Transcriptomic insights into fruiting body malformations in Lentinula edodes
Tong Lin, Juan Du, Shipeng Li, Ziwei Zhang, Yueting Dai, Chunyan Xie

TL;DR
This study uses transcriptomics to understand why shiitake mushrooms sometimes grow abnormally, identifying key genes and pathways involved in these deformities.
Contribution
The study identifies shared and malformation-specific genes and pathways in shiitake mushrooms, offering new molecular insights into abnormal fruiting body development.
Findings
Malformed shiitake mushrooms show distinct transcriptomic profiles with hundreds of differentially expressed genes.
Two genes are consistently dysregulated across all malformation types, suggesting a conserved role in abnormal development.
Downregulation of structural and metabolic genes and upregulation of stress and transport-related genes indicate compromised cellular integrity and altered metabolism.
Abstract
Lentinula edodes (shiitake mushroom), the world's most cultivated edible fungus, frequently develops malformed fruiting bodies during commercial cultivation, leading to significant economic losses. To elucidate the molecular basis of these deformities, we performed comparative transcriptome analysis of four distinct malformation types—marginal depression (H), central protrusion (P), twinning (T), and irregularity (I)—versus normal controls (N1 ~ N4) under identical cultivation conditions. Our results revealed deformity-specific transcriptional signatures: the I vs. N4 and T vs. N3 phenotypes exhibited the most severe dysregulation (288 and 275 differentially expressed genes (DEGs), respectively), followed by P vs. N2 (185 DEGs), while H vs. N1 showed minimal changes (61 DEGs). Two DEGs (LENED_000547 and LENED_004546) were consistently identified across all four malformed types. They…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsFungal Biology and Applications · Polysaccharides and Plant Cell Walls · Fungal and yeast genetics research
