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摘要
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Prodigiosin (PG)—a molecule with promising applications in many felds—was efectively biosynthesized in this study using a novel and eco-friendly fermentation substrate—i.e., beer brewing by-product (BBB). It was confrmed as a nutrient-rich
substrate source of protein (22.18%), ash (10.1%), carbohydrate (1.98%), sugar, and abundant mineral elements. The cultural medium with a newly designed formula on a small fask containing 1.25% BBB/Casein (9/1), 0.025% FeSO4, and 0.125% Na2HPO4 for a notable PG yield achieved 6230 mg/L after 48 h. PG production on a bioreactor system also enhanced yield by 1.16 folds (reaching 7220 mg/L) and shortened fermentation time (only taking 10 h). This pure pigment was isolated and identifed by analyzing UV/vis absorption, MALDI-TOF MS, and HPLC. The
obtained PG was used for antifungal tests. Notably, in this work, most of PG’s path�ogen fungal inhibition activity are new fndings. Of those, PG showed the most posi�tive efect on Colletotrichum gloeosporioides F05 strain (causing on sweet potato roots) with inhibition rates of mycelial growth and spore germination achieved at 47 and 57%, respectively. In particular, PG also reduced resistance and wholly inhibited
mycelium growth germinating from spores. Furthermore, PG showed the good inter�action ability with multiple target proteins (CDC42, CYP51, CAS2, Pectate lyase B,
and Beta tubulin) inhibiting C. gloeosporioides via docking simulation. The results
of this study revealed useful scientifc information related to the novel application of
BBB in PG production and the new PG’s efects in the management of fungal patho�gens in crops |
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