Search results for "Redox"

showing 10 items of 619 documents

Different approaches for the solar photocatalytic removal of micro-contaminants from aqueous environment: Titania vs. hybrid magnetic iron oxides

2019

Abstract This work reports on the light-induced heterogeneous photodegradation of four micro-contaminants (MCs): Carbamazepine (C), Flumequine (F), Ibuprofen (I), and Sulfamethoxazole (S), using two different heterogeneous advanced oxidation processes. The first one is the semiconductor photocatalysis, run in the presence of the suspension of a home prepared TiO2 (TiO2 HP); the second one is an heterogeneous photo-Fenton process run in the presence of a hybrid magnetic nanomaterial (MB3) with an iron oxides core and an organic shell made of bio-based substances (BBS) isolated from urban biowaste. The two materials work upon two different mechanisms and were already tested (and the action me…

Micro-contaminantMaterials sciencePhoto-FentonCHIM/03 - CHIMICA GENERALE ED INORGANICAMicro-contaminants202 engineering and technology010402 general chemistry01 natural sciences7. Clean energyRedoxCatalysisNanomaterialsCatalysisMicro-contaminants; TiO2; Photocatalysis; Water treatments; Photo-Fenton; Magnetic materialsPhotocatalysiTiOTiO2Water treatmentPhotocatalysisPhotodegradationMagnetic materialsMagnetic materialAqueous solutionWater treatmentsGeneral Chemistry021001 nanoscience & nanotechnology0104 chemical sciencesPilot plantChemical engineering13. Climate actionPhotocatalysisDegradation (geology)Settore CHIM/07 - Fondamenti Chimici Delle Tecnologie0210 nano-technology

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Factors Determining Sensitivity and Resistance of Tumor Cells to Arsenic Trioxide

2012

Previously, arsenic trioxide showed impressive regression rates of acute promyelocytic leukemia. Here, we investigated molecular determinants of sensitivity and resistance of cell lines of different tumor types towards arsenic trioxide. Arsenic trioxide was the most cytotoxic compound among 8 arsenicals investigated in the NCI cell line panel. We correlated transcriptome-wide microarray-based mRNA expression to the IC(50) values for arsenic trioxide by bioinformatic approaches (COMPARE and hierarchical cluster analyses, Ingenuity signaling pathway analysis). Among the identified pathways were signaling routes for p53, integrin-linked kinase, and actin cytoskeleton. Genes from these pathways…

MicroarraysTumor PhysiologyCancer Treatmentlcsh:MedicineToxicologyArsenicalschemistry.chemical_compoundArsenic TrioxideBasic Cancer ResearchRNA NeoplasmArsenic trioxidelcsh:ScienceOligonucleotide Array Sequence AnalysisMultidisciplinaryintegumentary systemCytotoxinsOxidesTransfectionNeoplasm ProteinsGene Expression Regulation NeoplasticActin CytoskeletonOncologyMedicineThioredoxinSignal TransductionResearch Articleinorganic chemicalsAcute promyelocytic leukemiaToxic Agentschemistry.chemical_elementAntineoplastic AgentsBiologyComplementary and Alternative MedicineCell Line TumormedicineHumansRNA MessengerBiologyArseniclcsh:RComputational BiologyCancers and Neoplasmsmedicine.diseaseActin cytoskeletonMolecular biologychemistryDrug Resistance NeoplasmApoptosisCell culturelcsh:QPLoS ONE

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From Microorganism-Based Amperometric Biosensors towards Microbial Fuel Cells

2021

This review focuses on the overview of microbial amperometric biosensors and microbial biofuel cells (MFC) and shows how very similar principles are applied for the design of both types of these bioelectronics-based devices. Most microorganism-based amperometric biosensors show poor specificity, but this drawback can be exploited in the design of microbial biofuel cells because this enables them to consume wider range of chemical fuels. The efficiency of the charge transfer is among the most challenging and critical issues during the development of any kind of biofuel cell. In most cases, particular redox mediators and nanomaterials are applied for the facilitation of charge transfer from a…

Microbial fuel cellBioelectric Energy SourcesPolymersMicroorganismNanotechnologyBiosensing TechniquesReview02 engineering and technologyyeastbioelectronicslcsh:Chemical technology010402 general chemistry01 natural sciencesBiochemistryRedoxAnalytical ChemistryNanomaterialsmicrobial biosensorslcsh:TP1-1185microbial biofuel cells ; yeast ; direct electron transfer ; extracellular electron transfer ; cell membrane/wall modifications ; conducting polymers ; enzyme-based biofuel cells ; bioelectronics ; microbial biosensors ; whole cell-based biosensorsdirect electron transferenzyme-based biofuel cellsElectrical and Electronic EngineeringElectrodesconducting polymersInstrumentationwhole cell-based biosensorsConductive polymerBioelectronicsextracellular electron transferChemistryfungitechnology industry and agriculturefood and beveragesmicrobial biofuel cells021001 nanoscience & nanotechnologyAtomic and Molecular Physics and Optics0104 chemical sciencescell membrane/wall modificationsBiofuel0210 nano-technologyOxidation-ReductionBiosensorSensors

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Special applications of reverse electrodialysis

2016

Reverse electrodialysis (RED) is a process for direct electricity production from salinity gradients, based on the use of suitable exchange membranes. To develop the RED process on an applicative scale and to add value to the overall process, a key role is entrusted to the selection of electrodic system, redox species, and electrode materials. In particular, it was shown that a proper selection of redox processes allows the use of a RED cell for the wastewater treatment of organic and inorganic pollutants resistant to conventional biological methods and for the synthesis of chemicals without energy supply. The utilization of microbial reverse electrodialysis cells was also proposed to incre…

Microbial reverse electrodialysis cellElectrode materialWaste managementProduction of chemicalbusiness.industryChemistryReverse electrodialysis (RED)Redox processeTreatment of AO7 and Cr(VI)Settore ING-IND/27 - Chimica Industriale E TecnologicaRedoxEngineering (all)MembraneElectricity generationWastewaterScientific methodReversed electrodialysisSequestration of CO2Sewage treatmentProcess engineeringbusiness

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Growth of Rhodococcus sp. strain BCP1 on gaseous n-alkanes: New metabolic insights and transcriptional analysis of two soluble di-iron monooxygenase …

2015

none 7 si Rhodococcus sp. strain BCP1 was initially isolated for its ability to grow on gaseous n-alkanes, which act as inducers for the co-metabolic degradation of low-chlorinated compounds. Here, both molecular and metabolic features of BCP1 cells grown on gaseous and short-chain n-alkanes (up to n-heptane) were examined in detail. We show that propane metabolism generated terminal and sub-terminal oxidation products such as 1- and 2-propanol, whereas 1-butanol was the only terminal oxidation product detected from n-butane metabolism. Two gene clusters, prmABCD and smoABCD—coding for Soluble Di-Iron Monooxgenases (SDIMOs) involved in gaseous n-alkanes oxidation—were detected in the BCP1 g…

Microbiology (medical)Gaseous n-alkaneSoluble di-iron monooxygenaseStrain (chemistry)lcsh:QR1-502Monooxygenase gene expressionMetabolismgaseous n-alkanesMonooxygenaseBiologyLyaseRedoxMicrobiologyPrimer extensionlcsh:MicrobiologyChaperoninRhodococcus sp strain BCP1; soluble di-iron monooxygenase; propane and n-butane oxidation; gaseous n-alkanes; monooxygenase gene expressionBiochemistryRhodococcus sp. strain BCP1Rhodococcus sp strain BCP1Propane and n-butane oxidationGeneOriginal Researchpropane and butane oxidation

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Wine yeast peroxiredoxin TSA1 plays a role in growth, stress response and trehalose metabolism in biomass propagation

2020

This article belongs to the Special Issue Wine Yeast 1.0.

Microbiology (medical)Protein moonlightingperoxiredoxinsThioredoxin reductaseSaccharomyces cerevisiaeMutantWineSaccharomyces cerevisiaeMicrobiology<i>Saccharomyces cerevisiae</i>03 medical and health scienceschemistry.chemical_compoundVirologyoxidative stressBiomasswinelcsh:QH301-705.5030304 developmental biologychemistry.chemical_classification0303 health sciencesTsa1biologybiomass030306 microbiologyChemistryPeroxiredoxinsbiology.organism_classificationTrehaloseYeast in winemakingEnzymeBiochemistrylcsh:Biology (General)Oxidative stressPeroxiredoxinMicroorganisms

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Identification of Resistance Genes and Response to Arsenic in Rhodococcus aetherivorans BCP1

2019

This is the accepted manuscript of the paper "Identification of Resistance Genes and Response to Arsenic in Rhodococcus aetherivorans BCP1", published as final paper in "Frontiers in Microbiology Volume 10, 07 May 2019, Pages 888 https://doi.org/10.3389/fmicb.2019.00888”. Arsenic (As) ranks among the priority metal(loid)s that are of public health concern. In the environment, arsenic is present in different forms, organic or inorganic, featured by various toxicity levels. Bacteria have developed different strategies to deal with this toxicity involving different resistance genetic determinants. Bacterial strains of Rhodococcus genus, and more in general Actinobacteria p…

Microbiology (medical)arsenic resistance geneThioredoxin reductaselcsh:QR1-502chemistry.chemical_elementMicrobiologylcsh:MicrobiologyNO03 medical and health scienceschemistry.chemical_compoundR. aetherivorans BCP1Gene clusterRhodococcusArsenic030304 developmental biologyArseniteOriginal Research0303 health sciencesbiology030306 microbiologyarsenate reductionarsenic resistance genesbiology.organism_classificationActinobacteriaArsenate reductaseBiochemistrychemistryarsenic resistance genes arsenate reduction Rhodococcus R. aetherivorans BCP1 ActinobacteriaThioredoxinEnergy sourceRhodococcusRhodococcuFrontiers in Microbiology

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Electron microprobe technique for the determination of iron oxidation state in silicate glasses

2018

We present a new calibration for the determination of the iron oxidation state in silicate glasses by electron probe microanalysis (EPMA) with the "flank method." This method is based on the changes in both intensity and wavelength of the FeLα and FeLβ X-ray emission lines with iron oxidation state. The flank method utilizes the maximum difference for the FeLα and FeLβ spectra observed at the peak flanks between different standard materials, which quantitatively correlates with the Fe2+ content. Provided that this correlation is calibrated on reference materials, the Fe2+/ΣFe ratio can be determined for samples with known total Fe content. Two synthetic Fe-rich ferric and ferrous garnet end…

MicroprobeMaterials science010504 meteorology & atmospheric sciencesInorganic chemistryElectron microprobe010502 geochemistry & geophysics01 natural sciencesRedoxflank methodferric-ferrous ratioGeophysicsGeochemistry and PetrologyOxidation stateredox statepillow glassesSilicate glassMicroprobesilicate glasses0105 earth and related environmental sciences

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Redox signaling (cross-talk) from and to mitochondria involves mitochondrial pores and reactive oxygen species

2010

This review highlights the important role of redox signaling between mitochondria and NADPH oxidases. Besides the definition and general importance of redox signaling, the cross-talk between mitochondrial and Nox-derived reactive oxygen species (ROS) is discussed on the basis of 4 different examples. In the first model, angiotensin-II is discussed as a trigger for NADPH oxidase activation with subsequent ROS-dependent opening of mitochondrial ATP-sensitive potassium channels leading to depolarization of mitochondrial membrane potential followed by mitochondrial ROS formation and respiratory dysfunction. This concept was supported by observations that ethidium bromide-induced mitochondrial d…

Mitochondrial ROSAgingPotassium ChannelsMyocytes Smooth MuscleBiophysicsIn Vitro TechniquesMitochondrionmedicine.disease_causeMitochondrial Membrane Transport ProteinsModels BiologicalMitochondrial apoptosis-induced channelBiochemistryPeroxynitritechemistry.chemical_compoundmedicineAnimalsHumansMitochondrionFeedback PhysiologicalNADPH oxidasebiologyNADPH oxidaseMitochondrial Permeability Transition PoreSuperoxideAngiotensin IINADPH OxidasesSuperoxideNitric oxideCell BiologyReactive Nitrogen SpeciesMitochondriaCell biologyOxidative StressOxidative protein modificationchemistryMitochondrial permeability transition poreRedox regulationNOX1Hypertensionbiology.proteinReactive Oxygen SpeciesOxidation-ReductionOxidative stressSignal TransductionBiochimica et Biophysica Acta (BBA) - Bioenergetics

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Unexpected multivalent display of proteins by temperature triggered self-assembly of elastin-like polypeptide block copolymers

2012

We report herein the unexpected temperature triggered self-assembly of proteins fused to thermally responsive elastin-like polypeptides (ELPs) into spherical micelles. A set of six ELP block copolymers (ELP(BC)) differing in hydrophilic and hydrophobic block lengths were genetically fused to two single domain proteins, thioredoxin (Trx) and a fibronectin type III domain (Fn3) that binds the α(v)β(3) integrin. The self-assembly of these protein-ELP(BC) fusions as a function of temperature was investigated by UV spectroscopy, light scattering, and cryo-TEM. Self-assembly of the ELP(BC) was unexpectedly retained upon fusion to the two proteins, resulting in the formation of spherical micelles …

Models MolecularHydrodynamic radiusPolymers and PlasticsIntegrinBioengineeringFibronectin type III domainMicelleArticleBiomaterialsThioredoxinsMaterials ChemistryCopolymerTumor Cells CulturedHumansParticle SizeMicellesbiologyChemistryTemperatureFibronectinsElastinFibronectinsBiochemistryBiophysicsbiology.proteinSelf-assemblyThioredoxinK562 CellsPeptidesHydrophobic and Hydrophilic Interactions

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