1. Effects of Heating Time and Temperature on Functional Properties of Proteins of Yellow Mealworm Larvae (Tenebrio molitor L.)
- Author
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Ha-Jung Lee, Ji-Han Kim, Da-Som Ji, and Chi-Ho Lee
- Subjects
Mealworm ,Absorption of water ,Protein oxidation ,Article ,03 medical and health sciences ,0302 clinical medicine ,food processing ,Food science ,Solubility ,entomophagy ,alternative protein ,chemistry.chemical_classification ,Larva ,biology ,yellow mealworm larvae ,0402 animal and dairy science ,04 agricultural and veterinary sciences ,biology.organism_classification ,040201 dairy & animal science ,Isoelectric point ,chemistry ,functional property ,030221 ophthalmology & optometry ,Thiol ,Animal Science and Zoology ,Heating time ,Food Science - Abstract
Although the yellow mealworm (Tenebrio molitor L.) is a promising alternative protein source, the effects of processing conditions on functional properties are unclear. In this study, a protein extract of yellow mealworm larvae (PEYM) was subjected to different heat temperature (55°C, 75°C, and 95°C) with different time (20, 40, and 60 min) to evaluate the functional properties and protein oxidation. Different heat temperature treatment significantly affected the exposure of surface hydrophobicity of the proteins and protein molecule aggregation, which reached maximum levels at 95°C for 60 min. Protein oxidation was inversely proportional to the temperature. Both the highest carbonyl value (1.49 nmol/mg protein) and lowest thiol value (22.94 nmol/mg protein) were observed at 95°C for 60 min. The heating time-temperature interaction affected several functional properties, including solubility, emulsifying potential, and gel strength (GS). Solubility decreased near the isoelectric point (pH 5 to 6). As the temperature and heating time increased, emulsifying properties decreased and GS increased. The oil absorption capacity and foaming properties decreased and the water absorption capacity increased. These results confirmed that PEYM is a suitable source of proteins for processing and applications in the food industry.
- Published
- 2019
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