Abstract
Pulsed electric fields (PEF) in conjunction with sous vide (SV) cooking has been explored for meat tenderisation. The aim of this experiment was to study the effect of PEF–SV treatment on the muscle structure and in vitro protein digestibility of beef brisket. Pulsed electric field treatment (specific energy of 99 ± 5 kJ/kg) was applied to bovine Deep and Superficial pectoral muscles in combination with sous vide (SV) cooking (60 °C for 24 h). A similar micro- and ultrastructure was detected between the control SV-cooked and PEF-treated SV-cooked pectoral muscles. The combined PEF–SV treatment increased the in vitro protein digestibility of the pectoral muscles by approximately 29%, in terms of ninhydrin-reactive free amino nitrogen released at the end of simulated digestion. An increment in proteolysis of the PEF-treated SV-cooked meat proteins (e.g., myosin heavy chains and C-protein) during simulated digestion was also observed using sodium dodecyl sulfate-polyacrylamide gel electrophoresis. More damaged muscle micro- and ultrastructure was detected in PEF-treated SV-cooked muscles at the end of in vitro digestion, showing its enhanced digestive proteolysis compared to the control cooked meat.
Highlights
The intensity of the band with a molecular weight of kDa ter min of simulated oral–gastric digestion, the band intensities of the myosin heavy was further reduced, with a higher band intensity found in the digest of the control SVchain (MHC, 220 kDa) and C-protein (140 kDa) of the digest of the Pulsed electric field (PEF)-treated sous vide (SV)-cooked cooked samples
The improvement in protein digestibility might be due to the disruption of muscle structure amino nitrogen (p < 0.05) released at the end of the simulated digestion, and increased by the combined
More swollen muscle cells were obpenetration of digestive juices is postulated to be due to the formation of pores in muscle served in the PEF-treated SV-cooked meat after 62 min of simulated oral–gastric digestion, cell membranes as a result of the electroporation effect of PEF, facilitating the accessibility suggesting the enhanced penetration of digestive juices in the treated samples
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Pulsed electric field (PEF) is a food processing technique that applies short electric pulses to food products, leading to the electroporation of the cell membrane when the induced transmembrane potential exceeds a critical value of 1 volt [1]. Low-intensity pulsed electric field processing, alone or in combination with other processing techniques, has been explored for meat tenderisation.
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