Mycology (Jul 2024)
Insights into the evolution and mechanisms of response to heat stress by whole genome sequencing and comparative proteomics analysis of the domesticated edible mushroom Lepista sordida
Abstract
Lepista sordida is a valuable edible mushroom rich in natural bioactive compounds. In the present study, a high-quality whole-genome of a domesticated strain of L. sordida was sequenced, revealing a 40.67 Mb genome in 13 contigs. Phylogenetic analysis revealed that L. sordida is evolutionarily closely related to edible mushroom Lyophyllum decastes and Hypsizygus marmoreus. Heat stress has a significant effect on the yield and quality of mushrooms, but the molecular basis for this is poorly understood in L. sordida. A label-free comparative proteomic analysis was performed under different heat stress conditions. The growth of L. sordida mycelia was inhibited, and nuclear apoptosis occurred under heat stress. Ca2+ and MAPK signaling pathways were found to be involved in heat stress signal transduction. It is hypothesized that the expression of various heat shock proteins plays a crucial role in the response to heat stress. In addition, the components of the ubiquitin-proteasome system and the thioredoxin system were upregulated, preventing the accumulation of misfolded proteins and possibly supporting the response to heat stress. In summary, these results provide a fundamental insight into the evolution and heat stress-responsive mechanisms in L. sordida and may facilitate the breeding of heat-tolerant strains for artificial cultivation.
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