Acknowledgement
This research was supported by the National Research Foundation of Korea (NRF) grant funded by the Korea government (MSIT) (No. 2019R1I1A3A01062105).
References
- H. Akai, in The Ultrastructure and Functions of the Silk Gland Cells of Bombyx mori, ed. by R. C. King, H. Akai. Insect ultrastructure (Springer, Boston, 1984), pp. 323-364
- H. Akai, M. Kobayash, Incorporation of labeled thymidine into the silk gland of the silkworm. Nature 206, 847-848 (1965)
- N.N. Ashton, R.J. Stewart, Aquatic caddisworm silk is solidified by environmental metal ions during the natural fiber-spinning process. FASEB J. 33, 572-583 (2019)
- N.N. Ashton, D. Taggart, R.J. Stewart, Silk tape nanostructure and silk gland anatomy of trichoptera. Biopolymers 97, 432-445 (2012)
- N.N. Ashton, C. Wang, R.J. Stewart, in The Adhesive Tape-like Silk of Aquatic Caddisworms. Biological adhesives (Springer, Berlin, 2016), pp. 107-128
- S. Busse, T.H. Buscher, K.E. Taylor, L. Heepe, J.S. Edgerly, S.N. Gorb, Pressureinduced silk spinning mechanism in webspinners (Insecta: Embioptera). Soft Matter 47, 9742-9750 (2019)
- C.L. Craig, Evolution of arthropod silks. Annu. Rev. Entomol. 42, 231-267 (1997)
- S.C. Crew, B. Opell, The features of capture threads and orb-webs produced by unfed Cuyclosa turbinata (Araneae: Araneidae). J. Arachnol. 34, 427-434 (2006)
- M.S. Engster, Studies on silk secretion in the Trichoptera (F. Limnephidae). I. Histology, histochemistry, and ultrastructure of the silk glands. Cell Tissue Res. 169, 77-92 (1976)
- H. Kim, J.K. Seo, K.J. Kim, K.H. Chung, M.J. Moon, Fine structural reconstruction on the testicular cyst of the furrow orb weaver Larinioides cornutus by 3D volume rendering. Anim. Cells Sys. 20, 267-275 (2016)
- J. Kovoor, in Comparative Structure and Histochemistry of Silk-Producing Organs in Arachnids, ed. by W. Nentwig. Ecophysiology of spiders (Springer-Verlag, Berlin, 1987), pp. 159-186
- K. Kronenberger, C. Dicko, F. Vollrath, A novel marine silk. Naturwissenschaften 99, 3-12 (2012)
- M.J. Moon, Fine structure of the aggregate silk nodules in the orb-web spider Nephila clavata. Anim. Cells Sys. 22, 421-428 (2018)
- M.J. Moon, J.G. Park, Spinning apparatus for the dragline silk in the funnel-web spider Agelena limbata (Araneae: Agelenidae). Anim. Cells Sys. 12, 109-116 (2008)
- M.J. Moon, E.K. Tillinghast, Fine structure of the glandular epithelium during secretory silk production in the black widow spider, Latrodectus mactans. Kor. J. Biol. Sci. 6, 327-333 (2002)
- M.J. Moon, E.K. Tillinghast, Silk production after mechanical pulling stimulation in the ampullate silk glands of the barn spider, Araneus cavaticus. Entomol. Res. 34, 123-130 (2004)
- M.J. Moon, S.C. Yang, Microstructure of pretarsal pulvilli in the shield bug Acanthosoma spinicolle (Heteroptera: Acanthosomatidae). Entomol. Res. 44, 199-206 (2014)
- J.P. O'Brien, S.R. Fahnestock, Y. Termonia, K.H. Gardner, Nylons from nature: Synthetic analogs to spider silk. Adv. Mater. 10, 1185-1195 (1998)
- K. Ohkawa, T. Nomura, R. Arai, K. Abe, M. Tsukada, K. Hirabayashi, in Characterization of Underwater Silk Proteins from Caddisfly Larva, Stenopsyche marmorata, ed. by T. Asakura, T. Miller. Biotechnology of silk - biologically-inspired systems, vol 5 (Springer, Dordrecht, 2014)
- J.G. Park, M.J. Moon, Fine structural analysis on triad spinning spigots of an orbweb spider's capture threads. Entomol. Res. 44, 121-129 (2014)
- K.M. Rudall, W. Kenchington, Arthropod silks: The problem of fibrous proteins in animal tissues. Annu. Rev. Entomol. 16, 73-96 (1971)
- S. Sasaki, E. Nakajima, Y. Fujii-Kuriyama, Y. Tashiro, Intracellular transport and secretion of fibroin in the posterior silk gland of the silkworm Bombyx mori. J. Cell Sci. 50, 19-44 (1981)
- F. Sehnal, H. Akai, Insect silk glands: Their types, development and function, and effects of environmental factors and morphogenetic hormones on them. J. Insect Morphol. Embryol. 19, 79-132 (1990)
- F. Sehnal, T. Sutherland, Silks produced by insect labial glands. Prion 2, 145-153 (2008)
- R.J. Stewart, C.S. Wang, Adaptation of caddisfly larval silks to aquatic habitats by phosphorylation of H-fibroin serines. Biomacromolecules 11, 969-974 (2010)
- T.D. Sutherland, J.H. Young, S. Weisman, C.Y. Hayashi, D.J. Merritt, Insect silk: One name, many materials. Annu. Rev. Entomol. 55, 171-188 (2010)
- E.K. Tillinghast, M. Townley, The independent regulation of protein synthesis in the major ampullate glands of Araneus cavaticus Keyserling. J. Insect Physiol. 32, 117-123 (1986)
- A.R. Tindall, The larval case of Triaenodes bicolor Curtis (Trichoptera: Leptoceridae). Proc. Roy. Ent. Soc. Lond. A 35, 93-96 (1960)
- M. Tszydel, A. Zablotni, D. Wojciechowska, M. Michalak, I. Krucinska, K. Szustakiewicz, M. Maj, A. Jaruszewska, J. Strzelecki, Research on possible medical use of silk produced by caddisfly larvae of Hydropsyche angustipennis (Trichoptera, Insecta). J. Mech. Behav. Biomed. Mater. 45, 142-153 (2015)
- F. Vollrath, D.P. Knight, Liquid crystalline spinning of spider silk. Nature 410, 541-548 (2001)
- F. Vollrath, E.K. Tillinghast, Glycoprotein glue beneath a spider web's aqueous coat. Naturwissenschaften 78, 557-559 (1991)
- A.A. Walker, S. Weisman, J.S. Church, D.J. Merritt, S.T. Mudie, T.D. Sutherland, Silk from crickets: A new twist on spinning. PLoS One 7, e30408 (2012)
- A. Weiskopf, K. Senecal, P. Vouros, D. Kaplan, C.M. Mello, The carbohydrate composition of spider silk: Nephila edulis dragline. Glycobiology 6, 1703-1708 (1996)
- G.B. Wiggins, Caddisflies: The Underwater Architects (University of Toronto Press, Toronto, 2004)
- J.H. Yang, D.J. Merritt, The ultrastructure of the silk-producing basitarsus in the Hilarini (Diptera: Empidinae). Arthropod Struct. Dev. 32, 157-165 (2003)
- N. Yonemura, K. Mita, T. Tamura, F. Sehnal, Conservation of silk genes in Trichoptera and Lepidoptera. J. Mol. Evol. 68, 641-653 (2009)