Edamame protein hydrolysis using Lactococcus lactis, Lactobacillus bulgaricus and Lactobacillus paracasei produce short peptides with higher antioxidant potential
Date
2022-07-07Author
ANGGRAENI, Siti Lutfiah
JAYUS, Jay
RATNADEWI, Anak Agung Istri
NURHAYATI, Nurhayati
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Anggraeni SL, Jayus J, Ratnadewi AAI, Nurhayati N. 2022. Edamame protein hydrolysis using Lactococcus lactis,
Lactobacillus bulgaricus and Lactobacillus paracasei produce short peptides with higher antioxidant potential. Biodiversitas 23: 3603-
3612. The high demand for protein sources for functional vegetable foods, especially proteins that have ACE (Angiotensin-Converting
Enzyme) inhibitory activity has encouraged efforts to meet this need through exploration of potential protein sources and the
development of food processing technology to modify the protein into derivative compounds in the form of short peptides to promote
higher bioactivity than the native protein. This research focused on the hydrolysis of edamame proteins into shorter peptides through a
fermentation process using a group of Lactic Acid Bacteria (LABs), that is Lactococcus lactis, Lactobacillus bulgaricus and L.
paracasei, to gain a higher functional activity of its protein hydrolysate. Edamame milk was fermented with that LABs as starter culture
until 24 hours at 37ºC. The activity of the protease released by the LABs was confirmed using the agar diffusion method based on the
emergence of a clear zone surrounding the culture, while the antioxidant activity was confirmed with the ABTS and hydroxyl radical
scavenging methods. The results exhibited that the population density of starter culture in edamame milk reached 108 CFU/mL, and the
pH decreased from 6.75 to 4.15. All LABs used in fermentation were able to hydrolyze protein as indicated by the increasing degree of
hydrolysis and changes in protein profile of SDS-PAGE analysis. In addition, when compared to the unfermented edamame milk, the
protein hydrolysate from LABs fermentation showed an increase of ABTS and hydroxyl radical inhibitory activity, in which the highest
IC50 values of 8.96 and 13.33 g/mL of each were found in edamame milk fermented by Lc. lactis InaCC B187. An increase in ACE
inhibitory activity was also observed in edamame milk fermented using this microbe (9.80 g/µL). These findings indicate that Lc. lactis
InaCC B187, L. delbrueckii subspecies bulgaricus FNCC41, and L. paracasei InaCC B145 have the potency as an effective starter
culture to increase bioactive peptides in edamame soybeans potential for functional food sources.
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- LSP-Jurnal Ilmiah Dosen [7302]