1Robert W. Work. The force-elongation behavior of web fibers and silks forcibly obtained from orb-web-spinning spiders[J]. Textile Res. J, 1976(46): 485~492.
2Robert W. Work. Mechanisms of major ampullate sik fiber formation by orb-web-spinning spiders[J]. Trans. Amer.Microsc. Soc, 1977(96): 170~189.
3Denny, M. The physical properties of spider's silk and their role in the design of the orb-webs[J]. J. Exp.Biol, 1976(65): 483~506.
4Griffiths, J. R., Salanitri, V. R. Strength of spider silk[J]. Journal of Materials Science, 1980(15):491~496.
5Kitagawa, M., Kitayama, T. Mechnical properties of dragline and capture thread for the spider Nephlia clavata[J].Journal of Materials Science, 1997(32):2005~2012.
6Moore AMF, Tran K. Material properties of cobweb silk from the black widow spider Latrodectus mactans[J].International Journal of Biological Macromolecules, 1999 (24): 277~282.
7Shigeyoshi Osaki. Is the mechanical strength of spider's drag-lines reasonable as lifeline? [J]. International Journal of Biological Macromolecules, 1999(24):283~287.
9Lynn W Jelinski. Establishing the relationship between structure and mechanical function in silks[J]. Current Opinion insolid state and materials science, 1998(3):237~245.
10Z. Z. Shao, Fritz Vollrath. The effect of solvents on the contraction and mechanical properties of spider silk[J]. Polymer, 1999(40): 1799~1806.
二级参考文献53
1北条舒正.续娟丝的构造[M].日本:信教印刷株式会社,1980.214.
2盛家镛 等.蚕丝蛋白质圆二色光与二级结构[J].纺织学报,1984,(12):715-719.
3尹长民.无脊椎动物学实验[M].北京:高等教育出版社,1991.229-231.
4[3]Grubb D T, Jelinski L W. Fiber morphology of spider silk :the effect of tensile deformation. Macromolecules, 1997 ;30:2860 - 2867
5[4]Simmons A H, Michal C A, Jelinski K W. Molecular orientation and two-component nature of the crystalline fraction of spider dragline silk.Science, 1996,271:84- 87
6[5]Yang Z, Grubb D T, Jelinskit L W, Small-angle X-ray scattering of spider dragline silk. Macromolecules, 1997:30:8254 - 8261
7[6]Rickel C, Muller M, Vollrath F. In situ X-ray diffraction during forced silking of spider silk. Macromolecules, 1999:32:4464 - 4466
8[7]Thiel B L, Guess K B, Christopher V. Non-periodic lattice crystals in the hierarchical microstructure of spider (major ampullate )silk. John Wiley and Sons Inc Biopoly, 1997;41:703 - 719
9Griffiths JR, Saldnitri VR. Strength of spider silk [ J ]. Journal of Materials Science, 1980,15:491 ~ 496.
10Kitagawa M, Kitayama T. Mechnical properties of dragline and capture thread for the spider Nephlia clavata [ J ]. Journal of Materials Science, 1997,32:2005 ~ 2012.
8Huang Jia, Wong Cheryl, George Anne, et al. The effect of genetically engineered spider silk-dentin matrix protein 1 chimeric protein on hydroxyapatite nucleation [J]. Biomaterials, 2007 (28): 2358--2367.
9Zhu Jingxin, Shao Huili, Hu Xuechao. Morphology and structure of electrospun mats from regenetated silk fibroin aqueous solutions with adjusting pH [J]. Biological Maeromolecules, 2007 (41): 469--474.
10Gellynck K,Verdonk P,Almqvist K,et al.[J].European Cells and Materials,2005,10:2
