Search results for "Fumarates"

showing 6 items of 26 documents

Escherichia coli possesses two homologous anaerobic C4-dicarboxylate membrane transporters (DcuA and DcuB) distinct from the aerobic dicarboxylate tr…

1994

The nucleotide sequences of two Escherichia coli genes, dcuA and dcuB (formerly designated genA and genF), have been shown to encode highly homologous products, M(r) 45,751 and 47,935 (434 and 446 amino acid residues) with 36% sequence identity (63% similarity). These proteins have a high proportion (approximately 61%) of hydrophobic residues and are probably members of a new group of integral inner membrane proteins. The locations of the dcu genes, one upstream of the aspartase gene (dcuA-aspA) and the other downstream of the anaerobic fumarase gene (fumB-dcuB), suggested that they may function in the anaerobic transport of C4-dicarboxylic acids. Growth tests and transport studies with mut…

Sequence analysisMolecular Sequence DataMutantSuccinic AcidBiologymedicine.disease_causeMicrobiologyProtein Structure SecondarySubstrate SpecificityProtein structureBacterial ProteinsFumaratesEscherichia colimedicineAmino Acid SequenceAnaerobiosisMolecular BiologyGeneEscherichia coliPeptide sequenceDicarboxylic Acid Transporterschemistry.chemical_classificationAspartic AcidBase SequenceSequence Homology Amino AcidEscherichia coli ProteinsMembrane ProteinsBiological TransportSuccinatesSequence Analysis DNAAerobiosisAmino acidRepressor ProteinschemistryBiochemistryMembrane proteinGenes BacterialCarrier ProteinsResearch ArticleTranscription FactorsJournal of Bacteriology
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Determination of aerobic-anaerobic metabolism-related compounds in aChaoborus flavicans population by infusion ion trap mass spectrometry of extracts…

2006

In a daily migration, the aquatic larvae of Chaoborus flavicans (a phantom midge) alternate oxygen-saturated and anoxic lake strata. To investigate this cycle, larvae were collected at a natural environment, and acetate, propionate, pyruvate, lactate, glycerol, phosphate, maleate, succinate, glucose and citrate were determined. Each larva was homogenized with 200 microL water and deproteinized with a spin-filter; 50 microL aliquots were mixed with 50 microL of a buffer containing 80 mM propylamine, 20 mM HCl and 0.06 mM 2,4-dihydroxybenzoic acid (internal standard) in methanol. The extracts were infused in an electrospray ionization ion-trap mass spectrometer. The limits of detection for th…

Spectrometry Mass Electrospray IonizationElectrospray ionizationPopulationCeratopogonidaeMass spectrometryModels BiologicalAnalytical Chemistrychemistry.chemical_compoundFumaratesChaoborus flavicansGlycerolAnimalsAnaerobiosiseducationSpectroscopychemistry.chemical_classificationeducation.field_of_studyChromatographyOrganic ChemistryDiscriminant AnalysisMetabolismAerobiosischemistryLarvaPropionateAmmonium acetateRapid Communications in Mass Spectrometry
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Function of DcuS from Escherichia coli as a Fumarate-stimulated Histidine Protein Kinase in Vitro

2002

The two-component regulatory system DcuSR of Escherichia coli controls the expression of genes of C(4)-dicarboxylate metabolism in response to extracellular C(4)- dicarboxylates such as fumarate or succinate. DcuS is a membrane-integral sensor kinase, and the sensory and kinase domains are located on opposite sides of the cytoplasmic membrane. The intact DcuS protein (His(6)-DcuS) was overproduced and isolated in detergent containing buffer. His(6)-DcuS was reconstituted into liposomes made from E. coli phospholipids. Reconstituted His(6)-DcuS catalyzed, in contrast to the detergent-solubilized sensor, autophosphorylation by [gamma-(33)P]ATP with an approximate K(D) of 0.16 mm for ATP. Up t…

Time FactorsHistidine KinaseProteolipidsDetergentsBiologymedicine.disease_causeModels BiologicalBiochemistryAdenosine TriphosphateFumaratesEscherichia colimedicinePhosphorylationPromoter Regions GeneticProtein kinase AMolecular BiologyEscherichia coliDose-Response Relationship DrugKinaseEscherichia coli ProteinsCell MembraneAutophosphorylationDNACell BiologyTransmembrane proteinDNA-Binding ProteinsKineticsResponse regulatorBiochemistryLiposomesPhosphorylationSignal transductionProtein KinasesProtein BindingSignal TransductionTranscription FactorsJournal of Biological Chemistry
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Real-Time Nuclear Magnetic Resonance Detection of Fumarase Activity Using Parahydrogen-Hyperpolarized [1- 13 C]Fumarate

2019

Hyperpolarized fumarate can be used as a probe of real-time metabolism in vivo, using carbon-13 magnetic resonance imaging. Dissolution dynamic nuclear polarization is commonly used to produce hyperpolarized fumarate, but a cheaper and faster alternative is to produce hyperpolarized fumarate via PHIP (parahydrogen-induced polarization). In this work, we trans-hydrogenate [1-13C]acetylene dicarboxylate with para-enriched hydrogen using a commercially available Ru catalyst in water to produce hyperpolarized [1-13C]fumarate. We show that fumarate is produced in 89% yield, with succinate as a side product in 11% yield. The proton polarization is converted into 13C magnetization using a constant…

Time FactorsHydrogenNuclear Magnetic Resonancechemistry.chemical_element010402 general chemistrySpin isomers of hydrogenPhotochemistry01 natural sciencesBiochemistryCatalysisFumarate HydrataseCatalysisMagnetizationchemistry.chemical_compoundColloid and Surface ChemistryFumaratesMoleculeCarbon IsotopesMolecular StructureFumarase activityCarbon Isotopes; Fumarate Hydratase; Fumarates; Molecular Structure; Time Factors; Nuclear Magnetic Resonance BiomolecularGeneral Chemistry0104 chemical sciencesAcetylenechemistryFumaraseBiomolecularJournal of the American Chemical Society
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Experimental evidence for proton motive force-dependent catalysis by the diheme-containing succinate:menaquinone oxidoreductase from the Gram-positiv…

2006

In Gram-positive bacteria and other prokaryotes containing succinate:menaquinone reductases, it has previously been shown that the succinate oxidase and succinate:menaquinone reductase activities are lost when the transmembrane electrochemical proton potential, Deltap, is abolished by the rupture of the bacteria or by the addition of a protonophore. It has been proposed that the endergonic reduction of menaquinone by succinate is driven by the electrochemical proton potential. Opposite sides of the cytoplasmic membrane were envisaged to be separately involved in the binding of protons upon the reduction of menaquinone and their release upon succinate oxidation, with the two reactions linked…

chemistry.chemical_classificationbiologyProtonophoreChemiosmosisSuccinic AcidProton-Motive ForceBacillusVitamin K 2HemeReductasebiology.organism_classificationBiochemistryRedoxCatalysisSuccinate DehydrogenaseEnzymeBiochemistrychemistryBacterial ProteinsFumaratesOxidoreductaseBacillus licheniformisOxidoreductasesOxidation-ReductionBacteriaBiochemistry
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Succinate dehydrogenase functioning by a reverse redox loop mechanism and fumarate reductase in sulphate-reducing bacteria.

2006

Sulphate- or sulphur-reducing bacteria with known or draft genome sequences (Desulfovibrio vulgaris, Desulfovibrio desulfuricans G20, Desulfobacterium autotrophicum [draft], Desulfotalea psychrophila and Geobacter sulfurreducens) all contain sdhCAB or frdCAB gene clusters encoding succinate : quinone oxidoreductases. frdD or sdhD genes are missing. The presence and function of succinate dehydrogenase versus fumarate reductase was studied. Desulfovibrio desulfuricans (strain Essex 6) grew by fumarate respiration or by fumarate disproportionation, and contained fumarate reductase activity. Desulfovibrio vulgaris lacked fumarate respiration and contained succinate dehydrogenase activity. Succi…

chemistry.chemical_classificationbiologySulfatesSuccinate dehydrogenaseMolecular Sequence DataSuccinic AcidBacillus subtilisFumarate reductasebiology.organism_classificationMicrobiologySuccinate DehydrogenaseEnzymechemistryBiochemistryFumaratesMultigene Familybiology.proteinDesulfovibrioSDHDAmino Acid SequenceDesulfovibrio vulgarisGeobacter sulfurreducensOxidation-ReductionBacteriaMicrobiology (Reading, England)
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