食用菌锌生物强化技术、食用安全性及生理功能调控研究进展OA
Zinc biofortification technologies,edible safety,and physiological function regulation in edible mushrooms
锌(Zn)是人体必需的微量元素,膳食锌缺乏是全球重要的公共卫生难题.食用菌因其天然的矿物质积累能力以及将无机锌转化为具有更高生物利用度的有机结合态的能力,已成为锌生物强化中极具潜力的载体.文章总结了食用菌栽培过程对锌的富集吸收、细胞内稳态调控和亚细胞分布规律,并评估了影响锌生物强化效率的关键因素,包括真菌种类、锌源(无机、有机或纳米形式)、施用方法和培养条件.此外,还分析了锌富集对真菌多糖生物合成和生物活性的影响,以及锌在积累过程中与其他必需金属之间的相互作用.在此基础上,总结了开发安全有效的锌生物强化食用菌时,在平衡营养增强、功能品质和消费者安全方面面临的关键挑战.
Zinc(Zn)is an essential trace element for humans,and dietary zinc deficiency is an important global public health issue.Edible mushrooms have become highly promising carriers for zinc biofortification due to their natural mineral accumulation ability and the capacity to convert inorganic zinc into organically bound states with higher bioavailability.The enrichment and absorption of zinc,intracellular homeostasis regulation,and subcellular distribution patterns during the cultivation process of edible mushrooms were summarized,and the key factors influencing the efficiency of zinc biofortification,including fungal species,zinc sources(inorganic,organic,or nano forms),application methods,and cultivation conditions,were evaluated.In addition,the effects of zinc enrichment on the biosynthesis and biological activity of fungal polysaccharides,as well as the interactions between zinc and other essential metals during the accumulation process,were analyzed.Based on this,the key challenges faced in balancing nutritional enhancement,functional quality,and consumer safety when developing safe and effective zinc biofortified edible mushrooms were summarized.
吴冰冰;施能派;苏建伟;侯雪梅;林向阳
福州大学生物科学与工程学院,福建 福州 350108福州大学生物科学与工程学院,福建 福州 350108福州大学生物科学与工程学院,福建 福州 350108福州大学生物科学与工程学院,福建 福州 350108福州大学生物科学与工程学院,福建 福州 350108
食用菌锌生物强化生物可及性相互作用营养活性食用安全性
edible mushroomzinc biofortificationbioaccessibilityinteractionnutritional activityedible safety
《食品与机械》 2026 (5)
213-221,9
福建省高校产学合作项目(编号:2024N5002)
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