Accès gratuit
Numéro
Med Sci (Paris)
Volume 19, Numéro 12, Décembre 2003
Page(s) 1175 - 1179
Section Nouvelles
DOI https://doi.org/10.1051/medsci/200319121175
Publié en ligne 15 décembre 2003
  1. Marshall BT, Long M, Piper JW, Yago T, McEver RP, Zhu C. Direct observation of catch bonds involving cell adhesion molecules. Nature 2003; 423 : 190–3. [Google Scholar]
  2. Dembo M, Torney DC, Saxman K, Hammer D. The reaction-limited kinetics of membrane-to-surface adhesion and detachment. Proc Roy Soc Lond 1988; 234 : 55–83. [Google Scholar]
  3. Bongrand P. Ligand-receptor interactions. Rep Prog Phys 1999; 62 : 921–68. [Google Scholar]
  4. Von Andrian UH, Chambers JD, McEvoy LM, Bargatze RF, Arfors KE, Butcher EC. Two-step model of leukocyte-endothelial cell interaction in inflammation : distinct roles for LECAM-1 and the leukocyte beta 2 integrins in vivo. Proc Natl Acad Sci USA 1991; 88 : 7538–42. [Google Scholar]
  5. Lawrence MB, Springer TA. Leukocytes roll on a selectin at physiologic flow rates : distinction from and prerequisite for adhesion through integrins. Cell 1991; 65 : 859–73. [Google Scholar]
  6. Lawrence MB, Springer TA. Neutrophils roll on E-selectin. J Immunol 1993; 151 : 6338–46. [Google Scholar]
  7. Brunk DK, Goetz DJ, Hammer DA. Sialyl Lewisx/E-selectin-mediated rolling in a cell free system. Biophys J 1996; 71 : 2902–7. [Google Scholar]
  8. Finger EB, Puri KD, Alon R, Lawrence MB, VonAndrian UH, Springer TA. Adhesion through L-selectin requires a threshold hydrodynamic shear. Nature 1996; 379 : 266–9. [Google Scholar]
  9. Williams AF. Cellular interactions. Out of equilibrium. Nature 1991; 352 : 473–4. [Google Scholar]
  10. Bell GI. Models for the specific adhesion of cells to cells. Science 1978; 200 : 618–27. [Google Scholar]
  11. Eyring H. The activated complex in chemical reactions. J Chem Phys 1935; 3 : 107–15. [Google Scholar]
  12. Kramers HA. Brownian motion in a field of force and the diffusion model of chemical reactions. Physica 1940; VII : 284–304. [Google Scholar]
  13. Bruinsma R. Les liaisons dangereuses. Adhesion molecules do it statistically. Proc Natl Acad Sci USA 1997; 94 : 375–6. [Google Scholar]
  14. Tha SP, Shuster J, Goldsmith HL. Interaction forces between red cells agglutinated by antibody. IV Time and force dependence of break-up. Biophys J 1986; 50 : 1117–26. [Google Scholar]
  15. Evans E, Berk D, Leung A. Detachment of agglutinin-bonded red blood cells. I. Forces to rupture molecular-point attachments. Biophys J 1991; 59 : 838–48. [Google Scholar]
  16. Kaplanski G, Farnarier C, Tissot O, et al. Granulocyte-endothelium initial adhesion. Analysis of transient binding events mediated by E-selectin in a laminar shear flow. Biophys J 1993; 64 : 1922–33. [Google Scholar]
  17. Alon R, Hammer DA, Springer TA. Lifetime of P-selectin-carbohydrate bond and its response to tensile force in hydrodynamic flow. Nature 1995; 374 : 539–42. [Google Scholar]
  18. Chen S, Springer TA. Selectin receptor-ligand bonds : formation limited by shear rate and dissociation governed by the Bell model. Proc Natl Acad Sci USA 2001; 98 : 950–5. [Google Scholar]
  19. Florin EL, Moy VT, Gaub HE. Adhesion forces between individual ligand-receptor pairs. Science 1994; 264 : 415–7. [Google Scholar]
  20. Lee GU, Kidwell DA, Colton RJ. Sensing discrete streptavidin-biotin interactions with atomic force microscopy. Langmuir 1994; 10 : 354–7. [Google Scholar]
  21. Pierres A, Benoliel AM, Bongrand P. Measuring the lifetime of bonds made between surface-linked molecules. J Biol Chem 1995; 270 : 26586–92. [Google Scholar]
  22. Evans E, Merkel R, Ritchie K, Tha S, Zilker A. Picoforce method to probe submicroscopic actions in biomembrane adhesion. In : Bongrand P, Claesson M, Curtis ASG, eds. Studying cell adhesion. Heidelberg : Springer Verlag, 1994 : 125–39. [Google Scholar]
  23. Merkel R, Nassoy P, Leung A, Ritchie K, Evans E. Energy landscapes of receptor-ligand bonds explored with dynamic force spectroscopy. Nature 1999; 397 :50–3. [Google Scholar]
  24. Evans E, Leung A, Hammer D, Simon S. Chemically distinct transition states govern rapid dissociation of single L-selectin bonds under force. Proc Natl Acad Sci USA 2001; 98 : 3784–9. [Google Scholar]
  25. Smith MJ, Berg EL, Lawrence MB. A direct comparison of selectin-mediated transient, adhesive events using high temporal resolution. Biophys J 1999; 77 : 3371–83. [Google Scholar]
  26. Marshall B, McEver RP, Zhu C. Kinetic rates and their force dependence of the P-selectin/PSGL-1 interaction measured by atomic force microscopy. BED (Bioengeneering Conference ASME) 2001; 50 : 775–6. [Google Scholar]
  27. Pierres A, Benoliel AM, Bongrand P, van der Merwe PA. Determination of the lifetime and force dependence of interactions of single bonds between surface-attached CD2 and CD48 adhesion molecules. Proc Natl Acad Sci USA 1996; 93 : 15114–8. [Google Scholar]
  28. Izrailev S, Stepaniants S, Balsera M, Oono Y, Schulten K. Molecular dynamics study of unbinding of the avidin-biotin complex. Biophys J 1997; 72 : 1568–81. [Google Scholar]

Les statistiques affichées correspondent au cumul d'une part des vues des résumés de l'article et d'autre part des vues et téléchargements de l'article plein-texte (PDF, Full-HTML, ePub... selon les formats disponibles) sur la platefome Vision4Press.

Les statistiques sont disponibles avec un délai de 48 à 96 heures et sont mises à jour quotidiennement en semaine.

Le chargement des statistiques peut être long.