Project description:Analysis of the iron stimulon and fur regulon of Geobacter sulfurreducens [expression]

Project description:Analysis of the iron stimulon and fur regulon of Geobacter sulfurreducens [ChIP-chip]

Project description:Iron stimulon and Fur regulon

Project description:G. sulfurreducens was cultured on a variety of different iron concentrations and differential expression analysis was used to identify the iron stimulon.

Project description:G. sulfurreducens was cultured on a variety of different iron concentrations and differential expression analysis was used to identify the iron stimulon. Wild type G. sulfurreducens was cultured on fresh water media with trace concentrations of iron (iron sufficient condition) as well as no trace iron (iron deficient condition). It was also cultured in ferric citrate (iron excess condition) media

Project description:In Neisseria gonorrhoeae, Fur (ferric uptake regulator) protein regulates iron homeostasis gene expression through binding to conserved sequences in promoters of iron-responsive genes. We have expanded the gonococcal Fur regulon using a custom microarray to monitor iron-responsive gene expression throughout the growth curve combined with a genome-wide in silico analysis to predict Fur boxes (FB), and in vivo FuRTA assays to detect genes able to bind Fur. Keywords: time course: (1hr ,2hr, 3hr, 4hr)

Project description:This SuperSeries is composed of the following subset Series: GSE22497: Transcriptome analysis of Geobacter sulfurreducens under multiple growth conditions GSE22503: ChIP-chip of Geobacter sulfurreducens PCA with antibody against RNAP and RpoD under various conditions GSE22511: Genome-wide transcription start site determination of Geobacter sulfurreducens under multiple growth conditions Refer to individual Series

Project description:Here we dissected a regulatory network directed by the conserved iron homeostasis regulator, Ferric Uptake Regulator (Fur), in uropathogenic E. coli strain CFT073. Comparing anaerobic genome-scale Fur DNA binding, with Fur dependent transcript expression and protein levels of the uropathogen to that of commensal E. coli K-12 strain MG1655, showed that the Fur regulon of the core genome is conserved but also includes genes within the pathogenicity/genetic islands. Unexpectedly, regulons indicative of amino acid limitation and the general stress response were also indirectly activated in the uropathogen fur mutant, suggesting that induction of the Fur regulon increases amino acid demand. Using RpoS levels as a proxy, addition of amino acids mitigated the stress. In addition, iron chelation increased RpoS to the same levels as in the fur mutant. The increased amino acid demand of the fur mutant or iron chelated cells was exacerbated by aerobic conditions, which could be partly explained by the O 2 -dependent synthesis of the siderophore aerobactin, encoded within a pathogenicity island. Taken together, this data suggest in the iron-poor environment of the urinary tract, amino acid availability could play a role in the proliferation of this uropathogen, particularly if there is sufficient O 2 to produce aerobactin.

Project description:Iron is required by almost all bacteria but concentrations of iron above the physiological levels are toxic. In bacteria, intracellular iron is regulated mostly by ferric uptake regulator, Fur or a similar functional protein. Iron limitation results in regulation of number of genes, including those involved in iron uptake process. A subset of the genes under the control of Fur is called Fur regulon. In this study we have identified the Fur- and iron- regulated genes in Listeria monocytogenes by DNA microarray analysis using fur mutant and its isogenic parent. In order to identify genes exclusively regulated in response to iron limitation, fur mutant and its isogenic parent grown in iron-deficient KRM media were compared. Similarly, to identify Fur regulated genes, fur mutant was compared with the parent under iron-deficient and excess-iron conditions. Listeria in low-iron resulted in up-regulation of 180 and down-regulation of 200 genes whereas in the fur mutant, 79 genes were up-regulated and 49 genes down-regulated. Our studies have identified at least 12 genes that are negatively controlled by Fur. In iron-deficient condition, these genes were up-regulated, while expression of fur was down-regulated. To further investigate the fur regulation, the fur promoter-lacZ transcriptional fusion strains were constructed in fur and perR mutant background. In the perR mutant, the regulation of fur, svpA, and feoB was inhibited in the iron-limited conditions. Our results indicate that fur is negatively regulated by Fur and PerR. Furthermore, these results demonstrate that regulation of some of the genes in iron-limited conditions require PerR.

Project description:OmcF is a monoheme c-type cytochrome in Geobacter sulfurreducens. An OmcF-deficient mutant is impaired in iron reduction and electricity production. Heme staining revealed altered expression of several c-type cytochromes in the OmcF-deficient mutant. Whole genome DNA microarray analysis was performed in order to determine which genes demonstrate altered expression in the OmcF-deficient mutant compared to wildtype. Keywords: cell type comparison