Search results for "copper ions"

showing 3 items of 3 documents

How copper ions and membrane environment influence the structure of the human and chicken tandem repeats domain?

2019

Abstract Prion proteins (PrPs) from different species have the enormous ability to anchor copper ions. The N-terminal domain of human prion protein (hPrP) contains four tandem repeats of the –PHGGGWGQ– octapeptide sequence. This octarepeat domain can bind up to four Cu2+ ions. Similarly to hPrP, chicken prion protein (chPrP) is able to interact with Cu2+ through the tandem hexapeptide -HNPGYP- region (residues 53–94). In this work, we focused on the human octapeptide repeat (human Octa4, hPrP60–91) (Ac-PHGGGWGQPHGGGWGQPHGGGWGQPHGGGWGQ-NH2) and chicken hexapeptide repeat (chicken Hexa4, chPrP54–77) (Ac-HNPGYPHNPGYPHNPGYPHNPGYP-NH2) prion protein fragments. Due to the fact that PrP is a membr…

Circular dichroism010402 general chemistry01 natural sciencesBiochemistryMicelleInorganic Chemistrychemistry.chemical_compoundMembrane LipidsTandem repeatPeptide bondAnimalsHumansAmino Acid SequenceSodium dodecyl sulfateLipid bilayerMembrane mimicking environmentMicelleschemistry.chemical_classification010405 organic chemistryChemistryCopper ionsSodium Dodecyl SulfateHistidine residues0104 chemical sciencesPrion proteinsMembraneTandem Repeat SequencesBiophysicsPotentiometryThermodynamicsGlycoproteinChickensCopper
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Development of iron oxide/activated carbon nanoparticle composite for the removal of Cr(VI), Cu(II) and Cd(II) ions from aqueous solution

2018

Iron oxide (Fe3O4) and iron oxide/activated carbon (Fe3O4/AC) were fabricated by co-precipitation method for the removal of Cr(VI), Cu(II) and Cd(II) ions from aqueous solution in batch mode. These nanoparticles were characterized by BET, FTIR, XRD, SEM/TEM and VSM. The optimum conditions for the removal of ions were pH = 2 for Cr(VI) and 6 for Cu(II) and Cd(II), initial metal ion concentration = 50 mg L−1, nanoparticle dose = 50 mg/10 mL, temperature = 25 ± 1 °C, shaking speed = 180 rpm and contact time = 3 h. The equilibrium data of ions sorption were well described by Langmuir, Freundlich, Redlich-Peterson and Intraparticle Diffusion model. The R2 values obtained by Langmuir model were h…

Langmuirlcsh:Management. Industrial managementXRDActivated carbonGeography Planning and Development116 Chemical sciencesIron oxide215 Chemical engineering02 engineering and technology010501 environmental sciences01 natural scienceschemistry.chemical_compoundsymbols.namesakeAdsorptionINDUSTRIAL WASTE-WATERDesorptionEFFICIENT ADSORBENTSmedicinerautaoksiditFreundlich equationiron oxide nanoparticleta1160105 earth and related environmental sciencesWater Science and TechnologyAqueous solutionMODIFIED MAGNETIC NANOPARTICLESpHCHROMIUM VI REMOVALiron oxide nanoparticlesLangmuir adsorption model021001 nanoscience & nanotechnologyNANO-PARTICLESchemistrylcsh:HD28-70OXIDE COMPOSITEaktiivihiiliCOPPER IONSsymbolsTEMLEAD(II) REMOVALnanohiukkasetHEXAVALENT CHROMIUM0210 nano-technologyActivated carbonmedicine.drugNuclear chemistry
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Rare Crystal Structure of Open Spirolactam Ring along with the Closed-Ring Form of a Rhodamine Derivative : Sensing of Cu2+ Ions from Spinach

2019

Crystal structures of a rhodamine derivative in its closed and open spirolactam ring forms were developed, which allows selective and sensitive detection of Cu2+ ions at a micromolar range in neutral medium. The chemosensing properties of the probe through a pentacoordinate Cu2+ ions were proven by spectroscopic and theoretical analysis. The spirolactam ring opening as the Cu2+selective sensor was applied to spinach (Spinacia oleracea) to estimate the accumulation of copper as copper(II) in the plant. peerReviewed

Spinaciacrystal structurebiologyChemistryGeneral Chemical EngineeringCu2 ionschemistry.chemical_elementspirolactam ringrhodaminekupariGeneral ChemistryCrystal structurebiology.organism_classificationRing (chemistry)Photochemistrycopper ionsCopperIonlcsh:Chemistrylcsh:QD1-999Rhodamine derivativechemosensorsSpinachta116orgaaniset yhdisteet
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