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Journal Abstract Search

323 related items for PubMed ID: 20023846

  • 1. Hierarchical structures made of proteins. The complex architecture of spider webs and their constituent silk proteins.
    Heim M, Römer L, Scheibel T.
    Chem Soc Rev; 2010 Jan; 39(1):156-64. PubMed ID: 20023846
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  • 2. Behavioural and biomaterial coevolution in spider orb webs.
    Sensenig A, Agnarsson I, Blackledge TA.
    J Evol Biol; 2010 Sep 01; 23(9):1839-56. PubMed ID: 20629854
    [Abstract] [Full Text] [Related]

  • 3. Spider minor ampullate silk proteins are constituents of prey wrapping silk in the cob weaver Latrodectus hesperus.
    La Mattina C, Reza R, Hu X, Falick AM, Vasanthavada K, McNary S, Yee R, Vierra CA.
    Biochemistry; 2008 Apr 22; 47(16):4692-700. PubMed ID: 18376847
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  • 4. Giant wood spider Nephila pilipes alters silk protein in response to prey variation.
    Tso IM, Wu HC, Hwang IR.
    J Exp Biol; 2005 Mar 22; 208(Pt 6):1053-61. PubMed ID: 15767307
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  • 6. Evolution of supercontraction in spider silk: structure-function relationship from tarantulas to orb-weavers.
    Boutry C, Blackledge TA.
    J Exp Biol; 2010 Oct 15; 213(Pt 20):3505-14. PubMed ID: 20889831
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  • 11. A structural view on spider silk proteins and their role in fiber assembly.
    Hagn F.
    J Pept Sci; 2012 Jun 15; 18(6):357-65. PubMed ID: 22570231
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  • 13. Evidence from flagelliform silk cDNA for the structural basis of elasticity and modular nature of spider silks.
    Hayashi CY, Lewis RV.
    J Mol Biol; 1998 Feb 06; 275(5):773-84. PubMed ID: 9480768
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  • 14. Spider silk: understanding the structure-function relationship of a natural fiber.
    Humenik M, Scheibel T, Smith A.
    Prog Mol Biol Transl Sci; 2011 Feb 06; 103():131-85. PubMed ID: 21999996
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  • 15. A proposed model for dragline spider silk self-assembly: insights from the effect of the repetitive domain size on fiber properties.
    Ittah S, Barak N, Gat U.
    Biopolymers; 2010 May 06; 93(5):458-68. PubMed ID: 20014164
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  • 16. Spider dragline silk: correlated and mosaic evolution in high-performance biological materials.
    Swanson BO, Blackledge TA, Summers AP, Hayashi CY.
    Evolution; 2006 Dec 06; 60(12):2539-51. PubMed ID: 17263115
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  • 17. Prey type, vibrations and handling interactively influence spider silk expression.
    Blamires SJ, Chao IC, Tso IM.
    J Exp Biol; 2010 Nov 15; 213(Pt 22):3906-10. PubMed ID: 21037070
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  • 18. Quasistatic and continuous dynamic characterization of the mechanical properties of silk from the cobweb of the black widow spider Latrodectus hesperus.
    Blackledge TA, Swindeman JE, Hayashi CY.
    J Exp Biol; 2005 May 15; 208(Pt 10):1937-49. PubMed ID: 15879074
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  • 19. Spider capture silk: performance implications of variation in an exceptional biomaterial.
    Swanson BO, Blackledge TA, Hayashi CY.
    J Exp Zool A Ecol Genet Physiol; 2007 Nov 01; 307(11):654-66. PubMed ID: 17853401
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  • 20. Segmented nanofibers of spider dragline silk: atomic force microscopy and single-molecule force spectroscopy.
    Oroudjev E, Soares J, Arcdiacono S, Thompson JB, Fossey SA, Hansma HG.
    Proc Natl Acad Sci U S A; 2002 Apr 30; 99 Suppl 2(Suppl 2):6460-5. PubMed ID: 11959907
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