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Journal Abstract Search

197 related items for PubMed ID: 8422468

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  • 4. A novel strain energy relationship for red blood cell membrane skeleton based on spectrin stiffness and its application to micropipette deformation.
    Svetina S, Kokot G, Kebe TŠ, Žekš B, Waugh RE.
    Biomech Model Mechanobiol; 2016 Jun; 15(3):745-58. PubMed ID: 26376642
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  • 5. A posttranslational modification of beta-actin contributes to the slow dissociation of the spectrin-protein 4.1-actin complex of irreversibly sickled cells.
    Shartava A, Monteiro CA, Bencsath FA, Schneider K, Chait BT, Gussio R, Casoria-Scott LA, Shah AK, Heuerman CA, Goodman SR.
    J Cell Biol; 1995 Mar; 128(5):805-18. PubMed ID: 7876306
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  • 8. Deformation behaviour of stomatocyte, discocyte and echinocyte red blood cell morphologies during optical tweezers stretching.
    Geekiyanage NM, Sauret E, Saha SC, Flower RL, Gu YT.
    Biomech Model Mechanobiol; 2020 Oct; 19(5):1827-1843. PubMed ID: 32100179
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  • 10. Stress-free state of the red blood cell membrane and the deformation of its skeleton.
    Svelc T, Svetina S.
    Cell Mol Biol Lett; 2012 Jun; 17(2):217-27. PubMed ID: 22302416
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  • 13. Erythrocyte membrane vesicles and irreversibly sickled cells bind protein S.
    Lane PA, O'Connell JL, Marlar RA.
    Am J Hematol; 1994 Dec; 47(4):295-300. PubMed ID: 7977302
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  • 15. Actin protofilament orientation in deformation of the erythrocyte membrane skeleton.
    Picart C, Dalhaimer P, Discher DE.
    Biophys J; 2000 Dec; 79(6):2987-3000. PubMed ID: 11106606
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  • 19. αI-spectrin represents evolutionary optimization of spectrin for red blood cell deformability.
    Hale J, An X, Guo X, Gao E, Papoin J, Blanc L, Hillyer CD, Gratzer W, Baines A, Mohandas N.
    Biophys J; 2021 Sep 07; 120(17):3588-3599. PubMed ID: 34352252
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