1. Stem Cells and Regenerative Medicine

Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells

  1. John P Russell
  2. Xinhong Lim
  3. Alice Santambrogio
  4. Val Yianni
  5. Yasmine Kemkem
  6. Bruce Wang
  7. Matthew Fish
  8. Scott Haston
  9. Anaëlle Grabek
  10. Shirleen Hallang
  11. Emily J Lodge
  12. Amanda L Patist
  13. Andreas Schedl
  14. Patrice Mollard
  15. Roel Nusse
  16. Cynthia Lilian Andoniadou  Is a corresponding author
  1. King's College London, United Kingdom
  2. Agency for Science, Technology and Research, Singapore
  3. Institut de Génomique Fonctionnelle, France
  4. Howard Hughes Medical Institute, Stanford University School of Medicine, United States
  5. Stanford University, United States
  6. University College London, United Kingdom
  7. Université Côte d'Azur, France
  8. University of Manchester, United Kingdom
https://doi.org/10.7554/eLife.59142
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  1. John P Russell
  2. Xinhong Lim
  3. Alice Santambrogio
  4. Val Yianni
  5. Yasmine Kemkem
  6. Bruce Wang
  7. Matthew Fish
  8. Scott Haston
  9. Anaëlle Grabek
  10. Shirleen Hallang
  11. Emily J Lodge
  12. Amanda L Patist
  13. Andreas Schedl
  14. Patrice Mollard
  15. Roel Nusse
  16. Cynthia Lilian Andoniadou
(2021)
Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells
eLife 10:e59142.
https://doi.org/10.7554/eLife.59142
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  1. John P Russell
  2. Xinhong Lim
  3. Alice Santambrogio
  4. Val Yianni
  5. Yasmine Kemkem
  6. Bruce Wang
  7. Matthew Fish
  8. Scott Haston
  9. Anaëlle Grabek
  10. Shirleen Hallang
  11. Emily J Lodge
  12. Amanda L Patist
  13. Andreas Schedl
  14. Patrice Mollard
  15. Roel Nusse
  16. Cynthia Lilian Andoniadou
(2021)
Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells
eLife 10:e59142.
https://doi.org/10.7554/eLife.59142