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PUBMED FOR HANDHELDS

Journal Abstract Search

108 related items for PubMed ID: 15175017

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  • 5. Thermodynamics of melittin binding to lipid bilayers. Aggregation and pore formation.
    Klocek G, Schulthess T, Shai Y, Seelig J.
    Biochemistry; 2009 Mar 31; 48(12):2586-96. PubMed ID: 19173655
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  • 7. Design of a pH-sensitive pore-forming peptide with improved performance.
    Haas DH, Murphy RM.
    J Pept Res; 2004 Jan 31; 63(1):9-16. PubMed ID: 14984568
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  • 8. Model peptides mimic the structure and function of the N-terminus of the pore-forming toxin sticholysin II.
    Casallanovo F, de Oliveira FJ, de Souza FC, Ros U, Martínez Y, Pentón D, Tejuca M, Martínez D, Pazos F, Pertinhez TA, Spisni A, Cilli EM, Lanio ME, Alvarez C, Schreier S.
    Biopolymers; 2006 Jan 31; 84(2):169-80. PubMed ID: 16170802
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  • 9. Structural effects and lipid membrane interactions of the pH-responsive GALA peptide with fatty acid acylation.
    Lin BF, Missirlis D, Krogstad DV, Tirrell M.
    Biochemistry; 2012 Jun 12; 51(23):4658-68. PubMed ID: 22591394
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  • 10. Testing the limits of rational design by engineering pH sensitivity into membrane-active peptides.
    Wiedman G, Wimley WC, Hristova K.
    Biochim Biophys Acta; 2015 Apr 12; 1848(4):951-7. PubMed ID: 25572997
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  • 11. Structural and functional analysis of the pre-pore and membrane-inserted pore of Cry1Ab toxin.
    Pardo-López L, Gómez I, Muñoz-Garay C, Jiménez-Juarez N, Soberón M, Bravo A.
    J Invertebr Pathol; 2006 Jul 12; 92(3):172-7. PubMed ID: 16777138
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  • 12. Synthesis and characterization of membrane-active GALA-OKT9 conjugates.
    Kuehne J, Murphy RM.
    Bioconjug Chem; 2001 Jul 12; 12(5):742-9. PubMed ID: 11562192
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  • 13. Ion-channel formation assisted by electrostatic interhelical interactions in covalently dimerized amphiphilic helical peptides.
    Taira J, Jelokhani-Niaraki M, Osada S, Kato F, Kodama H.
    Biochemistry; 2008 Mar 25; 47(12):3705-14. PubMed ID: 18302338
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  • 14. Clustered versus Uniform Display of GALA-Peptides on Carrier Nanoparticles: Enhancing the Permeation of Noncharged Fluid Lipid Membranes.
    Locke T, Sofou S.
    Langmuir; 2017 Nov 28; 33(47):13625-13633. PubMed ID: 29096061
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  • 16. The incorporation of GALA peptide into a protein cage for an acid-inducible molecular switch.
    Choi SH, Choi K, Chan Kwon I, Ahn HJ.
    Biomaterials; 2010 Jul 28; 31(19):5191-8. PubMed ID: 20359742
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  • 17. Membrane binding and structure of de novo designed alpha-helical cationic coiled-coil-forming peptides.
    Vagt T, Zschörnig O, Huster D, Koksch B.
    Chemphyschem; 2006 Jun 12; 7(6):1361-71. PubMed ID: 16680794
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  • 18. Dermaseptin S9, an alpha-helical antimicrobial peptide with a hydrophobic core and cationic termini.
    Lequin O, Ladram A, Chabbert L, Bruston F, Convert O, Vanhoye D, Chassaing G, Nicolas P, Amiche M.
    Biochemistry; 2006 Jan 17; 45(2):468-80. PubMed ID: 16401077
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  • 19. Cytosolic targeting of macromolecules using a pH-dependent fusogenic peptide in combination with cationic liposomes.
    Kobayashi S, Nakase I, Kawabata N, Yu HH, Pujals S, Imanishi M, Giralt E, Futaki S.
    Bioconjug Chem; 2009 May 20; 20(5):953-9. PubMed ID: 19388672
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  • 20. Aggregation and membrane permeabilizing properties of designed histidine-containing cationic linear peptide antibiotics.
    Marquette A, Mason AJ, Bechinger B.
    J Pept Sci; 2008 Apr 20; 14(4):488-95. PubMed ID: 18085719
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