Search results for "listeria monocytogènes"

showing 3 items of 3 documents

Listeria monocytogenes Differential Transcriptome Analysis Reveals Temperature-Dependent Agr Regulation and Suggests Overlaps with Other Regulons

2012

Listeria monocytogenes is a ubiquitous, opportunistic pathogenic organism. Environmental adaptation requires constant regulation of gene expression. Among transcriptional regulators, AgrA is part of an auto-induction system. Temperature is an environmental cue critical for in vivo adaptation. In order to investigate how temperature may affect AgrA-dependent transcription, we compared the transcriptomes of the parental strain L. monocytogenes EGD-e and its Delta agrA mutant at the saprophytic temperature of 25 degrees C and in vivo temperature of 37 degrees C. Variations of transcriptome were higher at 37 degrees C than at 25 degrees C. Results suggested that AgrA may be involved in the regu…

MicroarraysOperonMutantmedicine.disease_causeTranscriptomesTranscriptomeMolecular Cell BiologyTranscriptional regulationCluster AnalysisAmino AcidsCellular Stress ResponsesGeneticsRegulation of gene expression0303 health sciencesMultidisciplinaryQRTemperatureSalt ToleranceGenomicsPlanktonFunctional GenomicsBacterial Pathogens[SDV.MP]Life Sciences [q-bio]/Microbiology and ParasitologyMedicineResearch Articleagr-alisteria monocytogenes;pathogenic organism;transcriptome;temperature;agr-aScienceSigma FactorBiologyRegulonMicrobiologyMicrobial Ecology03 medical and health sciencesListeria monocytogenes[ SDV.SA.AGRO ] Life Sciences [q-bio]/Agricultural sciences/AgronomyGenome Analysis ToolsmedicinePathogenic organismGene SilencingBiology030304 developmental biologyGram Positive[ SDV ] Life Sciences [q-bio]030306 microbiologyGene Expression ProfilingComputational BiologyBiological TransportGene Expression Regulation BacterialListeria monocytogenesGene expression profilingRegulonBiofilmsTranscriptomelisteria monocytogènesGene DeletionTranscription Factors
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Biofilm formation of listeria monocytogenes strains under food processing environments and pan-genome-wide association study

2019

International audience; Concerns about food contamination by Listeria monocytogenes are on the rise with increasing consumption of ready-to-eat foods. Biofilm production of L. monocytogenes is presumed to be one of the ways that confer its increased resistance and persistence in the food chain. In this study, a collection of isolates from foods and food processing environments (FPEs) representing persistent, prevalent, and rarely detected genotypes was evaluated for biofilm forming capacities including adhesion and sessile biomass production under diverse environmental conditions. The quantity of sessile biomass varied according to growth conditions, lineage, serotype as well as genotype bu…

Microbiology (medical)intraspecies diversity[SDV]Life Sciences [q-bio]biofilm;Listeria monocytogenes;pan-genome-wide association study;adhesion;intraspecies diversity;NaCl;nutrient deficiency;clonal complexlcsh:QR1-502Biologymedicine.disease_cause7. Clean energyMicrobiologylcsh:Microbiologybiofilm03 medical and health sciencesFood chainadhésionNutrientListeria monocytogenesNaClGenotypemedicineFood scienceOriginal Research030304 developmental biology2. Zero hungerpan-genome-wide association study0303 health sciences030306 microbiologyclonal complexBiofilmPan-genomebiochemical phenomena metabolism and nutritionListeria monocytogenesTransformation (genetics)adhesionnutrient deficiencylisteria monocytogènesFood contaminant
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Exploring the diversity of listeria monocytogenes biofilm architecture by high-throughput confocal laser scanning microscopy and the predominance of …

2015

ABSTRACT Listeria monocytogenes is involved in food-borne illness with a high mortality rate. The persistence of the pathogen along the food chain can be associated with its ability to form biofilms on inert surfaces. While most of the phenotypes associated with biofilms are related to their spatial organization, most published data comparing biofilm formation by L. monocytogenes isolates are based on the quantitative crystal violet assay, which does not give access to structural information. Using a high-throughput confocal-imaging approach, the aim of this work was to decipher the structural diversity of biofilms formed by 96 L. monocytogenes strains isolated from various environments. Pr…

[SDV.BIO]Life Sciences [q-bio]/Biotechnology[SDV]Life Sciences [q-bio]chaîne alimentairestrain originmicroscopie confocale à balayage lasermedicine.disease_causeApplied Microbiology and Biotechnologybiofilmchemistry.chemical_compound[ SDV.MP ] Life Sciences [q-bio]/Microbiology and ParasitologyPathogenmorphotypeComputingMilieux_MISCELLANEOUS0303 health sciencesGrowth mediumMicroscopy ConfocalEcologyMicrobiology and ParasitologydescripteurMicrobiologie et Parasitologieenvironnementphénotype[SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitologymotilityanalyse quantitativeoptimizationBiotechnologyagent pathogènePseudomonas-aeruginosa biofilm;pathogen;lineage;growth-condition;extracellular DNA;strain origin;quantification;motility;hydrophobicity;optimizationBiotechnologiesBiologyHoneycomb likeMicrobiology03 medical and health sciencesListeria monocytogenesgrowth-conditionConfocal laser scanning microscopymedicineCrystal violetPseudomonas-aeruginosa biofilm030304 developmental biologydiversitéhydrophobicity030306 microbiologyBiofilm[ SDV.BIO ] Life Sciences [q-bio]/Biotechnologybiochemical phenomena metabolism and nutritionExtracellular dnaListeria monocytogenesquantificationHigh-Throughput Screening AssayschemistryBiofilmsFood MicrobiologyMicrobial Interactionslisteria monocytogènesFood Sciencepathogenlineageextracellular DNA
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