Project description:Malassezia restricta KCTC 27527

Project description:To understand the overall effect of the virus on fungal host, we compared the transcriptomes between virus-infected and virus-cured M. restricta strain by using RNA-Seq.

Project description:Malassezia restricta CBS 7877 genome, complete sequence

Project description:The draft genome sequence of Malassezia restricta KCTC 27527, a clinical isolate from a patient with dandruff, was previously reported. Using the PacBio Sequel platform, we completed and reannotated the genome of M. restricta KCTC 27527 for a better understanding of the genome of this fungus.

Project description:Purpose: Understanding the Mechanism of Action of the Anti-Dandruff Agent Zinc Pyrithione against Malassezia restricta. Methods: The transcriptome profile of the ZPT-treated M. restricta cells compared to that of untreated cells were generated by RNA-Seq using Illumina HiSeq. Generated raw reads that passed quality filters were mapped to the reference genome. Mapped reads were counted by featureCounts in Subread package v1.4.3 and the relative transcript abundance was TPM-normalized. Results: A number of genes were differentially expressed in the ZPT-treated cells, which include genes involved in zinc transporter, mitochondirial function, TCA cycle, electron transport chain and lipase.

Project description:Malassezia restricta and Staphylococcus epidermidis are dominant members of the human skin microbiome that interact closely, yet the molecular basis of their interaction remains unclear. In this study, we investigated how S. epidermidis-derived acetic acid (AcOH) influences chromatin organization in M. restricta. We generated the first high-resolution three-dimensional genome architecture map of M. restricta using in situ Hi-C and identified putative centromeric regions based on inter-chromosomal contact patterns. Exposure to AcOH, either by co-culture or direct treatment, led to large-scale chromatin decompaction and enhanced centromere clustering. These findings indicate that AcOH acts as an epigenetic modulator, inducing significant reorganization of nuclear architecture in M. restricta. This dataset provides a resource for understanding interkingdom interactions and the epigenetic effects of bacterial metabolites on fungal chromatin structure.

Project description:Malassezia restricta and Staphylococcus epidermidis are dominant members of the human skin microbiome that interact closely, yet the molecular basis of their interaction remains unclear. In this study, we investigated how S. epidermidis-derived acetic acid (AcOH) influences chromatin organization in M. restricta. We generated the first high-resolution three-dimensional genome architecture map of M. restricta using in situ Hi-C and identified putative centromeric regions based on inter-chromosomal contact patterns. Exposure to AcOH, either by co-culture or direct treatment, led to large-scale chromatin decompaction and enhanced centromere clustering. These findings indicate that AcOH acts as an epigenetic modulator, inducing significant reorganization of nuclear architecture in M. restricta. This dataset provides a resource for understanding interkingdom interactions and the epigenetic effects of bacterial metabolites on fungal chromatin structure.

Project description:Malassezia restricta and Staphylococcus epidermidis are dominant members of the human skin microbiome that interact closely, yet the molecular basis of their interaction remains unclear. In this study, we investigated how S. epidermidis-derived acetic acid (AcOH) influences chromatin organization in M. restricta. We generated the first high-resolution three-dimensional genome architecture map of M. restricta using in situ Hi-C and identified putative centromeric regions based on inter-chromosomal contact patterns. Exposure to AcOH, either by co-culture or direct treatment, led to large-scale chromatin decompaction and enhanced centromere clustering. These findings indicate that AcOH acts as an epigenetic modulator, inducing significant reorganization of nuclear architecture in M. restricta. This dataset provides a resource for understanding interkingdom interactions and the epigenetic effects of bacterial metabolites on fungal chromatin structure.

Project description:Purpose: Understanding the mechanism of action of lauryl betaine against Cryptococcus neoformans and Malassezia restricta. Methods: The transcriptome profile of the lauryl betaine-treated cells compared to that of untreated cells were generated by RNA-seq Illumina Hiseq. Results: A number of genes were differentially expressed in the lauryl betaine-treated cells, which include genes involved in ergosterol biosynthetic pathway.

Project description:Identification and characterization of a novel double-strand RNA mycovirus from Malassezia restricta KCTC 27540