Nanotechnology-Enhanced Food Packaging. Группа авторов
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СКАЧАТЬ Chitosan coating layer-by-layer preserved the ascorbic acid content, antioxidant capacity, and firmness and avoid the fungal growth of on fruit bars during storage [68] Chitosan nanoparticles/TPPa)/acetic acid Ionic gelation Coating was effective to delay the grapes ripening, reducing the weight loss and maintaining the sugar content, soluble solids, the titratable acidity, and sensory characteristics [69]

      There are at least 28 types of collagen, which differ as to the arrangement of amino acids composing the primary structure. The most abundant collagens are of the types I, II, and III, which manage cell differentiation, proliferation, and migration and provide the scaffolding [70]. Because of the difficult digestion of collagen by the human body, this protein is also commercialized in its complete hydrolyzed form [74].

      Gelatin is composed of collagen polypeptide fragments (Figure 2.1b), whose structure is based on α-helical conformation and its combinations (β and γ conformations) [75]. Gelatin functionality depends on raw material, which causes variations of its relative fractions of peptides and molecular mass (95–100 kDa), consequently [70]. The variation of molecular mass of gelatin peptide fractions causes changes in the gelation time (setting time), gel strength (bloom), and viscosity of the biopolymer solution [76]. Gelatin bloom depends on the number of α- and β-chains, which constitute the fractions of the largest peptides, and its viscosity depends on average molecular mass of its peptide chains [70, 77].

      During the partial hydrolysis of the collagen, its cross-linking structure is preserved, but some peptide bonds between chains are broken. The cross-linking degree varies as to raw material used to the gelatin fabrication, and its pretreatment determines the type of gelatin that will be produced, type A or type B [75]. Gelatins type A and B are produced by acid and alkaline processes, and they have isoelectric points in a pH range between 6.0 and 9.0, and of around pH 5.0, respectively [77].

Schematic illustration and chemical structure of collagen (a) and gelatin (b).

      2.2.5 Soybean and Derivatives

      Soybean is a leguminous composed of proteins (40%), total carbohydrates (insoluble fibers and soluble saccharides) (34%), oil (21%), and minerals (ash) (4%) [93]. The proteins, water-soluble carbohydrates, and fibers are the most used soybean compounds to manufacture films and coatings, aiming food applications.

      2.2.5.1 Soy Protein

Components Production approach Mains results References
Gelatin/mint essential oil Dip coating Coatings with antimicrobial properties used to extend the shelf life of strawberries [78]
Casting Active films containing acerola compounds [79]
Casting Films with antimicrobial activity against E. coli and S. aureus [80]
Collagen/lysozyme Dip coating Coatings with antimicrobial activity against psychrotrophic bacteria used to extend the shelf life of fresh salmon fillets [81]
Casting Biodegradable films with better structural organization [82]
Gelatin (FSc))/cellulose nanofibers/palmitic acid Casting Films with СКАЧАТЬ