Effects of heat treatment on the structure, digestive property, and absorptivity of holoferritin

Effects of heat treatment on the structure, digestive property, and absorptivity of holoferritin

Ferritin, as an iron storage protein, has been considered to be a well-utilized iron supplement. However, the typical thermal processing of food rich in ferritin may affect the structure and function of ferritin as an iron supplement. Here, a plant ferritin (soybean seed ferritin, SSF) and an animal...

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Bibliographic Details
Main Authors: Ruiyang Ji, Mingyang Sun, Jiachen Zang, Chenyan Lv, Guanghua Zhao
Format: Article
Language:English
Published: Maximum Academic Press 2023-01-01
Series:Food Innovation and Advances
Subjects:
animal ferritin
plant ferritin
thermal treatments
thermostability
digestive stability
absorptivity
Online Access:https://www.maxapress.com/article/doi/10.48130/FIA-2023-0005
Description
Summary:Ferritin, as an iron storage protein, has been considered to be a well-utilized iron supplement. However, the typical thermal processing of food rich in ferritin may affect the structure and function of ferritin as an iron supplement. Here, a plant ferritin (soybean seed ferritin, SSF) and an animal ferritin (donkey spleen ferritin, DSF) were used to analyze the changes in fundamental structure and iron content after thermal treatments (68 °C for 30 min, 100 °C for 10 min). Then, SSF and DSF after thermal treatment were administered intragastrically to mice to further evaluate its digestive stability and absorptivity after thermal processing. Results showed the secondary structure, oligomeric states, iron content, and digestive stability of DSF were maintained better than that of SSF after thermal treatments, indicating that DSF has a higher thermostability than SSF. Both SSF and DSF after thermal treatment exhibited higher absorptivity than untreated ferritins. SSF showed higher absorptivity than DSF whether heated or not.
ISSN:2836-774X

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