Ultrasound Intensify the Flavonoid Production of the Willow Bracket Mushroom, Phellinus igniarius (Agaricomycetes), Fermentation Mycelia.

Yating Dong, Haile Ma, Muhammad Tayyab Rashid, Jamila Akter Tuly, Yiting Guo, Xiaofei Ye, Ling Sun, Bengang Wu, Cunshan Zhou, Ronghai He, Bingcheng Gan, Tao Wang, Mengxing Chen, Dan Wu
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Abstract

This research aimed to use a novel and effective ultrasound (US) approach for obtaining high bio-compound production, hence proposing strategies for boosting active ingredient biosynthesis. Furthermore, the US promotes several physiological effects on the relevant organelles in the cell, morphological effects on the structure of Phellinus igniarius mycelium, and increases the transfer of nutrients and metabolites. One suitable US condition for flavonoid fermentation was determined as once per day for 7-9 days at a frequency 22 + 40 kHz, power density 120 W/L, treated 10 min, treatment off time 7 s. The flavonoid content and production increased about 47.51% and 101.81%, respectively, compared with the untreated fermentation (P < 0.05). SEM showed that sonication changes the morphology and structure of Ph. igniarius mycelium; TEM reveals the ultrasonic treatment causes organelle aggregation. The ultrasound could affect the metabolism of the biosynthesis of the active ingredients.

超声波强化柳支架蘑菇、桑黄、发酵菌丝体中黄酮类化合物的产生。
本研究旨在使用一种新颖有效的超声波(US)方法来获得高生物化合物产量,从而提出促进活性成分生物合成的策略。此外,US促进了对细胞中相关细胞器的几种生理作用,对桑黄菌丝体结构的形态学作用,并增加了营养物质和代谢产物的转移。确定了类黄酮发酵的一个合适的US条件,即在频率22+40kHz、功率密度120W/L、处理10分钟、处理停止时间7秒的条件下,每天一次,发酵7-9天。类黄酮含量和产量分别增加了47.51%和101.81%,扫描电镜观察表明,超声处理可改变桑黄菌丝体的形态结构;透射电镜显示超声处理引起细胞器聚集。超声波可以影响活性成分生物合成的代谢。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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