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PUBMED FOR HANDHELDS

Journal Abstract Search


159 related items for PubMed ID: 23913717

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  • 3. Formation of Amphipathic Amyloid Monolayers from Fungal Hydrophobin Proteins.
    Ball SR, Pham CLL, Lo V, Morris VK, Kwan AH, Sunde M.
    Methods Mol Biol; 2020; 2073():55-72. PubMed ID: 31612436
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  • 5. Structural analysis of hydrophobins.
    Sunde M, Kwan AH, Templeton MD, Beever RE, Mackay JP.
    Micron; 2008 Oct; 39(7):773-84. PubMed ID: 17875392
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  • 6. Applications of hydrophobins: current state and perspectives.
    Wösten HA, Scholtmeijer K.
    Appl Microbiol Biotechnol; 2015 Feb; 99(4):1587-97. PubMed ID: 25564034
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  • 10. Self-assembly of two hydrophobins from marine fungi affected by interaction with surfaces.
    Cicatiello P, Dardano P, Pirozzi M, Gravagnuolo AM, De Stefano L, Giardina P.
    Biotechnol Bioeng; 2017 Oct; 114(10):2173-2186. PubMed ID: 28543036
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  • 12. Comparative analysis of surface coating properties of five hydrophobins from Aspergillus nidulans and Trichoderma reseei.
    Winandy L, Hilpert F, Schlebusch O, Fischer R.
    Sci Rep; 2018 Aug 13; 8(1):12033. PubMed ID: 30104653
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  • 15. Surface-Induced Hydrophobin Assemblies with Versatile Properties and Distinct Underlying Structures.
    Siddiquee R, Lo V, Johnston CL, Buffier AW, Ball SR, Ciofani JL, Zeng YC, Mahjoub M, Chrzanowski W, Rezvani-Baboli S, Brown L, Pham CLL, Sunde M, Kwan AH.
    Biomacromolecules; 2023 Nov 13; 24(11):4783-4797. PubMed ID: 37747808
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  • 17. Fungal Hydrophobin Proteins Produce Self-Assembling Protein Films with Diverse Structure and Chemical Stability.
    Lo VC, Ren Q, Pham CL, Morris VK, Kwan AH, Sunde M.
    Nanomaterials (Basel); 2014 Sep 17; 4(3):827-843. PubMed ID: 28344251
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  • 19. Spontaneous self-assembly of SC3 hydrophobins into nanorods in aqueous solution.
    Zykwinska A, Guillemette T, Bouchara JP, Cuenot S.
    Biochim Biophys Acta; 2014 Jul 17; 1844(7):1231-7. PubMed ID: 24732577
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