1. Developmental Biology

Tension-driven multi-scale self-organisation in human iPSC-derived muscle fibers

  1. Qiyan Mao  Is a corresponding author
  2. Achyuth Acharya
  3. Alejandra Rodríguez-delaRosa
  4. Fabio Marchiano
  5. Benoit Dehapiot
  6. Ziad Al Tanoury
  7. Jyoti Rao
  8. Margarete Díaz-Cuadros
  9. Arian Mansur
  10. Erica Wagner
  11. Claire Chardes
  12. Vandana Gupta
  13. Pierre-François Lenne
  14. Bianca H Habermann
  15. Olivier Theodoly
  16. Olivier Pourquié  Is a corresponding author
  17. Frank Schnorrer  Is a corresponding author
  1. Aix Marseille University, CNRS, IDBM, France
  2. Brigham and Women's Hospital, United States
  3. Harvard Stem Cell Institute, United States
  4. Aix Marseille University, CNRS, LAI, France
  5. Harvard Medical School, United States
https://doi.org/10.7554/eLife.76649
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  1. Qiyan Mao
  2. Achyuth Acharya
  3. Alejandra Rodríguez-delaRosa
  4. Fabio Marchiano
  5. Benoit Dehapiot
  6. Ziad Al Tanoury
  7. Jyoti Rao
  8. Margarete Díaz-Cuadros
  9. Arian Mansur
  10. Erica Wagner
  11. Claire Chardes
  12. Vandana Gupta
  13. Pierre-François Lenne
  14. Bianca H Habermann
  15. Olivier Theodoly
  16. Olivier Pourquié
  17. Frank Schnorrer
(2022)
Tension-driven multi-scale self-organisation in human iPSC-derived muscle fibers
eLife 11:e76649.
https://doi.org/10.7554/eLife.76649
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  1. Qiyan Mao
  2. Achyuth Acharya
  3. Alejandra Rodríguez-delaRosa
  4. Fabio Marchiano
  5. Benoit Dehapiot
  6. Ziad Al Tanoury
  7. Jyoti Rao
  8. Margarete Díaz-Cuadros
  9. Arian Mansur
  10. Erica Wagner
  11. Claire Chardes
  12. Vandana Gupta
  13. Pierre-François Lenne
  14. Bianca H Habermann
  15. Olivier Theodoly
  16. Olivier Pourquié
  17. Frank Schnorrer
(2022)
Tension-driven multi-scale self-organisation in human iPSC-derived muscle fibers
eLife 11:e76649.
https://doi.org/10.7554/eLife.76649