Search results for "enzyme"

showing 10 items of 3924 documents

The Effect of Cadmium on Oxidative Stress in Beta vulgaris

2018

Abstract As a heavy metal, cadmium has strongly toxic effects on plants and can induce oxidative stress. It is absorbed by the roots and transported to the stems and leaves. The aim of the study was to evaluate the effect of various concentrations of cadmium on the metabolic activity of Beta vulgaris and assess the dependence of these processes on the content of metal in the plants. To demonstrate the effect of cadmium on metabolism, protein and photosynthetic pigment content, lipid peroxidation, and the activity of enzymes specific for oxidative stress in roots and shoots were measured. Seeds of B. vulgaris were treated with different concentrations of Cd supplied via a CdCl2 solution: 0 (…

0106 biological sciences0301 basic medicinemedicine.medical_specialtyEnvironmental Engineeringchemistry.chemical_elementmedicine.disease_cause01 natural sciencesLipid peroxidationSuperoxide dismutase03 medical and health scienceschemistry.chemical_compoundInternal medicinemedicineEnvironmental ChemistryBeta (finance)chemistry.chemical_classificationCadmiumReactive oxygen speciesbiologyChemistryMetabolismEnzyme assay030104 developmental biologyEndocrinologybiology.proteinOxidative stress010606 plant biology & botanyEcological Chemistry and Engineering S
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Arabidopsis RCD1 coordinates chloroplast and mitochondrial functions through interaction with ANAC transcription factors

2019

Reactive oxygen species (ROS)-dependent signaling pathways from chloroplasts and mitochondria merge at the nuclear protein RADICAL-INDUCED CELL DEATH1 (RCD1). RCD1 interacts in vivo and suppresses the activity of the transcription factors ANAC013 and ANAC017, which mediate a ROS-related retrograde signal originating from mitochondrial complex III. Inactivation of RCD1 leads to increased expression of mitochondrial dysfunction stimulon (MDS) genes regulated by ANAC013 and ANAC017. Accumulating MDS gene products, including alternative oxidases (AOXs), affect redox status of the chloroplasts, leading to changes in chloroplast ROS processing and increased protection of photosynthetic apparatus.…

0106 biological sciences0301 basic medicineretrograde signalingChloroplastsArabidopsisPlant BiologyMitochondrion01 natural sciencesElectron Transport Complex IIIGene Expression Regulation PlantArabidopsisOXIDATIVE STRESS-RESPONSETranscriptional regulationCYCLIC ELECTRON FLOWBiology (General)Nuclear proteinANAC transcription factors1183 Plant biology microbiology virologyreactive oxygen speciesbiologyChemistryRETROGRADE REGULATIONGeneral NeuroscienceQRNuclear Proteinsfood and beveragesGeneral MedicinePlants Genetically Modified:Science::Biological sciences [DRNTU]Cell biologyMitochondriaChloroplastviherhiukkasetMedicineSignal transductionmitochondrial functionsResearch ArticleSignal TransductionQH301-705.5SciencemitokondriotGenetics and Molecular BiologyGeneral Biochemistry Genetics and Molecular BiologyPROTEIN COMPLEXESSIGNALING PATHWAYS03 medical and health scienceschloroplastStress PhysiologicalALTERNATIVE OXIDASESkasvitENZYME-ACTIVITIESredox signalingTranscription factorarabidopsis RCD1General Immunology and MicrobiologybiokemiaArabidopsis Proteinsta1182Biology and Life Sciencesbiology.organism_classification030104 developmental biologyCELL-DEATHPLANT-MITOCHONDRIAA. thalianaGeneral BiochemistryRetrograde signalingGENES-ENCODING MITOCHONDRIALproteiinit010606 plant biology & botanyTranscription Factors
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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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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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Effect of hydrogen peroxide on the dehydrogenase and quinone-reductase activity of irradiated Lactobacillus plantarum cells

2020

Abstract The resistance of lactobacilli to oxidative stress is of great importance for their applicability as probiotics. This study aimed to evaluate the response of Lactobacillus plantarum strain ATCC® 14917™, grown in either de Man, Rogosa, and Sharpe agar (MRS medium) or tryptic soy broth (TSB medium), to 1–2 mM H2O2 after the exposure to different doses of ionising radiation. Two bacterial extracellular enzyme groups, dehydrogenases (DHAs) and quinone reductases (QRs), served as the criteria of viability and antioxidant activity, respectively. The irradiated L. plantarum culture grown in TSB showed increased QR activity at irradiation doses of 2–50 Gy, with the maximum activity at 10 G…

0106 biological sciencesAntioxidantfood.ingredientmedicine.medical_treatmentDehydrogenase01 natural sciencesTryptic soy brothchemistry.chemical_compound0404 agricultural biotechnologyfoodQuinone Reductases010608 biotechnologymedicineAgarFood scienceHydrogen peroxidechemistry.chemical_classificationbiologyfood and beverages04 agricultural and veterinary sciencesbiology.organism_classification040401 food scienceEnzymechemistryLactobacillus plantarumFood ScienceLWT
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Carbamazepine, cadmium chloride and polybrominated diphenyl ether-47, synergistically modulate the expression of antioxidants and cell cycle biomarke…

2019

Abstract A wide range of contaminants, industrial by-products, plastics, and pharmaceutics belonging to various categories, have been found in sea water. Although these compounds are detected at concentrations that might be considered as sub-lethal, under certain conditions they could act synergistically producing unexpected effects in term of toxicity or perturbation of biochemical markers leading to standard pathway. In this study, the Sparus aurata fibroblast cell line SAF-1, was exposed to increasing concentrations of carbamazepine (CBZ), polybrominated diphenyl ether 47 (BDE-47) and cadmium chloride (CdCl2) until 72 h, to evaluate the cytotoxicity and the expression of genes related to…

0106 biological sciencesAntioxidantmedicine.medical_treatmentAquatic ScienceCadmium chlorideOceanographymedicine.disease_cause010603 evolutionary biology01 natural sciencesCell LinePolybrominated diphenyl-etherchemistry.chemical_compoundCadmium ChlorideSettore AGR/20 - ZoocoltureSettore BIO/10 - BiochimicaHalogenated Diphenyl EthersmedicineAnimalsoxidative stressSparus aurata fibroblastSettore BIO/06 - Anatomia Comparata E CitologiaCytotoxicity010604 marine biology & hydrobiologyCell CycleDiphenyl etherbiomarkersBiomarkerGeneral MedicineCell cycleCadmium chloridePollutionEnzyme ActivationOxidative StressCarbamazepineGene Expression RegulationchemistryBiochemistry:5 - Ciencias puras y naturales::57 - Biología::576 - Biología celular y subcelular. Citología [CDU]Cell culturecarbamazepineToxicityOxidative streEnergy MetabolismOxidoreductasespolybrominated diphenyl-etherBiomarkersWater Pollutants ChemicalOxidative stressMarine Environmental Research
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Optimization of the Hydrolysis of Safflower Oil for the Production of Linoleic Acid, Used as Flavor Precursor

2015

Commercial lipases, from porcine pancreas (PPL),Candida rugosa(CRL), andThermomyces lanuginosus(Lipozyme TL IM), were investigated in terms of their efficiency for the hydrolysis of safflower oil (SO) for the liberation of free linoleic acid (LA), used as a flavor precursor. Although PPL, under the optimized conditions, showed a high degree of hydrolysis (91.6%), its low tolerance towards higher substrate concentrations could limit its use for SO hydrolysis. In comparison to the other investigated lipases, Lipozyme TL IM required higher amount of enzyme and an additional 3 h of reaction time to achieve its maximum degree of SO hydrolysis (90.2%). On the basis of the experimental findings, C…

0106 biological sciencesArticle SubjectLinoleic acidlcsh:TX341-64101 natural sciencesHydrolysischemistry.chemical_compound010608 biotechnology[SDV.IDA]Life Sciences [q-bio]/Food engineeringFlavorchemistry.chemical_classificationChromatographylcsh:TP368-456010405 organic chemistryChemistrySubstrate (chemistry)0104 chemical sciencesCandida rugosalcsh:Food processing and manufactureEnzymeBiochemistryBiocatalysisLiberationlcsh:Nutrition. Foods and food supply[SDV.AEN]Life Sciences [q-bio]/Food and NutritionResearch ArticleFood ScienceInternational Journal of Food Science
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Changes in carbohydrate metabolism in Plasmopara viticola-infected grapevine leaves.

2011

International audience; The oomycete Plasmopara viticola is responsible for downy mildew, a severe grapevine disease. In infected grapevine leaves, we have observed an abnormal starch accumulation at the end of the dark period, suggesting modifications in starch metabolism. Therefore, several complementary approaches, including transcriptomic analyses, measurements of enzyme activities, and sugar quantification, were performed in order to investigate and to understand the effects of P. viticola infection on leaf starch and-to a larger extent-carbohydrate metabolism. Our results indicate that starch accumulation is associated with an increase in ADP-glucose pyrophosphorylase (AGPase) activit…

0106 biological sciencesChlorophyllPhysiologyStarchenzymatic activityhexosesbeta-AmylaseplantGlucose-1-Phosphate Adenylyltransferasetranscriptomic analyse01 natural sciencesinvertasechemistry.chemical_compoundphytopathogenGene Expression Regulation PlantVitisTrehalaseOligonucleotide Array Sequence Analysis0303 health sciencesbiologyfood and beveragesStarchGeneral MedicineEnzymesBiochemistryOomycetesRNA PlantPlasmopara viticolaCarbohydrate metabolism03 medical and health sciencesPlasmopara viticolaADP-glucose pyrophosphorylasePolysaccharidesVignecarbohydrate metabolism[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular Biology[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular Biologytrehalose030304 developmental biologyPlant Diseasesphotosynthesisbiology.organism_classificationtrehalaseTrehaloseEnzyme assayPlant LeavesInvertasechemistryVitis viniferabiology.proteinDowny mildewfungialpha-AmylasesphysiopathologyAgronomy and Crop Science010606 plant biology & botany
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Arginase induction represses gall development during clubroot infection in Arabidopsis.

2012

Arginase induction can play a defensive role through the reduction of arginine availability for phytophageous insects. Arginase activity is also induced during gall growth caused by Plasmodiophora brassicae infection in roots of Arabidopsis thaliana; however, its possible role in this context has been unclear. We report here that the mutation of the arginase-encoding gene ARGAH2 abrogates clubroot-induced arginase activity and results in enhanced gall size in infected roots, suggesting that arginase plays a defensive role. Induction of arginase activity in infected roots was impaired in the jar1 mutant, highlighting a link between the arginase response to clubroot and jasmonate signaling. C…

0106 biological sciencesClubrootArabidopsis thalianaPhysiologyPyridinesArabidopsisplantPlant SciencePlasmodiophorida01 natural sciencesPlant RootsCallogenesisPlant Epidermischemistry.chemical_compoundJasmonateArabidopsisPlant TumorsGallArabidopsis thalianaJasmonateAmino AcidsComputingMilieux_MISCELLANEOUSchemistry.chemical_classification0303 health sciencesJasmonic acidfood and beveragesGeneral MedicineCell biologyArginasePLANT SCIENCESOrgan SpecificityPlasmodiophora brassicaeEnzyme Inductionnitric-oxideCyclopentanesBiologyHydroxylationAmidohydrolasesClubroot03 medical and health sciencesAuxinBotanymedicinethalianaOxylipinsIsoleucine030304 developmental biologydiseaseArginaseArabidopsis Proteinsfungijasmonic acid[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologyplasmodiophora-brassicaeCell BiologyDiazonium Compoundsbiology.organism_classificationmedicine.diseaserootarginine catabolism[SDV.BV.AP]Life Sciences [q-bio]/Vegetal Biology/Plant breedingchemistryMutationidentificationaccumulation010606 plant biology & botanyPlantcell physiology
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Effect of the cytochrome P-450 inactivator 1-aminobenzotriazole on the metabolism of chlortoluron and isoproturon in wheat

1987

Abstract Roots of young wheat plants ( Triticum aestivum cv Clement) were treated with [ 14 C]chlortoluron or [ 14 C]isoproturon alone or mixed with 1-aminobenzotriazole (ABT), a mechanism-based inactivator of cytochrome P -450 monooxygenases. Radioactivity extracted from shoots slightly decreased during periods of metabolism, this decrease being reduced by ABT in the case of isoproturon. ABT strongly inhibited the metabolism of both herbicides. Accumulation of metabolites was generally depressed in the presence of ABT; however, levels of the free N -monodemethylated derivatives were little or not affected. It is concluded that ABT is a synergist of chlortoluron and isoproturon in wheat bec…

0106 biological sciencesCytochromeStereochemistry[SDV]Life Sciences [q-bio]Health Toxicology and Mutagenesis01 natural sciencesHydroxylationchemistry.chemical_compoundComputingMilieux_MISCELLANEOUSDemethylationchemistry.chemical_classificationbiologyChemistryfood and beveragesCytochrome P45004 agricultural and veterinary sciencesGeneral MedicineMetabolismMonooxygenase[SDV] Life Sciences [q-bio]EnzymeBiochemistryChlortoluron040103 agronomy & agriculturebiology.protein0401 agriculture forestry and fisheriesAgronomy and Crop Science010606 plant biology & botany
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