Sources
Hinman, M.B., Jones, J.A. and Lewis, V.R. Synthetic spider silk: a modular fibre. Trends in Biotechnology, 2000, 18 (9) 374-379.
Hayashi, C.Y., Shipley, N.H. and Lewis, R.V. Hypotheses that correlate the sequence, structure, and mechanical properties of spider silk proteins. Int. J. Biol. Macromolecules, 1999, 24 (2-3), 265-270.
Vollrath, F. and Knight, D.P. Liquid crystalline spinning of spider silk. Nature, 2001, 410 (6828) 541-548
Tatham, A.S. and Shewry, P.R. Elastomeric proteins: biological roles, structures and mechanisms. Trends in Biochemical Science, 2000, 25 (11) 657-571.
Parkhe, A.D. et al. Structural Studies of Spider Silk Proteins in the Fiber. Journal of Molecular Recognition, 1997, 10 (1) 1-6.
Rathore, O. and Sogah, D.Y. Self-Assembly of b-Sheets into Nanostructures by Poly(alanine) Segments Incorporated in Multiblock Copolymers Inspired by Spider Silk. J. Am. Chem. Soc., 2001, 123 (22) 5231-5239.
Rash, L.D. and Hodgson, W.C. Pharmacology and biochemistry of spider venoms. Toxicon, 2002, 40 (3) 225-254.
Escoubas, P., Diochot, S. and Corzo, G. Structure and pharmacology of spider venom neurotoxins. Biochimie, 2000, 82 (9-10) 893-907.
Bode, F., Sachs, F. and Franz, M.R. Tarantula peptide inhibits atrial fibrillation: A peptide from spider venom can prevent the heartbeat from losing its rhythm. Nature, 2001, 409 (6816) 35-36.
Simmons, A.H., Michal, C.A. and Jelenski, L.W. Molecular Orientation and Two-Component Nature of the Crystalline Fraction of Spider Dragline Silk. Science, 1996, 271 84-87.
Image from http://www.gen.umn.edu/courses/1135/lab/reflexlab/synapse.html
Useful Links
The Spider's Web Part 1 and Part 2
Structure, Function, and Biosynthesis of a D-Amino Acid-containing Peptide, w-Agatoxin-TK