Project description:Genome wide transcriptional changes induced by various types of oxidative stresses as well as salt stress were studied in a DatfA mutant and the appropriate control A. nidulans strains. Although a significant number of stereotypically regulated genes was identified (Core Oxidative Stress Response or COSR genes) when the global transcriptional effects of five different oxidative stress conditions were compared the number of co-regulated genes decreased to 13 when NaCl stress was included into the analyses. The appearance of only a few co-regulated genes and the great number of genes regulated merely by one certain type of stress do not support the existence of a S. cerevisiae-type Environmental Stress Response in A. nidulans. Deletion of atfA, a true functional ortholog of fission yeast’s “all-purpose” stress response transcription factor, increased the oxidative stress sensitivity of A. nidulans and affected the transcription of several genes under both unstressed and stressed conditions. The number of genes under AtfA control was quite stress-type dependent; e.g. deletion of atfA altered the transcription of a wide spectrum of genes under menadione sodium bisulfite stress but had only a minor effect on the transcriptome profiles when A. nidulans cultures were exposed to H2O2, tBOOH, NaCl and, especially, to diamide stress. These observations suggest that the function of AtfA in the regulation of various stress responses is much smaller than we thought before or other transcription factors can take over a number of AtfA’s functions when the atfA gene is deleted. It is noteworthy that both oxidative and salt stress induced the transcription of some secondary metabolite gene clusters and the deletion of atfA enhanced the stress responsiveness of further clusters. Surprisingly, certain clusters were down-regulated by the stress conditions tested and the majority of them were not stress-responsive at all. Therefore, stress dependent regulation seems to be a frequent but far not a general feature of the regulation of secondary metabolism in A. nidulans.

Project description:We examined the transcriptional changes observable under oxidative stress caused by menadione in Emericella nidulans. Keywords: time-course

Project description:The bZIP transcription factors (TFs) govern regulation of development, secondary metabolism and various stress responses in filamentous fungi. In this work, we carried out genome-wide expression studies employing Illumina RNAseq to understand the roles of the two bZIP transcription factors AtfA and AtfB in Aspergillus nidulans. Comparative analyses of transcriptomes of vegetatively grown cells (mycelia) and asexual spores (conidia) obtained from the surface cultures of control, DatfA, DatfB, DatfADatfB mutant strains with/without menadione sodium bisulfite (MSB) treatment were performed. Probable AtfA and AtfB dependent gene sets were determined by comparing transcriptomes of both single gene deletion mutants with the reference strain, and the double gene deletion mutant with the appropriate single gene deletion mutants. As AtfA is the primary bZip TF governing stress-response in A. nidulans, a significantly higher number was differentially expressed genes (DEGs) by DatfA than DatfB in both mycelial and conidial samples, and most of the AtfB dependent genes showed AtfA dependence, too. Moreover, a low number of genes showing AtfB dependence only can be a consequence of that DatfA leading to downregulation of atfB expression. The abundance of atfA and atfB mRNAs and, concurring with it the number of AtfA and AtfB affected genes were much higher in conidial than in mycelial samples. The number of AtfB- (but not of AtfA-) affected DEGs decreased markedly in the presence of MSB, which was accompanied with decreased mRNA levels of atfB in MSB treated mycelial (reference strain) and conidial (DatfA mutant) samples. The overlap between the AtfA dependent DEGs in the case of MSB treated and untreated mycelial samples was low demonstrating that distinct genes can be under AtfA control in different cell types. The AtfA-dependent DEGs were enriched with carbohydrate metabolism genes. Among them, AtfA-dependence of glycolytic genes in the case of the conidial samples was the most notable. Levels of transcripts of certain secondary metabolitic gene clusters, like the Emericellamide cluster also showed AtfA-dependent regulation. The AtfA affected DEGs under all experimental conditions include those encoding catalase and histidine-containing phosphotransfer proteins. The 23 DEGs that solely dependent on AtfB considering all transcriptomics data sets, included a putative a -glucosidase (agdB), a putative a-amylase, calA involved in early conidial germination and an alternative oxidase. In summary, there is a complex interaction between the two b-Zip TFs in which the main function of AtfB is supporting the regulatory role of the primary b-Zip TF AtfA in A. nidulans.

Project description:To investigate the oxidant sensitivity of E/ER regulated gene expression, E/ER regulated genes are identified using E deprivation or ER-alpha siRNA knockdown; and oxidative stress responsive is determined by 8hr exposure to diamide, hydrogen peroxide and menadione Keywords: biomarker identification

Project description:Microarray analysis was used to identify the osmotic stress-responsive genes dependent on HogA and AtfA in the filamentous fungus Aspergillus nidulans. In order to identify such genes, we conducted the several types of experiment. One was a comparison between wild type with and without osmotic shock (Exp.6). Others were comparison between wild type with osmotic shock and each mutant (hogA, Exp.7; atfA, Exp.8) with osmotic shock. Compared the result of Exp.6 with other experiments, we could identify the genes whose expression was induced or repressed in response to osmotic stress in a manner dependent on HogA and AtfA. KEY WORD; Aspergillus nidulans, osmotic stress, HogA, AtfA

Project description:To investigate the oxidant sensitivity of E/ER regulated gene expression, E/ER regulated genes are identified using E deprivation or; ER-alpha siRNA knockdown; and oxidative stress responsive is determined by 8hr exposure to diamide, hydrogen peroxide and menadione Experiment Overall Design: MCF7 cells were treated under various conditions to identifiy oxidative stress responsive E/ER regulated genes. Association of these genes with respect to tumor phenotypes are assessed

Project description:Late exponential growth phase (18 h) Emericella nidulans mycelia were transferred to minimal media also supplemented with 1.8 mM diamide, 75 mM H2O2 or 0.8 mM menadione (sodium bisulfite addition compound) and transcriptome profiles were recorded at 0.25, 0.5, 1, 3, 6 and 9 h incubation times. Double printed EST-based (2x4352 spots) DNA chips were used to monitor changes in cDNA populations prepared from mRNA pools isolated from oxidative stress exposed and untreated control cultures. Gene expression ratios were estimated with Genisphere (Hatfield, PA, USA) 3DNA Submicro EX Expression Array Detection Kit. Expression data were read with a GenePix 4000B microarray scanner (Axon Instruments). Intensity ratios were calculated with GenePix Pro 3.0 software. Note, processed data after LOESS-type normalization are presented on Series GSE2085 and all the signs were also reversed during data processing to reach proper log2(treated/control) channel intensity ratios. Keywords: time-course

Project description:Cd2+ pollution represents a serious global environmental risk. Understanding how microbes survive cadmium stress can facilitate the development of techniques to clean our environment and to prevent accumulation of this toxic heavy metal in the food chain. Genome-wide transcriptional changes induced by CdCl2 were determined and evaluated in Aspergillus nidulans. In addition to the reference strain, a atfA gene deletion mutant was also investigated to collect data on the regulatory role of AtfA transcription factor in this model organism. Up-regulation of the crpA Cu2+/Cd2+ pump and AN7729 putative bis(glutathionato)-cadmium transporter genes as well as transcriptional changes aiming to increase intracellular Cys availability were important parts of the efficient adaptation in both strains. Although deletion of atfA did not alter the cadmium tolerance of the fungus, the cadmium stress response of the mutant substantially differed from that of the reference strain. Promoter and transcriptional analyses of the “Two component signal transduction system” genes suggest that the AtfA-dependent regulation of these genes can be relevant in this phenomenon. We concluded that the regulatory network of A. nidulans has a high flexibility allowing the fungus to adapt efficiently to stress both in the presence and absence of this important transcription factor.

Project description:Microarray analysis was used to identify the fludioxonil-responsive genes dependent on SskA, SrrA, HogA, and AtfA in the filamentous fungus Aspergillus nidulans. In order to identify such genes, we conducted the several types of experiment. One was a comparison between wild type treated with fludioxonil and without the treatment (Exp.1). Others were comparison between wild type treated with fludioxonil and each mutant (sskA, Exp.2; srrA, Exp.3; hogA, Exp.4; atfA, Exp.5) treated with fludioxonil. Compared the result of Exp.1 with that of other experiments, we could identify the genes whose expression was induced or repressed in response to fludioxonil in a manner dependent on SskA, SrrA, HogA, or AtfA. KEY WORD; Aspergillus nidulans, fludioxonil, SskA, SrrA, HogA, AtfA

Project description:Investigating the oxidative stress response: Candida glabrata strains were stressed with hydrogen peroxide and menadione (causing oxygen radicals) to induce the oxidative stress regulon, which is thought to be upregulated during the oxidative burst inside of phagocytic cells.