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PUBMED FOR HANDHELDS

Journal Abstract Search


348 related items for PubMed ID: 12625731

  • 41. Non-bioengineered silk gland fibroin protein: characterization and evaluation of matrices for potential tissue engineering applications.
    Mandal BB, Kundu SC.
    Biotechnol Bioeng; 2008 Aug 15; 100(6):1237-50. PubMed ID: 18383269
    [Abstract] [Full Text] [Related]

  • 42. Characterization by Raman microspectroscopy of the strain-induced conformational transition in fibroin fibers from the silkworm Samia cynthia ricini.
    Rousseau ME, Beaulieu L, Lefèvre T, Paradis J, Asakura T, Pézolet M.
    Biomacromolecules; 2006 Sep 15; 7(9):2512-21. PubMed ID: 16961312
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  • 43. Effect of pH and copper(II) on the conformation transitions of silk fibroin based on EPR, NMR, and Raman spectroscopy.
    Zong XH, Zhou P, Shao ZZ, Chen SM, Chen X, Hu BW, Deng F, Yao WH.
    Biochemistry; 2004 Sep 28; 43(38):11932-41. PubMed ID: 15379533
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  • 44. Vibrational 13C-cross-polarization/magic angle spinning NMR spectroscopic and thermal characterization of poly(alanine-glycine) as model for silk I Bombyx mori fibroin.
    Monti P, Taddei P, Freddi G, Ohgo K, Asakura T.
    Biopolymers; 2003 Sep 28; 72(5):329-38. PubMed ID: 12949823
    [Abstract] [Full Text] [Related]

  • 45. A novel method for dissolution and stabilization of non-mulberry silk gland protein fibroin using anionic surfactant sodium dodecyl sulfate.
    Mandal BB, Kundu SC.
    Biotechnol Bioeng; 2008 Apr 15; 99(6):1482-9. PubMed ID: 17969177
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  • 48. Structural changes of Bombyx mori fibroin from silk gland to fiber as evidenced by Terahertz spectroscopy and other methods.
    Wu X, Wu X, Shao M, Yang B.
    Int J Biol Macromol; 2017 Sep 15; 102():1202-1210. PubMed ID: 28487194
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  • 50. Mixed protein blends composed of gelatin and Bombyx mori silk fibroin: effects of solvent-induced crystallization and composition.
    Gil ES, Frankowski DJ, Bowman MK, Gozen AO, Hudson SM, Spontak RJ.
    Biomacromolecules; 2006 Mar 15; 7(3):728-35. PubMed ID: 16529407
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  • 52. Proteome analysis of silk gland proteins from the silkworm, Bombyx mori.
    Zhang P, Aso Y, Yamamoto K, Banno Y, Wang Y, Tsuchida K, Kawaguchi Y, Fujii H.
    Proteomics; 2006 Apr 15; 6(8):2586-99. PubMed ID: 16548058
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  • 54. A study on the flow stability of regenerated silk fibroin aqueous solution.
    Wang H, Zhang Y, Shao H, Hu X.
    Int J Biol Macromol; 2005 Jul 15; 36(1-2):66-70. PubMed ID: 15916801
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  • 55. Wet spinning of Bombyx mori silk fibroin dissolved in N-methyl morpholine N-oxide and properties of regenerated fibres.
    Marsano E, Corsini P, Arosio C, Boschi A, Mormino M, Freddi G.
    Int J Biol Macromol; 2005 Dec 15; 37(4):179-88. PubMed ID: 16303174
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  • 56. Regeneration of the femoral epicondyle on calcium-binding silk scaffolds developed using transgenic silk fibroin produced by transgenic silkworm.
    Nagano A, Tanioka Y, Sakurai N, Sezutsu H, Kuboyama N, Kiba H, Tanimoto Y, Nishiyama N, Asakura T.
    Acta Biomater; 2011 Mar 15; 7(3):1192-201. PubMed ID: 21055485
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  • 57. Microscopic structural analysis of fractured silk fibers from Bombyx mori and Samia cynthia ricini using 13C CP/MAS NMR with a 1mm microcoil MAS NMR probehead.
    Yamauchi K, Yamasaki S, Takahashi R, Asakura T.
    Solid State Nucl Magn Reson; 2010 Jul 15; 38(1):27-30. PubMed ID: 20579856
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  • 58. Structure and structural changes of the silk fibroin from Samia cynthia ricini using nuclear magnetic resonance spectroscopy.
    Asakura T, Nakazawa Y.
    Macromol Biosci; 2004 Mar 15; 4(3):175-85. PubMed ID: 15468207
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  • 59. Studies on middle and posterior silk glands of silkworm (Bombyx mori) using two-dimensional electrophoresis and mass spectrometry.
    Hou Y, Xia Q, Zhao P, Zou Y, Liu H, Guan J, Gong J, Xiang Z.
    Insect Biochem Mol Biol; 2007 May 15; 37(5):486-96. PubMed ID: 17456443
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  • 60. CD and small-angle x-ray scattering of silk fibroin in solution.
    Canetti M, Seves A, Secundo F, Vecchio G.
    Biopolymers; 1989 Sep 15; 28(9):1613-24. PubMed ID: 2775851
    [Abstract] [Full Text] [Related]


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