Search results for "Protons"

showing 10 items of 158 documents

Cytosolic pH regulates root water transport during anoxic stress through gating of aquaporins.

2003

Flooding of soils results in acute oxygen deprivation (anoxia) of plant roots during winter in temperate latitudes, or after irrigation1, and is a major problem for agriculture. One early response of plants to anoxia and other environmental stresses is downregulation of water uptake due to inhibition of the water permeability (hydraulic conductivity) of roots (Lpr)2,3,4,5. Root water uptake is mediated largely by water channel proteins (aquaporins) of the plasma membrane intrinsic protein (PIP) subgroup6,7,8. These aquaporins may mediate stress-induced inhibition of Lpr2,4,9 but the mechanisms involved are unknown. Here we delineate the whole-root and cell bases for inhibition of water upta…

0106 biological sciencesCell signalingMagnetic Resonance SpectroscopyCell RespirationArabidopsisAquaporin[SDV.BC]Life Sciences [q-bio]/Cellular BiologyGatingBiologyAquaporins01 natural sciencesPlant RootsPermeability03 medical and health sciencesXenopus laevisCytosolAnimalsComputingMilieux_MISCELLANEOUS030304 developmental biologyPlant Diseases0303 health sciencesMultidisciplinaryWater transportMajor intrinsic proteinsWaterBiological TransportHydrogen-Ion Concentration6. Clean waterOxygenCytosolBiochemistryBiophysicsOocytesMembrane channelSignal transductionProtonsABSORPTION HYDRIQUEIon Channel Gating010606 plant biology & botanyNature

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Involvement of osmotic cell shrinkage on the proton extrusion rate in Saccharomyces cerevisiae

2001

Saccharomyces cerevisiae has been subjected to hyperosmotic shocks by using permeating (sorbitol, xylitol, glycerol, NaCl) and nonpermeating (PEG 600) solutes. The proton extrusion rate decreased as the osmotic pressure increased, whichever solute was used. However, the total inhibition of the cellular H+ extrusion depended on the solute used. A total inhibition was observed at about 20 MPa with glycerol, xylitol and sorbitol. With PEG 600, a total inhibition of extracellular acidification was obtained at 8.5 MPa. NaCl, with an extracellular pressure of 37.8 MPa (near saturation), did not completely inhibit the extracellular acidification. These results showed that the total inhibition of p…

0106 biological sciencesOsmotic shockPRESSION OSMOTIQUESaccharomyces cerevisiaeXylitol01 natural sciencesMicrobiologyPermeability03 medical and health scienceschemistry.chemical_compoundOsmotic Pressure010608 biotechnologyGlycerolExtracellularOsmotic pressure[SDV.MP] Life Sciences [q-bio]/Microbiology and ParasitologyComputingMilieux_MISCELLANEOUS030304 developmental biology0303 health sciencesChromatographyOsmotic concentrationCell MembraneOsmolar ConcentrationGeneral MedicineCulture Media[SDV.MP]Life Sciences [q-bio]/Microbiology and ParasitologychemistryOsmoregulationSorbitolProtonsFood Science

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Cytosolic calcium rises and related events in ergosterol-treated Nicotiana cells

2011

International audience; The typical fungal membrane component ergosterol was previously shown to trigger defence responses and protect plants against pathogens. Most of the elicitors mobilize the second messenger calcium, to trigger plant defences. We checked the involvement of calcium in response to ergosterol using Nicotiana plumbaginifolia and Nicotiana tabacum cv Xanthi cells expressing apoaequorin in the cytosol. First, it was verified if ergosterol was efficient in these cells inducing modifications of proton fluxes and increased expression of defence-related genes. Then, it was shown that ergosterol induced a rapid and transient biphasic increase of free [Ca2þ]cyt which intensity dep…

0106 biological sciencesTime FactorsPhysiologyNicotiana tabacumPlant SciencesterolsSecond Messenger Systemstobacco01 natural scienceschemistry.chemical_compoundCytosolpolycyclic compoundsPhosphorylationCalcium signalingreactive oxygen species0303 health sciencesErgosterolelicitorbiologyergosterolHydrogen-Ion ConcentrationPlants Genetically ModifiedRecombinant ProteinsCell biologyBiochemistrySecond messenger systemReactive oxygen species; Calcium signature; Elicitor; Signal transduction; MAPKs; tobaccolipids (amino acids peptides and proteins)Protonssignal transductionCell Survivalnicotiana plumbaginifoliachemistry.chemical_elementnicotiana tabacumoxydantCalciumcalcium signature03 medical and health sciencesAequorinMAPKsBAPTAGenetics[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyCalcium Signaling030304 developmental biologyMitogen-Activated Protein Kinase KinasesCalcium metabolismHydrogen Peroxidebiochemical phenomena metabolism and nutritionbiology.organism_classificationCytosolchemistryCalciumApoproteins010606 plant biology & botany

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The Plant Inorganic Pyrophosphatase Does Not Transport K+ in Vacuole Membrane Vesicles Multilabeled with Fluorescent Probes for H+, K+, and Membrane …

1995

Abstract It has been claimed that the inorganic pyrophosphatase (PPase) of the plant vacuolar membrane transports K+ in addition to H+ in intact vacuoles (Davies, J. M., Poole, R. J., Rea, P. A., and Sanders, D.(1992) Proc. Natl. Acad. Sci. U. S. A. 89, 11701-11705). Since this was not confirmed using the purified and reconstituted PPase consisting of a 75-kDa polypeptide (Sato, M. H., Kasahara, M., Ishii, N., Homareda, H., Matsui, H., and Yoshida, M. (1994) J. Biol. Chem. 269, 6725-6728), these authors proposed that K+ transport by the PPase is dependent on its association with other membrane components lost during purification. We have examined the hypothesis of K+ translocation by the PP…

0106 biological sciencespyrophosphataseProtonophoreIonophoreVacuole01 natural sciencesBiochemistryPyrophosphateMembrane Potentials03 medical and health scienceschemistry.chemical_compoundValinomycinvitis viniferahydrolyseion potassiumtransport membranaire[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biochemistry [q-bio.BM]PyrophosphatasesMolecular BiologyComputingMilieux_MISCELLANEOUSFluorescent Dyes030304 developmental biologyionophoreMembrane potential0303 health sciencesInorganic pyrophosphatasemembrane vacuolaireIon TransportVesicleIntracellular MembranesCell BiologyPlantsEnzyme ActivationInorganic PyrophosphataseBiochemistrychemistrypotentiel membranaireVacuolesPotassiumBiophysicsProtonsvigneHydrogen010606 plant biology & botanyJournal of Biological Chemistry

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Low-Power, Subthreshold Reference Circuits for the Space Environment : Evaluated with -rays, X-rays, Protons and Heavy Ions

2019

The radiation tolerance of subthreshold reference circuits for space microelectronics is presented. The assessment is supported by measured results of total ionization dose and single event transient radiation-induced effects under &gamma

02 engineering and technologyHardware_PERFORMANCEANDRELIABILITYgammasäteily7. Clean energy01 natural sciencesanalog single-event transient (ASET)Ionizationsingle-event effects (SEE)0202 electrical engineering electronic engineering information engineeringAnnan elektroteknik och elektronikElectronic circuitPhysicsprotonsSubthreshold conductionionisoiva säteilyröntgensäteilyGamma raygamma-raysHardware and ArchitectureAtomic physicsVoltage referencemikroelektroniikkaprotonitComputer Networks and Communicationslcsh:TK7800-8360voltage referenceIonheavy-ions0103 physical sciencesionizationradiation hardening by design (RHBD)X-raysHardware_INTEGRATEDCIRCUITSMicroelectronicsElectrical and Electronic Engineeringhiukkassäteilybandgap voltage reference (BGR)Other Electrical Engineering Electronic Engineering Information Engineering010308 nuclear & particles physicsbusiness.industry020208 electrical & electronic engineeringlcsh:Electronicsspace electronicstotal ionization dose (TID)Analog single-event transient (ASET); Bandgap voltage reference (BGR); CMOS analog integrated circuits; Gamma-rays; Heavy-ions; Ionization; Protons; Radiation hardening by design (RHBD); Reference circuits; Single-event effects (SEE); Space electronics; Total ionization dose (TID); Voltage reference; X-raysmikropiiritsäteilyfysiikkaControl and Systems Engineeringreference circuitsSignal ProcessingbusinessSpace environmentHardware_LOGICDESIGNCMOS analog integrated circuits

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A Dehydrogenase Dual Hydrogen Abstraction Mechanism Promotes Estrogen Biosynthesis: Can We Expand the Functional Annotation of the Aromatase Enzyme?

2018

Cytochrome P450 (CYP450) enzymes are involved in the metabolism of exogenous compounds and in the synthesis of signaling molecules. Among the latter, human aromatase (HA) promotes estrogen biosynthesis, which is a key pharmacological target against breast cancers. After decades of debate, interest in gaining a comprehensive picture of HA catalysis has been renewed by the recent discovery that compound I (Cpd I) is the reactive species of the peculiar aromatization step. Herein, for the first time, a complete atomic-level picture of all controversial steps of estrogen biosynthesis is presented. By performing cumulative quantum-classical molecular dynamics and metadynamics simulations of abou…

0301 basic medicineCell signalingDehydrogenase-Molecular Dynamics Simulation010402 general chemistryHydroxylation01 natural sciencesenzyme catalysisCatalysisEnzyme catalysisHydroxylation03 medical and health scienceschemistry.chemical_compoundAromataseCytochrome P-450 Enzyme SystemHumansAromatasechemistry.chemical_classificationhydrogen abstractionbiologyOrganic ChemistryAromatizationAndrostenedioneCytochrome P450EstrogensGeneral Chemistrymolecular dynamics0104 chemical sciencesreaction mechanisms030104 developmental biologyEnzymechemistryBiochemistrySettore CHIM/03 - Chimica Generale E Inorganicadensity functional calculationsbiology.proteinProtonsOxidoreductasesOxidation-ReductionHydrogen

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Proton Leakage Is Sensed by IM30 and Activates IM30-Triggered Membrane Fusion

2020

The inner membrane-associated protein of 30 kDa (IM30) is crucial for the development and maintenance of the thylakoid membrane system in chloroplasts and cyanobacteria. While its exact physiological function still is under debate, it has recently been suggested that IM30 has (at least) a dual function, and the protein is involved in stabilization of the thylakoid membrane as well as in Mg2+-dependent membrane fusion. IM30 binds to negatively charged membrane lipids, preferentially at stressed membrane regions where protons potentially leak out from the thylakoid lumen into the chloroplast stroma or the cyanobacterial cytoplasm, respectively. Here we show in vitro that IM30 membrane binding…

0301 basic medicineChloroplastsMembrane lipidsmembrane fusionMg2+CyanobacteriaThylakoidsCatalysisArticleVipp1Inorganic Chemistrylcsh:Chemistry03 medical and health sciencesMembrane Lipidsquartz crystal microbalanceProtein structureBacterial ProteinsPhysical and Theoretical ChemistryMg<sup>2+</sup>membrane bindingMolecular Biologylcsh:QH301-705.5SpectroscopyMembranes030102 biochemistry & molecular biologyChemistrypHOrganic ChemistrySynechocystisCD spectroscopyLipid bilayer fusionMembrane Proteinsfood and beveragesGeneral Medicinethylakoid membraneComputer Science ApplicationsChloroplastChloroplast stroma030104 developmental biologyMembranelcsh:Biology (General)lcsh:QD1-999CytoplasmThylakoidBiophysicsProtonsIM30Protein BindingInternational Journal of Molecular Sciences

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pH-sensitive vibrational probe reveals a cytoplasmic protonated cluster in bacteriorhodopsin

2017

Infrared spectroscopy has been used in the past to probe the dynamics of internal proton transfer reactions taking place during the functional mechanism of proteins but has remained mostly silent to protonation changes in the aqueous medium. Here, by selectively monitoring vibrational changes of buffer molecules with a temporal resolution of 6 µs, we have traced proton release and uptake events in the light-driven proton-pump bacteriorhodopsin and correlate these to other molecular processes within the protein. We demonstrate that two distinct chemical entities contribute to the temporal evolution and spectral shape of the continuum band, an unusually broad band extending from 2,300 to well…

0301 basic medicineModels MolecularCytoplasmNuclear TheoryMolecular ConformationInfrared spectroscopyIonic bondingProtonationBuffers010402 general chemistry53001 natural sciences03 medical and health sciencesDeprotonationSpectroscopy Fourier Transform InfraredMoleculeNuclear ExperimentMultidisciplinarybiologyChemistryWaterBacteriorhodopsinHydrogen-Ion Concentration0104 chemical sciencesKinetics030104 developmental biologyPNAS PlusChemical physicsCytoplasmTemporal resolutionBacteriorhodopsinsbiology.proteinPhysics::Accelerator PhysicsProtonsMetabolic Networks and PathwaysProtein Binding

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Ultrafast structural changes within a photosynthetic reaction centre

2021

Nature <London> / Physical science 589, 310 - 314 (2021). doi:10.1038/s41586-020-3000-7

0301 basic medicinePhotosynthetic reaction centreChlorophyllModels MolecularklorofylliCytoplasmUbiquinonePhotosynthetic Reaction Center Complex ProteinsElectrons02 engineering and technologyPhotochemistrymedicine.disease_cause530yhteyttäminenbakteeritElectron Transport03 medical and health sciencesElectron transfermedicineMoleculeddc:530BacteriochlorophyllsbioenergetiikkaComputingMilieux_MISCELLANEOUSHyphomicrobiaceaeMultidisciplinaryBinding SitesCrystallography[SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry Molecular Biology/Structural Biology [q-bio.BM]ChemistryBlastochloris viridisLaserskalvot (biologia)PheophytinsBiological membraneVitamin K 2021001 nanoscience & nanotechnologyAcceptor030104 developmental biologyPicosecondFemtosecondsense organsProtons0210 nano-technologyOxidation-Reductionröntgenkristallografia

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A Thermodynamic Model of Monovalent Cation Homeostasis in the Yeast Saccharomyces cerevisiae

2016

Cationic and heavy metal toxicity is involved in a substantial number of diseases in mammals and crop plants. Therefore, the understanding of tightly regulated transporter activities, as well as conceiving the interplay of regulatory mechanisms, is of substantial interest. A generalized thermodynamic description is developed for the complex interplay of the plasma membrane ion transporters, membrane potential and the consumption of energy for maintaining and restoring specific intracellular cation concentrations. This concept is applied to the homeostasis of cation concentrations in the yeast cells of S. cerevisiae. The thermodynamic approach allows to model passive ion fluxes driven by the…

0301 basic medicinePhysiologyATPaseAntiporterYeast and Fungal ModelsPhysical ChemistryBiochemistryIon ChannelsCation homeostasisMedicine and Health SciencesHomeostasislcsh:QH301-705.5Membrane potentialEcologybiologyChemistryOrganic CompoundsPhysicsMonosaccharidesElectrophysiologyChemistryComputational Theory and MathematicsBiochemistryModeling and SimulationPhysical SciencesThermodynamicsProtonsAlgorithmsResearch ArticleChemical ElementsSaccharomyces cerevisiaeCarbohydratesSaccharomyces cerevisiaeResearch and Analysis MethodsMembrane PotentialModels Biological03 medical and health sciencesCellular and Molecular NeuroscienceSaccharomycesModel OrganismsCationsGeneticsMolecular BiologyEcology Evolution Behavior and SystematicsIon transporterNuclear PhysicsNucleonsIonsOrganic ChemistrySodiumChemical CompoundsOrganismsFungiBiology and Life SciencesComputational BiologyBiological Transportbiology.organism_classificationYeast030104 developmental biologyGlucoseMetabolismlcsh:Biology (General)SymporterActive transportbiology.proteinBiophysicsPLoS Computational Biology

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