1. Plant Biology

Computational modelling of cambium activity provides a regulatory framework for simulating radial plant growth

  1. Ivan Lebovka
  2. Bruno Hay Mele
  3. Xiaomin Liu
  4. Alexandra Zakieva
  5. Theresa Schlamp
  6. Nial Rau Gursanscky
  7. Roeland MH Merks
  8. Ruth Großeholz  Is a corresponding author
  9. Thomas Greb  Is a corresponding author
  1. Heidelberg University, Germany
  2. Università degli Studi di Napoli Federico II, Italy
  3. Gregor Mendel Institute, Austria
  4. Leiden University, Netherlands
https://doi.org/10.7554/eLife.66627
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  1. Ivan Lebovka
  2. Bruno Hay Mele
  3. Xiaomin Liu
  4. Alexandra Zakieva
  5. Theresa Schlamp
  6. Nial Rau Gursanscky
  7. Roeland MH Merks
  8. Ruth Großeholz
  9. Thomas Greb
(2023)
Computational modelling of cambium activity provides a regulatory framework for simulating radial plant growth
eLife 12:e66627.
https://doi.org/10.7554/eLife.66627
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  1. Ivan Lebovka
  2. Bruno Hay Mele
  3. Xiaomin Liu
  4. Alexandra Zakieva
  5. Theresa Schlamp
  6. Nial Rau Gursanscky
  7. Roeland MH Merks
  8. Ruth Großeholz
  9. Thomas Greb
(2023)
Computational modelling of cambium activity provides a regulatory framework for simulating radial plant growth
eLife 12:e66627.
https://doi.org/10.7554/eLife.66627

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https://doi.org/10.7554/eLife.66627