低过敏性
化学
超滤(肾)
水解物
蛋白酶
酶水解
色谱法
水解
乳清蛋白
肽
酪蛋白
蛋白酵素
酶
牛奶蛋白
食品科学
生物化学
β-乳球蛋白
发酵
水解蛋白
生牛奶
蛋白质水解
作者
Ziyi Xiong,Shuijie Tan,Wu Yong,Yan Chen,Shuangyan Zheng,Hongbing Chen,Xin Li
标识
DOI:10.1021/acs.jafc.5c10421
摘要
To address cow's milk protein allergy, we developed a process coupling protease hydrolysis with sequential ultrafiltration to reduce the allergenicity of cow's milk allergens. Among three proteases compliant with infant formula standards, Alcalase conc BG most effectively degraded milk allergens, whereas Neutrase conc BG and Protamex produced high-molecular-weight whey protein peptide aggregates. Sequential ultrafiltration (10-3 kDa) of Alcalase-hydrolyzed casein and whey proteins enriched peptides <1 kDa (95.19% for casein; 88.22% for whey) and removed fragments >3 kDa, significantly reducing antibody binding capacity. In a BALB/c mouse model, these hydrolysates alleviated allergic symptoms, suppressed allergen-specific IgE/IgG levels, and reduced Th2 cytokine secretion. These results demonstrate that Alcalase hydrolysis coupled with ultrafiltration effectively produces hypoallergenic peptide fractions, offering a viable strategy for developing safe dairy ingredients for allergic individuals.
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