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Metal Ion Concentrations (metal + ion_concentration)

Distribution by Scientific Domains
Chemistry85%

Selected Abstracts

An allosteric DNAzyme with dual RNA-cleaving and DNA-cleaving activities

FEBS JOURNAL, Issue 11 2010
Dazhi Jiang
A series of RNA-cleaving or DNA-cleaving DNAzymes have been obtained by in vitro selection. However, engineering an allosteric DNAzyme with dual RNA-cleaving and DNA-cleaving activities is very challenging. We used an in vitro -selected pistol-like (PL) DNAzyme as a DNA scaffold for designing a DNAzyme with dual catalytic activities. We prepared the 46-nucleotide DNAzyme with DNA-cleaving activity (PL DNAzyme), and then grafted the deoxyribonucleotide residues from an 8,17 variant DNAzyme into the region of stem,loop I and the catalytic core of the PL DNAzyme scaffold. This deoxyribonucleotide residue grafting resulted in a DNAzyme with dual RNA-cleaving and DNA-cleaving activities (DRc DNAzyme). Drc DNAzyme has properties different from those of the original PL DNAzyme, including DNA cleavage sites and the required metal ion concentration. Interestingly, the RNA substrate and RNase A can act as effectors to mediate the DNA cleavage. Our results show that RNA-cleaving and DNA-cleaving activities simultaneously coexist in DRc DNAzyme, and the DNA cleavage activity can be reversibly regulated by a conformational transition. [source]

Sorption properties of the iminodiacetate ion exchange resin, amberlite IRC-718, toward divalent metal ions

JOURNAL OF APPLIED POLYMER SCIENCE, Issue 2 2008
Charef Noureddine
Abstract The sorption properties of the commercially available cationic exchange resin, Amberlite IRC-718, that has the iminodiacetic acid functionality, toward the divalent metal-ions, Fe2+, Cu2+, Zn2+, and Ni2+ were investigated by a batch equilibration technique at 25°C as a function of contact time, metal ion concentration, mass of resin used, and pH. Results of the study revealed that the resin exhibited higher capacities and a more pronounced adsorption toward Fe2+ and that the metal-ion uptake follows the order: Fe2+ > Cu2+> Zn2+ >Ni2+. The adsorption and binding capacity of the resin toward the various metal ions investigated are discussed. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci, 2008 [source]

Synthesis, structure, and selective separation behavior of copper-imprinted microporous polymethacrylate beads

AICHE JOURNAL, Issue 12 2009
Nguyen To Hoai
Abstract Metal ion-imprinted polymethacrylate beads with sizes ranging from 100 to 300 ,m were prepared by suspension polymerization for the application of selective separation of target metal ions. The metal ion contacting area of the beads was enlarged via pore formation (BET 425 m2/g) using toluene as a porogenic agent. The synthesis of the copper-imprinted porous beads was verified using FTIR, SEM, and ESCA. Separation capacity and selectivity were investigated carrying out column separation experiments. The selective adsorption behavior of the imprinted beads was significantly affected by flow rate, pH, and metal ion concentration in the solution. Adsorption of the copper ion, the template metal ion, onto the beads was highly selective, compared with other ions such as nickel and zinc, with the selective coefficients at approximately 5,10. The microporous particles possessing such high selectivity has a potential application as novel column packing materials especially requiring high selective efficiency, which is usually not achievable by commercial ion exchange resins. © 2009 American Institute of Chemical Engineers AIChE J, 2009 [source]

Electrochemical Impedance Characterization of Nafion-Coated Carbon Film Resistor Electrodes for Electroanalysis

ELECTROANALYSIS, Issue 7 2005
Carla Gouveia-Caridade
Abstract Carbon film disk electrodes with Nafion coatings have been characterized by electrochemical impedance spectroscopy (EIS) with a view to a better understanding of their advantages and limitations in electroanalysis, particularly in anodic stripping voltammetry of metal ions. After initial examination by cyclic voltammetry, spectra were recorded over the full potential range in acetate buffer solution at the bare electrodes, electrodes electrochemically pretreated in acid solution, and Nafion-coated pretreated electrodes in the presence and absence of dissolved oxygen. EIS equivalent circuit analysis clearly demonstrated the changes between these electrode assemblies. In order to simulate anodic stripping voltammetry conditions, spectra were also obtained in the presence of cadmium and lead ions in solution at Nafion-coated electrodes, both after metal ion deposition and following re-oxidation. Permanent changes to the structure of the Nafion film occurred, which has implications for use of these electrode assemblies in anodic stripping voltammetry at relatively high trace metal ion concentrations. [source]

Copper is required for prion protein-associated superoxide dismutase-l activity in Pichia pastoris

FEBS JOURNAL, Issue 5 2007
Carina Treiber
The prion protein (PrP) is the key protein implicated in transmissible spongiform encephalopathies. It is a metalloprotein that binds manganese and copper. The latter is involved in the physiological function of the protein. We have previously found that PrP expression in Pichia pastoris affects intracellular metal ion concentrations and that formation of protease-resistant PrP is induced by additional copper and/or manganese. In this study, we show that heterologously expressed PrP is post-translationally modified and transported to the cell wall. We found by combining three different test systems that PrP itself had gained superoxide dismutase-like activity in P. pastoris. However, this activity could not be inhibited by KCN and depended on additional copper in the medium. Thus, this study defines the conditions under which PrP exhibits superoxide dismutase-like activity by showing that copper must be present for the protein to participate in scavenging and detoxification of reactive oxygen species. [source]

Studies on the oxygen atom transfer reactions of peroxomonosulfate: Oxidation of glycolic acid

INTERNATIONAL JOURNAL OF CHEMICAL KINETICS, Issue 3 2009
S. Shailaja
The kinetics of oxidation of glycolic acid, an ,-hydroxy acid, by peroxomonosulfate (PMS) was studied in the presence of Ni(II) and Cu(II) ions and in acidic pH range 4.05,5.89. The metal glycolate, not the glycolic acid (GLYCA), is oxidized by PMS. The rate is first order in [PMS] and metal ion concentrations. The oxidation of nickel glycolate is zero-order in [GLYCA] and inverse first order in [H+]. The increase of [GLYCA] decreases the rate in copper glycolate, and the rate constants initially increase and then remain constant with pH. The results suggest that the metal glycolate ML+ reacts with PMS through a metal-peroxide intermediate, which transforms slowly into a hydroperoxide intermediate by the oxygen atom transfer to hydroxyl group of the chelated GLYCA. The effect of hydrogen ion concentrations on kobs suggests that the structure of the metal-peroxide intermediates may be different in Ni(II) and Cu(II) glycolates. © 2008 Wiley Periodicals, Inc. Int J Chem Kinet 41: 160,167, 2009 [source]

Novel Molecular Building Blocks Based on the Boradiazaindacene Chromophore: Applications in Fluorescent Metallosupramolecular Coordination Polymers

CHEMISTRY - A EUROPEAN JOURNAL, Issue 15 2009
Ö. Altan Bozdemir Dr.
Abstract Bright polymers: Fluorescent coordination polymers made up of versatile functionalized bodipy (boron-dipyrrin) chromophore building blocks, such as that depicted, are described. Polymerization is signaled by changes in fluorescence emission intensity and shifts in peak emission wavelengths. We designed and synthesized novel boradiazaindacene (Bodipy) derivatives that are appropriately functionalized for metal-ion-mediated supramolecular polymerization. Thus, ligands for 2-terpyridyl-, 2,6-terpyridyl-, and bipyridyl-functionalized Bodipy dyes were synthesized through Sonogashira couplings. These fluorescent building blocks are responsive to metal ions in a stoichiometry-dependent manner. Octahedral coordinating metal ions such as ZnII result in polymerization at a stoichiometry corresponding to two terpyridyl ligands to one ZnII ion. However, at increased metal ion concentrations, the dynamic equilibria are re-established in such a way that the monomeric metal complex dominates. The position of equilibria can easily be monitored by 1H,NMR and fluorescence spectroscopies. As expected, although open-shell FeII ions form similar complex structures, these cations quench the fluorescence emission of all four functionalized Bodipy ligands. Bu çal,,mada, metal iyonlar, arac,l,,,yla supramoleküler polimerizasyon için uygun ,ekilde fonksiyonland,r,lm,, yeni boradiazaindasen (Bodipy) türevleri tasarlanm,, ve sentezlenmi,tir. Bu amaçla, ligand olarak Sonogashira reaksiyonu ile 2- ve 2,6-terpiridil ve bipiridil gruplar,n, içeren Bodipy boyarmaddeleri sentezlenmi,tir. Bu floresan yap, bloklar, stokiyometriye ba,l, bir biçimde metal iyonlar,na duyarl,l,k gösterirler. ZnIIgibi oktahedral koordinasyon e,ilimi olan metal iyonlar,, iki terpiridil ligand,na bir ZnIIiyonu tekabül edecek bir stokiyometride polimerizasyona yol açmaktad,rlar. Bununla beraber, yüksek metal iyonu deri,imlerinde monomerik metal kompleksinin bask,n olaca,, bir biçimde, dinamik dengeler yeniden kurulmaktad,r. Bu dengelerin pozisyonu1H,NMR ve fluoresans spektroskopileriyle kolayl,kla izlenebilmektedir. Beklenildi,i gibi, benzer kompleks yap,lar olu,turmas,na ra,men FeIIiyonu, sentezlenen tüm fonksiyonalize Bodipy ligandlar,n,n emisyonlar,n, sönümlendirmektedir. [source]