Project description:Pleurotus ostreatus, also known as the oyster mushroom, is an active lignin decomposer in the forests. The genomes of the monokaryotic strains PC15 and PC9 have been used to characterize the content and distribution of transposable elements. This study analyzes the impact of transposable element insertions on the global transcriptome of P. ostreatus. The transcriptome of PC15 and PC9 has been analyzed in exponential growth during submerged fermentation in malt-yeast extract-sucrose medium RNAseq of two P. ostreatus strains: PC15 and PC9

Project description:Pleurotus ostreatus, also known as the oyster mushroom, is an active lignin decomposer in the forests. The genomes of the monokaryotic strains PC15 and PC9 have been used to characterize the content and distribution of transposable elements. This study analyzes the impact of transposable element insertions on the global transcriptome of P. ostreatus. The transcriptome of PC15 and PC9 has been analyzed in exponential growth during submerged fermentation in malt-yeast extract-sucrose medium

Project description:Photoresponse mechanism of oyster muchroom mycelia was studied using a custom microarray prepared on the basis of the genome information (Pleurotus ostreatus PC15 v2.0) in JGI Genome Portal. Blue light stimulation to the mycelia caused the up-regulation and down-regulation of genes expression. Particulary, the genes coding rate-controlling enzymes in glycolysis, pentose phosphate, and sikimic acid pathways were up-regulated to accumulate shikimic acid dramatically.

Project description:Hepatic steatosis is a very common response to liver injury and often attributed to metabolic disorders. Prior studies have demonstrated the efficacy of a biotechnologically produced oyster mushroom (Pleurotus sajor-caju, PSC) in alleviating hepatic steatosis in obese Zucker rats. This study aims to elucidate molecular events underlying the anti-steatotic effects of PSC.

Project description:To elucidate the mechanisms of fruit body development in Pleurotus ostreatus, the transcriptomes of four different development stages including mycelium, primordium, young fruit body, and mature fruit body were obtained by RNA-seq.

Project description:In this study, we analyzed the genome-wide epigenetic and transcriptional patterns of the white-rot basidiomycete Pleurotus ostreatus throughout its life cycle. Our results performed by using high-throughput sequencing analyses revealed that strain-specific DNA methylation profiles are primarily involved in the repression of transposon activity, and suggest that 21 nt small RNAs play a key role in transposon silencing.Furthermore, we provide evidence that transposon-associated DNA methylation, but not sRNA production, is directly involved in the silencing of genes surrounded by transposons. Finally, we identified key genes activated in the fruiting process through the comparative analysis of transcriptomes.

Project description:Pleurotus ostreatus Genome sequencing

Project description:Analysis of Pleurotus ostreatus transcriptomes

Project description:Pleurotus ostreatus Raw sequence reads

Project description:Pleurotus ostreatus Raw sequence reads