Proteomic characterization of the fibroin-based silk fibers produced by weaver ant Camponotus textor

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2022-06-15

Autores

Pinto, José Roberto Aparecido dos Santos [UNESP]
Esteves, Franciele Grego [UNESP]
Tormena, Cláudio Francisco
Perez-Riverol, Amilcar [UNESP]
Lasa, Alexis Musacchio
Bueno, Odair Correa [UNESP]
Palma, Mario Sergio [UNESP]

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The fibroin-based silk fibers of weaver ants are an alternative biomaterial to be investigated and explored for potential biomedical applications. In this context, the silk fibers from the nest of the weaver ant Camponotus textor was solubilized and fractionated by gel permeation. The different fractions were collected, pooled and submitted to analysis with a series of biochemical methods, nuclear magnetic resonance (NMR) spectroscopy, analytical proteomic strategies, and data treatment with bioinformatic tools to perform the structural characterization of the fibroin-based silk fibers produced by the ant. Our data demonstrated the identification of one fibroin proteoform in the ant silk fibers. The protein chracterized as a glycoprotein with MW around 40 kDa and presenting 66% (w/w) of total sugars attached to it through O-linked carbohydrates. The 3D of protein was modeled, revealing a structure predominantly constituted of coiled-coil secondary units in the whole model, featuring at least four superhelices (arrangement with multiple α-helices). The scientific outcomes reported herein may be relevant for the development of novel approaches for the synthetic or recombinant production of novel silk-based polymers for biomedical applications. Biological significance: The present investigation significantly expanded knowledge regarding to the fibroin-based silk fibers from weaver ants, contributing to improvements in our understanding of the properties and characteristics of these silk fibers. For example, as reported here, carbohydrates were detected in the ants' silk for the first time presenting the fibroin as a glycoprotein. Moreover, the 3D structure provided new insights into the secondary structures considering the whole model of the protein.

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Ant silk proteins, Carbohydrates, Fibroins, LCMS-based proteomics, NMR

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Journal of Proteomics, v. 261.