0000000000240727

AUTHOR

Alexandra Kleefeld

showing 4 related works from this author

The Fumarate/Succinate Antiporter DcuB of Escherichia coli Is a Bifunctional Protein with Sites for Regulation of DcuS-dependent Gene Expression

2008

DcuB of Escherichia coli catalyzes C4-dicarboxylate/succinate antiport during growth by fumarate respiration. The expression of genes of fumarate respiration, including the genes for DcuB (dcuB) and fumarate reductase (frdABCD) is transcriptionally activated by C4-dicarboxylates via the DcuS-DcuR two-component system, comprising the sensor kinase DcuS, which contains a periplasmic sensing domain for C4-dicarboxylates. Deletion or inactivation of dcuB caused constitutive expression of DcuS-regulated genes in the absence of C4-dicarboxylates. The effect was specific for DcuB and not observed after inactivation of the homologous DcuA or the more distantly related DcuC transporter. Random and s…

AntiporterMutantlac operonBiologymedicine.disease_causePeptide MappingBiochemistryAntiportersFumaratesEscherichia colimedicineMolecular BiologyEscherichia coliDerepressionDicarboxylic Acid TransportersIon TransportEscherichia coli ProteinsMutagenesisSuccinatesGene Expression Regulation BacterialCell BiologyPeriplasmic spaceFumarate reductaseDNA-Binding ProteinsSuccinate DehydrogenaseAmino Acid SubstitutionBiochemistryGene Knockdown TechniquesMutagenesis Site-DirectedProtein KinasesTranscription FactorsJournal of Biological Chemistry
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Regulation of type 1 fimbriae synthesis and biofilm formation by the transcriptional regulator LrhA of Escherichia coli

2005

Type 1 fimbriae ofEscherichia colifacilitate attachment to the host mucosa and promote biofilm formation on abiotic surfaces. The transcriptional regulator LrhA, which is known as a repressor of flagellar, motility and chemotaxis genes, regulates biofilm formation and expression of type 1 fimbriae. Whole-genome expression profiling revealed that inactivation oflrhAresults in an increased expression of structural components of type 1 fimbriae.In vitro, LrhA bound to the promoter regions of the twofimrecombinases (FimB and FimE) that catalyse the inversion of thefimApromoter, and to the invertible element itself. TranslationallacZfusions with these genes and quantification offimEtranscript le…

urinary-tractphase variationFimbrialac operonRepressorsuicide vectorBiologyFlagellummedicine.disease_causeMicrobiologyBacterial AdhesionMicrobiologylysr homologMiceglobal regulatorh-nsEscherichia colimedicineAnimalsHumansgenetic-analysisPromoter Regions GeneticEscherichia coliEscherichia coli InfectionsOligonucleotide Array Sequence AnalysisPhase variationRegulation of gene expressionfim switchEscherichia coli ProteinsGene Expression ProfilingBiofilmGene Expression Regulation Bacterialbiochemical phenomena metabolism and nutritionintegration host factorBiofilmsFimbriae BacterialMutationUrinary Tract Infectionsvirulence determinantsTranscription Factors
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Multiple Site-Specific Binding of Fis Protein to Escherichia coli nuoA-N Promoter DNA and its Impact on DNA Topology Visualised by Means of Scanning …

2004

DNA BacterialPlasma protein bindingMicroscopy Atomic Forcemedicine.disease_causeBiochemistryBacterial geneticsMitochondrial Proteinschemistry.chemical_compoundScanning probe microscopyMicroscopyEscherichia coliImage Processing Computer-AssistedmedicinePromoter Regions GeneticMolecular BiologyEscherichia coliDNA PrimersReverse Transcriptase Polymerase Chain ReactionOrganic ChemistryMembrane ProteinsPromoterMolecular biologyMembrane proteinchemistryMolecular MedicineDNAProtein BindingChemBioChem
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C 4 -Dicarboxylate Utilization in Aerobic and Anaerobic Growth

2016

C 4 -dicarboxylates and the C 4 -dicarboxylic amino acid l -aspartate support aerobic and anaerobic growth of Escherichia coli and related bacteria. In aerobic growth, succinate, fumarate, D - and L -malate, L -aspartate, and L -tartrate are metabolized by the citric acid cycle and associated reactions. Because of the interruption of the citric acid cycle under anaerobic conditions, anaerobic metabolism of C 4 -dicarboxylates depends on fumarate reduction to succinate (fumarate respiration). In some related bacteria (e.g., Klebsiella ), utilization of C 4 -dicarboxylates, such as tartrate, is independent of fumarate respiration and uses a Na + -dependent membrane-bound oxaloacetate decarbo…

0301 basic medicineCarboxy-LyasesCitric Acid Cycle030106 microbiologySuccinic AcidContext (language use)medicine.disease_causeMicrobiology03 medical and health sciencesFumaratesKlebsiellaEscherichia colimedicineHumansDicarboxylic AcidsAnaerobiosisEscherichia coliDicarboxylic Acid TransportersbiologyEscherichia coli ProteinsMembrane Transport ProteinsBiological TransportGene Expression Regulation BacterialMetabolismFumarate reductasebiology.organism_classificationAerobiosisCitric acid cycle030104 developmental biologyOxaloacetate decarboxylaseBiochemistryAnaerobic exerciseBacteriaEcoSal Plus
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