Fibroin

Fibroin light chain
Identifiers
SymbolL-Fibroin
PfamPF05849
InterProIPR008660
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary
Fibroin heavy chain
Identifiers
OrganismBombyx mori
SymbolFIBH
PDB3UA0
UniProtP05790
Search for
StructuresSwiss-model
DomainsInterPro
For a view of homologs, perform BLAST on the P05790[1-108] portion.
Fibroin P25 (Fibrohexamerin)
Identifiers
SymbolFibroin_P25
PfamPF07294
InterProIPR009911
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary

Fibroin is an insoluble protein present in silk produced by numerous insects, such as the larvae of Bombyx mori, and other moth genera such as Antheraea, Cricula, Samia and Gonometa. Silk in its raw state consists of two main proteins, sericin and fibroin, with a glue-like layer of sericin coating two singular filaments of fibroin called brins.[1][2][3] Silk fibroin is considered a β-keratin related to proteins that form hair, skin, nails and connective tissues.

Primary structure of fibroin, (Gly-Ser-Gly-Ala-Gly-Ala)n

The silk worm produces fibroin with three chains, the light, heavy, and the glycoprotein P25. The heavy and light chains are linked by a disulphide bond, and P25 associates with disulphide-linked heavy and light chains by noncovalent interactions. P25 plays an important role in maintaining integrity of the complex.[4]

The heavy fibroin protein consists of layers of antiparallel beta sheets. Its primary structure mainly consists of the recurrent amino acid sequence (Gly-Ser-Gly-Ala-Gly-Ala)n. The high glycine (and, to a lesser extent, alanine) content allows for tight packing of the sheets, which contributes to silk's rigid structure and tensile strength. A combination of stiffness and toughness make it a material with applications in several areas, including biomedicine and textile manufacture.

Fibroin is known to arrange itself in three structures, called silk I, II, and III. Silk I is the natural form of fibroin, as emitted from the Bombyx mori silk glands. Silk II refers to the arrangement of fibroin molecules in spun silk, which has greater strength and is often used in various commercial applications. Silk III is a newly discovered structure of fibroin.[5] Silk III is formed principally in solutions of fibroin at an interface (i.e. air-water interface, water-oil interface, etc.).

  1. ^ Hakimi O, Knight DP, Vollrath F, Vadgama P (April 2007). "Spider and mulberry silkworm silks as compatible biomaterials". Composites Part B: Engineering. 38 (3): 324–37. doi:10.1016/j.compositesb.2006.06.012.
  2. ^ Dyakonov T, Yang CH, Bush D, Gosangari S, Majuru S, Fatmi A (2012). "Design and characterization of a silk-fibroin-based drug delivery platform using naproxen as a model drug". Journal of Drug Delivery. 2012: 490514. doi:10.1155/2012/490514. PMC 3312329. PMID 22506122.
  3. ^ "Brin definition and meaning | Collins English Dictionary". www.collinsdictionary.com.
  4. ^ Inoue S, Tanaka K, Arisaka F, Kimura S, Ohtomo K, Mizuno S (December 2000). "Silk fibroin of Bombyx mori is secreted, assembling a high molecular mass elementary unit consisting of H-chain, L-chain, and P25, with a 6:6:1 molar ratio". The Journal of Biological Chemistry. 275 (51): 40517–28. doi:10.1074/jbc.M006897200. PMID 10986287.
  5. ^ Valluzzi R, Gido SP, Muller W, Kaplan DL (1999). "Orientation of silk III at the air-water interface". International Journal of Biological Macromolecules. 24 (2–3): 237–42. doi:10.1016/S0141-8130(99)00002-1. PMID 10342770.