化学
扇贝
螯合作用
水解物
锌
消化(炼金术)
虾夷盘扇贝
吸收(声学)
体外
体内
生物化学
食品科学
核化学
色谱法
生物
水解
无机化学
渔业
有机化学
材料科学
生物技术
复合材料
作者
Jiatong Sun,Xiaoyang Liu,Zixu Wang,Fawen Yin,Huilin Liu,Yoshimasa Nakamura,Chenxu Yu,Dayong Zhou
摘要
Zinc (Zn) is an essential catalytic element in the human health system but its absorption in the intestinal system can be strongly affected by gastrointestinal (GI) digestion. In this study, the food-derived potential Zn carrier, scallop adductor hydrolysates (SAHs), was produced and characterized.During temporary storage at 4 °C, SAH decreased in Zn-chelating capacity in the aqueous phase, whereas the SAH-Zn complex exhibited high stability. Moreover, the secondary structure of SAH had no significant alteration. Zn morphologically altered the surface structures of SAH, which was involving in carboxyl group of SAH. Results of in vitro GI digestion suggested that the SAH-Zn maintained good stability in GI system and only proportion of high molecular weight cleaved. In addition, SAH could successfully carry and transport Zn while the fluorescence staining revealed free Zn accumulation inside the tissue. Finally, three representative absorbed peptides (around 600 Da) were identified and synthesized. Three synthetic peptides exhibit higher Zn-chelating capacity than SAH and could also successfully transported through the intestine.This study provided a theoretical basis for the investigation of digestion and absorption of marine animal-derived peptides as Zn carriers. © 2021 Society of Chemical Industry.
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