Search results for "Binding protein"

showing 10 items of 1292 documents

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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The Odorant-Binding Proteins of the Spider Mite Tetranychus urticae

2021

Spider mites are one of the major agricultural pests, feeding on a large variety of plants. As a contribution to understanding chemical communication in these arthropods, we have characterized a recently discovered class of odorant-binding proteins (OBPs) in Tetranychus urticae. As in other species of Chelicerata, the four OBPs of T. urticae contain six conserved cysteines paired in a pattern (C1–C6, C2–C3, C4–C5) differing from that of insect counterparts (C1–C3, C2–C5, C4–C6). Proteomic analysis uncovered a second family of OBPs, including twelve members that are likely to be unique to T. urticae. A three-dimensional model of TurtOBP1, built on the recent X-ray structure of Varroa destruc…

0106 biological sciences0301 basic medicineModels MolecularProteomicsProteomeOdorant bindingProtein ConformationInsectLigandsReceptors Odorant01 natural scienceschemistry.chemical_compoundTetranychus urticaeBiology (General)SpectroscopyPhylogenymedia_commonmass spectrometryGeneticsbiologyligand-bindingMolecular Structurespider mitesGeneral MedicineTetranychus urticaeComputer Science ApplicationsChemistryConiferyl aldehydedisulfide bridgesTetranychidaeProtein Bindingspider mites.QH301-705.5media_common.quotation_subjectodorant-binding proteinsCatalysisArticleInorganic Chemistry03 medical and health sciencesSpider mite<i>Tetranychus urticae</i>AnimalsAmino Acid SequencePhysical and Theoretical ChemistryQD1-999Molecular BiologySpiderOrganic Chemistrybiology.organism_classification010602 entomology030104 developmental biologychemistryVarroa destructorOdorantsChelicerataInternational Journal of Molecular Sciences

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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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Tobacco cells contain a protein, immunologically related to the neutrophil small G protein Rac2 and involved in elicitor-induced oxidative burst.

1997

Abstract Suspension-cultured cells of Nicotiana tabacum generated active oxygen species (AOS) when they were treated with the proteinaceous elicitor, cryptogein. This response was blocked by diphenylene iodonium, an inhibitor of the neutrophil NADPH oxidase. When microsomal extracts of tobacco cells were probed with an antibody directed against the human small G protein Rac2, two immunoreactive proteins were detected at 18.5 and 20.5 kDa. The same experiment performed with cytosolic extracts of tobacco cells led to the observation of a strong immunoreactive protein at 21.5 kDa only in the cryptogein-treated cells. The appearance of this cytosolic protein was related to the production of AOS…

0106 biological sciencesHypersensitive responseNicotiana tabacumBlotting WesternBiophysicsSmall G Protein01 natural sciencesBiochemistrySuperoxide dismutaseFungal Proteins03 medical and health sciencesStructural BiologyGTP-Binding ProteinsTobaccoGeneticsMolecular BiologyCells Cultured030304 developmental biologyRespiratory Burst0303 health sciencesNADPH oxidasebiologyNADPH oxidaseNicotiana tabacumAlgal Proteinsfood and beveragesCell Biologybiology.organism_classificationMolecular biologyOxidative burst3. Good healthElicitorRespiratory burstrac GTP-Binding ProteinsSmall G proteinCytosolPlants ToxicBiochemistrybiology.proteinCryptogeinReactive Oxygen Species010606 plant biology & botanyRac2FEBS letters

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Comparison of binding properties and early biological effects of elicitins in tobacco cells

1998

Abstract Elicitins are a family of small proteins secreted by Phytophthora species that have a high degree of homology and elicit defense reactions in tobacco (Nicotiana tabacum). They display acidic or basic characteristics, the acidic elicitins being less efficient in inducing plant necrosis. In this study we compared the binding properties of four elicitins (two basic and two acidic) and early-induced signal transduction events (Ca2+ influx, extracellular medium alkalinization, and active oxygen species production). The affinity for tobacco plasma membrane-binding sites and the number of binding sites were similar for all four elicitins. Furthermore, elicitins compete with one another fo…

0106 biological sciencesPhysiologyNicotiana tabacumPlant Science01 natural sciences[SDV.GEN.GPL]Life Sciences [q-bio]/Genetics/Plants genetics03 medical and health sciencesCell surface receptor[SDV.GEN.GPL] Life Sciences [q-bio]/Genetics/Plants geneticsGeneticsExtracellularBinding siteComputingMilieux_MISCELLANEOUS030304 developmental biology0303 health sciencesbiologyBinding proteinElicitinTECHNIQUE DES TRACEURSbiology.organism_classificationElicitorBiochemistryCULTURE DE CELLULESignal transduction010606 plant biology & botanyResearch Article

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From elicitins to lipid-transfer proteins: a new insight in cell signalling involved in plant defence mechanisms.

2002

Elicitins and lipid-transfer proteins are small cysteine-rich lipid-binding proteins secreted by oomycetes and plant cells, respectively, that share some structural and functional properties. In spite of intensive work on their structure and diversity at the protein and genetic levels, the precise biological roles of lipid-transfer proteins remains unclear, although the most recent data suggest a role in somatic embryogenesis, in the formation of protective surface layers and in defence against pathogens. By contrast, elicitins are known elicitors of plant defence, and recent work demonstrating that elicitins and lipid-transfer proteins share the same biological receptors gives a new perspe…

0106 biological sciencesSomatic embryogenesisProtein ConformationDefence mechanismsPlant ScienceBiology01 natural sciencesFungal Proteins03 medical and health sciencesErgosterolReceptor030304 developmental biologyPlant DiseasesPlant Proteins0303 health sciencesBinding proteinAlgal ProteinsLysophosphatidylcholinesProteinsElicitinAntigens PlantLipidsImmunity InnateBiochemistryOomycetesProtein-lipid complexStress MechanicalSignal transductionCarrier ProteinsPlant lipid transfer proteins010606 plant biology & botanySignal TransductionTrends in plant science

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Prefoldins contribute to maintaining the levels of the spliceosome LSM2–8 complex through Hsp90 in Arabidopsis

2020

14 p.-7 fig.-2 tab.

0106 biological sciencesSpliceosomeAcademicSubjects/SCI00010RNA SplicingMutantArabidopsis01 natural sciencesChaperonin//purl.org/becyt/ford/1 [https]03 medical and health sciencesGene Expression Regulation PlantArabidopsisRNA and RNA-protein complexesGeneticsHSP90 Heat-Shock Proteins//purl.org/becyt/ford/1.6 [https]030304 developmental biologyprefoldins0303 health sciencesbiologyArabidopsis ProteinsRNA-Binding Proteinsbiology.organism_classificationHsp903. Good healthCell biologyProteostasisMultiprotein ComplexesMutationRNA splicingSpliceosomesbiology.proteinLSM2-8 complexspliceosomeSmall nuclear RNAMolecular ChaperonesProtein Binding010606 plant biology & botany

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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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In vivoanalysis of the lumenal binding protein (BiP) reveals multiple functions of its ATPase domain

2007

International audience; The endoplasmic reticulum (ER) chaperone binding protein (BiP) binds exposed hydrophobic regions of misfolded proteins. Cycles of ATP hydrolysis and nucleotide exchange on the ATPase domain were shown to regulate the function of the ligand-binding domain in vitro. Here we show that ATPase mutants of BiP with defective ATP-hydrolysis (T46G) or ATP-binding (G235D) caused permanent association with a model ligand, but also interfered with the production of secretory, but not cytosolic, proteins in vivo. Furthermore, the negative effect of BiP(T46G) on secretory protein synthesis was rescued by increased levels of wild-type BiP, whereas the G235D mutation was dominant. U…

0106 biological sciencesgenetic structuresRecombinant Fusion ProteinsATPaseBlotting WesternGreen Fluorescent ProteinsPlant ScienceBINDING PROTEINEndoplasmic ReticulumModels Biological01 natural sciencesChromatography Affinity[SDV.GEN.GPL]Life Sciences [q-bio]/Genetics/Plants genetics03 medical and health sciencesAdenosine TriphosphateTobaccoPROTEIN FOLDINGGeneticsImmunoprecipitationEndoplasmic Reticulum Chaperone BiPHSP70Heat-Shock Proteins030304 developmental biologyCHAPERONEAdenosine Triphosphatases0303 health sciencesbiologyHydrolysisProtoplastsEndoplasmic reticulumBinding proteinCell BiologyPlants Genetically ModifiedLigand (biochemistry)Secretory proteinBiochemistryChaperone (protein)MutationChaperone bindingbiology.proteinATPASEElectrophoresis Polyacrylamide GelProtein foldingMolecular ChaperonesProtein BindingSignal Transduction010606 plant biology & botanyThe Plant Journal

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Cellular Concentrations of the Transporters DctA and DcuB and the Sensor DcuS of Escherichia coli and the Contributions of Free and Complexed DcuS to…

2017

ABSTRACT In Escherichia coli , the catabolism of C 4 -dicarboxylates is regulated by the DcuS-DcuR two-component system. The functional state of the sensor kinase DcuS is controlled by C 4 -dicarboxylates (like fumarate) and complexation with the C 4 -dicarboxylate transporters DctA and DcuB, respectively. Free DcuS (DcuS F ) is known to be constantly active even in the absence of fumarate, whereas the DcuB-DcuS and DctA-DcuS complexes require fumarate for activation. To elucidate the impact of the transporters on the functional state of DcuS and the concentrations of DcuS F and DcuB-DcuS (or DctA-DcuS), the absolute levels of DcuS, DcuB, and DctA were determined in aerobically or anaerobic…

0301 basic medicine030106 microbiologyBiologymedicine.disease_causeMicrobiologyDNA-binding proteinMass Spectrometry03 medical and health sciencesFumaratesTranscriptional regulationmedicineEscherichia coliDicarboxylic AcidsAnaerobiosisPhosphorylationMolecular BiologyTranscription factorEscherichia coliDicarboxylic Acid TransportersCatabolismKinaseEscherichia coli ProteinsAutophosphorylationGene Expression Regulation BacterialAerobiosisDNA-Binding Proteins030104 developmental biologyBiochemistryPhosphorylationProtein KinasesSignal TransductionTranscription FactorsResearch ArticleJournal of bacteriology

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