Search results for " oxide"

showing 10 items of 2491 documents

Nitric oxide: a multitask player in plant–microorganism symbioses

2016

Symbiosis is a close and often long-term interaction between two different biological organisms, i.e. plants or fungi and microorganisms. Two main types of plant–microorganism interactions, mutualistic and cooperative, have been categorized. Mutualistic interactions, including nitrogen-fixing and mycorrhizal symbioses, refer to mostly obligate relationships between a host plant and a symbiont microorganism. Cooperative interactions correspond to less obligate and specific relationships. They involve microorganisms, referred to as plant growth-promoting rhizobia (PGPR), able to colonize root surface or inner tissues. Lichens are symbiotic associations of host fungi and photosynthetic partner…

0106 biological sciences0301 basic medicineMicroorganism[SDV]Life Sciences [q-bio]LichenBiology01 natural sciencesRhizobia03 medical and health sciencesinteraction microorganisme végétalSymbiosisNitrogen fixationnitric oxideBotanyPlant symbiosisMycorrhizamicrobiologieLichenoxyde nitriqueObligateEcologyHost (biology)fungifood and beveragesbiology.organism_classificationsymbiosisLegume030104 developmental biologyNitrogen fixationPlant growth-promoting rhizobia (PGPR)MycorrhizasymbioseLegume Lichen Mycorrhiza Nitric oxide Nitrogen fixation Plant growth-promoting rhizobia (PGPR) Plant symbiosis Rhizobium010606 plant biology & botanyRhizobium
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Inhibition of NO Biosynthetic Activities during Rehydration of Ramalina farinacea Lichen Thalli Provokes Increases in Lipid Peroxidation

2019

Lichens are poikilohydrous symbiotic associations between a fungus, photosynthetic partners, and bacteria. They are tolerant to repeated desiccation/rehydration cycles and adapted to anhydrobiosis. Nitric oxide (NO) is a keystone for stress tolerance of lichens

0106 biological sciences0301 basic medicineTrebouxiaDiaphorase activityLichensHyphanitrate reductaseLipid peroxidationBOTANICAPlant ScienceNitrate reductase01 natural sciencesArticleRamalina farinaceaLipid peroxidation03 medical and health scienceschemistry.chemical_compoundstomatognathic systemnitric oxideMicroalgaeLichenskin and connective tissue diseaseslichensEcology Evolution Behavior and Systematics<i>Trebouxia</i>Ecologybiologyintegumentary systemnitric oxide synthaseNitric oxide synthasemicroalgaeBotanyNitric oxidelipid peroxidationbiology.organism_classificationThallusNitric oxide synthasestomatognathic diseases030104 developmental biologyBiochemistrychemistryQK1-989biology.proteinTrebouxiadiaphorase activityNitrate reductase010606 plant biology & botanyPlants
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Electrochemical detection of nitric oxide in plant cell suspensions

2016

SPE IPM UB; Nitric oxide is a hydrophobic radical acting as a physiological mediator in plants. Because of its unique properties, the detection of NO in plant tissues and cell suspensions remains a challenge. For this purpose, several techniques are used, each having certain advantages and limitations such as interferences with other species, questionable sensitivity, and/or selectivity or ex situ measurement. Here we describe a very attractive approach for tracking NO in plant cell suspensions using a NO-sensitive homemade platinum/iridium-based electrochemical microsensor. This method constitutes the absolute real-time proof of the production of free NO in physiological conditions.

0106 biological sciences0301 basic medicinehome-made electrodeChemistry[SDV]Life Sciences [q-bio]fungichemistry.chemical_elementElectrochemical detectionPlant cellElectrochemistry01 natural sciencesNitric oxide03 medical and health scienceschemistry.chemical_compound030104 developmental biologyChemical engineeringnitric oxideplant cell suspensionselectrochemical detection[SDE]Environmental Sciences[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyIridiumPlatinumSelectivity010606 plant biology & botany
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Characterization of the Heme Pocket Structure and ligand binding kinetics of non-symbiotic hemoglobins from the model legume Lotus japonicus

2017

14 Pags.- 6 Figs. This article is part of the Research Topic: Advances in legume research ( http://journal.frontiersin.org/researchtopic/4288/advances-in-legume-research ). Copyright of the Authors through a Creative Commons Attribution License. This Document is Protected by copyright and was first published by Frontiers. All rights reserved. it is reproduced with permission.

0106 biological sciences0301 basic medicineligand bindingLotus japonicusMutantPlant Science01 natural sciencesheme cavity03 medical and health scienceschemistry.chemical_compoundnon-symbiotic hemoglobinsBiologyHemebiologyChemistryNitrosylationHexacoordinateNitric oxide dioxygenaseLigand (biochemistry)biology.organism_classificationAffinitiesChemistry030104 developmental biologyBiochemistryLotus japonicusnitric oxide dioxygenase010606 plant biology & botany
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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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Towards food, feed and energy crops mitigating climate change

2011

Agriculture is an important source of anthropogenic emissions of the greenhouse gases (GHG), methane (CH 4 ) and nitrous oxide (N 2 O), and crops can affect the microbial processes controlling these emissions in many ways. Here, we summarize the current knowledge of plant–microbe interactions in relation to the CH 4 and N 2 O budgets and show how this is promoting new generations of crop cultivars that have the potential to mitigate GHG emissions for future agricultural use. The possibility of breeding low GHG-emitting cultivars is a paradigm shift towards sustainable agriculture that balances climate change and food and bioenergy security.

0106 biological sciencesCrops AgriculturalConservation of Natural ResourcesClimate ChangePlant ExudatesNitrous OxideClimate changePlant ScienceBiology7. Clean energy01 natural scienceskyoto protocolnitrogenCarbon CycleSoilBioenergyemission in agricultureSustainable agriculture[SDV.BV]Life Sciences [q-bio]/Vegetal BiologySoil Microbiology2. Zero hungerFood securityBacteriabusiness.industryAgroforestrymicrobial processmethanen2o04 agricultural and veterinary sciences15. Life on landNitrogen Cycleghg emissionEnergy crop13. Climate actionAgriculturegreenhouse gasGreenhouse gasWetlandsSustainabilityRhizosphere040103 agronomy & agriculture0401 agriculture forestry and fisheriesbusiness010606 plant biology & botany
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Looking for Hidden Enemies of Metabarcoding: Species Composition, Habitat and Management Can Strongly Influence DNA Extraction while Examining Grassl…

2021

Despite the raising preoccupation, the critical question of how the plant community is composed belowground still remains unresolved, particularly for the conservation priority types of vegetation. The usefulness of metabarcoding analysis of the belowground parts of the plant community is subjected to a considerable bias, that often impedes detection of all species in a sample due to insufficient DNA quality or quantity. In the presented study we have attempted to find environmental factors that determine the amount and quality of DNA extracted from total plant tissue from above- and belowground samples (1,000 and 10,000 cm2). We analyzed the influence of land use intensity, soil properties…

0106 biological sciencesDNA qualitylcsh:QR1-502Plant Roots01 natural sciencesBiochemistrylcsh:MicrobiologyGrasslandgraminoid vegetationSoilCalamagrostis epigejosзлаковая растительностьSoil pHVegetation typeBiomassDNA extractionHolcus lanatusgeography.geographical_feature_categoryEcologybiologyвидовой составBiodiversityVegetationHydrogen-Ion ConcentrationPlantsGrasslandпастбищные сообществаЦентральная Европаbelowground diversityRegression AnalysisSeasonsДНКMagnesium OxideRiskrootsDNA PlantNitrogenPoaceae010603 evolutionary biologyкорнеплодыArticleCoronillaDNA Barcoding TaxonomicMolecular BiologyEcosystemgeographyсреда обитанияCentral EuropePlant communityDNAbiology.organism_classificationAgronomyметабаркодированиеPoland010606 plant biology & botanyBiomolecules
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Involvement of putative glutamate receptors in plant defence signaling and NO production

2011

International audience; Ionotropic glutamate receptors (iGluRs) are non-selective cation channels permeable to calcium, present in animals and plants. In mammals, glutamate is a well-known neurotransmitter and recently has been recognized as an immunomodulator. As animals and plants share common mechanisms that govern innate immunity with calcium playing a key role in plant defence activation, we have checked the involvement of putative iGluRs in plant defence signaling. Using tobacco cells, we first provide evidence supporting the activity of iGluRs as calcium channels and their involvement in NO production as reported in animals. Thereafter, iGluRs were shown to be activated in response t…

0106 biological sciencesHypersensitive responsebiochemistry and molecular biologyplant defenceglutamate receptorCell Culture TechniquesGlutamic AcidBiologycalcium signaling01 natural sciencesBiochemistrytobaccoFungal Proteins03 medical and health sciencesnitric oxideelicitorsExcitatory Amino Acid Agonists[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular Biologyrésistance végétalePlant Proteins030304 developmental biologyCalcium signaling0303 health sciencesVoltage-dependent calcium channelAlgal ProteinsGlutamate receptorGeneral MedicineGlutamic acidImmunity InnateElicitortabacReceptors GlutamateBiochemistryMetabotropic glutamate receptorNMDA receptorCalciumExcitatory Amino Acid Antagonists010606 plant biology & botany
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Immune activation increases susceptibility to oxidative tissue damage in Zebra Finches.

2006

Summary 1The innate immune response involves the production of highly reactive molecules (reactive oxygen and nitrogen species, ROS and RNS). These toxic compounds can effectively destroy invading pathogens but can also, non-specifically, target host cells. Tissue damage caused by ROS and RNS can be substantial if the inflammatory response is overactive, potentially inducing a so-called immunopathology. 2In this study, we induced an inflammatory response in Zebra Finches by the way of a LPS injection (lipopolysaccharide of the cell wall of Escherichia coli), using as a control a group of birds injected with saline (phosphate-buffered saline). Body mass was measured both before and 24 h afte…

0106 biological sciencesLipopolysaccharidefree radicals[ SDV.BBM.BM ] Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologyBiologymedicine.disease_cause010603 evolutionary biology01 natural sciencesimmune activation03 medical and health scienceschemistry.chemical_compoundImmune systemnitric oxideImmunopathologymedicine[ SDV.IMM ] Life Sciences [q-bio]/ImmunologyimmunopathologyZebra finchEcology Evolution Behavior and SystematicsReactive nitrogen speciesComputingMilieux_MISCELLANEOUS030304 developmental biologyZebra Finchchemistry.chemical_classification0303 health sciencesReactive oxygen speciesInnate immune systemlipopolysaccharide[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biology3. Good healthchemistryImmunology[SDV.IMM]Life Sciences [q-bio]/ImmunologyOxidative stress
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Nitric Oxide in Plants: Production and Cross-talk with Ca2+ Signaling

2008

International audience; Nitric oxide (NO) is a diatomic gas that performs crucial functions in a wide array of physiological processes in animals. The past several years have revealed much about its roles in plants. It is well established that NO is synthesized from nitrite by nitrate reductase (NR) and via chemical pathways. There is increasing evidence for the occurrence of an alternative pathway in which NO production is catalysed from L-arginine by a so far non-identified enzyme. Contradictory results have been reported regarding the respective involvement of these enzymes in specific physiological conditions. Although much remains to be proved, we assume that these inconsistencies can …

0106 biological sciencesMAPK/ERK pathwayArabidopsisPlant ScienceCalcium-Transporting ATPasesBiologyNitrate reductaseArginine01 natural sciencesPlant Physiological PhenomenaNitrate ReductaseNitric oxide03 medical and health scienceschemistry.chemical_compoundNitrateProtein kinasesNitrilesAnimals[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyNitriteMolecular BiologyNitritesPlant Physiological Phenomena030304 developmental biologyMammals0303 health sciencesKinasefungiNitric oxidechemistryBiochemistrySecond messenger systemCitrullineCalciumCryptogeinNitric Oxide SynthaseGenome Plant010606 plant biology & botanySignal Transduction
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