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           Tobolsky AV: Properties and structure of polymers, New York and London, 1960, John Wiley
               & Sons. Inc.
           Urry D, Hugel T, Seitz M, Gaub H, Sheiba L, Dea J, et al.: Elastin: a representative ideal protein
               elastomer, Philos Trans R Soc Lond Ser B 357(1418):169e184, 2002.
           van Beek JD, Beaulieu L, Schafer H, Demura M, Asakura T, Meier BH: Solid-state NMR
               determination of the secondary structure of Samia cynthia ricini silk, Nature 405(6790):
               1077e1079, 2000.
           Van Beek J, Hess S, Vollrath F, Meier B: The molecular structure of spider dragline silk: folding
               and orientation of the protein backbone, Proc Natl Acad Sci USA 99(16):10266e10271,
               2002.
           Van Nimmen E, Gellynck K, Van Langenhove L, Mertens J: The tensile properties of cocoon
               silk of the spider Araneus diadematus, Textil Res J 76(8):619e628, 2006.
           Vehoff T, Gli  sovi  c A, Schollmeyer H, Zippelius A, Salditt T: Mechanical properties of spider
               dragline silk: humidity, hysteresis, and relaxation, Biophys J 93(12):4425e4432, 2007.
           Vollrath F: Strength and structure of spiders’ silks, Rev Mol Biotechnol 74(2):67e83, 2000.
           Vollrath F, Edmonds DT: Modulation of the mechanical properties of spider silk by coating with
               water, 1989.
           Vollrath F, Knight DP: Structure and function of the silk production pathway in the Spider
               Nephila edulis, Int J Biol Macromol 24(2e3):243e249, 1999.
           Vollrath F, Knight DP: Liquid crystalline spinning of spider silk, Nature 410(6828):541e548,
               2001.
           Vollrath F, Porter D: Spider silk as archetypal protein elastomer, Soft Matter 2(5):377e385,
               2006.
           Vollrath F, Holtet T, Thogersen HC, Frische S: Structural organization of spider silk, Proc R Soc
               Lond Ser B 263(1367):147e151, 1996.
           Vollrath F, Knight DP, Hu XW: Silk production in a spider involves acid bath treatment, Proc R
               Soc Lond Ser B 265(1398):817, 1998.
           Vollrath F, Madsen B, Shao Z: The effect of spinning conditions on the mechanics of a spider’s
               dragline silk, Proc R Soc Lond B 268(1483):2339e2346, 2001.
           Volterra V: Theory of functionals of integral and integro-differential equations, Dover Publ.
           Ward IM: Mechanical properties of solid polymers, New York, 1971, Wiley.
           Warwicker J: Comparative studies of fibroins: II. The crystal structures of various fibroins, J Mol
               Biol 2(6):350, 1960. IN1.
           Wilson R: The control of dragline spinning in the garden spider, J Cell Sci 3(64):557e571,
               1962a.
           Wilson R: The structure of the dragline control valves in the garden spider, J Cell Sci 3(64):
               549e555, 1962b.
           Wilson RS: Control of drag-line spinning in certain spiders, Am Zool 9(1):103e111, 1969.
           Witt PN, Reed CF, Peakall DB: A spider’s web: problems in regulatory biology, Springer
               Science & Business Media.
           Work RW: The force-elongation behavior of web fibers and silks forcibly obtained from
               orb-web-spinning spiders, Textil Res J 46(7):485e492, 1976.
           Work RW: Dimensions, birefringences, and force-elongation behavior of major and minor
               ampullate silk fibers from orb-web-spinning spidersdthe effects of wetting on these
               properties, Textil Res J 47(10):650e662, 1977.
           Xia X-X, Qian Z-G, Ki CS, Park YH, Kaplan DL, Lee SY: Native-sized recombinant spider silk
               protein produced in metabolically engineered Escherichia coli results in a strong fiber, Proc
               Natl Acad Sci USA 107(32):14059e14063, 2010.