Project description:The availability of yeast DNA microarrays provides the possibility of monitoring gene expression levels as a function to toxin exposure, and consequently as a means of determining mechanisms of toxicity. This system possesses the benefit of the essential volume of yeast cultures, the high reproducibility of expression profiles, and the massive functional information. Because small amount of biological sample cultures are required for this analysis, toxicity test for rare chemical such as mycotoxins which is a natural compound and difficult to be artificially synthesized. Citrinin [518-75-2], 4,6-dihydro-8-hydroxy-3,4,5-trimethyl-6-oxo-3H-2-benzopyran-7-crboxylic acid, is the one of the popular mycotoxicin produced by Penicillium and Aspergillus family possibly spread all over the world. This natural chemicals is one of the well characterized mycotoxin but the information especially mechanism of toxic action is limited. We used two types of microarrays, one have ORF (Open reading Frame) fragment on the surface of the glass as probes and the other have probes as oligonucleotide probes on the microarray with 3 dimensions. We compared data properties and studied the toxicity of citrinin to yeast cells. Keywords: stress response

Project description:The availability of yeast DNA microarrays provides the possibility of monitoring gene expression levels as a function to toxin exposure, and consequently as a means of determining mechanisms of toxicity. This system possesses the benefit of the essential volume of yeast cultures, the high reproducibility of expression profiles, and the massive functional information. Because small amount of biological sample cultures are required for this analysis, toxicity test for rare chemical such as mycotoxins which is a natural compound and difficult to be artificially synthesized. Citrinin [518-75-2], 4,6-dihydro-8-hydroxy-3,4,5-trimethyl-6-oxo-3H-2-benzopyran-7-crboxylic acid, is the one of the popular mycotoxicin produced by Penicillium and Aspergillus family possibly spread all over the world. This natural chemicals is one of the well characterized mycotoxin but the information especially mechanism of toxic action is limited. We used two types of microarrays, one have ORF (Open reading Frame) fragment on the surface of the glass as probes and the other have probes as oligonucleotide probes on the microarray with 3 dimensions. We compared data properties and studied the toxicity of citrinin to yeast cells. Keywords: stress response Series containes 3 hybridization results from independent biological samples, and each experiment have high and low power scanned data respectively.

Project description:The availability of yeast DNA microarrays provides the possibility of monitoring gene expression levels as a function to toxin exposure, and consequently as a means of determining mechanisms of toxicity. This system possesses the benefit of the essential volume of yeast cultures, the high reproducibility of expression profiles, and the massive functional information. Because small amount of biological sample cultures are required for this analysis, toxicity test for rare chemical such as mycotoxins which is a natural compound and difficult to be artificially synthesized. Citrinin [518-75-2], 4,6-dihydro-8-hydroxy-3,4,5-trimethyl-6-oxo-3H-2-benzopyran-7-crboxylic acid, is the one of the popular mycotoxicin produced by Penicillium and Aspergillus family possibly spread all over the world. This natural chemicals is one of the well characterized mycotoxin but the information especially mechanism of toxic action is limited. We used two types of microarrays, one have ORF (Open reading Frame) fragment on the surface of the glass as probes and the other have probes as oligonucleotide probes on the microarray with 3 dimensions. We compared data properties and studied the toxicity of citrinin to yeast cells. Keywords: stress response Biological samples were prepared from 3 independent experiments. Hybridization were done triplicate in each sample-control set. Sample labeling were swapped between 1st hybridization (control = Cy5, sample = Cy3) and 2nd and 3rd hybridization (control = Cy3, sample = Cy5).

Project description:This SuperSeries is composed of the following subset Series: GSE6101: 300 ppm Citrinin treatment for 2 h (GPL4399) GSE6111: 300 ppm Citrinin treatment for 2 h (GPL1945) Keywords: SuperSeries Refer to individual Series

Project description:The yeast Cryptococcus podzolicus Y3 shown the capability to degrade citrinin by the intracellular enzymes. However, the enzymes which is responsible for the degradation process was unknown. Transcriptome change in response to mycotoxin citrinin was analyzed. The molecular mechanism of Cryptococcus podzolicus Y3 withstand citrinin was revealed.

Project description:The aim of this study was to reveal the genomic response of yeast cells to the related mycotoxins citrinin (CIT) and ochratoxin A (OTA). Both mycotoxins can be produced by the same filamentous fungi and co-contaminate the same foodstuff. However, it is not known whether CIT and OTA share the same toxicity mechanisms or not. We performed transcriptomic profiling experiments using microarray hybridization of a pdr5 mutant strain exposed separately to CIT or OTA and exposed to a combination of both toxins. A yeast pdr5 mutant was used, because it is significantly sensitized to both toxins. We find that CIT and OTA cause the rapid activation of largely non-overlapping gene sets. The most prominent functional group of CIT-activated genes corresponds to the cellular response to oxidative stress, while OTA-activated genes belong predominantly to single organism developmental processes and meiosis/sporulation. The combined exposure of CIT and OTA revealed a mixed response of functional gene groups. Our results demonstrate that CIT and OTA have distinguishable and independent biological effects with oxidative stress being a hallmark for CIT toxicity and the deregulation of developmental genes being the principal feature for OTA toxicity.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Mycotoxin citrinin (CTN) is widely found in multiple types of grains in foods and feeds globally. CTN also contaminates Monascus-derived health supplements such as red yeast rice and red yeast extracts during the fermentation process, which are originally used for preventing cardiovascular diseases. A previous study has reported that CTN is cardiotoxic to zebrafish embryos during their development by interfering some cardiogenic genes and pathways, showing a potential risk of consuming CTN-contaminated foods and products. However, the cardiotoxic effects and the underlying mechanisms of CTN on mammalian cardiomyocytes remain unclear and need to be ellucidated. In this study, we performed RNA-seq experiments in order to investigate the transcriptomic alterations induced by CTN-exposed rat H9c2 cardiomyocytes. The transcriptome profiling we obtained may reveal some evidence regarding the toxic effects of CTN on cardiac phenotypes, chromosome segregation, tubulin arrangement, mitochondrial functioning, and stress responses, etc.

Project description:Mycotoxin citrinin (CTN) is a contaminant widely found in foods, feeds, and fermented health supplements. To investigate the potential neurotoxic effect of CTN, RNA-seq was performed on human neuroblastoma cells SH-SY5Y exposed to 0, 10, and 20 μM CTN for 72 h. The transcriptomic profile revealed novel underlying mechanisms of CTN neurotoxicity, providing useful information for risk assessment of consuming CTN-contaminated grains and its commercial food products.

Project description:Different toxicity mechanisms for citrinin and ochratoxin A revealed by transcriptomic analysis in yeast