Sofia Melchior scite author profile

Aim The effect of moderate-intensity pulsed electric fields (MIPEF) was evaluated on vegetable protein concentrates from pea, rice, and gluten. Methods Five percent (w/w) suspensions of protein concentrates (pH 5 and 6) were exposed to up to 60,000 MIPEF pulses at 1.65 kV/cm. Both structural modifications (absorbance at 280 nm, free sulfhydryl groups, FT-IR-spectra) and functional properties (solubility, water and oil holding capacity, foamability) were analyzed. Results MIPEF was able to modify protein structure by inducing unfolding, intramolecular rearrangement, and formation of aggregates. However, these effects were strongly dependent on protein nature and pH. In the case of rice and pea samples, structural changes were associated with negligible modifications in functional properties. By contrast, noticeable changes in these properties were observed for gluten samples, especially after exposure to 20,000 pulses. In particular, at pH 6, an increase in water and oil holding capacity of gluten was detected, while at pH 5, its solubility almost doubled. Conclusion These results suggest the potential of MIPEF to steer structure of proteins and enhance their technological functionality.

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High pressure homogenization shapes the techno-functionalities and digestibility of pea proteins

Melchior

Moretton

Calligaris

et al. 2022

Food and Bioproducts Processing

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Effect of different biopolymer‐based structured systems on the survival of probiotic strains during storage and in vitro digestion

et al. 2020

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BACKGROUND: This study aimed to evaluate the protective effect of different biopolymer systems on the viability of two probiotics (Lactobacillus rhamnosus and Streptococcus thermophilus) during storage and in vitro digestion. Methylcellulose (MC), sodium alginate (SA), and whey protein (WP)-based structures were designed and characterized in terms of pH, rheological properties, and visual appearance. RESULTS:The results highlighted that the WP-system ensured probiotic protection during both storage and in vitro digestion. This result was attributed to a combined effect of the physical barrier offered by the protein gel network and whey proteins as a nutrient for microbes. On the other hand, surprisingly, the viscous methylcellulose-based system was able to guarantee good microbial viability during storage. However, this was not confirmed during in vitro digestion. The opposite results were obtained for sodium alginate beads. CONCLUSION:The results suggest that the capacity of a polymeric structure to protect probiotic bacteria is a combination of structural organization and system formulation.

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Effect of the formulation and structure of monoglyceride-based gels on the viability of probioticLactobacillus rhamnosusuponin vitrodigestion

et al. 2021

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Sofia Melchior

Reducing the glycemic index of short dough biscuits by using apple pomace as a functional ingredient

Understanding the impact of moderate-intensity pulsed electric fields (MIPEF) on structural and functional characteristics of pea, rice and gluten concentrates

High pressure homogenization shapes the techno-functionalities and digestibility of pea proteins

Effect of different biopolymer‐based structured systems on the survival of probiotic strains during storage and in vitro digestion

Effect of the formulation and structure of monoglyceride-based gels on the viability of probioticLactobacillus rhamnosusuponin vitrodigestion

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