Optimization of the Solid-State Culture Conditions and Chemical Component Analysis of Poria cocos (Agaricomycetes).

Xin Zhou, Can Zhong, Jing Xie, Jian Jin, Bingbing Shen, Lin Chen, Hao Liu, Shuihan Zhang
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Abstract

The optimal cultivation conditions and chemical components of Poria cocos fruiting bodies were examined by employing the single factor and response surface methods to screen for optimal conditions for artificial cultivation. The differences in chemical composition among the fruiting bodies, fermented mycelium, and sclerotia of P. cocos were compared using UV spectrophotometry and high-performance liquid chromatography (HPLC). The optimal growth conditions for P. cocos fruiting bodies were 28.5°C temperature, 60% light intensity, and 2.5 g pine sawdust, which resulted in the production of numerous basidiocarps and basidiospores under microscopic examination. Polysaccharides, triterpenoids, and other main active components of P. cocos were found in the fruiting bodies, sclerotia, and fermented mycelium. The triterpenoid components of the fruiting bodies were consistent with those of the sclerotia. The content of pachymic acid in the fruiting bodies was significantly higher than that in the sclerotia, with a value of 33.37 ± 0.1902 mg/g. These findings provide novel insights into the sexual breeding and comprehensive development and utilization of P. cocos.

茯苓固态培养条件的优化及化学成分分析。
采用单因素和响应面法对茯苓子实体的最佳栽培条件和化学成分进行了筛选,筛选出适宜的人工栽培条件。采用紫外分光光度法和高效液相色谱法比较了椰子子实体、发酵菌丝体和菌核的化学成分差异。椰子子实体的最佳生长条件是28.5°C的温度、60%的光照强度和2.5g的松木屑,在显微镜下可以产生大量的担孢子和担孢子。在子实体、菌核和发酵菌丝体中发现了茯苓的多糖、三萜等主要活性成分。子实体的三萜成分与菌核的三萜组分一致。子实体中的厚壁酸含量显著高于菌核,其值为33.37±0.1902mg/g。这些发现为椰子的有性繁殖和综合开发利用提供了新的见解。
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