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Salivary Nitrate and Nitrite May Have Antimicrobial Effects on Desulfovibrio Species.
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- Bioscience, Biotechnology & Biochemistry, 2013, v. 77, n. 12, p. 2489, doi. 10.1271/bbb.130521
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Palladium recovery by immobilized cells of Desulfovibrio desulfuricans using hydrogen as the electron donor in a novel electrobioreactor.
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- Biotechnology Letters, 2002, v. 24, n. 3, p. 205, doi. 10.1023/A:1014141610562
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A novel isolate of Desulfovibrio sp. with enhanced ability to reduce Cr(VI).
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- Biotechnology Letters, 2001, v. 23, n. 9, p. 683, doi. 10.1023/A:1010352417399
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Impact of different environmental conditions on the aggregation of biogenic U(IV) nanoparticles synthesized by Desulfovibrio alaskensis G20.
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- BioMetals, 2016, v. 29, n. 6, p. 965, doi. 10.1007/s10534-016-9969-6
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Reduction of molybdate by sulfate-reducing bacteria.
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- BioMetals, 2009, v. 22, n. 1, p. 131, doi. 10.1007/s10534-008-9198-8
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- Article
TOXIC EFFECTS OF URANIUM ON DESULFOVIBRIO DESULFURICANS G20.
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- Environmental Toxicology & Chemistry, 2006, v. 25, n. 5, p. 1231, doi. 10.1897/05-401R.1
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TOXICITY OF LEAD IN AQUEOUS MEDIUM TO DESULFOVIBRIO DESULFURICANS G20.
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- Environmental Toxicology & Chemistry, 2003, v. 22, n. 2, p. 252, doi. 10.1897/1551-5028(2003)022<0252:TOLIAM>2.0.CO;2
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EPR characterization of the new Qrc complex from sulfate reducing bacteria and its ability to form a supercomplex with hydrogenase and TpIc <sub>3</sub>
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- FEBS Letters, 2011, v. 585, n. 14, p. 2177, doi. 10.1016/j.febslet.2011.05.054
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The effect of gram-positive (Desulfosporosinus orientis) and gram-negative (Desulfovibrio desulfuricans) sulfate-reducing bacteria on iron sulfide mineral precipitation1.
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- Canadian Journal of Microbiology, 2018, v. 64, n. 9, p. 629, doi. 10.1139/cjm-2017-0545
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Growth of a human intestinal Desulfovibrio desulfuricans in continuous cultures containing defined populations of saccharolytic and amino acid fermenting bacteria.
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- Journal of Applied Microbiology, 1998, v. 85, n. 2, p. 372, doi. 10.1046/j.1365-2672.1998.00522.x
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Chapter 3-3. Appendix: drug-resistant anaerobes.
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- Journal of Infection & Chemotherapy (Springer Science & Business Media B.V.), 2011, v. 17, p. 162, doi. 10.1007/s10156-010-0163-4
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- Article
Bacteremia caused by Desulfovibrio fairfieldensis.
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- Journal of Infection & Chemotherapy (Springer Science & Business Media B.V.), 2008, v. 14, n. 5, p. 368, doi. 10.1007/s10156-008-0629-9
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Gaseous hydrocarbons associated with black layer induced by the interaction of cyanobacteria and Desulfovibrio desulfuricanst.
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- Plant & Soil, 1998, v. 205, n. 1, p. 77, doi. 10.1023/A:1004361407061
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- Article
Growth of Dehalococcoides mccartyi species in an autotrophic consortium producing limited acetate.
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- Biodegradation, 2018, v. 29, n. 5, p. 487, doi. 10.1007/s10532-018-9846-9
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- Article
Biological sulphate reduction using food industry wastes as carbon sources.
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- Biodegradation, 2009, v. 20, n. 4, p. 559, doi. 10.1007/s10532-008-9245-8
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Sulphate-reducing bacteria, palladium and the reductive dehalogenation of chlorinated aromatic compounds.
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- Biodegradation, 2003, v. 14, n. 2, p. 83, doi. 10.1023/A:1024084611555
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CORROSION OF COPPER IN A MEDIUM OF BACTERIA SULFATE REDUCTION PROCEEDING.
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- Journal of Chemical Technology & Metallurgy, 2019, v. 54, n. 2, p. 416
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Identification of bacteria in enrichment cultures of sulfate reducers in the Cariaco Basin water column employing Denaturing Gradient Gel Electrophoresis of 16S ribosomal RNA gene fragments.
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- Aquatic Biosystems, 2013, v. 9, p. 1, doi. 10.1186/2046-9063-9-17
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Molecular characterisation of the gut microflora of healthy and inflammatory bowel disease cats using fluorescence in situ hybridisation with special reference to Desulfovibrio spp.
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- Journal of Animal Physiology & Animal Nutrition, 2007, v. 91, n. 1/2, p. 48, doi. 10.1111/j.1439-0396.2006.00640.x
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Transhydrogenase and Growth Substrate Influence Lipid Hydrogen Isotope Ratios in Desulfovibrio alaskensis G20.
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- Frontiers in Microbiology, 2016, p. 1, doi. 10.3389/fmicb.2016.00918
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Multiple sulfur isotope signatures of sulfite and thiosulfate reduction by the model dissimilatory sulfate-reducer, Desulfovibrio alaskensis str. G20.
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- Frontiers in Microbiology, 2014, v. 5, p. 1, doi. 10.3389/fmicb.2014.00591
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Identification of a cyclic-di-GMP-modulating response regulator that impacts biofilm formation in a model sulfate reducing bacterium.
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- Frontiers in Microbiology, 2014, v. 5, p. 1, doi. 10.3389/fmicb.2014.00382
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The role of acetogens in microbially influenced corrosion of steel.
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- Frontiers in Microbiology, 2014, v. 5, p. 1, doi. 10.3389/fmicb.2014.00268
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Effects of thermal energy storage on shallow aerobic aquifer systems: temporary increase in abundance and activity of sulfate-reducing and sulfur-oxidizing bacteria.
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- Environmental Earth Sciences, 2017, v. 76, n. 6, p. 1, doi. 10.1007/s12665-017-6575-z
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A mathmatical Model for Cadmium Removal using A sulfate Reducing Educing Bacterium: Desulfovibrio alaskensis 6SR.
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- International Journal of Environmental Research, 2013, v. 7, n. 2, p. 501
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Crystal Structure of Dimeric Flavodoxin from Desulfovibrio gigas Suggests a Potential Binding Region for the Electron-Transferring Partner.
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- International Journal of Molecular Sciences, 2013, v. 14, n. 1, p. 1667, doi. 10.3390/ijms14011667
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Activity of Na<sup>+</sup>/K<sup>+</sup>-activated Mg<sup>2+</sup>-dependent ATP-hydrolase in the cell-free extracts of the sulfate-reducing bacteria Desulfovibrio piger Vib-7 and Desulfomicrobium sp. Rod-9.
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- Acta Veterinaria Brno, 2015, v. 84, n. 1, p. 3, doi. 10.2754/avb201585010003
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Genome watch: Chalk and cheese.
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- Nature Reviews Microbiology, 2004, v. 2, n. 7, p. 528, doi. 10.1038/nrmicro932
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The toxicity of lead to Desu!fovibr!o desulfuricans G20 in the presence of goethite and quartz.
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- Journal of Basic Microbiology, 2010, v. 50, n. 2, p. 160, doi. 10.1002/jobm.200900239
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Orange protein from Desulfovibrio alaskensis G20: insights into the Mo-Cu cluster protein-assisted synthesis.
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- Journal of Biological Inorganic Chemistry (JBIC), 2016, v. 21, n. 1, p. 53, doi. 10.1007/s00775-015-1323-x
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Erratum to: Aromatic aldehydes at the active site of aldehyde oxidoreductase from Desulfovibrio gigas: reactivity and molecular details of the enzyme-substrate and enzyme-product interaction.
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- 2015
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- Erratum
Changes in metabolic pathways of Desulfovibrio alaskensis G20 cells induced by molybdate excess.
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- Journal of Biological Inorganic Chemistry (JBIC), 2015, v. 20, n. 2, p. 311, doi. 10.1007/s00775-014-1224-4
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ArsC3 from Desulfovibrio alaskensis G20, a cation and sulfate-independent highly efficient arsenate reductase.
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- Journal of Biological Inorganic Chemistry (JBIC), 2014, v. 19, n. 8, p. 1277, doi. 10.1007/s00775-014-1184-8
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Mo-Cu metal cluster formation and binding in an orange protein isolated from Desulfovibrio gigas.
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- Journal of Biological Inorganic Chemistry (JBIC), 2014, v. 19, n. 4/5, p. 605, doi. 10.1007/s00775-014-1107-8
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Structural features of [NiFeSe] and [NiFe] hydrogenases determining their different properties: a computational approach.
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- Journal of Biological Inorganic Chemistry (JBIC), 2012, v. 17, n. 4, p. 543, doi. 10.1007/s00775-012-0875-2
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Crystal structure of the zinc-, cobalt-, and iron-containing adenylate kinase from Desulfovibrio gigas: a novel metal-containing adenylate kinase from Gram-negative bacteria.
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- Journal of Biological Inorganic Chemistry (JBIC), 2011, v. 16, n. 1, p. 51, doi. 10.1007/s00775-010-0700-8
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Dioxygen and nitric oxide pathways and affinity to the catalytic site of rubredoxin:oxygen oxidoreductase from Desulfovibrio gigas.
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- Journal of Biological Inorganic Chemistry (JBIC), 2009, v. 14, n. 6, p. 853, doi. 10.1007/s00775-009-0497-5
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Spin distribution of the H-cluster in the H<sub>ox</sub>–CO state of the [FeFe] hydrogenase from Desulfovibrio desulfuricans: HYSCORE and ENDOR study of <sup>14</sup>N and <sup>13</sup>C nuclear interactions.
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- Journal of Biological Inorganic Chemistry (JBIC), 2009, v. 14, n. 2, p. 301, doi. 10.1007/s00775-008-0449-5
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Comparative Fe and Zn K-edge X-ray absorption spectroscopic study of the ferroxidase centres of human H-chain ferritin and bacterioferritin from Desulfovibrio desulfuricans.
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- Journal of Biological Inorganic Chemistry (JBIC), 2009, v. 14, n. 1, p. 35, doi. 10.1007/s00775-008-0422-3
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FTIR spectroelectrochemical characterization of the Ni–Fe–Se hydrogenase from Desulfovibrio vulgaris Hildenborough.
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- Journal of Biological Inorganic Chemistry (JBIC), 2008, v. 13, n. 8, p. 1315, doi. 10.1007/s00775-008-0412-5
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Correlating EPR and X-ray structural analysis of arsenite-inhibited forms of aldehyde oxidoreductase.
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- Journal of Biological Inorganic Chemistry (JBIC), 2007, v. 12, n. 3, p. 353, doi. 10.1007/s00775-006-0191-9
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Proton thrusters: overview of the structural and functional features of soluble tetrahaem cytochromes c <sub>3</sub>.
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- Journal of Biological Inorganic Chemistry (JBIC), 2007, v. 12, n. 1, p. 1, doi. 10.1007/s00775-006-0165-y
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Kinetics studies of the superoxide-mediated electron transfer reactions between rubredoxin-type proteins and superoxide reductases.
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- Journal of Biological Inorganic Chemistry (JBIC), 2006, v. 11, n. 4, p. 433, doi. 10.1007/s00775-006-0090-0
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Desulfovibrio gigas ferredoxin II: redox structural modulation of the [3Fe–4S] cluster.
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- Journal of Biological Inorganic Chemistry (JBIC), 2006, v. 11, n. 3, p. 307, doi. 10.1007/s00775-005-0077-2
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A single-crystal ENDOR and density functional theory study of the oxidized states of the [NiFe] hydrogenase from Desulfovibrio vulgaris Miyazaki F.
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- Journal of Biological Inorganic Chemistry (JBIC), 2006, v. 11, n. 1, p. 41, doi. 10.1007/s00775-005-0048-7
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The active site of the [FeFe]-hydrogenase from Desulfovibrio desulfuricans. II. Redox properties, light sensitivity and CO-ligand exchange as observed by infrared spectroscopy.
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- Journal of Biological Inorganic Chemistry (JBIC), 2006, v. 11, n. 1, p. 102, doi. 10.1007/s00775-005-0040-2
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The active site of the [FeFe]-hydrogenase from Desulfovibrio desulfuricans. I. Light sensitivity and magnetic hyperfine interactions as observed by electron paramagnetic resonance.
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- Journal of Biological Inorganic Chemistry (JBIC), 2006, v. 11, n. 1, p. 88, doi. 10.1007/s00775-005-0039-8
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High-resolution crystal structures of Desulfovibrio vulgaris (Hildenborough) nigerythrin: facile, redox-dependent iron movement, domain interface variability, and peroxidase activity in the rubrerythrins.
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- Journal of Biological Inorganic Chemistry (JBIC), 2005, v. 10, n. 4, p. 407, doi. 10.1007/s00775-005-0650-8
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An orientation-selected ENDOR and HYSCORE study of the Ni-C active state of Desulfovibrio vulgaris Miyazaki F hydrogenase.
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- Journal of Biological Inorganic Chemistry (JBIC), 2005, v. 10, n. 1, p. 51, doi. 10.1007/s00775-004-0613-5
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FTIR spectroelectrochemical study of the activation and inactivation processes of [NiFe] hydrogenases: effects of solvent isotope replacement and site-directed mutagenesis.
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- Journal of Biological Inorganic Chemistry (JBIC), 2004, v. 9, n. 5, p. 636, doi. 10.1007/s00775-004-0559-7
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