TY - JOUR
T1 - Edible insect as an alternative protein source
T2 - a review on the chemistry and functionalities of proteins under different processing methods
AU - Queiroz, Lucas Sales
AU - Silva, Naaman Francisco Nogueira
AU - Jessen, Flemming
AU - Mohammadifar, Mohammad Amin
AU - Stephani, Rodrigo
AU - Fernandes de Carvalho, Antonio
AU - Perrone, Ítalo Tuler
AU - Casanova, Federico
PY - 2023
Y1 - 2023
N2 - The consumption of edible insects can be anadvantageous alternative to the conventional food supply chain, which involves global water waste, land deficit, undernutrition, and starvation. Besides the nutritional aspects, insect proteins have demonstrated a wide range of functional properties such as foamability, emulsifying and gelling abilities. The protein content and amino acid profile of some insects have revealed a good nutritional value and interesting functional properties. However, it is crucial to comprehend how the protein quality is affected by insect feeding, drying, and defatting. There is a knowledge gap about the impact of industrial treatment, such as pH, ionic strength, and heat treatment, on insect proteins' functional properties. In this review, we have aimed to highlight the potential application of insect proteins as a nutritional source and their promising technological applications. The study reported the principal insect protein characterization methodologies that have been investigated in the literature aiming to correlate the physicochemical parameters to possible protein functionalities. The research on the functional properties of insect proteins is at the exploratory level. Further detailed studies are needed to clarify the structure-function relation of insect proteins and how these functionalities and insect processing can increase consumer acceptance.
AB - The consumption of edible insects can be anadvantageous alternative to the conventional food supply chain, which involves global water waste, land deficit, undernutrition, and starvation. Besides the nutritional aspects, insect proteins have demonstrated a wide range of functional properties such as foamability, emulsifying and gelling abilities. The protein content and amino acid profile of some insects have revealed a good nutritional value and interesting functional properties. However, it is crucial to comprehend how the protein quality is affected by insect feeding, drying, and defatting. There is a knowledge gap about the impact of industrial treatment, such as pH, ionic strength, and heat treatment, on insect proteins' functional properties. In this review, we have aimed to highlight the potential application of insect proteins as a nutritional source and their promising technological applications. The study reported the principal insect protein characterization methodologies that have been investigated in the literature aiming to correlate the physicochemical parameters to possible protein functionalities. The research on the functional properties of insect proteins is at the exploratory level. Further detailed studies are needed to clarify the structure-function relation of insect proteins and how these functionalities and insect processing can increase consumer acceptance.
KW - Edible insect
KW - Insect protein
KW - Techno-functionality
KW - Protein extraction
KW - Sustainability
U2 - 10.1016/j.heliyon.2023.e14831
DO - 10.1016/j.heliyon.2023.e14831
M3 - Review
C2 - 37025786
SN - 2405-8440
VL - 9
JO - Heliyon
JF - Heliyon
IS - 4
M1 - e14831
ER -