重组DNA
水解物
生物化学
融合蛋白
酶
化学
肽
大米蛋白
生物
生物技术
功能性食品
生物合成
计算生物学
蛋白质生物合成
氨基酸
生物活性
生产成本
细胞培养
食品工业
食品加工
作者
Tingmin Qu,Ruibo Huang,Ying Wu,Hao Wu,Daichen Mu,Yanting Duan,Wenzhi Tan,Qingming Huang,Jian Hu,Li Wen
标识
DOI:10.1021/acs.jafc.5c15308
摘要
Rice-derived anti-inflammatory peptides (AIPs) have attracted growing interest as functional food ingredients. However, their low abundance in enzymatic hydrolysates and high synthesis cost limit practical application. This study presents an integrated strategy for efficient screening and biosynthesis of AIPs. Using receptor-based screening, three peptides (PHP1, GPA1, GPD1) were identified as promising inhibitors of inflammatory targets. To address production challenges, a fusion tag system was employed to express PHP1 recombinantly in E. coli, yielding up to 28.5 ± 3 mg/L. The recombinant peptides significantly reduced pro-inflammatory cytokines (TNF-α, IL-1β, IL-6), nitric oxide, and protected RAW264.7 cells from LPS-induced damage. Mechanistically, PHP1 directly interacted with NF-κB1 (K D = 7.631 μmol/L) and significantly suppressed NF-κB1 phosphorylation. The anti-inflammatory efficacy of PHP1 was further validated in a mouse model of systemic inflammation. These findings demonstrate both the anti-inflammatory potential of PHP1 and the viability of its scalable production, supporting its application in functional food development.
科研通智能强力驱动
Strongly Powered by AbleSci AI