Search results for " Arab"

showing 10 items of 213 documents

Waiting for Fatima to become Sophie

2018

L’analyse se focalise sur l’« attente », comme temps de la narration du roman Al-kāfira de ‘Alī Badr et moyen de dénonciation de la mentalité misogyne imposée par les mutašaddidīn musallaḥīn qui contrôlent le village où Fāṭima-Sophie a passé son enfance et son adolescence. Dans ce climat de répression politique et d’oppression sociale, la représentation littéraire de l’attente devient métaphore d’une condition existentielle et d’une identité à la fois individuelle et collective.

'Ali BadrIraqi novelSettore L-OR/12 - Lingua E Letteratura ArabaArabic literature
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Evaluation of chloroplast genome annotation tools and application to analysis of the evolution of coffee species.

2018

International audience; Chloroplast sequences are widely used for phylogenetic analysis due to their high degree of conservation in plants. Whole chloroplast genomes can now be readily obtained for plant species using new sequencing methods, giving invaluable data for plant evolution However new annotation methods are required for the efficient analysis of this data to deliver high quality phylogenetic analyses. In this study, the two main tools for chloroplast genome annotation were compared. More consistent detection and annotation of genes were produced with GeSeq when compared to the currently used Dogma. This suggests that the annotation of most of the previously annotated chloroplast …

0106 biological sciences0301 basic medicineChloroplastsPlant GenomesPlant SciencePlant Genetics01 natural sciencesGenomeCoffeeDatabase and Informatics MethodsPlant GenomicsPlastidsPhylogenyData Management2. Zero hungerPlant evolutionMultidisciplinarybiologyPhylogenetic treeQRfood and beveragesPhylogenetic AnalysisGenome projectGenomicsPhylogenetics[INFO.INFO-MA]Computer Science [cs]/Multiagent Systems [cs.MA]MedicineEngineering and Technology[INFO.INFO-DC]Computer Science [cs]/Distributed Parallel and Cluster Computing [cs.DC]Cellular Structures and OrganellesCellular TypesSequence AnalysisResearch ArticleBiotechnologyComputer and Information SciencesBioinformaticsSciencePlant Cell BiologyBioengineering[INFO.INFO-SE]Computer Science [cs]/Software Engineering [cs.SE]Coffea canephoraGenes PlantResearch and Analysis Methods010603 evolutionary biology[INFO.INFO-IU]Computer Science [cs]/Ubiquitous ComputingEvolution Molecular[INFO.INFO-CR]Computer Science [cs]/Cryptography and Security [cs.CR]03 medical and health sciencesPhylogeneticsChloroplast GenomePlant CellsGeneticsEvolutionary SystematicsGenome ChloroplastTaxonomyEvolutionary BiologyCoffea arabicaCoffeafungiBiology and Life SciencesComputational BiologyMolecular Sequence AnnotationSequence Analysis DNACell Biology15. Life on landbiology.organism_classificationGenome Analysis[INFO.INFO-MO]Computer Science [cs]/Modeling and SimulationGenome Annotation030104 developmental biologyEvolutionary biology[INFO.INFO-ET]Computer Science [cs]/Emerging Technologies [cs.ET]Plant BiotechnologySequence AlignmentPloS one
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Identification of key genes and its chromosome regions linked to drought responses in leaves across different crops through meta-analysis of RNA-Seq …

2019

Background Our study is the first to provide RNA-Seq data analysis related to transcriptomic responses towards drought across different crops. The aim was to identify and map which genes play a key role in drought response on leaves across different crops. Forty-two RNA-seq samples were analyzed from 9 published studies in 7 plant species (Arabidopsis thaliana, Solanum lycopersicum, Zea mays, Vitis vinifera, Malus X domestica, Solanum tuberosum, Triticum aestivum). Results Twenty-seven (16 up-regulated and 11 down-regulated) drought-regulated genes were commonly present in at least 7 of 9 studies, while 351 (147 up-regulated and 204 down-regulated) were commonly drought-regulated in 6 of 9 …

0106 biological sciences0301 basic medicineCrops AgriculturalLeavesArabidopsisPlant ScienceGenes Plant01 natural sciencesZea maysChromosomes PlantTranscriptome03 medical and health scienceschemistry.chemical_compoundSolanum lycopersicumAuxinlcsh:BotanyArabidopsis thalianaVitisRNA-SeqDrought Leaves Meta-analysis RNA-Seq Seedlings TranscriptomicGeneAbscisic acidTriticumSolanum tuberosumchemistry.chemical_classificationGeneticsbiologyDroughtDehydrationAbiotic stressfungiChromosome Mappingfood and beveragesbiology.organism_classificationlcsh:QK1-989Plant LeavesMeta-analysis030104 developmental biologychemistryCell wall organizationTranscriptomicDrought; Leaves; Meta-analysis; RNA-Seq; Seedlings; Transcriptomic; Arabidopsis; Chromosome Mapping; Chromosomes Plant; Crops Agricultural; Dehydration; Genes Plant; Lycopersicon esculentum; Malus; Plant Leaves; RNA Plant; Solanum tuberosum; Triticum; Vitis; Zea maysSeedlingsRNA PlantMalusSolanum010606 plant biology & botanyResearch Article
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The bacterial microbiome of meloidogyne-based disease complex in coffee and tomato

2020

The Meloidogyne-based disease complexes (MDCs) are caused by the interaction of different root-knot nematode species and phytopathogenic fungi. These complexes are devastating several important crops worldwide including tomato and coffee. Despite their relevance, little is known about the role of the bacterial communities in the MDCs. In this study 16s rDNA gene sequencing was used to analyze the bacterial microbiome associated with healthy and infested roots, as well with females and eggs of Meloidogyne enterolobii and M. paranaensis, the causal agents of MDC in tomato and coffee, respectively. Each MDC pathosystems displayed a specific taxonomic diversity and relative abundances constitut…

0106 biological sciences0301 basic medicineMeloidogynePathologie végétalePlant Sciencelcsh:Plant culture01 natural scienceshttp://aims.fao.org/aos/agrovoc/c_479203 medical and health sciencesMaladie des planteshttp://aims.fao.org/aos/agrovoc/c_5962Meloidogyne paranaensisSolanum lycopersicumcorky rootAlteromonadalesBotanyhttp://aims.fao.org/aos/agrovoc/c_1721lcsh:SB1-1110MicrobiomeH20 - Maladies des planteshttp://aims.fao.org/aos/agrovoc/c_4475Original Researchfunctional profilehttp://aims.fao.org/aos/agrovoc/c_4729biologypathobiomeP34 - Biologie du solfood and beveragesNocardiaCoffea arabicabiology.organism_classification16S ribosomal RNABacillalesMeloidogyne enterolobiiBurkholderiales030104 developmental biologyNematodehttp://aims.fao.org/aos/agrovoc/c_5974Meloidogyne enterolobii010606 plant biology & botany
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The priming fingerprint on the plant transcriptome investigated through meta-analysis of RNA-Seq data

2020

Plants may enter into a state of alert that allows them to deploy defensive measures in a more effective way upon stress occurrence. This phenomenon is termed defense priming, and it is started in plants with a still enigmatic priming phase in which complex molecular and physiological changes occur. During the priming phase the plant transcriptome is deeply affected, but it remains largely unclear the extent of the transcriptional changes that contribute to prime the plant. In this study, we performed a meta-analysis of publicly available RNA-Seq data obtained during different priming conditions and in different plant species in order to investigate the existence of a transcriptional "primi…

0106 biological sciences0301 basic medicineRNA-SeqPlant ScienceComputational biologyHorticulture01 natural sciencesTranscriptome03 medical and health sciencesPlant immunityArabidopsisMeta-analysiGeneTranscription factorbiologyInduced resistancebiology.organism_classificationFold changeSettore AGR/03 - Arboricoltura Generale E Coltivazioni Arboree030104 developmental biologySystemic acquired resistanceDefense primingArabidopsiDefense priming . Systemic acquired resistance . Induced resistance analysis . ArabidopsisAgronomy and Crop SciencePriming (psychology)Systemic acquired resistance010606 plant biology & botanyEuropean Journal of Plant Pathology
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Molecular Responses to Small Regulating Molecules against Huanglongbing Disease

2016

Huanglongbing (HLB; citrus greening) is the most devastating disease of citrus worldwide. No cure is yet available for this disease and infected trees generally decline after several months. Disease management depends on early detection of symptoms and chemical control of insect vectors. In this work, different combinations of organic compounds were tested for the ability to modulate citrus molecular responses to HLB disease beneficially. Three small-molecule regulating compounds were tested: 1) L-arginine, 2) 6-benzyl-adenine combined with gibberellins, and 3) sucrose combined with atrazine. Each treatment contained K-phite mineral solution and was tested at two different concentrations. T…

0106 biological sciences0301 basic medicineSucroseLeavesCitruslcsh:MedicineGene ExpressionSecondary MetabolismPlant ScienceDisaccharidesBiochemistry01 natural sciencesStarchesGene Expression Regulation PlantINFECTIONMedicine and Health SciencesInnatePlant HormonesAmino Acidslcsh:ScienceImmune ResponseGENE-EXPRESSIONMultidisciplinaryNONHOST RESISTANCEbiologyOrganic CompoundsPlant BiochemistryPlant AnatomyChemistryPhenotypeBiochemistryDEFENSE RESPONSESCANDIDATUS-LIBERIBACTER-ASIATICUS; ARABIDOPSIS-THALIANA; NONHOST RESISTANCE; DEFENSE RESPONSES; CITRUS-SINENSIS; GENE-EXPRESSION; INFECTION; PLANTS; IDENTIFICATION; TRANSCRIPTOMEPhysical SciencesHost-Pathogen InteractionsCarbohydrate MetabolismSucrose synthaseAtrazineGibberellinBasic Amino AcidsStarch synthaseSystemic acquired resistanceResearch ArticleCITRUS-SINENSISGeneral Science & TechnologyPhysiologicalImmunologyCarbohydratesCarbohydrate metabolismStressArginine03 medical and health sciencesStress PhysiologicalSettore AGR/07 - Genetica AgrariaGeneticsPLANTSTRANSCRIPTOMESecondary metabolismGenePlant DiseasesIDENTIFICATIONGene Expression Profilinglcsh:ROrganic ChemistryImmunityChemical CompoundsBiology and Life SciencesProteinsPlantBiotic stressCANDIDATUS-LIBERIBACTER-ASIATICUSHormonesGibberellinsImmunity InnateMetabolism030104 developmental biologyGene Expression RegulationARABIDOPSIS-THALIANAbiology.proteinlcsh:Q010606 plant biology & botanyPLOS ONE
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Involvement of the glutamate receptor AtGLR3.3 in plant defense signaling and resistance toHyaloperonospora arabidopsidis

2013

Like their animal counterparts, plant glutamate receptor-like (GLR) homologs are intimately associated with Ca(2+) influx through plasma membrane and participate in various physiological processes. In pathogen-associated molecular patterns (PAMP)-/elicitor-mediated resistance, Ca(2+) fluxes are necessary for activating downstream signaling events related to plant defense. In this study, oligogalacturonides (OGs), which are endogenous elicitors derived from cell wall degradation, were used to investigate the role of Arabidopsis GLRs in defense signaling. Pharmacological investigations indicated that GLRs are partly involved in free cytosolic [Ca(2+)] ([Ca(2+)]cyt) variations, nitric oxide (N…

0106 biological sciencesArabidopsis thaliana[SDV]Life Sciences [q-bio]ArabidopsisOligosaccharidesPlant Science01 natural sciencesCALCIUM SIGNATURESchemistry.chemical_compoundGene Expression Regulation PlantSYSTEMIC ACQUIRED-RESISTANCEArabidopsisPlant defense against herbivoryArabidopsis thalianaPlant ImmunityGENE-EXPRESSIONCalcium signaling0303 health sciencesIMMUNE-RESPONSESTOBACCO CELLSfood and beveragesCYTOSOLIC CALCIUMElicitorOomycetesReceptors GlutamateBiochemistryHost-Pathogen Interactions[SDE]Environmental SciencesoligogalacturonidesSignal transductionSignal Transductionglutamate receptorHyaloperonospora arabidopsidisBiologyNitric Oxidecalcium signaling03 medical and health sciencesplant defenseGeneticsDNQX[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyBOTRYTIS-CINEREA030304 developmental biologyHyaloperonospora arabidopsidisNITRIC-OXIDEArabidopsis ProteinsCell Biologybiology.organism_classificationSALICYLIC-ACIDchemistryPLASMA-MEMBRANEReactive Oxygen Species010606 plant biology & botanyThe Plant Journal
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Reverse-engineering the Arabidopsis thaliana transcriptional network under changing environmental conditions

2009

46 pages, 4 tables, 6 figures, 3 additinoal files.

0106 biological sciencesMESH: Genome PlantArabidopsis thalianaGene regulatory networkArabidopsis01 natural sciencesTranscriptomeGene Expression Regulation PlantArabidopsisMESH: Gene Expression Regulation DevelopmentalCluster AnalysisGene Regulatory NetworksMESH: ArabidopsisMESH: EcosystemMESH: Models GeneticOligonucleotide Array Sequence AnalysisMESH: Gene Regulatory NetworksGenetics0303 health sciencesMESH: Stress MechanicalbiologyMESH: Genomicsfood and beveragesGene Expression Regulation DevelopmentalGenomicsPhenotypeAlgorithmsGenome PlantMESH: MutationSystems biologyGenomicsMESH: AlgorithmsComputational biologyMESH: Arabidopsis ProteinsMESH: Phenotype03 medical and health sciencesMESH: Gene Expression Profiling[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyMESH: Gene Expression Regulation PlantEcosystem030304 developmental biologyModels GeneticMicroarray analysis techniquesArabidopsis ProteinsGene Expression ProfilingResearchfungiRobustness (evolution)biology.organism_classificationMESH: Cluster AnalysisGene expression profilingMutationMESH: Oligonucleotide Array Sequence AnalysisStress Mechanical010606 plant biology & botany
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Distinct lytic vacuolar compartments are embedded inside the protein storage vacuole of dry and germinating Arabidopsis thaliana seeds.

2011

International audience; Plant cell vacuoles are diverse and dynamic structures. In particular, during seed germination, the protein storage vacuoles are rapidly replaced by a central lytic vacuole enabling rapid elongation of embryo cells. In this study, we investigate the dynamic remodeling of vacuolar compartments during Arabidopsis seed germination using immunocytochemistry with antibodies against tonoplast intrinsic protein (TIP) isoforms as well as proteins involved in nutrient mobilization and vacuolar acidification. Our results confirm the existence of a lytic compartment embedded in the protein storage vacuole of dry seeds, decorated by γ-TIP, the vacuolar proton pumping pyrophospha…

0106 biological sciencesPhysiologyProtein storage vacuoleProton-pumping pyrophosphataseArabidopsisPlant ScienceVacuoleUNIQUEMESH: Protein Isoforms01 natural sciencesPYROPHOSPHATASEArabidopsisProtein IsoformsMESH: ArabidopsisH+-ATPASETONOPLAST INTRINSIC PROTEINPLANT-CELLSCation Transport ProteinsIN-VIVOPlant Proteinschemistry.chemical_classification0303 health sciencesMESH: Plant ProteinsGeneral MedicineCell biologyProtein TransportVacuolar acidificationLytic cycleSeedsPREVACUOLAR COMPARTMENTMESH: DesiccationVacuolar Proton-Translocating ATPasesMESH: Protein TransportMESH: Vacuolar Proton-Translocating ATPasesGerminationMESH: Arabidopsis ProteinsMESH: GerminationBiologyAquaporinsMESH: Vacuoles03 medical and health sciencesMESH: AquaporinsMESH: Cation Transport ProteinsStorage protein[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyLytic vacuoleDesiccation030304 developmental biologySeedArabidopsis ProteinsCell Biologybiology.organism_classificationTRANSPORTchemistryMESH: SeedsVacuolesVacuoleMEMBRANEMOBILIZATION010606 plant biology & botany
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Arabidopsis thaliana nicotianamine synthase 4 is required for proper response to iron deficiency and to cadmium exposure.

2013

International audience; The nicotianamine synthase (NAS) enzymes catalyze the formation of nicotianamine (NA), a non-proteinogenic amino acid involved in iron homeostasis. We undertook the functional characterization of AtNAS4, the fourth member of the Arabidopsis thaliana NAS gene family. A mutant carrying a T-DNA insertion in AtNAS4 (atnas4), as well as lines overexpressing AtNAS4 both in the atnas4 and the wild-type genetic backgrounds, were used to decipher the role of AtNAS4 in NA synthesis, iron homeostasis and the plant response to iron deficiency or cadmium supply. We showed that AtNAS4 is an important source for NA. Whereas atnas4 had normal growth in iron-sufficient medium, it dis…

0106 biological sciences[ SDV.BV ] Life Sciences [q-bio]/Vegetal BiologyMESH : Azetidinecarboxylic AcidFMN ReductaseArabidopsis thalianaMutantArabidopsisGene ExpressionPlant Science01 natural sciencesMESH : Cation Transport ProteinsMESH : IronMESH : Arabidopsis ProteinsNicotianamine synthaseMESH : Plants Genetically Modifiedchemistry.chemical_compoundMESH : ArabidopsisGene Expression Regulation PlantGene expressionMESH: Genes PlantArabidopsis thalianaMESH : DNA BacterialHomeostasisMESH: ArabidopsisNicotianamineMESH: Stress PhysiologicalCation Transport ProteinsMESH : Adaptation PhysiologicalMESH : Cadmium2. Zero hungerchemistry.chemical_classification0303 health sciencesCadmiumMESH: IronbiologyGeneral MedicineIron DeficienciesPlants Genetically ModifiedAdaptation PhysiologicalMESH: Azetidinecarboxylic AcidMESH : PhenotypePhenotypeBiochemistryMESH: HomeostasisMESH : HomeostasisMESH : MutationAzetidinecarboxylic AcidCadmiumDNA BacterialMESH: Gene ExpressionMESH: MutationIronMESH: Cadmiumchemistry.chemical_elementMESH: FerritinsMESH: Arabidopsis ProteinsMESH: Alkyl and Aryl TransferasesGenes PlantMESH: PhenotypeNicotianamine synthase03 medical and health sciencesMESH: Cation Transport ProteinsStress PhysiologicalIron homeostasisGenetics[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyIron deficiency (plant disorder)MESH: Gene Expression Regulation PlantMESH : Genes PlantMESH : Alkyl and Aryl TransferasesMESH : Stress Physiological030304 developmental biologyMESH : FMN ReductaseAlkyl and Aryl TransferasesArabidopsis ProteinsIron deficiencyNitric oxideNicotianaminebiology.organism_classificationMESH: Adaptation PhysiologicalMESH: DNA BacterialMESH : Gene ExpressionEnzymechemistryMESH: FMN ReductaseMESH: Plants Genetically ModifiedFerritinsMutationbiology.proteinMESH : FerritinsAgronomy and Crop ScienceMESH : Gene Expression Regulation Plant010606 plant biology & botany
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