AFMPrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

[Journal Article] 3D Structure of Ring-shaped Microtubule Swarms Revealed by High-speed Atomic Force Microscopy2023

Author(s)

Journal Title

DOI

Data Source

[Journal Article] Tip-scan high-speed atomic force microscopy with a uniaxial substrate stretching device for studying dynamics of biomolecules under mechanical stress2022

Author(s)

Journal Title

DOI

Data Source

[Journal Article] Recent advances in bioimaging with high-speed atomic force microscopy2020

Author(s)

Journal Title

DOI

Data Source

[Presentation] The influence of microtubule deformation on kinesin motility studied with HS-AFM2021

Author(s)

Organizer

Data Source

[Presentation] Studying the motor protein kinesin with high-speed atomic force microscopy2021

Author(s)

Organizer

Data Source

[Presentation] Kinesin motility inhibition studied by HS-AFM2021

Author(s)

Organizer

Data Source

[Presentation] High-speed atomic force microscopy based force mapping and multiscale observation in combination with fluorescence microscopy2020

Author(s)

Organizer

Data Source

[Presentation] High-speed atomic force microscopy as a versatile tool to study dynamical and mechanical properties of proteins2020

Author(s)

Organizer

Data Source

[Presentation] High-speed atomic force microscopy based force mappingand multiscale observation in combination with fluorescencemicroscopy2020

Author(s)

Organizer

Data Source

[Presentation] HS-AFM as a versatile tool to study dynamical and mechanical properties of proteins2020

Author(s)

Organizer

Data Source

[Presentation] Multimodal high-speed atomic force microscopy to investigate nano-scalemechanical properties and dynamics on the protein and cell level2020

Author(s)

Organizer

Data Source

[Presentation] Multimodal high-speed atomic force microscopy to investigate nano-scalemechanical properties and dynamics on the protein and cell level2020

Author(s)

Organizer

Data Source

[Presentation] Kinesin transport on microtubules studied by high-speed AFM2019

Author(s)

Organizer

Data Source

[Presentation] Defect creation in microtubules and kinesin motility studied by HS-AFM2019

Author(s)

Organizer

Ganser Christian ＧａｎｓｅｒＣｈｒｉｓｔｉａｎ