Search results for "Aminobutyrate"

showing 5 items of 25 documents

β-Aminobutyric Acid (BABA)-Induced Resistance in Arabidopsis thaliana: Link with Iron Homeostasis

2014

International audience; Bêta-Aminobutyric acid (BABA) is a nonprotein amino acid inducing resistance in many different plant species against a wide range of abiotic and biotic stresses. Nevertheless, how BABA primes plant natural defense reactions remains poorly understood. Based on its structure, we hypothesized and confirmed that BABA is able to chelate iron (Fe) in vitro. In vivo, we showed that it led to a transient Fe deficiency response in Arabidopsis thaliana plants exemplified by a reduction of ferritin accumulation and disturbances in the expression of genes related to Fe homeostasis. This response was not correlated to changes in Fe concentrations, suggesting that BABA affects the…

Physiology[SDV]Life Sciences [q-bio]IronMetaboliteArabidopsisPlant ImmunityBiologyIron Chelating AgentsAminobutyric acidERWINIA-CHRYSANTHEMI INFECTIONchemistry.chemical_compoundMetabolomicsGene Expression Regulation Plant[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyHomeostasisMetabolomicsFERRITIN SYNTHESISBOTRYTIS-CINEREATOMATO PLANTSGeneDisease ResistancePlant DiseasesBotrytis cinereachemistry.chemical_classificationAminobutyratesfungifood and beveragesGeneral Medicinebiology.organism_classificationPLANT IMMUNITYDL-3-AMINOBUTYRIC ACIDAmino acidPlant LeavesFerritinPhenotypeBiochemistrychemistryCHELATE REDUCTASESeedlingsDEFENSE RESPONSES[SDE]Environmental Sciencesbiology.proteinPHYTOPHTHORA-INFESTANSBotrytisREFERENCE GENESAgronomy and Crop ScienceMolecular Plant-Microbe Interactions®
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Analysis of reproductive toxicity and classification of glufosinate-ammonium.

2005

CONCLUSION REGARDING CLASSIFICATION OF GLUFOSINATE-AMMONIUM: Science Partners' Evaluation Group (Evaluation Group) has conducted an independent analysis of the herbicide glufosinate-ammonium (GA) relative to its potential to cause reproductive toxicity in humans. Further, the Evaluation Group has evaluated the implementation of Annex 6 of Commission Directive 2001/59/EC (28th ATP of Council Directive 67/548/EEC) and Council Directive 91/414/EEC, with respect to classification of chemicals posing potential reproductive hazards. After consideration of all information available to us relevant to the potential of glufosinate-ammonium (GA) to cause reproductive toxicity, the Science Partners Eva…

PregnancyNo-Observed-Adverse-Effect LevelNo-observed-adverse-effect levelOffspringHerbicidesAminobutyratesReproductionPhysiologyGeneral MedicineEnvironmental ExposureBiologyToxicologymedicine.diseaseEmbryo MammalianToxicologyGlutamineAnimal dataPregnancyGlutamine synthetasemedicineConceptusAnimalsHumansFemaleReproductive toxicityRegulatory toxicology and pharmacology : RTP
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NEUROPHYSIOLOGICAL AND NEUROCHEMICAL STUDIES WITH THE ISONICOTINOYLHYDRAZONE OF PYRIDOXAL 5-PHOSPHATE.

1964

Pyridoxal 5-PhosphateBrain chemistryCarboxy-LyasesBiochemistryCellular and Molecular Neurosciencechemistry.chemical_compoundNeurochemicalMesencephalonSeizuresCerebellumPonsIsoniazidPyridoxal phosphateTransaminasesBrain ChemistryPharmacologyMedulla OblongataGallamine TriethiodideChemistryAminobutyratesResearchBrainFrontal LobeElectrophysiologyBiochemistryPyridoxal PhosphateCatsJournal of neurochemistry
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Molecular aggregation in selected crystalline 1:1 complexes of hydrophobicD- andL-amino acids. IV. TheL-phenylalanine series

2009

The amino acid L-phenylalanine has been cocrystallized with D-2-aminobutyric acid, C(9)H(11)NO(2).C(4)H(9)NO(2), D-norvaline, C(9)H(11)NO(2).C(5)H(11)NO(2), and D-methionine, C(9)H(11)NO(2).C(5)H(11)NO(2)S, with linear side chains, as well as with D-leucine, C(9)H(11)NO(2).C(6)H(13)NO(2), D-isoleucine, C(9)H(11)NO(2).C(6)H(13)NO(2), and D-allo-isoleucine, C(9)H(11)NO(2).C(6)H(13)NO(2), with branched side chains. The structures of these 1:1 complexes fall into two classes based on the observed hydrogen-bonding pattern. From a comparison with other L:D complexes involving hydrophobic amino acids and regular racemates, it is shown that the structure-directing properties of phenylalanine closel…

chemistry.chemical_classificationMolecular StructureChemistryStereochemistryAminobutyratesPhenylalanineHydrogen BondingStereoisomerismStereoisomerismPhenylalanineGeneral MedicineCrystallography X-RayGeneral Biochemistry Genetics and Molecular BiologyAmino acidValineSide chainIsoleucineLeucineAminobutyratesHydrophobic and Hydrophilic InteractionsActa Crystallographica Section C Crystal Structure Communications
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The nephroprotective effect of sacubitril/valsartan in heart failure: insights from the real-life clinical setting

2019

Real-life data confirming the favourable renal outcome in patients with heart failure (HF) treated with Sacubitril/Valsartan, previously found in several trials (RCTs), are still scant. We evaluated the renal effects of Sacubitril/Valsartan in a real-life sample of HF patients. Observational analysis of 54 consecutive outpatients affected by HF with reduced ejection fraction (HFrEF) and clinical indication for Sacubitril/Valsartan. Patients were evaluated at baseline (T0) and after six (T6) and twelve (T12) months after initiating Sacubitril/Valsartan and compared with a group of 30 historical controls. Mean age: 65.5 ± 11.7 years. Older patients: 29 (53.7%). Mean baseline estimated glomeru…

medicine.medical_specialtyMEDLINETetrazolesHeart failureLifeInternal MedicinemedicineHumansKidney dysfunctionSacubitril-ValsartanIntensive care medicinebusiness.industryAminobutyratesBiphenyl CompoundsFollow up studiesSacubitril/Valsartanmedicine.diseaseIm - OriginalDrug CombinationsValsartanHeart failureBlood pressureEmergency MedicineValsartanbusinessSacubitril ValsartanFollow-Up StudiesRenal functionmedicine.drug
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