马铃薯皮是控制谷物真菌的生物化合物天然来源

Daniela Pacifico*, Roberto Lo Scalzo, Antonella Calzone, Federica Nicoletti, Bruno Parisi, Helga Cassol, Giulia Bianchi and Chiara Lanzanova, 
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引用次数: 0

摘要

联合国 2030 年可持续发展议程》和《联合国生物多样性公约 2020 年战略计划》提出,需要减少农业生态系统中的合成投入,同时减少工业食品浪费。对从加工品种中回收的果皮进行了分析,提取物中的总酚和甾体甘氨酰生物碱含量分别高达 1200 和 300 μM。通过体外实验测试了它们对禾谷镰刀菌和轮枝镰刀菌的抗真菌活性。对果皮原提取物、其固醇类糖苷生物碱、酚酸和花青素的分离馏分、它们的组合以及真实分子的混合物进行了比较。在所有测试的果皮中,真菌的生长都有所降低,不受基因型和耕作制度的影响,径向生长抑制率从 12% 到 30% 不等。虽然糖生物碱的抗真菌作用得到了证实(抑制率高达 20%),但酚酸本身的功效(抑制率高达 30%)也首次得到了揭示。
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Potato Peel as a Natural Source of Biocompounds for Cereal Fungal Control

UN 2030 Agenda for Sustainable Development and the UN Convention on Biodiversity Strategic Plan for 2020 address the need to reduce synthetic inputs in agroecosystems while decreasing industrial food waste. Peels recovered from processing varieties were profiled, obtaining extracts up to 1200 and 300 μM of total phenols and steroidal glycoalkaloids, respectively. Their antifungal activity was tested by in vitro experiments against Fusarium graminearum and Fusarium verticillioides. A comparison among raw peel extracts, their separated fractions of steroidal glycoalkaloids, phenolic acids, and anthocyanins, their combination, and mixtures of authentic molecules was performed. For all the peels tested, fungal growth was reduced independently of genotype and farming systems with a range from 12 to 30% of radial growth inhibition. While the antifungal role of glycoalkaloids was confirmed (up to 20% inhibition), for the first time, the effectiveness of phenolic acids alone was revealed (up to 30% inhibition).

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