Search results for "plant cell"

showing 10 items of 67 documents

Competitive interactions are mediated in a sex-specific manner by arbuscular mycorrhiza inAntennaria dioica

2017

Plants usually interact with other plants, and the outcome of such interaction ranges from facilitation to competition depending on the identity of the plants, including their sexual expression. Arbuscular mycorrhizal (AM) fungi have been shown to modify competitive interactions in plants. However, few studies have evaluated how AM fungi influence plant intraspecific and interspecific interactions in dioecious species. The competitive abilities of female and male plants of Antennaria dioica were examined in a greenhouse experiment. Females and males were grown in the following competitive settings: (i) without competition, (ii) with intrasexual competition, (iii) with intersexual competitio…

C240 Plant Cell Science0106 biological sciencesHieracium pilosellaplant-plant interactionsmedia_common.quotation_subjectDioecyHyphaeAntennaria dioicaPlant ScienceAsteraceaePlant Roots010603 evolutionary biology01 natural sciencesCompetition (biology)Intraspecific competitionGlomeromycotaMycorrhizaeBotanyBiomassGlomeromycotaSymbiosisEcology Evolution Behavior and Systematicsmedia_commonbiologyReproductionta1183fungifood and beveragesGeneral MedicineInterspecific competitionbiology.organism_classificationdioecyPlant ecologyArbuscular mycorrhizasexual dimorphismta1181C250 Plant Pathologycompetition010606 plant biology & botanyPlant Biology
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Sexes in gynodioeciousGeranium sylvaticumdo not differ in their isotopic signature or photosynthetic capacity

2017

• In gynodioecious plants, females are expected to produce more or better seeds than hermaphrodites in order to be maintained within the same population. Even though rarely measured, higher seed production can be achieved through differences in physiology. • In this work, we measured sexual dimorphism in several physiological traits in the gynodioecious plant Geranium sylvaticum. Photosynthetic rate, stomatal conductivity, transpiration rate, water use efficiency and isotopic signatures were measured in plants growing in two habitats differing in light availability. • Females have been reported to produce more seeds than hermaphrodites. However, we did not observe any significant difference…

C240 Plant Cell Science0106 biological sciencesLightGeraniumPopulationFlowersmetsäkurjenpolviPlant ScienceGynodioecy010603 evolutionary biology01 natural sciencesGeranium sylvaticumBotanyC750 Plant Biochemistrygynodioecyisotopic signaturesWater-use efficiencyeducationEcology Evolution Behavior and SystematicsTranspirationSex Characteristicseducation.field_of_studyphotosynthesisbiologyδ13CReproductionfood and beveragesPlant TranspirationGeneral Medicinebiology.organism_classificationPhotosynthetic capacitySexual dimorphismsexual dimorphismSeedsGeranium sylvaticumshadeta1181010606 plant biology & botanyPlant Biology
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Calcium signatures and signaling in cytosol and organelles of tobacco cells induced by plant defense elicitors

2011

Calcium signatures induced by two elicitors of plant defense reactions, namely cryptogein and oligogalacturonides, were monitored at the subcellular level, using apoaequorin-transformed Nicotiana tabacum var Xanthi cells, in which the apoaequorin calcium sensor was targeted either to cytosol, mitochondria or chloroplasts. Our study showed that both elicitors induced specific Ca2+ signatures in each compartment, with the most striking difference relying on duration. Common properties also emerged from the analysis of Ca2+ signatures: both elicitors induced a biphasic cytosolic [Ca2+] elevation together with a single mitochondrial [Ca2+] elevation concomitant with the first cytosolic [Ca2+] p…

ChlorophyllChloroplastsTime FactorsPhysiology[SDV]Life Sciences [q-bio]Nicotiana tabacumAequorinMitochondrionMITOCHONDRIALAntiportersCA2+CytosolPlant defenseINTACT CHLOROPLASTSCation Transport ProteinsCalcium signalingRECOMBINANT AEQUORINDEATHfood and beveragesARABIDOPSISOligogalacturonidesMitochondriaChloroplastBiochemistry[SDE]Environmental SciencesCryptogeinPhytophthorachemistry.chemical_elementCalciumBiologyChloroplastFluorescenceFungal ProteinsPHOTOSYSTEM-IIPlant CellsTobaccoOrganelle[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyCalcium SignalingMolecular BiologyHYPERSENSITIVE RESPONSENITRIC-OXIDECell MembraneCell Biologybiology.organism_classificationSALICYLIC-ACIDOxygenCytosolchemistryBiophysicsbiology.proteinCalciumCell Calcium
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Response to long-term NaHCO3-derived alkalinity in model Lotus japonicus Ecotypes Gifu B-129 and Miyakojima MG-20: transcriptomic profiling and physi…

2014

The current knowledge regarding transcriptomic changes induced by alkalinity on plants is scarce and limited to studieswhere plants were subjected to the alkaline salt for periods not longer than 48 h, so there is no information availableregarding the regulation of genes involved in the generation of a new homeostatic cellular condition after long-termalkaline stress.Lotus japonicusis a model legume broadly used to study many important physiological processes includingbiotic interactions and biotic and abiotic stresses. In the present study, we characterized phenotipically the response toalkaline stress of the most widely usedL. japonicusecotypes, Gifu B-129 and MG-20, and analyzed global t…

ChlorophyllOtras Biotecnología AgropecuariaPhysiologyApplied MicrobiologyPlant SciencePathogenesisPathology and Laboratory MedicinePlant RootsBiochemistryTranscriptomeZINCchemistry.chemical_compoundPlant MicrobiologyGene Expression Regulation PlantABIOTIC STRESSMETAL TRANSPORTERSMedicine and Health SciencesOligonucleotide Array Sequence AnalysisLOTUS JAPONICUSPlant Growth and DevelopmentMultidisciplinarybiologyEcotypePlant BiochemistryIRONQRMicrobial Growth and Development//purl.org/becyt/ford/4.4 [https]food and beveragesPlantsZincPlant PhysiologyShootHost-Pathogen InteractionsMedicineAntacidsAnatomymicroarrayPlant ShootsResearch ArticleBiotechnologyHistologyScienceIronPlant Cell BiologyLotus japonicusBiotecnología AgropecuariaalkalinityMycologyReal-Time Polymerase Chain ReactionResearch and Analysis MethodsMicrobiologyModel OrganismsIsoflavonoidSpecies SpecificityPlant and Algal ModelsBotanyAbiotic stressGene Expression ProfilingfungiOrganismsFungiBiology and Life SciencesPlant TranspirationCell Biologybiology.organism_classificationMICROARRAYSGene expression profilingSodium BicarbonatechemistryCIENCIAS AGRÍCOLASChlorophyllLotusPhysiological Processes//purl.org/becyt/ford/4 [https]Developmental BiologyPloS one
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Modulation of the growth and metabolic response of cyanobacteria by the multifaceted activity of naringenin

2017

The interactions between the plant-derived bioflavonoid, naringenin, and prokaryotic microalgae representatives (cyanobacteria), were investigated with respect to its influence on the growth and metabolic response of these microorganisms. To achieve reliable results, the growth of cyanobacteria was determined based on measurements of chlorophyll content, morphological changes were assessed through microscopic observations, and the chemical response of cells was determined using liquid and gas chromatography (HPLC; GC-FID). The results show that micromolar levels of naringenin stimulated the growth of cyanobacteria. Increased growth was observed for halophilic strains at naringenin concentra…

ChlorophyllPigments0301 basic medicineCyanobacteriaNaringeninExopolysaccharidesChloroplastsMicroorganismCellGlycobiologyMarine and Aquatic Scienceslcsh:MedicineFresh WaterPlant ScienceBiochemistrychemistry.chemical_compoundElectron MicroscopyNostoclcsh:ScienceLiquid ChromatographyMicroscopyMultidisciplinarybiologyChemistryChromatographic Techniquesfood and beveragesHalophilemedicine.anatomical_structureBiochemistryFlavanonesPhysical SciencesScanning Electron MicroscopyCellular Structures and OrganellesCellular TypesResearch ArticleFreshwater EnvironmentsChromatography GasPlant Cell BiologyMaterials Science030106 microbiologyCyanobacteriaResearch and Analysis MethodsCell wallExcretion03 medical and health sciencesPolysaccharidesPlant CellsmedicineMaterials by AttributeBacteriaOrganic PigmentsEcology and Environmental Scienceslcsh:ROrganismsBiology and Life SciencesAquatic EnvironmentsCell Biologybiology.organism_classificationAnabaenaHigh Performance Liquid Chromatography030104 developmental biologyEarth Scienceslcsh:QBacteriaChromatography LiquidNostoc muscorumPLOS ONE
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Permanent plastid — nuclear complexes (PNCs) in plant cells

2008

Conventional opinion assumes random distribution of plastids in the plant cell and light regulated movement realised with a help of stromules and actin microfilaments. In several organisms from protists to plants the joining of chloroplasts to the nucleus has been mentioned as a phenomenon [1–3]. However, little is known what plants and tissues and how frequently contain these structures? Whether appearance of PNC in cell depends on the state of differentiation? What is physiologic role of the PNC.

Chloroplastmedicine.anatomical_structurefungimedicinefood and beveragesActin microfilamentsBiologyPlastidPlant cellNucleusCell biology
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Sorting signals in the cytosolic tail of plant p24 proteins involved in the interaction with the COPII coat.

2004

The ability of the cytosolic tail of a plant p24 protein to bind COPI and COPII subunits from plant and animal sources in vitro has been examined. We have found that a dihydrophobic motif in the -7,-8 position (relative to the cytosolic carboxy-terminus), which strongly cooperates with a dilysine motif in the -3,-4 position for COPI binding, is required for COPII binding. In addition, we show that COPI and COPII coat proteins from plant cytosol compete for binding to the sorting motifs in these tails. Only in the absence of the dilysine motif in the -3,-4 position or after COPI depletion could we observe COPII binding to the p24 tail. This competition is not observed when using rat liver cy…

CoatPhysiologyAmino Acid MotifsArabidopsisReceptors Cytoplasmic and NuclearPlant ScienceBiologyCoat Protein Complex ICytosolAnimalsCOPIIBinding SitesVesicular-tubular clusterArabidopsis ProteinsCell BiologyGeneral MedicineCOPIPlant cellIn vitroPeptide FragmentsCell biologyRatsCytosolProtein TransportRat liverCOP-Coated VesiclesProtein BindingSignal TransductionPlantcell physiology
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Plant Cell Vacuoles: An Introduction

2001

GeneticsPhysiologyPlant ScienceGeneral MedicineVacuoleBiologyPlant cellAgronomy and Crop ScienceCell biologyPlant Science
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Active Site Mapping of Xylan-Deconstructing Enzymes with Arabinoxylan Oligosaccharides Produced by Automated Glycan Assembly

2017

Xylan-degrading enzymes are crucial for the deconstruction of hemicellulosic biomass, making the hydrolysis products available for various industrial applications such as the production of biofuel. To determine the substrate specificities of these enzymes, we prepared a collection of complex xylan oligosaccharides by automated glycan assembly. Seven differentially protected building blocks provided the basis for the modular assembly of 2-substituted, 3-substituted, and 2-/3-substituted arabino- and glucuronoxylan oligosaccharides. Elongation of the xylan backbone relied on iterative additions of C4-fluorenylmethoxylcarbonyl (Fmoc) protected xylose building blocks to a linker-functionalized …

GlycanGlycoside HydrolasesStereochemistryOligosaccharidesSOLID-PHASE SYNTHESISXylose010402 general chemistryARABINOXYLANPLANT CELL WALL01 natural sciencesCatalysisSubstrate Specificity//purl.org/becyt/ford/1 [https]chemistry.chemical_compoundHydrolysisCellvibrioGlucuronoxylanCatalytic DomainArabinoxylan//purl.org/becyt/ford/1.4 [https]Organic chemistryBacteroidesGlycoside hydrolaseSolid-Phase Synthesis Techniqueschemistry.chemical_classificationbiology010405 organic chemistryHydrolysisCARBOHYDRATESOtras Ciencias QuímicasOrganic ChemistryCiencias QuímicasActive siteGeneral ChemistryXylan0104 chemical sciencescarbohydrates (lipids)Xylosidaseschemistrybiology.proteinXylansENZYMESCIENCIAS NATURALES Y EXACTAS
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Retention mechanisms for ER and Golgi membrane proteins

2014

Unless there are mechanisms to selectively retain membrane proteins in the endoplasmic reticulum (ER) or in the Golgi apparatus, they automatically proceed downstream to the plasma or vacuole membranes. Two types of coat protein complex I (COPI)-interacting motifs in the cytosolic tails of membrane proteins seem to facilitate membrane retention in the early secretory pathway of plants: a dilysine (KKXX) motif (which is typical of p24 proteins) for the ER and a KXE/D motif (which occurs in the Arabidopsis endomembrane protein EMP12) for the Golgi apparatus. The KXE/D motif is highly conserved in all eukaryotic EMPs and is additionally present in hundreds of other proteins of unknown subcellu…

Golgi membraneSecretory PathwayKKXXMolecular Sequence DataGolgi ApparatusMembrane ProteinsGolgi TargetingPlant ScienceCOPIGolgi apparatusBiologyEndoplasmic ReticulumCoat Protein Complex ICell biologysymbols.namesakeMembrane proteinPlant CellssymbolsAmino Acid SequenceIntegral membrane proteinSecretory pathwayTrends in Plant Science
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