Abstract
The black soldier fly larvae (BSFL), Hermetia illucens (Linnaeus), has been largely utilized for animal feed. Due to its interesting composition, BSFL has great potential to be further implemented in the human diet. Herein we compared the flour and protein extract composition based on their moisture, ash, amino acids, mineral, and protein content. To have wide knowledge on protein profile and behavior, SDS-page electrophoresis, Fourier-transform infrared spectroscopy (FTIR) and differential scanning calorimetry (DSC) were used to give information about protein structure and thermal stability, respectively. The flour and protein extract contained respectively 37.3% and 61.1% of protein. DSC graph reported a glass transition temperature around 30 °C, recognizable by a shift in the curve, and an endothermic peak for solid melting at around 200 °C. FTIR analysis showed the main amide bands (A, B, I, II, III) for the flour and protein extract. The foam properties of BSFL protein extract were explored under different temperatures treatment, and the best foam stability was reached at 85 °C with 15 min of treatment. The data highlight the promising techno-functional properties of BSFL protein extract, and that the nutritional composition might be suitable for further use of BSFL as food fortification system.
Highlights
The world's population is expected to reach 9 - 10 billion in 2050 [1]
All five amide bands were identified in the black soldier fly larvae (BSFL) protein extract and the region corresponding to β-sheet struc ture was addressed as dominant in amide I band
The data give more information on protein stability and physicochemical character ization which could make the techno-functionalities of BSFL protein extract more interesting to explore beyond their nutritional value
Summary
The world's population is expected to reach 9 - 10 billion in 2050 [1] This perspective directly impacts food consumption by means of agri cultural and livestock growth which might increase deforestation, water consumption, and greenhouse gas emission [2]. BSFL have revealed the ability to feed on abattoir waste, animal waste, spent grains and general organic waste from crop agriculture [4,8]. This ability can lower the cost of farming and unveil BSFL as a sustainable biotechnological tool for waste valorization [9]
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