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Journal Abstract Search

194 related items for PubMed ID: 27019270

  • 21. Nanoscale Visualization of Morphological Alteration of Live-Cell Membranes by the Interaction with Oligoarginine Cell-Penetrating Peptides.
    Ida H, Takahashi Y, Kumatani A, Shiku H, Murayama T, Hirose H, Futaki S, Matsue T.
    Anal Chem; 2021 Apr 06; 93(13):5383-5393. PubMed ID: 33769789
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  • 23. Probing the impact of valency on the routing of arginine-rich peptides into eukaryotic cells.
    Kawamura KS, Sung M, Bolewska-Pedyczak E, Gariépy J.
    Biochemistry; 2006 Jan 31; 45(4):1116-27. PubMed ID: 16430208
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  • 24. [Development of an oligoarginine peptide displaying rapid cell penetration for improved intestinal absorption].
    Takayama K.
    Yakugaku Zasshi; 2014 Jan 31; 134(1):55-61. PubMed ID: 24389618
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  • 26. TAT peptide internalization: seeking the mechanism of entry.
    Vivès E, Richard JP, Rispal C, Lebleu B.
    Curr Protein Pept Sci; 2003 Apr 31; 4(2):125-32. PubMed ID: 12678851
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  • 27. Translocation of cell-penetrating peptides across the plasma membrane is controlled by cholesterol and microenvironment created by membranous proteins.
    Pae J, Säälik P, Liivamägi L, Lubenets D, Arukuusk P, Langel Ü, Pooga M.
    J Control Release; 2014 Oct 28; 192():103-13. PubMed ID: 25016968
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  • 28. Current Understanding of Physicochemical Mechanisms for Cell Membrane Penetration of Arginine-rich Cell Penetrating Peptides: Role of Glycosaminoglycan Interactions.
    Takechi-Haraya Y, Saito H.
    Curr Protein Pept Sci; 2018 Oct 28; 19(6):623-630. PubMed ID: 29332576
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  • 29. Uptake Mechanism of Cell-Penetrating Peptides.
    Gestin M, Dowaidar M, Langel Ü.
    Adv Exp Med Biol; 2017 Oct 28; 1030():255-264. PubMed ID: 29081057
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  • 32. High density of octaarginine stimulates macropinocytosis leading to efficient intracellular trafficking for gene expression.
    Khalil IA, Kogure K, Futaki S, Harashima H.
    J Biol Chem; 2006 Feb 10; 281(6):3544-51. PubMed ID: 16326716
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  • 36. Arginine-rich cell-penetrating peptide-modified extracellular vesicles for active macropinocytosis induction and efficient intracellular delivery.
    Nakase I, Noguchi K, Aoki A, Takatani-Nakase T, Fujii I, Futaki S.
    Sci Rep; 2017 May 16; 7(1):1991. PubMed ID: 28512335
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  • 37. 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 16; 1828(9):2134-42. PubMed ID: 23711826
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  • 38. Direct and rapid cytosolic delivery using cell-penetrating peptides mediated by pyrenebutyrate.
    Takeuchi T, Kosuge M, Tadokoro A, Sugiura Y, Nishi M, Kawata M, Sakai N, Matile S, Futaki S.
    ACS Chem Biol; 2006 Jun 20; 1(5):299-303. PubMed ID: 17163758
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  • 39. Clathrin-mediated endocytosis of quantum dot-peptide conjugates in living cells.
    Anas A, Okuda T, Kawashima N, Nakayama K, Itoh T, Ishikawa M, Biju V.
    ACS Nano; 2009 Aug 25; 3(8):2419-29. PubMed ID: 19653641
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  • 40. Cell Penetrating Peptides for Chemical Biological Studies.
    Nakase I, Takeuchi T, Futaki S.
    Methods Mol Biol; 2015 Aug 25; 1324():387-96. PubMed ID: 26202284
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