Artículos de revistas
Effects of PEF-assisted freeze-drying on protein quality, microstructure, and digestibility in chilean abalone “loco” (concholepas concholepas) mollusk
Fecha
2022Registro en:
Frontiers in Nutrition March 2022 | Volume 9 | Article 810827
10.3389/fnut.2022.810827
Autor
Palma Acevedo, Anais
Pérez Won, Mario
Tabilo Munizaga, Gipsy
Ortiz Viedma, Jaime
Lemus Mondaca, Roberto
Institución
Resumen
The purpose of this study was to apply different pulsed electric field (PEF) conditions as a pretreatment to the freeze-drying (FD) process of Chilean abalone and to assess its effects on protein quality, microstructure, and digestibility of the freeze-dried product. The treatments PEF (0.5, 1.0, and 2.0 kV cm(-1)) and cooking (CO) were applied at 100 degrees C x 15 min. Then, their performances were subjected to a FD process. PEF + CO pretreated freeze-dried samples showed shorter process times than freeze-dried control samples without PEF + CO, where the treatment PEF at 2.0 kV cm(-1) reached the shortest time. In addition, the abovementioned samples presented the best textural parameters but a low protein content. The thermal properties indicate a total denaturation of the proteins, where the amide I region presented greater mobility in the sample pretreated with an electric field of 2.0 kV cm(-1). The assay for digestibility shows better hydrolysis for the 2.0 kV cm(-1) PEF sample and has a higher Computer-Protein Efficiency Ratio (C-PER). Thereby, variations in thermal behavior and physicochemical parameters in comparison to combined PEF + CO pretreatments were observed. In addition, high protein quality and digestibility of pretreated freeze-dried Chilean abalones were maintained to the desired properties (texture and C-PER) and conditions (FD time).