Wang Yu-Chiun ＷＡＮＧＹＵＣＨＩＵＮ

… Alternative Names

WANG YUCHIUN ワンヨウチュン

Wang Yuchiun WANG YUCHIUN

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Researcher Number	80725995
Other IDs
Affiliation (Current)	2025: 国立研究開発法人理化学研究所, 生命機能科学研究センター, チームディレクター
Affiliation (based on the past Project Information) *help	2022 – 2024: 国立研究開発法人理化学研究所, 生命機能科学研究センター, チームリーダー 2018 – 2020: 国立研究開発法人理化学研究所, 生命機能科学研究センター, チームリーダー 2015 – 2017: 国立研究開発法人理化学研究所, 多細胞システム形成研究センター, チームリーダー
Review Section/Research Field	Principal Investigator Basic Section 44010:Cell biology-related / Cell biology Except Principal Investigator Transformative Research Areas, Section (III)
Keywords	Principal Investigator CAMSAP/Patronin / microtubule forces / Spectrin skeleton / dorsal fold formation / Spectrin / optogenetics / epithelial cell shape / Epithelial cell height / cell shape change / microtubule homeostasis … More / microtubule mechanics / epithelial cell height / epithelial folding / cell shape control / microtubule network / apical-basal polarity / size homeostasis / cell shortening / Patronin/CAMSAP / Microtubule mechanics / Apical-basal polarity / Epithelial folding … More Except Principal Investigator 原腸陥入 / 形態形成 / 光遺伝学 / 空間トランスクリプトミクス / 胚発生 / ショウジョウバエ / 力学計測 / 空間トランスクリプトーム / 遺伝子発現 / 上皮形態形成 Less

Epithelial self-organization by mechano-genomic crosstalk
- Principal Investigator
  
  近藤武史
- Project Period (FY)
  2022 – 2026
- Research Category
  
  Grant-in-Aid for Transformative Research Areas (A)
- Review Section
  
  Transformative Research Areas, Section (III)
- Research Institution
  Institute of Physical and Chemical Research
The counterbalancing forces underlying polarity-coupled epithelial cell height control prior to and during epithelial foldingPrincipal Investigator
- Principal Investigator
  
  Wang Yu-Chiun
- Project Period (FY)
  2018 – 2020
- Research Category
  
  Grant-in-Aid for Scientific Research (B)
- Review Section
  
  Basic Section 44010:Cell biology-related
- Research Institution
  Institute of Physical and Chemical Research
Elucidating the mechanisms underlying epithelial cell height change mediated by modifications of apical-basal polarityPrincipal Investigator
- Principal Investigator
  
  Wang Yuchiun
- Project Period (FY)
  2015 – 2017
- Research Category
  
  Grant-in-Aid for Scientific Research (B)
- Research Field
  
  Cell biology
- Research Institution
  Institute of Physical and Chemical Research

All 2023 2022 2020 2018 2017 2016 2015

All Journal Article Presentation

[Journal Article] Tissue-Scale Mechanical Coupling Reduces Morphogenetic Noise to Ensure Precision during Epithelial Folding2020
- Author(s)
  Eritano Anthony S.、Bromley Claire L.、Bolea Albero Antonio、Schuetz Lucas、Wen Fu-Lai、Takeda Michiko、Fukaya Takashi、Sami Mustafa M.、Shibata Tatsuo、Lemke Steffen、Wang Yu-Chiun
- Journal Title
  
  Developmental Cell
  
  Volume: 53 Issue: 2 Pages: 212-228.e12
- DOI
  10.1016/j.devcel.2020.02.012
- Peer Reviewed / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-18H02441
[Journal Article] A homeostatic apical microtubule network shortens cells for epithelial folding via a basal polarity shift2018
- Author(s)
  Michiko Takeda, Mustafa M. Sami, Yu-Chiun Wang
- Journal Title
  
  Nature Cell Biology
  
  Volume: 20 Issue: 1 Pages: 36-45
- DOI
  10.1038/s41556-017-0001-3
- Peer Reviewed / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-15H04373
[Presentation] Tissue tectonics: the promise and the peril of inter-tissue interaction during Drosophila gastrulation2023
- Author(s)
  Yu-Chiun Wang
- Organizer
  Invited talk at Dept of MGCB, University of Chicago, Chicago, USA. (Host: Dr. Sally Horne-Badovinac)
- Invited
- Data Source
  KAKENHI-PLANNED-22H05167
[Presentation] Evolutionary transition of mechanical mechanisms for the release of compressive stress resulting from tissue tectonic collision during gastrulation2023
- Author(s)
  Yu-Chiun Wang
- Organizer
  2023 BDR symposium: Transitions in Biological Systems
- Invited / Int'l Joint Research
- Data Source
  KAKENHI-PLANNED-22H05167
[Presentation] A push-pull mechanism of microtubule-spectrin mechanics controls apical cell shape homeostasis during epithelial folding2022
- Author(s)
  Yu-Chiun Wang
- Organizer
  GRC Cell Polarity Signaling
- Invited / Int'l Joint Research
- Data Source
  KAKENHI-PLANNED-22H05167
[Presentation] Mechanical polarity of epithelial folding during Drosophila gastrulation2022
- Author(s)
  Yu-Chiun Wang
- Organizer
  Invited talk at Dept of Biology, Dartmouth College, USA. (Host: Dr. Bing He)
- Invited
- Data Source
  KAKENHI-PLANNED-22H05167
[Presentation] Tissue tectonics: cephalic furrow, a transient epithelial fold, functions as a genetically-patterned mechanical sink to release compressive stress during Drosophila gastrulation2022
- Author(s)
  Yu-Chiun Wang
- Organizer
  Invited talk at Dept of Life Science, National Taiwan University, Taipei, Taiwan. (Host: Dr. Chau-Ti Ting)
- Invited
- Data Source
  KAKENHI-PLANNED-22H05167
[Presentation] A push-pull mechanism of microtubule-spectrin mechanics controls apical cell shape homeostasis during epithelial folding2022
- Author(s)
  Yu-Chiun Wang
- Organizer
  2022 ICCB & APOCB
- Invited / Int'l Joint Research
- Data Source
  KAKENHI-PLANNED-22H05167
[Presentation] A push-pull mechanism of microtubule-spectrin mechanics controls apical cell shape homeostasis during epithelial folding2022
- Author(s)
  Yu-Chiun Wang
- Organizer
  EMBL/EMBO symposium: Mechanobiology in development and disease
- Invited
- Data Source
  KAKENHI-PLANNED-22H05167
[Presentation] The novel mechanism and unexpected roles of mechanical polarity during epithelial out-of-plane deformation2020
- Author(s)
  Yu-Chiun Wang
- Organizer
  APDRC5 (the 5th Asia Pacific Drosophila Research Conference), Pune, India.
- Invited / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-18H02441
[Presentation] Force (im)balance during homeostatic and transformative states of epithelial folding2018
- Author(s)
  Yu-Chiun Wang
- Organizer
  Institute of Cellular and Organismal Biology, Academia Sinica, Taiwan
- Invited
- Data Source
  KAKENHI-PROJECT-18H02441
[Presentation] Force (im)balance during homeostatic and transformative states of epithelial folding2018
- Author(s)
  Yu-Chiun Wang
- Organizer
  ICOB, Academia Sinica, Taiwan
- Invited
- Data Source
  KAKENHI-PROJECT-15H04373
[Presentation] Cell shortening for epithelial folding via a polarity-coupled, homeostatic microtubule scaffold2017
- Author(s)
  Yu-Chiun Wang
- Organizer
  2017 ASCB/EMBO meeting, Philadelphia, USA
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-15H04373
[Presentation] Cell shortening for epithelial folding via a polarity-coupled, homeostatic microtubule scaffold2017
- Author(s)
  Yu-Chiun Wang
- Organizer
  Mechanical Forces in Biology, EMBL symposium, Heidelberg, Germany
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-15H04373
[Presentation] Epithelial origami: homeotic microtubule network coupled to apical-basal polarity propels cell shortening during epithelial folding2016
- Author(s)
  Yu-Chiun Wang
- Organizer
  From Genes to Growth and Form, KITP Program
- Place of Presentation
  Kavli Institute for Theoretic Physics, Santa Barbara, USA
- Data Source
  KAKENHI-PROJECT-15H04373
[Presentation] Homeostasis of an apical microtubule network coupled to basal shifts of polarity propels cell shortening during epithelial folding2016
- Author(s)
  Yu-Chiun Wang
- Organizer
  12th Japanese Drosophila Research Conference (JDRC12)
- Place of Presentation
  Rikkyo University, Tokyo, Japan
- Data Source
  KAKENHI-PROJECT-15H04373
[Presentation] Epithelial origami: cell polarity, adhesion mechanics, and the folding of epithelial tissues2015
- Author(s)
  Yu-Chiun Wang
- Organizer
  The 26th CDB Meeting: Mechanistic Perspectives of Multicellular Organisation
- Place of Presentation
  RIKEN CDB, Kobe, Japan
- Year and Date
  2015-09-08
- Invited
- Data Source
  KAKENHI-PROJECT-15H04373

1. 近藤武史 (60565084)

# of Collaborated Projects: 1 results

# of Collaborated Products: 0 results

Wang Yu-Chiun ＷＡＮＧ ＹＵＣＨＩＵＮ

WANG YUCHIUN ワン ヨウチュン

Wang Yuchiun WANG YUCHIUN

Research Projects

Research Products

Co-Researchers

Epithelial self-organization by mechano-genomic crosstalk

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

The counterbalancing forces underlying polarity-coupled epithelial cell height control prior to and during epithelial foldingPrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

Elucidating the mechanisms underlying epithelial cell height change mediated by modifications of apical-basal polarityPrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Research Field

Research Institution

[Journal Article] Tissue-Scale Mechanical Coupling Reduces Morphogenetic Noise to Ensure Precision during Epithelial Folding2020

Author(s)

Journal Title

DOI

Data Source

[Journal Article] A homeostatic apical microtubule network shortens cells for epithelial folding via a basal polarity shift2018

Author(s)

Journal Title

DOI

Data Source

[Presentation] Tissue tectonics: the promise and the peril of inter-tissue interaction during Drosophila gastrulation2023

Author(s)

Organizer

Data Source

[Presentation] Evolutionary transition of mechanical mechanisms for the release of compressive stress resulting from tissue tectonic collision during gastrulation2023

Author(s)

Organizer

Data Source

[Presentation] A push-pull mechanism of microtubule-spectrin mechanics controls apical cell shape homeostasis during epithelial folding2022

Author(s)

Organizer

Data Source

[Presentation] Mechanical polarity of epithelial folding during Drosophila gastrulation2022

Author(s)

Organizer

Data Source

[Presentation] Tissue tectonics: cephalic furrow, a transient epithelial fold, functions as a genetically-patterned mechanical sink to release compressive stress during Drosophila gastrulation2022

Author(s)

Organizer

Data Source

[Presentation] A push-pull mechanism of microtubule-spectrin mechanics controls apical cell shape homeostasis during epithelial folding2022

Author(s)

Organizer

Data Source

[Presentation] A push-pull mechanism of microtubule-spectrin mechanics controls apical cell shape homeostasis during epithelial folding2022

Author(s)

Organizer

Data Source

[Presentation] The novel mechanism and unexpected roles of mechanical polarity during epithelial out-of-plane deformation2020

Author(s)

Organizer

Data Source

[Presentation] Force (im)balance during homeostatic and transformative states of epithelial folding2018

Author(s)

Organizer

Data Source

[Presentation] Force (im)balance during homeostatic and transformative states of epithelial folding2018

Author(s)

Organizer

Data Source

[Presentation] Cell shortening for epithelial folding via a polarity-coupled, homeostatic microtubule scaffold2017

Author(s)

Organizer

Data Source

[Presentation] Cell shortening for epithelial folding via a polarity-coupled, homeostatic microtubule scaffold2017

Author(s)

Wang Yu-Chiun ＷＡＮＧＹＵＣＨＩＵＮ

WANG YUCHIUN ワンヨウチュン