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:Understanding the Mechanism of Action of the Anti-Dandruff Agent Zinc Pyrithione against Malassezia restricta.

Project description:Although praziquantel (PZQ) has been used to treat schistosomiasis for over 20 years its mechanism of action remains unknown. We have developed an assay based on the transcriptional response of S. mansoni PR-1 to heat shock to confirm that while 6 week post infection (p.i.) schistosomes are sensitive to PZQ, 4 week p.i. schistosomes are not. Further, we have used this assay to demonstrate that this sensitivity develops between days 37 and 40 p.i. PZQ linked to the fluorophore BODIPY appears to easily enter the cells of intact 4 and 6 week p.i. schistosomes as well as mammalian NIH 3T3 cells and together, these data suggest that the differential effects of PZQ is not based on cell exclusion but probably due the differential expression of a target molecule at 6 weeks p.i. A transcriptomal analysis of gene expression between 4 and 6 weeks p.i. revealed 607 candidate genes whose products are potential PZQ targets. A comparison of this gene list with that of genes expressed by PZQ sensitive miracidia reduced this target list to 247 genes, including a number involved in aerobic metabolism and cytosolic calcium regulation. Finally, we also report the effect of an in vitro sub-lethal exposure of PZQ on the transcriptome of S. mansoni PR-1. Annotation of genes differentially regulated by PZQ exposure suggests that schistosomes may undergo a transcriptomic response similar to that observed during oxidative stress. Keywords: cell type comparison, time course Cell type comparison: Four biologial replactes of schistosomes harvasted 4 and 6 week post-infection were performed. Time course: Four samples performed in duplicate for exposure to a sub-lethal dose of PZQ (50 M-BM-5g/ml) at time points 0, 30, 60, and 240 min over a common reference sample.

Project description: Not available

Project description:Although praziquantel (PZQ) has been used to treat schistosomiasis for over 20 years its mechanism of action remains unknown. We have developed an assay based on the transcriptional response of S. mansoni PR-1 to heat shock to confirm that while 6 week post infection (p.i.) schistosomes are sensitive to PZQ, 4 week p.i. schistosomes are not. Further, we have used this assay to demonstrate that this sensitivity develops between days 37 and 40 p.i. PZQ linked to the fluorophore BODIPY appears to easily enter the cells of intact 4 and 6 week p.i. schistosomes as well as mammalian NIH 3T3 cells and together, these data suggest that the differential effects of PZQ is not based on cell exclusion but probably due the differential expression of a target molecule at 6 weeks p.i. A transcriptomal analysis of gene expression between 4 and 6 weeks p.i. revealed 607 candidate genes whose products are potential PZQ targets. A comparison of this gene list with that of genes expressed by PZQ sensitive miracidia reduced this target list to 247 genes, including a number involved in aerobic metabolism and cytosolic calcium regulation. Finally, we also report the effect of an in vitro sub-lethal exposure of PZQ on the transcriptome of S. mansoni PR-1. Annotation of genes differentially regulated by PZQ exposure suggests that schistosomes may undergo a transcriptomic response similar to that observed during oxidative stress. Keywords: cell type comparison, time course

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