Abstract
The commercial use of biodegradable proteins films is still limited due to their poor mechanical and barrier performance. However, processing of proteins to modify their structure may have a significant impact on films properties. Thus, the effect of thermal or pH-induced denaturation on the gelation behavior of Withemouth Croacker proteins was investigated in the development of films for packaging. Denaturation at pH 2 and pH 10 yielded the toughest protein gels. Gelation through pH modification is related to conformational changes in the structure of fish proteins, especially in secondary structure. Rheology tests demonstrated that a stronger gel was formed at pH 2, which might be due to the positively charged proteins. This behavior is related to the lower mesh size of the gel as demonstrated by small-angle X-ray scattering experiments. Gels prepared at both pH 2 and pH 10 had the ability to form cohesive films; however, no significant differences were observed between these treatments for water vapor permeability and mechanical properties. The modification of protein structure through gelation produced more soluble and less permeable films.
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