Search results for "ATP"

showing 10 items of 736 documents

Identification of Stress Associated microRNAs in Solanum lycopersicum by High-Throughput Sequencing

2019

Tomato (Solanum lycopersicum) is one of the most important crops around the world and also a model plant to study response to stress. High-throughput sequencing was used to analyse the microRNA (miRNA) profile of tomato plants undergoing five biotic and abiotic stress conditions (drought, heat, P. syringae infection, B. cinerea infection, and herbivore insect attack with Leptinotarsa decemlineata larvae) and one chemical treatment with a plant defence inducer, hexanoic acid. We identified 104 conserved miRNAs belonging to 37 families and we predicted 61 novel tomato miRNAs. Among those 165 miRNAs, 41 were stress-responsive. Reverse transcription quantitative PCR (RT-qPCR) was used to valida…

0106 biological sciences0301 basic medicineEstrèslcsh:QH426-470ATP-binding cassette transporter01 natural sciencesbehavioral disciplines and activitiesDNA sequencingdifferential expression03 medical and health sciencesDifferential expressionSolanum lycopersicummicroRNAGeneticsTomàquetsGeneGenetics (clinical)Abiotic componentGeneticsbiotic and abiotic stress responseHigh-throughput sequencingbiologyAbiotic stressfungi<i>Solanum lycopersicum</i>food and beverageshigh-throughput sequencingbiology.organism_classificationlcsh:Genetics030104 developmental biologyReal-time polymerase chain reactionmiRNAsBiotic and abiotic stress responseSolanumHexanoic acidhexanoic acidmiRNA targets010606 plant biology & botanyGenes
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An Arabidopsis Mutant Over-Expressing Subtilase SBT4.13 Uncovers the Role of Oxidative Stress in the Inhibition of Growth by Intracellular Acidificat…

2020

Intracellular acid stress inhibits plant growth by unknown mechanisms and it occurs in acidic soils and as consequence of other stresses. In order to identify mechanisms of acid toxicity, we screened activation-tagging lines of Arabidopsis thaliana for tolerance to intracellular acidification induced by organic acids. A dominant mutant, sbt4.13-1D, was isolated twice and shown to over-express subtilase SBT4.13, a protease secreted into endoplasmic reticulum. Activity measurements and immuno-detection indicate that the mutant contains less plasma membrane H+-ATPase (PMA) than wild type, explaining the small size, electrical depolarization and decreased cytosolic pH of the mutant but not orga…

0106 biological sciences0301 basic medicineMutantmedicine.disease_cause01 natural sciencesCatalysisInorganic Chemistrylcsh:ChemistryH<sup>+</sup>-ATPase03 medical and health sciencesorganic acidsmedicinePhysical and Theoretical ChemistryMolecular Biologylcsh:QH301-705.5Spectroscopychemistry.chemical_classificationReactive oxygen speciesNADPH oxidasebiologyNADPH oxidaseEndoplasmic reticulumOrganic ChemistryWild typeROSGeneral MedicineComputer Science ApplicationsCell biology030104 developmental biologychemistrylcsh:Biology (General)lcsh:QD1-999biology.proteinactivation-taggingIntracellularOxidative stress010606 plant biology & botanyOrganic acidInternational Journal of Molecular Sciences
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Immunological detection of tonoplast polypeptides in the plasma membrane of pea cotyledons

1996

The tonoplast is usually characterized by the presence of two electrogenic proton pumps: a vacuolartype H+-ATPase and a pyrophosphatase, as well as a putative water-channel-forming protein (γ-TIP). Using a post-embedding immunogold labelling technique, we have detected the presence of these transport-protein complexes not only in the tonoplast, but also in the plasma membrane and trans Golgi elements of maturing pea (Pisum sativum L.) cotyledons. These ultrastructural observations are supported by Western blotting with highly purified plasma-membrane fractions. In contrast to the vacuolar-type H+-ATPase, whose activity was not measurable, considerable pyrophosphatase activity was detected i…

0106 biological sciences0303 health sciencesInorganic pyrophosphatasePyrophosphataseATPasefood and beveragesPlant ScienceImmunogold labellingVacuoleBiologybiology.organism_classification01 natural sciencesProton pumpPisumBlot03 medical and health scienceschemistry.chemical_compoundBiochemistrychemistryGeneticsbiology.protein030304 developmental biology010606 plant biology & botanyPlanta
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S1/5 Photoaffinity labeling and photoaffinity cross-linking of ATP synthase complexes

2008

0106 biological sciences0303 health sciencesPhotoaffinity labelingATP synthasebiologyChemistryBiophysicsCell Biology01 natural sciencesBiochemistry03 medical and health sciencesBiochemistrybiology.protein030304 developmental biology010606 plant biology & botanyBiochimica et Biophysica Acta (BBA) - Bioenergetics
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Arbuscular mycorrhiza induced ATPases and membrane nutrient transport mechanisms

2002

The evolutionary success of arbuscular mycorrhizal (AM) symbiosis reflects the unique combination of a superior biotrophic mode of fungal carbon acquisition and the ability of the living plant to absorb nutrients, especially phosphorus, from the fungal partner (Jakobsen 1999). This mutualistic way of life must require controlled expression of a large set of membrane transport systems active in phosphate uptake from the soil by the extraradical hyphae, its transfer to the host plant across a symbiotic interface, and coupled to transport of photosynthates in the opposite direction. The implied membrane transporters are therefore integral systems in the functioning of the symbiosis. Very littl…

0106 biological sciences0303 health sciencesbiologyHyphaMembrane transport proteinATPase[SDV]Life Sciences [q-bio]fungiMembrane transportPhosphatebiology.organism_classification01 natural sciencesArbuscular mycorrhiza[SDV] Life Sciences [q-bio]03 medical and health scienceschemistry.chemical_compoundMembraneSymbiosischemistryBotanyBiophysicsbiology.proteinComputingMilieux_MISCELLANEOUS030304 developmental biology010606 plant biology & botany
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Activation of the plant plasma membrane H+ -ATPase. Is there a direct interaction between lysophosphatidylcholine and the C-terminal part of the enzy…

1996

The antagonistic effects of the fungal toxin beticolin-1 and of L-alpha-lysophosphatidylcholine (lysoPC) were investigated on the plasma membrane H+-ATPase of the plant Arabidopsis thaliana (isoform 2) expressed in yeast, using both wild-type enzyme (AHA2) and C-terminal truncated enzyme (aha2delta92). Phosphohydrolytic activities of both enzymes were inhibited by beticolin-1, with very similar 50% inhibitory concentrations, indicating that the toxin action does not involve the C-terminal located autoinhibitory domain of the proton pump. Egg lysoPC, a compound that activates the H+-ATPase by a mechanism involving the C-terminal part of the protein, was found to be able to reverse the inhibi…

0106 biological sciencesATPaseArabidopsismedicine.disease_cause01 natural sciencesBiochemistrychemistry.chemical_compoundStructural BiologyArabidopsis thalianaComputingMilieux_MISCELLANEOUSchemistry.chemical_classification0303 health sciencesbiologyPlantsRecombinant ProteinsIsoenzymesBeticolinProton-Translocating ATPasesLysophosphatidylcholineMembraneBiochemistryPlasma membrane H+-ATPase activationGene isoformAutoinhibitory domainDetergentsBiophysicsSaccharomyces cerevisiae[SDV.BC]Life Sciences [q-bio]/Cellular BiologyHeterocyclic Compounds 4 or More RingsStructure-Activity Relationship03 medical and health sciencesGeneticsmedicine[SDV.BC] Life Sciences [q-bio]/Cellular BiologyMolecular Biology030304 developmental biologyBinding SitesToxinCell MembraneLysophosphatidylcholinesCell BiologyMycotoxinsbiology.organism_classificationYeastEnzyme Activationl-α-LysophosphatidylcholineEnzymechemistryLiposomesbiology.protein010606 plant biology & botany
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Identification and molecular characterization of the high-affinity copper transporters family in Solanum lycopersicum

2021

Copper (Cu) plays a key role as cofactor in the plant proteins participating in essential cellular processes, such as electron transport and free radical scavenging. Despite high-affinity Cu transporters (COPTs) being key participants in Cu homeostasis maintenance, very little is known about COPTs in tomato (Solanum lycopersicum) even though it is the most consumed fruit worldwide and this crop is susceptible to suboptimal Cu conditions. In this study, a six-member family of COPT (SlCOPT1-6) was identified and characterized. SlCOPTs have a conserved architecture consisting of three transmembrane domains and β-strains. However, the presence of essential methionine residues, a methionine-enri…

0106 biological sciencesATPaseBiotecnologia agrícolaMolecular ConformationGene ExpressionCOPT01 natural sciencesBiochemistryTomatoStructure-Activity Relationship03 medical and health scienceschemistry.chemical_compoundCopper Transport ProteinsSolanum lycopersicumStructural BiologyGene expressionTomàquetsAmino Acid SequenceHeavy metal stressMolecular BiologyConserved SequencePhylogenyPlant Proteins030304 developmental biology0303 health sciencesMethioninebiologyChemistryfood and beveragesGeneral MedicinePeroxisomeYeastComplementationTransmembrane domainBiochemistryMultigene Familybiology.proteinCopper010606 plant biology & botanyCysteineInternational Journal of Biological Macromolecules
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Functional reconstitution of a proton-translocating system responsive to fusicoccin

1988

Crude fusicoccin binding proteins and a partially purified plasma membrane H+-transporting ATPase (EC 3.6.1.34), both solubilized from maize tissues, were simultaneously inserted into liposomes by the freeze-thaw method. ATP-driven intravesicular acidification in the proteoliposomes, measured by the fluorescence quenching of the dye 9-amino-6-chloro-2-methoxyacridine, markedly increased upon addition of fusicoccin to the reconstituted system. This effect could not be observed when binding sites and ATPase preparations were separately reconstituted into the proteoliposomes, thus demonstrating that fusicoccin binding to its receptor is a prerequisite for ATPase stimulation.

0106 biological sciencesATPase[SDV]Life Sciences [q-bio]01 natural sciences03 medical and health scienceschemistry.chemical_compoundProton transportGlycosidesBinding siteComputingMilieux_MISCELLANEOUSFluorescent Dyes030304 developmental biologychemistry.chemical_classification0303 health sciencesLiposomeBinding SitesMultidisciplinarybiologyAminoacridinesCell MembraneBiological activityPlants[SDV] Life Sciences [q-bio]Proton-Translocating ATPasesMembraneEnzymeSolubilitychemistryBiochemistryFusicoccinLiposomesbiology.proteinResearch Article010606 plant biology & botany
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The Spodoptera exigua ABCC2 Acts as a Cry1A Receptor Independently of its Nucleotide Binding Domain II

2019

ABC proteins are primary-active transporters that require the binding and hydrolysis of ATP to transport substrates across the membrane. Since the first report of an ABCC2 transporter as receptor of Cry1A toxins, the number of ABC transporters known to be involved in the mode of action of Cry toxins has increased. In Spodoptera exigua, a mutation in the SeABCC2 gene is described as genetically linked to resistance to the Bt-product XentariTM. This mutation affects an intracellular domain involved in ATP binding, but not the extracellular loops. We analyzed whether this mutation affects the role of the SeABCC2 as a functional receptor to Cry1A toxins. The results show that Sf21 cells express…

0106 biological sciencesCell SurvivalHealth Toxicology and Mutagenesislcsh:MedicineReceptors Cell SurfaceATP-binding cassette transporterSpodopteraSpodopteraToxicologymedicine.disease_causeBt resistance01 natural sciencesArticleCell LineHemolysin Proteins03 medical and health sciencesBacterial Proteinsmode of actionGTP-Binding ProteinsATP hydrolysismedicineAnimalsReceptor030304 developmental biology0303 health sciencesMutationBacillus thuringiensis ToxinsbiologyChemistryfungilcsh:Rheterologous expressionTransporterbiology.organism_classificationMultidrug Resistance-Associated Protein 2Cell biologyEndotoxins010602 entomologyCyclic nucleotide-binding domainSf21 cellstruncated transporterInsect ProteinsHeterologous expressionMultidrug Resistance-Associated ProteinsToxins
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Ions channels/transporters and chloroplast regulation.

2015

International audience; Ions play fundamental roles in all living cells and their gradients are often essential to fuel transports, to regulate enzyme activities and to transduce energy within and between cells. Their homeostasis is therefore an essential component of the cell metabolism. Ions must be imported from the extracellular matrix to their final subcellular compartments. Among them, the chloroplast is a particularly interesting example because there, ions not only modulate enzyme activities, but also mediate ATP synthesis and actively participate in the building of the photosynthetic structures by promoting membrane-membrane interaction. In this review, we first provide a comprehen…

0106 biological sciencesChloroplastsArabidopsis thalianaPhysiologyAnion Transport ProteinsArabidopsis01 natural sciencesChloroplast membraneThylakoids03 medical and health sciencesArabidopsis thaliana[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyPhotosynthesisMolecular BiologyCation Transport Proteins030304 developmental biology0303 health sciencesIon TransportbiologyATP synthaseChemiosmosisArabidopsis ProteinsMembrane Transport ProteinsCell BiologyPlantbiology.organism_classificationCell biologyChloroplastCell metabolismBiochemistryChloroplast envelopeThylakoidProton motive forcebiology.proteinCalciumHomeostasis010606 plant biology & botanyIons trafficking
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