Pei Shan scite author profile

Soy sauce secondary precipitate formed due to the B 3 subunit seriously affects soy sauce's appearance quality. In this study, a prolyl endopeptidase (APE) from Aspergillus niger, which could degrade approximately 50% of the B 3 subunit and increase proline content by 24% in soy sauce, was isolated and identified. The results showed that APE was an acidic salt-tolerant serine protease (62 kDa), which was optimally active at 40 °C and pH 4.0, and retained more than 69% activity in 3 M NaCl solution over 10 days. As a potential substrate of APE, the B 3 subunit contains 10 proline residues. High salinity could not damage the hydrogen bonds, salt bridges, and interior hydrophobicity of APE; thus, the spatial structures and activity of APE in 3 M NaCl solution were stable within 3 days and decreased thereafter. High salinity made the B 3 subunit more rigid and lowered the catalytic activity of APE on the B 3 subunit, hindering complete hydrolysis of the B 3 subunit. This was the first report about the APE capable of degrading the B 3 subunit and reducing the secondary precipitate of soy sauce, providing a new possibility to solve the secondary precipitate of soy sauce.

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Efficient degradation of soybean protein B3 subunit in soy sauce by ultrasound-assisted prolyl endopeptidase and its primary mechanism

Zhang

Shan

Zhang

et al. 2023

Food Chemistry

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Efficient degradation of soybean protein B3 subunit in soy sauce by ultrasound-assisted prolyl endopeptidase and its primary mechanism

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Pei Shan

Ougan juice debittering using ultrasound-aided enzymatic hydrolysis: Impacts on aroma and taste

Enhancing selenium and key flavor compounds contents in soy sauce using selenium-enriched soybean

Characterization of the aroma-active compounds in black soybean sauce, a distinctive soy sauce

Degradation Mechanism of Soybean Protein B3 Subunit Catalyzed by Prolyl Endopeptidase from Aspergillus niger during Soy Sauce Fermentation

Efficient degradation of soybean protein B3 subunit in soy sauce by ultrasound-assisted prolyl endopeptidase and its primary mechanism

Contact Info

Product

Resources

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Degradation Mechanism of Soybean Protein B₃ Subunit Catalyzed by Prolyl Endopeptidase from Aspergillus niger during Soy Sauce Fermentation