Search results for "SLC31 Proteins"

showing 7 items of 7 documents

Copper transporter COPT5 participates in the crosstalk between vacuolar copper and iron pools mobilisation

2019

Copper (Cu) deficiency affects iron (Fe) homeostasis in several plant processes, including the increased Fe requirements due to cuproprotein substitutions for the corresponding Fe counterpart. Loss-of-function mutants from Arabidopsis thaliana high affinity copper transporter COPT5 and Fe transporters NATURAL RESISTANCE-ASSOCIATED MACROPHAGE PROTEIN 3/4 (NRAMP3 and NRAMP4) were used to study the interaction between metals internal pools. A physiological characterisation showed that the copt5 mutant is sensitive to Fe deficiency, and that nramp3nramp4 mutant growth was severely affected under limiting Cu. By a transcriptomic analysis, we observed that NRAMP4 expression was highly induced in …

0301 basic medicinePhysiologyIron[SDV]Life Sciences [q-bio]MutantArabidopsislcsh:Medicinechemistry.chemical_elementChromosomal translocationVacuolePlant RootsArticleMetal03 medical and health sciences0302 clinical medicineCopper Transport ProteinsGene Expression Regulation PlantMetalloproteinHomeostasis[SDV.BV]Life Sciences [q-bio]/Vegetal BiologySLC31 Proteinslcsh:ScienceComputingMilieux_MISCELLANEOUSchemistry.chemical_classificationMultidisciplinaryArabidopsis Proteinslcsh:RBiological TransportTransporterPlants Genetically ModifiedCopperCrosstalk (biology)030104 developmental biologychemistryMetalsvisual_artVacuolesvisual_art.visual_art_mediumBiophysicslcsh:QPlant sciences[SDV.AEN]Life Sciences [q-bio]/Food and NutritionCopper030217 neurology & neurosurgeryScientific Reports
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Dissection of the relative contribution of the Schizosaccharomyces pombe Ctr4 and Ctr5 proteins to the copper transport and cell surface delivery fun…

2011

The Ctr1 family of proteins mediates high-affinity copper (Cu) acquisition in eukaryotic organisms. In the fission yeastSchizosaccharomyces pombe, Cu uptake is carried out by a heteromeric complex formed by the Ctr4 and Ctr5 proteins. Unlike human andSaccharomyces cerevisiaeCtr1 proteins, Ctr4 and Ctr5 are unable to function independently in Cu acquisition. Instead, both proteins physically interact with each other to form a Ctr4–Ctr5 heteromeric complex, and are interdependent for secretion to the plasma membrane and Cu transport activity. In this study, we usedS. cerevisiaemutants that are defective in high-affinity Cu uptake to dissect the relative contribution of Ctr4 and Ctr5 to the Cu…

Amino Acid MotifsMutantSaccharomyces cerevisiaeSaccharomyces cerevisiaeBiologyMicrobiologySchizosaccharomycesHumansSecretionAmino Acid SequenceSLC31 ProteinsCation Transport ProteinsCell MembraneGenetic Complementation Testbiology.organism_classificationFusion proteinYeastProtein Structure TertiaryCell biologyComplementationTransmembrane domainBiochemistryCell and Molecular Biology of MicrobesSchizosaccharomyces pombeSchizosaccharomyces pombe ProteinsSequence AlignmentCopper
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Modulation of copper deficiency responses by diurnal and circadian rhythms in Arabidopsis thaliana

2015

Highlight Cyclic expression of copper transport and the responses to copper deficiency are integrated into the light and circadian–oscillator signalling in plants.

0106 biological sciencescopper deficiencyArabidopsis thalianaPhysiologyPeriod (gene)Circadian clockArabidopsischemistry.chemical_elementPlant Science01 natural sciencesdiurnal rhythm03 medical and health sciencesGene Expression Regulation Plantcircadian clockmedicineArabidopsis thalianaHomeostasisCircadian rhythmSLC31 Proteinsheavy metalsTranscription factorCation Transport Proteins030304 developmental biologyGeneticsheavy metals.0303 health sciencesbiologyArabidopsis ProteinsSuperoxide DismutaseGiganteafood and beveragesbiology.organism_classificationmedicine.diseasePlants Genetically ModifiedCopperCell biologyCircadian RhythmDNA-Binding Proteinschemistrycopper transportCopper deficiencyCopper010606 plant biology & botanyResearch PaperTranscription Factors
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Defective copper transport in the copt5 mutant affects cadmium tolerance.

2014

Cadmium toxicity interferes with essential metal homeostasis, which is a problem for both plant nutrition and the consumption of healthy food by humans. Copper uptake is performed by the members of the Arabidopsis high affinity copper transporter (COPT) family. One of the members, COPT5, is involved in copper recycling from the vacuole toward the cytosolic compartment. We show herein that copt5 mutants are more sensitive to cadmium stress than wild-type plants, as indicated by reduced growth. Exacerbated cadmium toxicity in copt5 mutants is due specifically to altered copper traffic through the COPT5 transporter. Three different processes which have been shown to affect cadmium tolerance ar…

inorganic chemicalsPhysiologyIronMutantArabidopsischemistry.chemical_elementPlant DevelopmentPlant ScienceVacuolemedicine.disease_causeModels BiologicalPlant RootsGene Expression Regulation PlantStress PhysiologicalEtiolationmedicineArabidopsis thalianaSLC31 ProteinsCation Transport ProteinsCadmiumbiologyArabidopsis ProteinsBiological TransportCell BiologyGeneral MedicineEthylenesmedicine.diseasebiology.organism_classificationCopperAdaptation PhysiologicalHypocotylddc:Cell biologyOxidative StresschemistrySeedlingsToxicityMutationLipid PeroxidationCopper deficiencyOxidative stressBiomarkersCopperCadmiumPlantcell physiology
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Daily rhythmicity of high affinity copper transport

2016

A differential demand for copper (Cu) of essential cupro-proteins that act within the mitochondrial and chloroplastal electronic transport chains occurs along the daily light/dark cycles. This requires a fine-tuned spatiotemporal regulation of Cu delivery, becoming especially relevant under non-optimal growth conditions. When scarce, Cu is imported through plasma membrane-bound high affinity Cu transporters (COPTs) whose coding genes are transcriptionally induced by the SPL7 transcription factor. Temporal homeostatic mechanisms are evidenced by the presence of multiple light- and clock-responsive regulatory cis elements in the promoters of both SPL7 and its COPT targets. A model is presente…

0106 biological sciences0301 basic medicineCircadian clockArabidopsisComputingMilieux_LEGALASPECTSOFCOMPUTINGPlant Science01 natural sciencesElectron Transport03 medical and health sciencesGene Expression Regulation PlantArabidopsisBotanyRNA MessengerSLC31 ProteinsPromoter Regions GeneticCation Transport ProteinsTranscription factorbiologyArabidopsis ProteinsGiganteaTransporterPromoterbiology.organism_classificationElectron transport chainArticle AddendumCircadian RhythmTransport proteinDNA-Binding Proteins030104 developmental biologyBiophysicsCopperMetabolic Networks and PathwaysTranscription Factors010606 plant biology & botanyPlant Signaling & Behavior
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Arabidopsis copper transport protein COPT2 participates in the crosstalk between iron deficiency responses and low phosphate signaling

2013

[EN] Copper and iron are essential micronutrients for most living organisms because they participate as cofactors in biological processes, including respiration, photosynthesis, and oxidative stress protection. In many eukaryotic organisms, including yeast (Saccharomyces cerevisiae) and mammals, copper and iron homeostases are highly interconnected; yet, such interdependence is not well established in higher plants. Here, we propose that COPT2, a high-affinity copper transport protein, functions under copper and iron deficiencies in Arabidopsis (Arabidopsis thaliana). COPT2 is a plasma membrane protein that functions in copper acquisition and distribution. Characterization of the COPT2 expr…

PhysiologyArabidopsisPlant SciencePlant RootsMembranes Transport and BioenergeticsGene Expression Regulation PlantArabidopsisThalianaHomeostasisArabidopsis thalianaSLC31 ProteinsGene-expressionCation Transport ProteinsChlorosisbiologyRevealsIron DeficienciesMetal homeostasisPlantsPlants Genetically ModifiedUp-RegulationTransport proteinPhenotypeBiochemistrySignal TransductionIronRecombinant Fusion ProteinsSaccharomyces cerevisiaechemistry.chemical_elementSaccharomyces cerevisiaeModels BiologicalPhosphatesEthyleneGeneticsmedicineBIOQUIMICA Y BIOLOGIA MOLECULARFamilyIron deficiency (plant disorder)Arabidopsis ProteinsBiological TransportRoot elongationSequence Analysis DNAbiology.organism_classificationmedicine.diseaseCopperPlant LeavesAcquisitionchemistrySeedlingsStarvationMutationCopper deficiencyCopper
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The Arabidopsis COPT6 Transport Protein Functions in Copper Distribution Under Copper-Deficient Conditions

2013

Copper (Cu), an essential redox active cofactor, participates in fundamental biological processes, but it becomes highly cytotoxic when present in excess. Therefore, living organisms have established suitable mechanisms to balance cellular and systemic Cu levels. An important strategy to maintain Cu homeostasis consists of regulating uptake and mobilization via the conserved family of CTR/COPT Cu transport proteins. In the model plant Arabidopsis thaliana, COPT1 protein mediates root Cu acquisition, whereas COPT5 protein functions in Cu mobilization from intracellular storage organelles. The function of these transporters becomes critical when environmental Cu bioavailability diminishes. Ho…

PhysiologyMolecular Sequence DataSaccharomyces cerevisiaeMutantArabidopsisSaccharomyces cerevisiaePlant SciencePlant RootsCofactorCell membraneGene Expression Regulation PlantArabidopsisOrganellemedicineHomeostasisAmino Acid SequenceSLC31 ProteinsbiologyArabidopsis ProteinsMembrane transport proteinCell MembraneGenetic Complementation TestMembrane Transport ProteinsBiological TransportCell BiologyGeneral MedicinePlants Genetically Modifiedbiology.organism_classificationUp-RegulationTransport proteinCell biologyPlant LeavesMutagenesis Insertionalmedicine.anatomical_structureBiochemistrySeedsbiology.proteinPlant Vascular BundleSequence AlignmentCopperPlant ShootsPlant and Cell Physiology
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