Characterization and film-forming mechanism of egg white/pullulan blend film

•The excellent mechanical properties occurred at the optimal proportion, Pu: EW = 1:1.•The blend films with more EW showed a lower speed of thermal degradation.•Formation of hydrogen bonds and Maillard reaction occurred in film-forming process. Edible films based on pullulan (Pu) and egg white (EW)...

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Veröffentlicht in:	Food chemistry 2020-06, Vol.315, p.126201-126201, Article 126201
Hauptverfasser:	Han, Ke, Liu, Yaofa, Liu, Yuanyuan, Huang, Xi, Sheng, Long
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Sprache:	eng
Schlagworte:	Circular Dichroism Color Edible film Egg Proteins - chemistry Egg white Egg White - chemistry Food Packaging Glucans - chemistry Glycosylation Hydrogen bonds Maillard Reaction Microscopy, Electron, Scanning Pullulan Spectroscopy, Fourier Transform Infrared X-Ray Diffraction
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creator	Han, Ke Liu, Yaofa Liu, Yuanyuan Huang, Xi Sheng, Long
description	•The excellent mechanical properties occurred at the optimal proportion, Pu: EW = 1:1.•The blend films with more EW showed a lower speed of thermal degradation.•Formation of hydrogen bonds and Maillard reaction occurred in film-forming process. Edible films based on pullulan (Pu) and egg white (EW) were prepared in this study. As the egg white proportion increased, the mechanical properties of the blend films initially increased and then decreased. The best mechanical properties occurred at the optimal proportion of Pu:EW = 1:1. The blend films with a higher content of egg white showed a lower degradation speed of moisture and polymers. FTIR spectroscopy illustrated peak displacement, X-ray diffraction patterns showed noticeable changes, and the secondary structure of egg white was altered. These results indicated that pullulan and egg white interacted extensively. The total α-helix and β-sheet content increased with the increment of pullulan content. The decrease of free amino content indicated that the degree of glycosylation increased with the addition of pullulan, which is associated with the Maillard reaction. The apparent color and the scanning electron microscopy images were also assessed in this study.
doi_str_mv	10.1016/j.foodchem.2020.126201
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Edible films based on pullulan (Pu) and egg white (EW) were prepared in this study. As the egg white proportion increased, the mechanical properties of the blend films initially increased and then decreased. The best mechanical properties occurred at the optimal proportion of Pu:EW = 1:1. The blend films with a higher content of egg white showed a lower degradation speed of moisture and polymers. FTIR spectroscopy illustrated peak displacement, X-ray diffraction patterns showed noticeable changes, and the secondary structure of egg white was altered. These results indicated that pullulan and egg white interacted extensively. The total α-helix and β-sheet content increased with the increment of pullulan content. The decrease of free amino content indicated that the degree of glycosylation increased with the addition of pullulan, which is associated with the Maillard reaction. 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Edible films based on pullulan (Pu) and egg white (EW) were prepared in this study. As the egg white proportion increased, the mechanical properties of the blend films initially increased and then decreased. The best mechanical properties occurred at the optimal proportion of Pu:EW = 1:1. The blend films with a higher content of egg white showed a lower degradation speed of moisture and polymers. FTIR spectroscopy illustrated peak displacement, X-ray diffraction patterns showed noticeable changes, and the secondary structure of egg white was altered. These results indicated that pullulan and egg white interacted extensively. The total α-helix and β-sheet content increased with the increment of pullulan content. The decrease of free amino content indicated that the degree of glycosylation increased with the addition of pullulan, which is associated with the Maillard reaction. 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Edible films based on pullulan (Pu) and egg white (EW) were prepared in this study. As the egg white proportion increased, the mechanical properties of the blend films initially increased and then decreased. The best mechanical properties occurred at the optimal proportion of Pu:EW = 1:1. The blend films with a higher content of egg white showed a lower degradation speed of moisture and polymers. FTIR spectroscopy illustrated peak displacement, X-ray diffraction patterns showed noticeable changes, and the secondary structure of egg white was altered. These results indicated that pullulan and egg white interacted extensively. The total α-helix and β-sheet content increased with the increment of pullulan content. The decrease of free amino content indicated that the degree of glycosylation increased with the addition of pullulan, which is associated with the Maillard reaction. 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subjects	Circular Dichroism Color Edible film Egg Proteins - chemistry Egg white Egg White - chemistry Food Packaging Glucans - chemistry Glycosylation Hydrogen bonds Maillard Reaction Microscopy, Electron, Scanning Pullulan Spectroscopy, Fourier Transform Infrared X-Ray Diffraction
title	Characterization and film-forming mechanism of egg white/pullulan blend film
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