Improving tyrosinase inhibitory activity of grass carp fish scale gelatin hydrolysate by gastrointestinal digestion: Purification, identification and action mechanism

Biologically active peptides with tyrosinase inhibitory activity may be important raw materials in the field of whitening foods. Gastrointestinal digestion was employed to obtain components with higher tyrosinase inhibitory activity from the grass carp fish scale gelatin hydrolysates. The results re...

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Bibliographic Details
Published in:Food science & technology 2022-04, Vol.159, p.113205, Article 113205
Main Authors: Hu, Zi-Zi, Ma, Tian-Xin, Sha, Xiao-Mei, Zhang, Lu, Tu, Zong-Cai
Format: Article
Language:English
Subjects:
Bio-affinity ultrafiltration
Fish peptides
Gastrointestinal digestion
Tyrosinase inhibitory activity
Zebrafish
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Summary:Biologically active peptides with tyrosinase inhibitory activity may be important raw materials in the field of whitening foods. Gastrointestinal digestion was employed to obtain components with higher tyrosinase inhibitory activity from the grass carp fish scale gelatin hydrolysates. The results revealed that the product had stronger tyrosinase inhibitory activity after gastrointestinal digestion than before. The digested products were screened using bioaffinity ultrafiltration for tyrosinase inhibitory activity for the first time, yielding 6 peptides. As a reversible competitive inhibitor, FTGML showed the highest IC50 value of 1.89 mmol/L. The main forces between FTGML and tyrosinase was dominated by hydrogen bonding and hydrophobic interaction. Zebrafish models for skin whitening and lightning were established respectively to verify the effect of FTGML in vivo, and it was discovered that FTGML concentrations of 125 μg/mL and 62.5 μg/mL had the best whitening and lightning effects, respectively. •Gastrointestinal digestion of hydrolysate had higher tyrosinase inhibitory activity.•Peptide Phe-Thr-Gly-Met-Leu (FTGML) can inhibit pigmentation in zebrafish.•Binding between FTGML and tyrosinase was reversible.•In vitro, in vivo and molecular docking demonstrate the whitening effect of FTGML.
ISSN:0023-6438
1096-1127
DOI:10.1016/j.lwt.2022.113205