Iron and Fur Regulation in
            <i>Vibrio cholerae</i>
            and the Role of Fur in Virulence

Mey, Alexandra R.; Wyckoff, Elizabeth E.; Kanukurthy, Vanamala; Fisher, Carolyn; Payne, Shelley M.

doi:10.1128/iai.73.12.8167-8178.2005

Cited by 178 publications

(209 citation statements)

References 81 publications

(99 reference statements)

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“…Virulence Assay in Animals-Fur has been shown to play an important role in the virulence of different pathogenic bacteria (18,38). We thus set out to determine whether Fur90 and the Fur-binding peptide aptamers affected the virulence of a pathogenic E. coli strain in an in vivo model system.…”

Section: Resultsmentioning

confidence: 99%

“…About 100 genes from various E. coli strains have been shown to be regulated by Fur: most are involved in iron homeostasis; others act in metabolism and oxidative, nitrosative, and acidic stress responses (14 -17). Because fur deletion mutants of different pathogenic bacteria such as Vibrio cholerae (18) and Pseudomonas aeruginosa (19) show a decreased virulence, Fur is considered as a potential target for novel antibiotic therapies. Finally Fur has been extensively studied through the use of fur Ϫ strains, reporter genes, and fur mutants such as fur90 (H90Y) and fur51 (G51D), which were shown to negatively complement wild type fur (20).…”

mentioning

confidence: 99%

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A Comparative Analysis of Perturbations Caused by a Gene Knock-out, a Dominant Negative Allele, and a Set of Peptide Aptamers

Abed

Bickle²,

Mari

et al. 2007

Molecular & Cellular Proteomics

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The study of protein function mostly relies on perturbing regulatory networks by acting upon protein expression levels or using transdominant negative agents. Here we used the Escherichia coli global transcription regulator Fur (ferric uptake regulator) as a case study to compare the perturbations exerted by a gene knock-out, the expression of a dominant negative allele of a gene, and the expression of peptide aptamers that bind a gene product. These three perturbations caused phenotypes that differed quantitatively and qualitatively from one another. The Fur peptide aptamers inhibited the activity of their target to various extents and reduced the virulence of a pathogenic E. coli strain in Drosophila. A genome-wide transcriptome analysis revealed that the "penetrance" of a peptide aptamer was comparable to that of a dominant negative allele but lower than the penetrance of the gene knock-out. Our work shows that comparative analysis of phenotypic and transcriptome responses to different types of perturbation can help decipher complex regulatory networks that control various biological processes.

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Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

A Comparative Analysis of Perturbations Caused by a Gene Knock-out, a Dominant Negative Allele, and a Set of Peptide Aptamers

Abed

Bickle²,

Mari

et al. 2007

Molecular & Cellular Proteomics

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show abstract

“…Expression profiles of bacteria lacking transcriptional regulators have been used successfully to broadly define genes impacted by the deleted regulator (1)(2)(3)(4). Although providing informative data, transcriptional analysis alone cannot distinguish between direct and indirect regulatory effects or identify regulated genes that may be transcriptionally silent under the test conditions.…”

mentioning

confidence: 99%

Mapping the regulon of Vibrio cholerae ferric uptake regulator expands its known network of gene regulation

Davies

Bogard

Mekalanos

2011

Proc. Natl. Acad. Sci. U.S.A.

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ChIP coupled with next-generation sequencing (ChIP-seq) has revolutionized whole-genome mapping of DNA-binding protein sites. Although ChIP-seq rapidly gained support in eukaryotic systems, it remains underused in the mapping of bacterial transcriptional regulator-binding sites. Using the virulence-required iron-responsive ferric uptake regulator (Fur), we report a simple, broadly applicable ChIP-seq method in the pathogen Vibrio cholerae. Combining our ChIP-seq results with available microarray data, we clarify direct and indirect Fur regulation of known iron-responsive genes. We validate a subset of Fur-binding sites in vivo and show a common motif present in all Fur ChIP-seq peaks that has enhanced binding affinity for purified V. cholerae Fur. Further analysis shows that V. cholerae Fur directly regulates several additional genes associated with Fur-binding sites, expanding the role of this transcription factor into the regulation of ribosome formation, additional transport functions, and unique sRNAs.

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“…In Helicobacter pylori NapA plays a dual role in pathogenesis: in colonization and in protection against oxidative damage (Wang et al, 2006). As a protein that binds iron, it may thus serve as a primitive siderophore for mycoplasmas, although in previous work, napA was not transcriptionally responsive to changes in iron concentration in M. hyopneumoniae (Madsen et al, 2006b) as has been shown in other bacterial pathogens (Mey et al, 2005). The regulation of this gene may be a clear example of a mechanism M. hyopneumoniae uses to resist the host immune response by not activating neutrophils and thus decreasing the amount of oxidative radicals.…”

Section: Resultsmentioning

confidence: 67%

Global transcriptional analysis of Mycoplasma hyopneumoniae following exposure to hydrogen peroxide

et al. 2007

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Mycoplasma hyopneumoniae, the causative agent of swine enzootic pneumonia, colonizes the cilia of swine lungs, causing ciliostasis and cell death. M. hyopneumoniae is a component of the porcine respiratory disease complex (PRDC) and is especially problematic for the finishing swine industry, causing the loss of hundreds of millions of dollars in farm revenues worldwide. For successful infection, M. hyopneumoniae must effectively resist oxidative stresses due to the release of oxidative compounds from neutrophils and macrophages during the host's immune response. However, the mechanism that M. hyopneumoniae uses to avert the host response is still unclear. To gain a better understanding of the transcriptional responses of M. hyopneumoniae under oxidative stress, cultures were grown to early exponential phase and exposed to 0.5 % hydrogen peroxide for 15 min. RNA samples from these cultures were collected and compared to RNA samples from control cultures using two-colour PCR-based M. hyopneumoniae microarrays. This study revealed significant downregulation of important glycolytic pathway genes and gene transcription proteins, as well as a protein known to activate oxidative stressor cascades in neutrophils. Sixty-nine per cent of the upregulated genes were hypothetical with no known function. This study has also revealed significantly differentially expressed genes common to other environmental stress responses, indicating that further investigation of universal stress response genes of M. hyopneumoniae is merited.

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Iron and Fur Regulation in Vibrio cholerae and the Role of Fur in Virulence

Cited by 178 publications

References 81 publications

A Comparative Analysis of Perturbations Caused by a Gene Knock-out, a Dominant Negative Allele, and a Set of Peptide Aptamers

A Comparative Analysis of Perturbations Caused by a Gene Knock-out, a Dominant Negative Allele, and a Set of Peptide Aptamers

Mapping the regulon of Vibrio cholerae ferric uptake regulator expands its known network of gene regulation

Global transcriptional analysis of Mycoplasma hyopneumoniae following exposure to hydrogen peroxide

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