1. Cell Biology
  2. Structural Biology and Molecular Biophysics

Fibrinogen αC-subregions critically contribute blood clot fibre growth, mechanical stability and resistance to fibrinolysis

  1. Helen McPherson
  2. Cedric Duval
  3. Stephen R Baker
  4. Matthew S Hindle
  5. Lih T Cheah
  6. Nathan L Asquith
  7. Marco M Domingues
  8. Victoria C Ridger
  9. Simon DA Connell
  10. Khalid Naseem
  11. Helen Philippou
  12. Ramzi A Ajjan
  13. Robert AS Ariens  Is a corresponding author
  1. University of Leeds, United Kingdom
  2. Wake Forest University, United States
  3. Harvard Medical School, United States
  4. Universidade de Lisboa, Portugal
  5. University of Sheffield, United Kingdom
  6. University of Leeds, United States
https://doi.org/10.7554/eLife.68761
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  1. Helen McPherson
  2. Cedric Duval
  3. Stephen R Baker
  4. Matthew S Hindle
  5. Lih T Cheah
  6. Nathan L Asquith
  7. Marco M Domingues
  8. Victoria C Ridger
  9. Simon DA Connell
  10. Khalid Naseem
  11. Helen Philippou
  12. Ramzi A Ajjan
  13. Robert AS Ariens
(2021)
Fibrinogen αC-subregions critically contribute blood clot fibre growth, mechanical stability and resistance to fibrinolysis
eLife 10:e68761.
https://doi.org/10.7554/eLife.68761
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  1. Helen McPherson
  2. Cedric Duval
  3. Stephen R Baker
  4. Matthew S Hindle
  5. Lih T Cheah
  6. Nathan L Asquith
  7. Marco M Domingues
  8. Victoria C Ridger
  9. Simon DA Connell
  10. Khalid Naseem
  11. Helen Philippou
  12. Ramzi A Ajjan
  13. Robert AS Ariens
(2021)
Fibrinogen αC-subregions critically contribute blood clot fibre growth, mechanical stability and resistance to fibrinolysis
eLife 10:e68761.
https://doi.org/10.7554/eLife.68761