2012
DOI: 10.1002/adma.201204357
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Engineered Large Spider Eggcase Silk Protein for Strong Artificial Fibers

Abstract: Spiders employ different combinations of silk proteins to produce up to seven types of silks with distinct mechanical properties for various purposes, ranging from prey capture to offspring protection in egg cases. [ 1 ] Generally, spider silks are semicrystalline protein polymers that contain both crystalline and amorphous regions. [ 2 ] Silk fi bers have attracted the attention of the popular media because of their extraordinary mechanical properties which are unusual in comparison with synthetic non-protein… Show more

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Cited by 79 publications
(69 citation statements)
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“…This was also accompanied by a greater tenacity for the recombinant fiber, which may be due to the relatively large size of recombinant TuSp1 protein construct (~378 kDa) that was employed. Perhaps of note, the TuSp1 repetitive domain is more similar in architecture to that of AcSp1 than the other spidroins, with repeats of ~180 amino acids; however, TuSp1 is distinctive in having both a low Gly content and disparate mechanical properties 59,68 . The tertiary structure of the TuSp1 repeat unit in solution is also distinct from that of the W unit, in that it is a tightly packed orthogonal 6-helix bundle 69 .…”
Section: W 3 Fiber Mechanical Propertiesmentioning
confidence: 99%
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“…This was also accompanied by a greater tenacity for the recombinant fiber, which may be due to the relatively large size of recombinant TuSp1 protein construct (~378 kDa) that was employed. Perhaps of note, the TuSp1 repetitive domain is more similar in architecture to that of AcSp1 than the other spidroins, with repeats of ~180 amino acids; however, TuSp1 is distinctive in having both a low Gly content and disparate mechanical properties 59,68 . The tertiary structure of the TuSp1 repeat unit in solution is also distinct from that of the W unit, in that it is a tightly packed orthogonal 6-helix bundle 69 .…”
Section: W 3 Fiber Mechanical Propertiesmentioning
confidence: 99%
“…Additionally, the tensile properties of these fibers fall within the range of previously reported wet-spun fibers from recombinant spidroin solubilized in HFIP. For other types of spidroin, strength and extensibility have ranged between 7-36 MPa and 1-5% for AS fibers 9,11,12,42,44,59 , and, 14-508 MPa and 3-307% for PS (3-5x) fibers 9-12, 42-44, 59 . They are also consistent with reports of post-spin stretching non-silk-based protein fibers in water, specifically native 65 and regenerated 66 hagfish slime threads as well as recombinant vimentin fibers 67 .…”
Section: W 3 Fiber Mechanical Propertiesmentioning
confidence: 99%
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“…Expression of highly repetitive sequences such as the MaSp repetitive region is difficult in heterologous hosts, and therefore most constructs have been considerably smaller than the native spidroins, often including only a small part of the repetitive region and lacking one or both of the terminal domains. The water solubility levels of such constructs have still been very low (around 1% w / v [101,102]), and recombinant spidroins have therefore been dissolved in denaturing agents (reaching solubility levels of 5%–25% w / v [103,104,105]), after which spinning into tough fibers has proven difficult. In the same way that regenerated (denatured) silkworm silk cannot form fibers that are similar to native silk, it is highly unlikely that artificial fibers spun from denatured recombinant spidroins can capture the true structure and toughness of native spider silk.…”
Section: Conclusion and Future Perspectivesmentioning
confidence: 99%
“…At least three different proteins have been found in tubuliform silk: tubuliform spidroin 1 (TuSp1), egg case protein 1 and 2 (ECP-1 and ECP-2). Tutuliform silks is the second most studied spider fiber following the dragline silk and the primary sequence and structure of tobuliform silk proteins have been clearly demonstrated (Lin et al, 2009(Lin et al, , 2013Gnesa et al, 2012). Lin et al (2013) produced TuSp1 consisting of both repetitive and conserved terminal domains using recombinant DNA technology, and the artificial fibers spun from the recombinant TuSp1 showed outstanding mechanical properties.…”
Section: Non-web Spider Silk Materialsmentioning
confidence: 99%