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Journal Abstract Search

348 related items for PubMed ID: 31012268

  • 21. Molecular-Level "Observations" of the Behavior of Gold Nanoparticles in Aqueous Solution and Interacting with a Lipid Bilayer Membrane.
    Oroskar PA, Jameson CJ, Murad S.
    Methods Mol Biol; 2019; 2000():303-359. PubMed ID: 31148024
    [Abstract] [Full Text] [Related]

  • 22. Lipophilicity of Cationic Ligands Promotes Irreversible Adsorption of Nanoparticles to Lipid Bilayers.
    Lochbaum CA, Chew AK, Zhang X, Rotello V, Van Lehn RC, Pedersen JA.
    ACS Nano; 2021 Apr 27; 15(4):6562-6572. PubMed ID: 33818061
    [Abstract] [Full Text] [Related]

  • 23. Computational simulations of the interaction of lipid membranes with DNA-functionalized gold nanoparticles.
    Lee OS, Schatz GC.
    Methods Mol Biol; 2011 Apr 27; 726():283-96. PubMed ID: 21424456
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  • 25. Ligand Lipophilicity Determines Molecular Mechanisms of Nanoparticle Adsorption to Lipid Bilayers.
    Huang-Zhu CA, Sheavly JK, Chew AK, Patel SJ, Van Lehn RC.
    ACS Nano; 2024 Feb 27; 18(8):6424-6437. PubMed ID: 38354368
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  • 27. Simulation study on gold nanoparticle-cellular membrane complex in endocytosis process.
    Zheng F, Pan J, Yin X, Li J, Wang F, Zhao L.
    J Nanosci Nanotechnol; 2013 Jun 27; 13(6):3990-8. PubMed ID: 23862438
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  • 29. Peripheral Membrane Proteins Facilitate Nanoparticle Binding at Lipid Bilayer Interfaces.
    Melby ES, Allen C, Foreman-Ortiz IU, Caudill ER, Kuech TR, Vartanian AM, Zhang X, Murphy CJ, Hernandez R, Pedersen JA.
    Langmuir; 2018 Sep 11; 34(36):10793-10805. PubMed ID: 30102857
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  • 30. Shedding light on membrane-templated clustering of gold nanoparticles.
    Montis C, Caselli L, Valle F, Zendrini A, Carlà F, Schweins R, Maccarini M, Bergese P, Berti D.
    J Colloid Interface Sci; 2020 Aug 01; 573():204-214. PubMed ID: 32278951
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  • 31. Effects of Hydrophobic Gold Nanoparticles on Structure and Fluidity of SOPC Lipid Membranes.
    Santhosh PB, Tenev T, Šturm L, Ulrih NP, Genova J.
    Int J Mol Sci; 2023 Jun 16; 24(12):. PubMed ID: 37373371
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  • 34. Effect of lipid coating on the interaction between silica nanoparticles and membranes.
    Tada DB, Suraniti E, Rossi LM, Leite CA, Oliveira CS, Tumolo TC, Calemczuk R, Livache T, Baptista MS.
    J Biomed Nanotechnol; 2014 Mar 16; 10(3):519-28. PubMed ID: 24730247
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  • 35. Pathway for insertion of amphiphilic nanoparticles into defect-free lipid bilayers from atomistic molecular dynamics simulations.
    Van Lehn RC, Alexander-Katz A.
    Soft Matter; 2015 Apr 28; 11(16):3165-75. PubMed ID: 25757187
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  • 36. Binding of cationic pentapeptides with modified side chain lengths to negatively charged lipid membranes: Complex interplay of electrostatic and hydrophobic interactions.
    Hoernke M, Schwieger C, Kerth A, Blume A.
    Biochim Biophys Acta; 2012 Jul 28; 1818(7):1663-72. PubMed ID: 22433675
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  • 37. Molecular dynamics simulations of a mixed DOPC/DOPG bilayer.
    Balali-Mood K, Harroun TA, Bradshaw JP.
    Eur Phys J E Soft Matter; 2003 Nov 28; 12 Suppl 1():S135-40. PubMed ID: 15011033
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  • 38. The importance of membrane defects-lessons from simulations.
    Bennett WF, Tieleman DP.
    Acc Chem Res; 2014 Aug 19; 47(8):2244-51. PubMed ID: 24892900
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  • 39. Phospholipid Bilayer Softening Due to Hydrophobic Gold Nanoparticle Inclusions.
    Chakraborty S, Abbasi A, Bothun GD, Nagao M, Kitchens CL.
    Langmuir; 2018 Nov 06; 34(44):13416-13425. PubMed ID: 30350687
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  • 40. Peptide:lipid ratio and membrane surface charge determine the mechanism of action of the antimicrobial peptide BP100. Conformational and functional studies.
    Manzini MC, Perez KR, Riske KA, Bozelli JC, Santos TL, da Silva MA, Saraiva GK, Politi MJ, Valente AP, Almeida FC, Chaimovich H, Rodrigues MA, Bemquerer MP, Schreier S, Cuccovia IM.
    Biochim Biophys Acta; 2014 Jul 06; 1838(7):1985-99. PubMed ID: 24743023
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