0000000000342390

AUTHOR

Ngoc Phuong Tran

showing 6 related works from this author

Phenolic Acid-Mediated Regulation of the padC Gene, Encoding the Phenolic Acid Decarboxylase of Bacillus subtilis

2008

ABSTRACT In Bacillus subtilis , several phenolic acids specifically induce expression of padC , encoding a phenolic acid decarboxylase that converts these antimicrobial compounds into vinyl derivatives. padC forms an operon with a putative coding sequence of unknown function, yveFG , and this coding sequence does not appear to be involved in the phenolic acid stress response (PASR). To identify putative regulators involved in the PASR, random transposon mutagenesis, combined with two different screens, was performed. PadR, a negative transcriptional regulator of padC expression, was identified. padR is not located in the vicinity of padC , and the expression of padR is low and appears const…

Carboxy-lyasesCarboxy-LyasesOperonMolecular Sequence DataElectrophoretic Mobility Shift AssayBacillus subtilisBiologyMicrobiologyGene Expression Regulation Enzymologic03 medical and health scienceschemistry.chemical_compoundBacterial ProteinsHydroxybenzoatesGene RegulationElectrophoretic mobility shift assay[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyAmino Acid SequenceMolecular Biology030304 developmental biologychemistry.chemical_classification0303 health sciencesBase Sequence030306 microbiologyEffectorGene Expression Regulation BacterialPhenolic acidbiology.organism_classificationMolecular biologyRepressor ProteinsEnzymechemistryBiochemistryTransposon mutagenesisBacillus subtilis
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The proteome and transcriptome analysis ofBacillus subtilis in response to salicylic acid

2007

Phenolic acids that are present in plant-soil ecosystems can be considered as toxins which induce specific stress responses in microorganisms. In this paper, we have analyzed the global response of the soil bacterium Bacillus subtilis to salicylic acid using proteomics and transcriptomics. The results demonstrate that salicylic acid caused predominantly the induction of the SigmaB-dependent general stress response in B. subtilis which is not related to the acidic conditions. Treatment of B. subtilis with growth-inhibitory concentrations of 4 mM salicylic acid caused protein damage in B. subtilis as reflected by the induction of the CtsR and Spx regulons. Both phenolic acid decarboxylases (p…

Carboxy-lyasesBacillaceaeProteomebiologyOperonBacillus subtilisPhenolic acidHydrogen-Ion Concentrationbiology.organism_classificationBiochemistrychemistry.chemical_compoundRegulonAnti-Infective AgentschemistryBiochemistryRNASalicylic AcidMolecular BiologyBacteriaSalicylic acidBacillus subtilisPROTEOMICS
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Inactivation of PadR, the repressor of the phenolic acid stress response, by molecular interaction with Usp1, a universal stress protein from Lactoba…

2009

ABSTRACT The phenolic acid decarboxylase gene padA is involved in the phenolic acid stress response (PASR) in gram-positive bacteria. In Lactobacillus plantarum , the padR gene encodes the negative transcriptional regulator of padA and is cotranscribed with a downstream gene, usp1 , which encodes a putative universal stress protein (USP), Usp1, of unknown function. The usp1 gene is overexpressed during the PASR. However, the role and the mechanism of action of the USPs are unknown in gram-positive bacteria. Therefore, to gain insights into the role of USPs in the PASR; (i) a usp1 deletion mutant was constructed; (ii) the two genes padR and usp1 were coexpressed with padA under its own promo…

[SDV.BIO]Life Sciences [q-bio]/BiotechnologyCarboxy-LyasesMolecular Sequence DataRepressorGenetics and Molecular Biologymedicine.disease_causeApplied Microbiology and Biotechnology03 medical and health scienceschemistry.chemical_compoundBacterial ProteinsHydroxybenzoatesTranscriptional regulationmedicineEscherichia coliAmino Acid SequenceGene SilencingGeneEscherichia coliHeat-Shock Proteins030304 developmental biologyRegulation of gene expression0303 health sciencesReporter geneEcologybiology030306 microbiologyGene Expression Regulation BacterialPhenolic acidbiology.organism_classificationMolecular biologyEnterobacteriaceaeacide phénolique[SDV.MP]Life Sciences [q-bio]/Microbiology and ParasitologychemistryBiochemistryMutationSequence AlignmentHeat-Shock ResponseLactobacillus plantarumFood ScienceBiotechnologyexpression des gènes
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Kinetics and Intensity of the Expression of Genes Involved in the Stress Response Tightly Induced by Phenolic Acids in <i>Lactobacillus plantar…

2007

In <i>Lactobacillus plantarum</i>, PadR, the negative transcriptional regulator of <i>padA </i>encoding the phenolic acid decarboxylase, is divergently oriented from <i>padA. </i>Moreover, it forms an operonic structure with <i>usp1,</i> a genewhose products display homology with proteins belonging to the UspA family of universal stress proteins. PadR is inactivated by the addition of <i>p-</i>coumaric, ferulic or caffeic acid to the culture medium. In order to better characterize the stress response of this bacterium to phenolic acids, we report here the kinetics and quantitative expression by qRT-PCR of the 3 genes from the <i…

Carboxy-lyasesPhysiologymedicine.disease_causeApplied Microbiology and BiotechnologyBiochemistryMicrobiology03 medical and health scienceschemistry.chemical_compoundHeat shock proteinGene expressionmedicineCaffeic acidEscherichia coliGene030304 developmental biology0303 health sciencesbiology030306 microbiologyCell BiologyPhenolic acidbiology.organism_classificationMolecular biologychemistryBiochemistryLactobacillus plantarumBiotechnologyMicrobial Physiology
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Genetic and Biochemical Analysis of PadR-padC Promoter Interactions during the Phenolic Acid Stress Response in Bacillus subtilis 168

2011

ABSTRACT Bacillus subtilis 168 is resistant to phenolic acids by expression of an inducible enzyme, the phenolic acid decarboxylase (PadC), that decarboxylates these acids into less toxic vinyl derivatives. In the phenolic acid stress response (PASR), the repressor of padC , PadR, is inactivated by these acids. Inactivation of PadR is followed by a strong expression of padC . To elucidate the functional interaction between PadR and the padC promoter, we performed (i) footprinting assays to identify the region protected by PadR, (ii) electrophoretic mobility shift assays (EMSAs) with a modified padC promoter protected region to determine the interacting sequences, and (iii) random mutagenesi…

Leucine zipperMutantRepressorElectrophoretic Mobility Shift AssayGenetics and Molecular BiologyBacillus subtilisBiologyMicrobiologyProtein Structure Secondary03 medical and health scienceschemistry.chemical_compoundBacterial ProteinsStress PhysiologicalBacillus subtilis 168Hydroxybenzoates[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyPromoter Regions GeneticMolecular Biology030304 developmental biology2. Zero hungerchemistry.chemical_classification0303 health sciences030306 microbiologyMutagenesisPhenolic acidGene Expression Regulation Bacterialbiology.organism_classificationMolecular biologyFootprintingEnzymechemistryBiochemistryBacillus subtilisProtein Binding
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Cloning, deletion, and characterization of PadR, the transcriptional repressor of the phenolic acid decarboxylase-encoding padA gene of Lactobacillus…

2004

ABSTRACTLactobacillus plantarumdisplays a substrate-induciblepadAgene encoding a phenolic acid decarboxylase enzyme (PadA) that is considered a specific chemical stress response to the inducing substrate. The putative regulator ofpadAwas located in thepadAlocus based on its 52% identity with PadR, thepadAgene transcriptional regulator ofPediococcus pentosaceus(L. Barthelmebs, B. Lecomte, C. Diviès, and J.-F. Cavin, J. Bacteriol.182:6724-6731, 2000). Deletion of theL. plantarum padRgene clearly demonstrates that the protein it encodes is the transcriptional repressor of divergently orientedpadA. ThepadRgene is cotranscribed with a downstream open reading frame (ORF1), the product of which m…

DNA BacterialCoumaric AcidsCarboxy-LyasesMolecular Sequence DataRepressorGenetics and Molecular BiologyBiologymedicine.disease_causeApplied Microbiology and BiotechnologyOpen Reading FramesBacterial ProteinsTranscription (biology)Transcriptional regulationmedicineAmino Acid SequenceCloning MolecularPromoter Regions GeneticGeneEscherichia coliDNA PrimersBinding SitesEcologyBase SequenceSequence Homology Amino Acidfood and beveragesPromoterbiology.organism_classificationMolecular biologyRepressor ProteinsOpen reading frameLactobacillusBiochemistryGenes BacterialPropionatesLactobacillus plantarumGene DeletionFood ScienceBiotechnologyApplied and environmental microbiology
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