1. Elettro, H., Neukirch, S., Vollrath, F. & Antkowiak, A. 2016. In-drop capillary spooling of spider capture thread inspires hybrid fibers with mixed solid-liquid mechanical properties. Proc. Natl. Acad. Sci., 113: 6143-6147.

2. Fukushima, Y. 1998. Genetically engineered syntheses of tandem repetitive polypeptides consisting of glycine-rich sequence of spider dragline silk. Biopolymers, 45: 269-279.

3. Gosline, J. M., Guerette, P. A., Ortlepp, C. S. & Savage, K. N. 1999. The mechanical design of spider silks: from fibroin sequence to mechanical function. J. Exp. Biol., 202: 3295-3303.

4. Hayashi, C. Y., Shipley, N. H. & Lewis, R. V. 1999. Hypotheses that correlate the sequence, structure and mechanical properties of spider silk proteins. Int. J. Biol. Macromol., 24: 271-275.

5. Hinman, M. B. & Lewis, R. V. 1992. Isolation of a clone encoding a second dragline silk fibroin. Nephila clavipes dragline silk is a two-protein fibre. J. Biol. Chem., 267: 19320-19324.