AI Article Synopsis
- Wolfiporia cocos is a fungus valued for its health benefits in Traditional Chinese Medicine and shows promise for pharmaceutical and industrial use.
- The study focused on optimizing liquid fermentation techniques to enhance mycelial biomass yield and the concentration of pachymic acid, discovering significant production increases under improved conditions.
- Researchers also explored the genetic factors influencing this production, finding that key genes like squalene monooxygenase and glycoside hydrolases 16 were significantly expressed during the optimized fermentation process.
Article Abstract
Wolfiporia cocos, a versatile fungus acclaimed for its nutritional and therapeutic benefits in Traditional Chinese Medicine, holds immense potential for pharmaceutical and industrial applications. In this study, we aimed to optimize liquid fermentation techniques and culture medium composition to maximize mycelial biomass (MB) yield, pachymic acid (PA) concentration, and overall PA production. Additionally, we investigated the molecular basis of our findings by quantifying the expression levels of genes associated with PA and MB biosynthesis using quantitative real-time polymerase chain reaction. Under the optimized fermentation conditions, significant results were achieved, with maximum MB reaching 6.68 g l-1, PA content peaking at 1.25 mg g-1, and a total PA yield of 4.76 g l-1. Notably, among the four examined genes, squalene monooxygenase, exhibited enhanced expression at 0.06 ratio under the optimized conditions. Furthermore, within the realm of carbohydrate-active enzymes, the glycoside hydrolases 16 family displayed elevated expression levels at 21 ratios, particularly during MB production. This study enhances understanding of genetic mechanism governing MB and PA production in W. cocos, highlighting the roles of squalene monooxygenase and glycoside hydrolases 16 carbohydrate-active enzymes.
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| http://dx.doi.org/10.1093/lambio/ovae054 | DOI Listing |
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