1. Developmental Biology
  2. Genetics and Genomics

PI3K signaling specifies proximal-distal fate by driving a developmental gene regulatory network in SOX9+ mouse lung progenitors

  1. Divya Khattar
  2. Sharlene Fernandes
  3. John Snowball
  4. Minzhe Guo
  5. Matthew C Gillen
  6. Suchi Singh Jain
  7. Debora Sinner
  8. William Zacharias
  9. Daniel T Swarr  Is a corresponding author
  1. Cincinnati Children's Hospital Medical Center, United States
  2. Wake Forest University, United States
https://doi.org/10.7554/eLife.67954
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  1. Divya Khattar
  2. Sharlene Fernandes
  3. John Snowball
  4. Minzhe Guo
  5. Matthew C Gillen
  6. Suchi Singh Jain
  7. Debora Sinner
  8. William Zacharias
  9. Daniel T Swarr
(2022)
PI3K signaling specifies proximal-distal fate by driving a developmental gene regulatory network in SOX9+ mouse lung progenitors
eLife 11:e67954.
https://doi.org/10.7554/eLife.67954
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  1. Divya Khattar
  2. Sharlene Fernandes
  3. John Snowball
  4. Minzhe Guo
  5. Matthew C Gillen
  6. Suchi Singh Jain
  7. Debora Sinner
  8. William Zacharias
  9. Daniel T Swarr
(2022)
PI3K signaling specifies proximal-distal fate by driving a developmental gene regulatory network in SOX9+ mouse lung progenitors
eLife 11:e67954.
https://doi.org/10.7554/eLife.67954