Bioprocessing of soybeans ( Glycine max L.) by solid-state fermentation with Eurotium cristatum YL-1 improves total phenolic content, isoflavone aglycones, and antioxidant activity

In this study, soybean ( L.) was bioprocessed with fungal strain YL-1 by using the solid-state fermentation (SSF) technique. The effect of SSF on total phenolic content (TPC), isoflavone compositions, and antioxidant activity of soybean during different fermentation periods was evaluated. Results sh...

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Bibliographic Details
Published in:RSC advances 2020-04, Vol.10 (29), p.16928-16941
Main Authors: Chen, Yulian, Wang, Yuanliang, Chen, Jiaxu, Tang, Hao, Wang, Chuanhua, Li, Zongjun, Xiao, Yu
Format: Article
Language:English
Subjects:
Amylases
Antioxidants
Bioconversion
Bioprocessing
Cellobiase
Cellulase
Chemistry
Correlation analysis
Correlation coefficients
Fermentation
Glucosidase
Glucosides
Isoflavones
Linear analysis
Principal components analysis
Protease
Scavenging
Solid state
Soybeans
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Summary:In this study, soybean ( L.) was bioprocessed with fungal strain YL-1 by using the solid-state fermentation (SSF) technique. The effect of SSF on total phenolic content (TPC), isoflavone compositions, and antioxidant activity of soybean during different fermentation periods was evaluated. Results showed that TPC and isoflavone aglycones were significantly increased, whereas glucoside isoflavones were remarkably reduced during SSF. After 15 days of SSF, the TPC, daidzein, genistein, and total aglycones of soybeans were approximately 1.9-, 10.4-, 8.4-, and 9.4-fold higher, respectively, than those of non-fermented soybeans. During SSF, β-glucosidase activity was very high, whereas α-amylase and protease activities were at moderate levels, and cellulase activity was relatively low. A highly positive correlation was found between TPC and the activities of α-amylase (correlation coefficient = 0.9452), β-glucosidase ( = 0.9559), cellulase ( = 0.9783), and protease ( = 0.6785). Linear analysis validated that the β-glucosidase produced by contributed to the bioconversion of soybean isoflavone glucosides into their aglycone forms. The DPPH radical and ABTS˙ scavenging activity, reducing power, and ferric reducing antioxidant power of soybeans were considerably enhanced during SSF. Principal component analysis and Pearson's correlation analysis verified that the improvement in TPC and isoflavone aglycone content during SSF was mainly responsible for the improved antioxidant capacity of soybeans. Thus, our results demonstrated that solid-state bioprocessing with is an effective approach for the enhancement of the TPC, isoflavone aglycones, and antioxidant capacity of soybeans. Bioprocessed soybean products might be a healthy food supplement rich in antioxidants compared with non-fermented soybean and thus could be a source of natural antioxidants.
ISSN:2046-2069
2046-2069
DOI:10.1039/c9ra10344a