Synergistic effects of glycosylation and ginger essential oils on soy protein isolate - Artemisia sphaerocephala Krasch. gum composite films for chilled grass carp preservation
1College of Bioresources Chemical & Materials Engineering, Shaanxi University of Science and Technology, Xi'an, Shaanxi 710021, China.
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Summary
Glycosylation enhances soy protein isolate (SPI) properties, improving active packaging films with ginger essential oil (GEO). These films show superior mechanical, antioxidant, and antibacterial traits, extending fish shelf life.
Area of Science:
- Food Science and Technology
- Materials Science
- Biochemistry
Background:
- Soy protein isolate (SPI) is a valuable food ingredient with potential applications in active packaging.
- Modifying SPI's properties can enhance its functionality for advanced material development.
- Ginger essential oil (GEO) possesses antioxidant and antibacterial properties beneficial for food preservation.
Purpose of the Study:
- To investigate the effect of glycosylation on SPI's structural and functional properties.
- To develop active packaging films incorporating glycosylated SPI (PGC) and GEO.
- To evaluate the performance of these active packaging films in terms of mechanical, antioxidant, and antibacterial properties.
Main Methods:
- Soy protein isolate (SPI) was modified via glucose-induced glycosylation at various weight ratios, creating four PGCs.
- Active packaging films were prepared using PGCs and 1% (v/v) GEO.
- Mechanical properties (tensile strength, elongation at break), antioxidant activity (free radical scavenging), and antibacterial activity (inhibition zones against E. coli and P. aeruginosa) were assessed.
- A 12-day low-temperature preservation study on grass carp was conducted to evaluate shelf-life extension.
Main Results:
- Glycosylation significantly improved SPI's solubility, emulsifying capacity, and water/oil holding capacities.
- Composite films exhibited enhanced mechanical properties, with tensile strength increasing by up to 37.46% and elongation at break by up to 77.72%.
- The PGC3-based film (38.23% glycosylation) showed a 91.04% free radical scavenging rate and significant inhibition zones against E. coli (15.52 mm) and P. aeruginosa (14.71 mm).
- GEO/PGC films effectively inhibited spoilage and extended the shelf life of grass carp during low-temperature storage.
Conclusions:
- Glycosylation is an effective strategy to enhance the functional properties of SPI for food packaging applications.
- The developed active packaging films demonstrate promising antioxidant and antibacterial activities.
- These PGC-based active films show potential for improving food preservation and extending the shelf life of perishable products like fish.