Selenium-Dependent Biogenesis of Formate Dehydrogenase in
            <i>Campylobacter jejuni</i>
            Is Controlled by the
            <i>fdhTU</i>
            Accessory Genes

Shaw, Frances L.; Mulholland, Francis; Gall, Gwénaëlle Le; Porcelli, Ida; Hart, Dave J.; Pearson, Bruce M.; Vliet, Arnoud H. M. van

doi:10.1128/jb.06586-11

Cited by 42 publications

(43 citation statements)

References 46 publications

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“…Transcriptional regulators binding directly upstream of FDH operons have also been identified in other bacteria (54,79), but homologs are not present in C. jejuni. An independent concurrent study by Shaw and coworkers (67) using two different C. jejuni strains demonstrates a requirement for selenium in C. jejuni FDH activity, confirms the importance of FdhTU for FDH function, and suggests that FdhTU modulates FDH-and possibly its expression-via import of selenium which is then, via the Sel pathway, converted to selenocysteine which is required for FdhA synthesis (67). In some organisms, selenium availability has been postulated to affect mRNA stability (47); future work will determine whether this is the case in C. jejuni and also shed light on specific mechanisms by which FdhU affects transcript levels of FDH-related genes.…”

Section: Figmentioning

confidence: 98%

FdhTU-Modulated Formate Dehydrogenase Expression and Electron Donor Availability Enhance Recovery ofCampylobacter jejunifollowing Host Cell Infection

et al. 2012

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bCampylobacter jejuni is a food-borne bacterial pathogen that colonizes the intestinal tract and causes severe gastroenteritis. Interaction with host epithelial cells is thought to enhance severity of disease, and the ability of C. jejuni to modulate its metabolism in different in vivo and environmental niches contributes to its success as a pathogen. A C. jejuni operon comprising two genes that we designated fdhT (CJJ81176_1492) and fdhU (CJJ81176_1493) is conserved in many bacterial species. Deletion of fdhT or fdhU in C. jejuni resulted in apparent defects in adherence and/or invasion of Caco-2 epithelial cells when assessed by CFU enumeration on standard Mueller-Hinton agar. However, fluorescence microscopy indicated that each mutant invaded cells at wild-type levels, instead suggesting roles for FdhTU in either intracellular survival or postinvasion recovery. The loss of fdhU caused reduced mRNA levels of formate dehydrogenase (FDH) genes and a severe defect in FDH activity. Cell infection phenotypes of a mutant deleted for the FdhA subunit of FDH and an ⌬fdhU ⌬fdhA double mutant were similar to those of a ⌬fdhU mutant, which likewise suggested that FdhU and FdhA function in the same pathway. Cell infection assays followed by CFU enumeration on plates supplemented with sodium sulfite abolished the ⌬fdhU and ⌬fdhA mutant defects and resulted in significantly enhanced recovery of all strains, including wild type, at the invasion and intracellular survival time points. Collectively, our data indicate that FdhTU and FDH are required for optimal recovery following cell infection and suggest that C. jejuni alters its metabolic potential in the intracellular environment.

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Section: Figmentioning

confidence: 98%

FdhTU-Modulated Formate Dehydrogenase Expression and Electron Donor Availability Enhance Recovery ofCampylobacter jejunifollowing Host Cell Infection

et al. 2012

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“…Acetate oxidation to hydrogen and subsequent conversion of hydrogen and CO 2 to methane through the syntrophic association between acetate-oxidizing bacteria and hydrogenotrophic methanogens form a dominant methanogenic pathway in anaerobic digesters, particularly in the presence of high concentrations of ammonia and volatile fatty acids (17)(18)(19). Selenium in the form of selenocysteine has been identified in the active site of formate dehydrogenases and is important for formate oxidation (20,21). Accumulation of formate, an intermediate of propionate oxidation, triggers a feedback inhibition resulting in propionate accumulation (22), which may lead to process failure in anaerobic digesters.…”

Section: Role Of Selenium In Cellular Metabolismmentioning

confidence: 99%

Ecology and Biotechnology of Selenium-Respiring Bacteria

Nancharaiah

2015

Microbiol Mol Biol Rev

348

232

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SUMMARY In nature, selenium is actively cycled between oxic and anoxic habitats, and this cycle plays an important role in carbon and nitrogen mineralization through bacterial anaerobic respiration. Selenium-respiring bacteria (SeRB) are found in geographically diverse, pristine or contaminated environments and play a pivotal role in the selenium cycle. Unlike its structural analogues oxygen and sulfur, the chalcogen selenium and its microbial cycling have received much less attention by the scientific community. This review focuses on microorganisms that use selenate and selenite as terminal electron acceptors, in parallel to the well-studied sulfate-reducing bacteria. It overviews the significant advancements made in recent years on the role of SeRB in the biological selenium cycle and their ecological role, phylogenetic characterization, and metabolism, as well as selenium biomineralization mechanisms and environmental biotechnological applications.

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“…Another upregulated gene in the cj1000 mutant strain is cj1500 (2.14-fold, P,0.001). This gene has recently been annotated as fdhT, an accessory gene contributing to formate dehydrogenase expression and activity, probably by interfering with selenium metabolism (Shaw et al, 2012). Interestingly, the fdhTU operon (cj1500-1501) was crucial for recovery after invasion of Caco-2 cells, indicating a major role during infection (Pryjma et al, 2012).…”

Section: Energy Metabolismmentioning

confidence: 99%

Inactivation of the LysR regulator Cj1000 of Campylobacter jejuni affects host colonization and respiration

Dufour

Flint

et al. 2013

Microbiology

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Selenium-Dependent Biogenesis of Formate Dehydrogenase in Campylobacter jejuni Is Controlled by the fdhTU Accessory Genes

Cited by 42 publications

References 46 publications

FdhTU-Modulated Formate Dehydrogenase Expression and Electron Donor Availability Enhance Recovery ofCampylobacter jejunifollowing Host Cell Infection

FdhTU-Modulated Formate Dehydrogenase Expression and Electron Donor Availability Enhance Recovery ofCampylobacter jejunifollowing Host Cell Infection

Ecology and Biotechnology of Selenium-Respiring Bacteria

Inactivation of the LysR regulator Cj1000 of Campylobacter jejuni affects host colonization and respiration

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