Spider silk proteome provides insight into the structural characterization of Nephila clavipes flagelliform spidroin
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2018-10-02
Autores
Aparecido dos Santos-Pinto, Jose Roberto [UNESP]
Arcuri, Helen Andrade [UNESP]
Esteves, Franciele Grego [UNESP]
Palma, Mario Sergio [UNESP]
Lubec, Gert
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Nature Publishing Group
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The capture spiral of web from N. clavipes spider consists of a single type of spidroin - the flagelliform silk protein, a natural material representing a combination of strength and high elasticity. Flagelliform spider silk is the most extensible silk fibre produced by orb weaver spiders and the structure of this remarkable material is still largely unknown. In the present study we used a proteomic approach to elucidate the complete sequence and the post-translational modifications of flagelliform silk proteins. The long sequence of flagelliform silk protein presents 45 hydroxylated proline residues, which may contribute to explain the mechanoelastic property of these fibres, since they are located in the GPGGX motif. The 3D-structure of the protein was modelled considering the three domains together, i.e., the N- and C-terminal non-repetitive domains, and the central repetitive domain. In the resulting molecular model there is a predominance of random structures in the solid fibres of the silk protein. The N-terminal domain is composed of three alpha-helices and the C-terminal domain is composed of one small helical section. Proteomic data reported herein may be relevant for the development of novel approaches for the synthetic or recombinant production of novel silk-based spider polymers.
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Scientific Reports. London: Nature Publishing Group, v. 8, 12 p., 2018.