Journal
FOOD HYDROCOLLOIDS
Volume 130, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.foodhyd.2022.107691
Keywords
Egg analogue; Plant-based protein; Gelation; Rheology; Interaction; Microstructure
Categories
Funding
- Singapore Ministry of Education Academic Research Fund Tier 1 [R-160-000-A40-114]
- Shanghai Cenwang Food Co., Ltd [R-160-000-011-597]
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In recent years, there has been a significant increase in demand for plant-based egg substitutes, particularly in countries like Singapore. This study aimed to develop eggless omelets using various ingredients, and found that a formulation with 0.3% kappa-carrageenan best matched the physiochemical properties of eggs. The interactions between kappa-carrageenan and proteins greatly influenced the properties of the plant-based egg products.
In recent years, demand for the plant-based egg substitutes has increased significantly, especially in Singapore, a country seeking for innovative food sources imminently. In the current study, chickpea flour, soy protein isolate, shortening, baking powder, mono, diglyceride, transglutaminase, potassium chloride, flour, and hydrocolloids (kappa-carrageenan (kappa-C) or gellan gum (GG)) were used to develop the eggless omelets. A formulation comprising 0.3% kappa-C (0.3 kappa-C) best matched the physiochemical properties of egg, in terms of hardness (4437 vs. 4614 g), specific volume (1.24 vs. 1.19 cm(3)/g), and gel strength (19.3 vs. 17.5 kPa). This could be attributed to the highest synergistic x-C-protein interactions in 0.3x-C, along with the most homogeneous gel structure observed under confocal laser scanning microscopy (CLSM). The addition of 0.1% x-C induced more x-C-protein interactions than the one without hydrocolloids, but such increase was not as dominant as 0.3x-C. When the x-C concentration reached 0.5%, however, the rheological synergism decreased while the electrostatic interactions increased; that signifies the increased x-C-x-C interactions. Contrastingly, a segregated GG-protein interaction occurred in all GG systems, as indicated from synergism and CLSM images. These differences in interactions and structures affected the macroscale properties of our plant-based egg products, explaining the different physiochemical properties among them. A schematic diagram was therefore proposed to build connections between physiochemical properties, interactions, and structure.
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