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Journal Abstract Search

325 related items for PubMed ID: 21969533

  • 1. Translocation of HIV TAT peptide and analogues induced by multiplexed membrane and cytoskeletal interactions.
    Mishra A, Lai GH, Schmidt NW, Sun VZ, Rodriguez AR, Tong R, Tang L, Cheng J, Deming TJ, Kamei DT, Wong GC.
    Proc Natl Acad Sci U S A; 2011 Oct 11; 108(41):16883-8. PubMed ID: 21969533
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  • 2. Cell-Surface Interactions on Arginine-Rich Cell-Penetrating Peptides Allow for Multiplex Modes of Internalization.
    Futaki S, Nakase I.
    Acc Chem Res; 2017 Oct 17; 50(10):2449-2456. PubMed ID: 28910080
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  • 3. Glycosaminoglycans are required for translocation of amphipathic cell-penetrating peptides across membranes.
    Pae J, Liivamägi L, Lubenets D, Arukuusk P, Langel Ü, Pooga M.
    Biochim Biophys Acta; 2016 Aug 17; 1858(8):1860-7. PubMed ID: 27117133
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  • 7. Membrane Crossing and Membranotropic Activity of Cell-Penetrating Peptides: Dangerous Liaisons?
    Walrant A, Cardon S, Burlina F, Sagan S.
    Acc Chem Res; 2017 Dec 19; 50(12):2968-2975. PubMed ID: 29172443
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  • 8. Cell-penetrating HIV1 TAT peptides can generate pores in model membranes.
    Ciobanasu C, Siebrasse JP, Kubitscheck U.
    Biophys J; 2010 Jul 07; 99(1):153-62. PubMed ID: 20655843
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  • 9. Tat(48-60) peptide amino acid sequence is not unique in its cell penetrating properties and cell-surface glycosaminoglycans inhibit its cellular uptake.
    Subrizi A, Tuominen E, Bunker A, Róg T, Antopolsky M, Urtti A.
    J Control Release; 2012 Mar 10; 158(2):277-85. PubMed ID: 22100438
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  • 10. siRNA and pharmacological inhibition of endocytic pathways to characterize the differential role of macropinocytosis and the actin cytoskeleton on cellular uptake of dextran and cationic cell penetrating peptides octaarginine (R8) and HIV-Tat.
    Al Soraj M, He L, Peynshaert K, Cousaert J, Vercauteren D, Braeckmans K, De Smedt SC, Jones AT.
    J Control Release; 2012 Jul 10; 161(1):132-41. PubMed ID: 22465675
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  • 13. Cholesterol re-organisation and lipid de-packing by arginine-rich cell penetrating peptides: Role in membrane translocation.
    Almeida C, Maniti O, Di Pisa M, Swiecicki JM, Ayala-Sanmartin J.
    PLoS One; 2019 Jul 10; 14(1):e0210985. PubMed ID: 30673771
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  • 15. Cell membranes open "doors" for cationic nanoparticles/biomolecules: insights into uptake kinetics.
    Lin J, Alexander-Katz A.
    ACS Nano; 2013 Dec 23; 7(12):10799-808. PubMed ID: 24251827
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  • 17. Membrane interactions of two arginine-rich peptides with different cell internalization capacities.
    Walrant A, Vogel A, Correia I, Lequin O, Olausson BE, Desbat B, Sagan S, Alves ID.
    Biochim Biophys Acta; 2012 Jul 23; 1818(7):1755-63. PubMed ID: 22402267
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  • 18. Thermodynamics of cell-penetrating HIV1 TAT peptide insertion into PC/PS/CHOL model bilayers through transmembrane pores: the roles of cholesterol and anionic lipids.
    Hu Y, Patel S.
    Soft Matter; 2016 Aug 10; 12(32):6716-27. PubMed ID: 27435187
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  • 19. Effects of pyrenebutyrate on the translocation of arginine-rich cell-penetrating peptides through artificial membranes: recruiting peptides to the membranes, dissipating liquid-ordered phases, and inducing curvature.
    Katayama S, Nakase I, Yano Y, Murayama T, Nakata Y, Matsuzaki K, Futaki S.
    Biochim Biophys Acta; 2013 Sep 10; 1828(9):2134-42. PubMed ID: 23711826
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  • 20. Cell-penetrating peptide induces leaky fusion of liposomes containing late endosome-specific anionic lipid.
    Yang ST, Zaitseva E, Chernomordik LV, Melikov K.
    Biophys J; 2010 Oct 20; 99(8):2525-33. PubMed ID: 20959093
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