1. Computational and Systems Biology
  2. Genetics and Genomics

microCT-based phenomics in the zebrafish skeleton reveals virtues of deep phenotyping in a distributed organ system

  1. Matthew Hur
  2. Charlotte A Gistelinck
  3. Philippe Huber
  4. Jane Lee
  5. Marjorie H Thompson
  6. Adrian T Monstad-Rios
  7. Claire J Watson
  8. Sarah K McMenamin
  9. Andy Willaert
  10. David M Parichy
  11. Paul Coucke
  12. Ronald Y Kwon  Is a corresponding author
  1. University of Washington, United States
  2. Ghent University, Belgium
  3. Boston College, United States
  4. University of Virginia, United States
https://doi.org/10.7554/eLife.26014
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  1. Matthew Hur
  2. Charlotte A Gistelinck
  3. Philippe Huber
  4. Jane Lee
  5. Marjorie H Thompson
  6. Adrian T Monstad-Rios
  7. Claire J Watson
  8. Sarah K McMenamin
  9. Andy Willaert
  10. David M Parichy
  11. Paul Coucke
  12. Ronald Y Kwon
(2017)
microCT-based phenomics in the zebrafish skeleton reveals virtues of deep phenotyping in a distributed organ system
eLife 6:e26014.
https://doi.org/10.7554/eLife.26014
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  1. Matthew Hur
  2. Charlotte A Gistelinck
  3. Philippe Huber
  4. Jane Lee
  5. Marjorie H Thompson
  6. Adrian T Monstad-Rios
  7. Claire J Watson
  8. Sarah K McMenamin
  9. Andy Willaert
  10. David M Parichy
  11. Paul Coucke
  12. Ronald Y Kwon
(2017)
microCT-based phenomics in the zebrafish skeleton reveals virtues of deep phenotyping in a distributed organ system
eLife 6:e26014.
https://doi.org/10.7554/eLife.26014

Share this article

https://doi.org/10.7554/eLife.26014