Transcriptome Analysis of the Growth-Promoting Effect of Large Macrofungal Sclerotium Powder on <i>Lentinula edodes</i> and <i>Pleurotus eryngii</i> Strains

Transcriptome Analysis of the Growth-Promoting Effect of Large Macrofungal Sclerotium Powder on <i>Lentinula edodes</i> and <i>Pleurotus eryngii</i> Strains

In the industrial production of <i>Lentinula edodes</i> and <i>Pleurotus eryngii</i>, slow growth of the mother seed and insufficient hyphal vitality can significantly affect the cultivation process. To shorten the growth period on traditional PDA medium, two strains of <i...

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Bibliographic Details
Main Authors: Zhanghu Chen, Ruiheng Yang, Yan Li, Lihua Tang, Huiyang Xiong, Dapeng Bao, Ting Guo
Format: Article
Language:English
Published: MDPI AG 2024-11-01
Series:Journal of Fungi
Subjects:
<i>Lentinula edodes</i>
<i>Pleurotus eryngii</i>
sclerotium
transcriptome
medium composition
energy metabolism
Online Access:https://www.mdpi.com/2309-608X/10/12/808
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Summary:In the industrial production of <i>Lentinula edodes</i> and <i>Pleurotus eryngii</i>, slow growth of the mother seed and insufficient hyphal vitality can significantly affect the cultivation process. To shorten the growth period on traditional PDA medium, two strains of <i>L. edodes</i> and <i>P. eryngii</i> were cultured with different proportions of <i>P</i>. <i>tuber-regium</i> and <i>Wolfiporia hoelen</i> sclerotium powders added into the medium to investigate the effect on the mycelial growth. Compared to the PDA, the addition of sclerotia powder significantly enhanced the growth of mycelia, with an optimal addition ratio of 2%. Transcriptome sequencing was performed after culturing <i>L. edodes</i> and <i>P. eryngii</i> on PDA, PDA with 2% <i>P. tuber-regium</i> sclerotium powder, and PDA with 2% <i>W. hoelen</i> sclerotium powder. GO enrichment analysis of the differentially expressed genes (DEGs) of <i>L. edodes</i> and <i>P. eryngii</i> strains cultured in the sclerotia powder media showed significant changes in oxidoreductase and glucosidase activities. Changes were observed in KEGG annotation for carbohydrate metabolism, glycolysis, pyruvate metabolism, and other energy metabolic pathways. Moreover, carbohydrate-active enzyme (CAZyme) family genes were predominantly upregulated. The increase in the activity of CAZyme and oxidoreductases promotes the degradation of nutrients in the sclerotia into small-molecule substances, which explains why the sclerotia powder culture medium promotes mycelial growth.
ISSN:2309-608X

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