Proteome-wide systems genetics identifies UFMylation as a regulator of skeletal muscle function

  1. Jeffrey Molendijk
  2. Ronnie Blazev
  3. Richard J Mills
  4. Yaan-Kit Ng
  5. Kevin I Watt
  6. Daryn Chau
  7. Paul Gregorevic
  8. Peter J Crouch
  9. James BW Hilton
  10. Leszek Lisowski
  11. Peixiang Zhang
  12. Karen Reue
  13. Aldons J Lusis
  14. James Hudson
  15. David E James
  16. Marcus M Seldin
  17. Benjamin L Parker  Is a corresponding author
  1. University of Melbourne, Australia
  2. QIMR Berghofer Medical Research Institute, Australia
  3. University of California, Irvine, United States
  4. University of Sydney, Australia
  5. University of California, Los Angeles, United States

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This article was accepted for publication via eLife's original publishing model. eLife publishes the authors' accepted manuscript as a PDF only version before the full Version of Record is ready for publication. Peer reviews are published along with the Version of Record.

History

  1. Version of Record published
  2. Accepted Manuscript published
  3. Accepted
  4. Received
  5. Preprint posted

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  1. Jeffrey Molendijk
  2. Ronnie Blazev
  3. Richard J Mills
  4. Yaan-Kit Ng
  5. Kevin I Watt
  6. Daryn Chau
  7. Paul Gregorevic
  8. Peter J Crouch
  9. James BW Hilton
  10. Leszek Lisowski
  11. Peixiang Zhang
  12. Karen Reue
  13. Aldons J Lusis
  14. James Hudson
  15. David E James
  16. Marcus M Seldin
  17. Benjamin L Parker
(2022)
Proteome-wide systems genetics identifies UFMylation as a regulator of skeletal muscle function
eLife 11:e82951.
https://doi.org/10.7554/eLife.82951

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https://doi.org/10.7554/eLife.82951