Sara A. Sullivan scite author profile

The complete genome sequence of Geobacter sulfurreducens, a delta-proteobacterium, reveals unsuspected capabilities, including evidence of aerobic metabolism, one-carbon and complex carbon metabolism, motility, and chemotactic behavior. These characteristics, coupled with the possession of many two-component sensors and many c-type cytochromes, reveal an ability to create alternative, redundant, electron transport networks and offer insights into the process of metal ion reduction in subsurface environments. As well as playing roles in the global cycling of metals and carbon, this organism clearly has the potential for use in bioremediation of radioactive metals and in the generation of electricity.

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Importance of c-Type cytochromes for U(VI) reduction by Geobacter sulfurreducens

Shelobolina

et al. 2007

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Isolation, Characterization, and U(VI)-Reducing Potential of a Facultatively Anaerobic, Acid-Resistant Bacterium from Low-pH, Nitrate- and U(VI)-Contaminated Subsurface Sediment and Description of Salmonella subterranea sp. nov

Shelobolina

Sullivan

O’Neill

et al. 2004

Appl Environ Microbiol

110

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A facultatively anaerobic, acid-resistant bacterium, designated strain FRCl, was isolated from a low-pH, nitrate- and U(VI)-contaminated subsurface sediment at site FW-024 at the Natural and Accelerated Bioremediation Research Field Research Center in Oak Ridge, Tenn. Strain FRCl was enriched at pH 4.5 in minimal medium with nitrate as the electron acceptor, hydrogen as the electron donor, and acetate as the carbon source. Clones with 16S ribosomal DNA (rDNA) sequences identical to the sequence of strain FRCl were also detected in a U(VI)-reducing enrichment culture derived from the same sediment. Cells of strain FRCl were gram-negative motile regular rods 2.0 to 3.4 μm long and 0.7 to 0.9 μm in diameter. Strain FRCl was positive for indole production, by the methyl red test, and for ornithine decarboxylase; it was negative by the Voges-Proskauer test (for acetylmethylcarbinol production), for urea hydrolysis, for arginine dihydrolase, for lysine decarboxylase, for phenylalanine deaminase, for H2S production, and for gelatin hydrolysis. Strain FRCl was capable of using O2, NO3−, S2O32−, fumarate, and malate as terminal electron acceptors and of reducing U(VI) in the cell suspension. Analysis of the 16S rDNA sequence of the isolate indicated that this strain was 96.4% similar to Salmonella bongori and 96.3% similar to Enterobacter cloacae. Physiological and phylogenetic analyses suggested that strain FRCl belongs to the genus Salmonella and represents a new species, Salmonella subterranea sp. nov

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Role of Rel_Gsuin Stress Response and Fe(III) Reduction inGeobacter sulfurreducens

DiDonato

Sullivan

Methé³

et al. 2006

J Bacteriol

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Geobacter species are key members of the microbial community in many subsurface environments in which dissimilatory metal reduction is an important process. The genome of Geobacter sulfurreducens contains a gene designated rel Gsu , which encodes a RelA homolog predicted to catalyze both the synthesis and the degradation of guanosine 3,5-bispyrophosphate (ppGpp), a regulatory molecule that signals slow growth in response to nutrient limitation in bacteria. To evaluate the physiological role of Rel Gsu in G. sulfurreducens, a rel Gsu mutant was constructed and characterized, and ppGpp levels were monitored under various conditions in both the wild-type and rel Gsu mutant strains. In the wild-type strain, ppGpp and ppGp were produced in response to acetate and nitrogen deprivation, whereas exposure to oxygen resulted in an accumulation of ppGpp alone. Neither ppGpp nor ppGp could be detected in the rel Gsu mutant. The rel Gsu mutant consistently grew to a higher cell density than the wild type in acetate-fumarate medium and was less tolerant of oxidative stress than the wild type. The capacity for Fe(III) reduction was substantially diminished in the mutant. Microarray and quantitative reverse transcription-PCR analyses indicated that during stationary-phase growth, protein synthesis genes were up-regulated in the rel Gsu mutant and genes involved in stress responses and electron transport, including several implicated in Fe(III) reduction, were down-regulated in the mutant. The results are consistent with a role for Rel Gsu in regulating growth, stress responses, and Fe(III) reduction in G. sulfurreducens under conditions likely to be prevalent in subsurface environments.

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Comparative survival of antibiotic-resistant and -sensitive fecal indicator bacteria in estuarine water

Pettibone¹,

Sullivan²,

Shiaris³

1987

Appl Environ Microbiol

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The survival of antibiotic-resistant and-sensitive strains of Escherichia coli, Enterococcus faecalis, Enterococcusfaecium, Streptococcus equinus, and two environmental isolates, AP17 and AQ62, was examined in estuarine water. Each strain was rendered resistant to a combination of two antibiotics by serial passage in increasing concentrations of antibiotics. Cultures were incubated in filter-sterilized estuarine water for up to 7 days. Recovery was assessed by examining colony-forming ability on media with and without antibiotics. None of the antibiotic-resistant forms survived longer than its antibiotic-sensitive counterpart in estuarine water. Three of the resistant strains died off more rapidly than the antibiotic-sensitive wild type. Survival of the test bacteria in estuarine water was as follows: sensitive and resistant AQ62, resistant Escherichia coli < sensitive Escherichia coli < resistant AP17 < resistant Enterococcus faecium < sensitive AP17, sensitive and resistant S. equinus < sensitive and resistant Enterococcus faecalis, sensitive Enterococcus faecium. The results supported the suggestion that fecal entercocci may serve as better indicators of fecal pollution than Escherichia coli in marine ecosystems. Moreover, the results indicated that the use of antibiotic-resistant mutants to follow the fate of bacteria in the environment is inappropriate without adequate studies to ensure that resistant and wild-type strains react similarly to environmental stressors.

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Sara A. Sullivan

Genome of Geobacter sulfurreducens: Metal Reduction in Subsurface Environments

Importance of c-Type cytochromes for U(VI) reduction by Geobacter sulfurreducens

Isolation, Characterization, and U(VI)-Reducing Potential of a Facultatively Anaerobic, Acid-Resistant Bacterium from Low-pH, Nitrate- and U(VI)-Contaminated Subsurface Sediment and Description of Salmonella subterranea sp. nov

Role of Rel_Gsuin Stress Response and Fe(III) Reduction inGeobacter sulfurreducens

Comparative survival of antibiotic-resistant and -sensitive fecal indicator bacteria in estuarine water

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Sara A. Sullivan

Genome of Geobacter sulfurreducens: Metal Reduction in Subsurface Environments

Importance of c-Type cytochromes for U(VI) reduction by Geobacter sulfurreducens

Isolation, Characterization, and U(VI)-Reducing Potential of a Facultatively Anaerobic, Acid-Resistant Bacterium from Low-pH, Nitrate- and U(VI)-Contaminated Subsurface Sediment and Description of Salmonella subterranea sp. nov

Role of RelGsuin Stress Response and Fe(III) Reduction inGeobacter sulfurreducens

Comparative survival of antibiotic-resistant and -sensitive fecal indicator bacteria in estuarine water

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Product

Resources

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Role of Rel_Gsuin Stress Response and Fe(III) Reduction inGeobacter sulfurreducens