| The fruiting body of Lentinula edodes is a popular edible mushroom,and extracts from the mycelium and the fruiting body of this species have diverse therapeutic potential.To gain insights into the molecular mechanisms underlying the fruiting body growth of L.edodes from the early bud stage(EBS),through the intermediate developing stage(IDS),to the fully developed stage(FDS),we performed de novo transcriptomic analysis using high-throughput Illumina RNA-sequencing.First,we generated three c DNA libraries representative of the three respective stages.We then obtained 38,933,148,44,594,472,and 37,905,646 high-quality reads from the respective libraries and assembled the reads into 25,104 transcriptional contigs,containing 15,199 unigenes.We found that only 9,331 of the unigenes had been annotated in the NCBI non-redundant protein database,and we functionally annotated 4,758 of them through Gene Ontology(GO)analysis and 2,921 of them through Clusters of Orthologous Groupsof proteins(COGs)analysis.We also assigned 3,995 unigenes to metabolic pathways by using the Kyoto Encyclopedia of Genes and Genomes(KEGG).We further identified 399 differentially expressed genes(DEGs)between EBS and IDS,1,428 between IDS and FDS,and 1,830 between EBS and FDS,uncovering 769 DEGs in multiple metabolic and signaling pathways.Interestingly,there were a limited number of DEGs whose expression was dramatically associated with FDS.Finally,genes,whose expression was either highly up-regulated in FDS or remained at a high level during fruiting body growth,were annotated specifically in the pathways of purine metabolism,unsaturated fatty acid metabolism and meiosis,suggesting that these key molecular events were actively occurring in the fruiting body.Our work is the first high-throughput transcriptome study on the growth of L.edodes fruiting bodies,and the results uncovered candidate genes for future gene identification and utilization of this commercially and medically important mushroom. |
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