Giovanna Rossi-Márquez scite author profile

Whey protein/pectin edible films were prepared in the presence of transglutaminase and tested as water barrier coatings of both fried doughnuts and french fries as well as of baked food like “taralli” biscuits. Our results demonstrated an undoubted effect of the produced hydrocolloidal films, known to markedly reduce water vapor permeability, in decreasing moisture loss in both doughnuts and french fries when applied before food frying. At the same time, a significant decrease in oil content was observed in the coated fried foods (about 50 % in doughnuts and 25 % in french fries) with respect to both uncoated controls and whey/soy protein-coated samples. No difference was observed between uncoated and coated both doughnuts and french fries with regard to their texture properties and as confirmed by the data from sensory evaluation tests. Furthermore, since the coating by edible films endowed with low water vapor permeability could be useful to prevent moisture absorption by baked foods, we tested the whey protein/pectin film prepared in the presence of transglutaminase, which was also used to coat taralli biscuits. The proposed methodology resulted to be effective to hinder moisture absorption by biscuits during a long storage period, keeping water content constant from 0 to 50 days, thus preventing the food matrix conversion from a glassy state to a rubbery state which is the major cause of baked food rejection by consumers

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Microstructure and properties of bitter vetch (Vicia ervilia) protein films reinforced by microbial transglutaminase

Porta

Pierro

Rossi-Márquez

et al. 2015

Food Hydrocolloids

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Transglutaminase-mediated macromolecular assembly: production of conjugates for food and pharmaceutical applications

et al. 2013

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Various strategies have been explored in the last 20 years to modify the functional properties of proteins and, among these, protein/polymer conjugation resulted one of the most successful approaches. Thus, the surface modification of polypeptides of potential industrial interest by covalent attachment of different macromolecules is nowadays regarded as an extremely valuable technique to manipulate protein activities. Protein derivatives with a number of either natural or synthetic polymers, like different polysaccharides or polyethylene glycol, have been obtained by both chemical and enzymatic treatments, and in this context, the crosslinking enzyme transglutaminase is attracting an increasing attention as a simple and safe means for protein processing in vitro. In this short review, we summarized the most significant experimental findings demonstrating that a microbial form of the enzyme is an effective tool to obtain several biopolymer-based conjugates potentially useful for both food and pharmaceutical applications.

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Edible Films and Coatings Applied in the Food Industry

2023

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