The nature of the slow metal ion-dependent conformational transition in bovine prothrombin

Kinetic parameters characterizing the slow structural isomerization observed via metal ion-dependent intrinsic fluorescence quenching of bovine prothrombin Fragment 1 have been determined. From forward and reverse rate constants, an equilibrium constant of approx. 0.25 is calculated. This result is consistent with the hypothesis that there exists, in the absence of metal ions, an equilibrium between two forms of bovine Fragment 1, one of which can interact rapidly with Ca2+ and subsequently with phospholipid. The other form of Fragment 1 cannot interact with Ca2+ in a manner that yields a phospholipid-binding form of the protein. Interconversion of these two forms of Fragment 1 occurs and may involve the isomerization of a proline residue.

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Thionine Fluorescence Quenching by Metal Cations

Zeitschrift für Naturforschung A ◽

10.1515/zna-1980-1113 ◽

1980 ◽

Vol 35 (11) ◽

pp. 1201-1206 ◽

Cited By ~ 9

Author(s):

G. Köhler ◽

S. Solar ◽

N. Getoff

Keyword(s):

Fluorescence Quenching ◽

Metal Ions ◽

Salt Concentration ◽

Ground State ◽

Metal Cations ◽

Fluorescence Yield ◽

The Other ◽

Quenching Rate ◽

Quenching Mechanisms

Abstract The mechanism of the fluorescence quenching of aqueous thionine by various metal ions (Ce3+, Fe2+, Mn2+, Mg2+, Cs+ and Na+) was studied at pH = 2.5. The following Stern-Volmer constants (Ksv) were determined: KSV(Fe2+) == 1.13 dm3 mol-1, KSV(Mn2+) = 0.24 dm3 mol-1, KSV(Ce3+) = 0.24 dm3 mol-1, KSV(Cs+) - 0.03 dm3 mol-1. At concentrations below 1 mol.dm-3 Na2SO4 and MgSO4 are very weak quenchers (KSV(Na+ or Mg2+) = 0.007), but the influence on the fluorescence yield increases considerably at higher cation concentrations. This was attributed to the formation of ground state complexes between thionine and SO42- ions. The salt concentration affects considerably the quenching rate of Fe2+ ions, but much less so that of the other cations. Fluorescence quenching mechanisms are discussed.

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Anthracene coupled adenine for the selective sensing of copper ions

Beilstein Journal of Organic Chemistry ◽

10.3762/bjoc.6.44 ◽

2010 ◽

Vol 6 ◽

Cited By ~ 6

Author(s):

Kumaresh Ghosh ◽

Tanushree Sen

Keyword(s):

Metal Ions ◽

Metal Ion ◽

Copper Ions ◽

The Other ◽

Ion Recognition ◽

Experimental Conditions

Anthracene-based adenines 1 and 2 have been designed and synthesized, and their metal ion recognition properties have been established fluorometrically. Both molecules exhibit Cu2+ induced ON-OFF type signaling patterns over the other representative metal ions studied. Compound 1 exhibits 97% quenching of emission in the presence of Cu2+ whilst derivative 2 shows 81% quenching under similar experimental conditions.

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Metal ion templated chemosensor for metal ions based on fluorescence quenching

Sensors and Actuators B Chemical ◽

10.1016/s0925-4005(02)00057-6 ◽

2002 ◽

Vol 85 (1-2) ◽

pp. 86-89 ◽

Cited By ~ 37

Author(s):

Orhan Güney ◽

Yaşar Yılmaz ◽

Önder Pekcan

Keyword(s):

Fluorescence Quenching ◽

Metal Ions ◽

Metal Ion

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Optimization of Preparation of Activated Carbon fromRicinus communisLeaves by Microwave-Assisted Zinc Chloride Chemical Activation: Competitive Adsorption of Ni2+Ions from Aqueous Solution

Journal of Chemistry ◽

10.1155/2013/314790 ◽

2013 ◽

Vol 2013 ◽

pp. 1-12 ◽

Cited By ~ 12

Author(s):

M. Makeswari ◽

T. Santhi

Keyword(s):

Activated Carbon ◽

Metal Ions ◽

Zinc Chloride ◽

Metal Ion ◽

Competitive Adsorption ◽

Ricinus Communis ◽

Chemical Activation ◽

The Other ◽

Order Kinetic ◽

Microwave Assisted

The preparation of activated carbon (AC) fromRicinus communisleaves was investigated in this paper. Orthogonal array experimental design method was used to optimize the preparation of AC using microwave assisted zinc chloride. Optimized parameters were radiation power of 100 W, radiation time of 8 min, concentration of zinc chloride of 30% by volume, and impregnation time of 24 h, respectively. The surface characteristics of the AC prepared under optimized conditions were examined by pHZPC, SEM-EDAX, XRD, and FTIR. Competitive adsorption of Ni2+ions onRicinus communisleaves by microwave assisted zinc chloride chemical activation (ZLRC) present in binary and ternary mixture was compared with the single metal solution. The effects of the presence of one metal ion on the adsorption of the other metal ion were investigated. The experimental results indicated that the uptake capacity of one metal ion was reduced by the presence of the other metal ion. The extent of adsorption capacity of the binary and ternary metal ions tested on ZLRC was low (48–69%) as compared to single metal ions. Comparisons with the biosorption of Ni2+ions by the biomass of ZLRC in the binary (48.98–68.41%-~Ni-Cu and 69.76–66.29%-~Ni-Cr) and ternary solution (67.32–57.07%-~Ni–Cu and Cr) could lead to the conclusion that biosorption of Ni2+ions was reduced by the influence of Cu2+and Cr3+ions. The equilibrium data of the adsorption was well fitted to the Langmuir isotherm. The adsorption process follows the pseudo-second-order kinetic model.

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Kinetics and mechanisms of oxidations by metal ions. Part VIII. Oxidation of n-propanol by aquomanganese(III) ions

Canadian Journal of Chemistry ◽

10.1139/v87-045 ◽

1987 ◽

Vol 65 (2) ◽

pp. 277-281 ◽

Cited By ~ 2

Author(s):

Mahendra Mehta ◽

Ratan R. Nagori ◽

Raj N. Mehrotra

Keyword(s):

Ionic Strength ◽

Metal Ions ◽

Equilibrium Constant ◽

Thermodynamic Parameters ◽

The Other ◽

Constant Ionic Strength ◽

Rate Law

The oxidation of n-propanol by aquomanganese(III) ions in perchlorate medium of constant ionic strength (4 mol dm−3, NaClO4) is described by the rate law [i] which is based on the consideration of the reactions [ii]–[ix].[Formula: see text]A further analysis of the rate law in terms of the results indicated that MnOH2+ (aq) is the major oxidant. The values of the equilibrium constant (β1) and rate determining constant (k1) are reported together with the associated thermodynamic parameters. The values of the other constants, k, Ka, and β, could not be determined though an assumption was made that β ≈ β1.

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Solvation and metal ion effects on structure and reactivity of phosphoryl compounds. Part 2. Alkali metal ion catalysis in the demethylation of methyl di(3-nitrophenyl)phosphinate by iodide ion

Canadian Journal of Chemistry ◽

10.1139/v93-067 ◽

1993 ◽

Vol 71 (4) ◽

pp. 469-472 ◽

Cited By ~ 2

Author(s):

Agnes M. Modro ◽

Tomasz A. Modro

Keyword(s):

Alkali Metal ◽

Metal Ions ◽

Crown Ethers ◽

Rate Constants ◽

Metal Ion ◽

Reaction Rate ◽

Retarding Effect ◽

Metal Ion Catalysis ◽

Ion Effects ◽

Metal Ion Effects

Second-order rate constants for the demethylation of methyl di(3-nitrophenyl)phosphinate by iodide in acetone-d6 at 25 °C have been measured. For a series of iodide salts the rate increased in the order: NBu4I < KI ≤ NaI < LiI. The addition of crown ethers or D2O has a retarding effect on the reaction rate. The results are discussed in terms of the increase of the nucleofugality of the phosphinate group via the complexation of metal ions with the phosphoryl function.

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Factors affecting the dissociation of metal ions from humic substances

Mineralogical Magazine ◽

10.1180/minmag.2015.079.6.15 ◽

2015 ◽

Vol 79 (6) ◽

pp. 1397-1405 ◽

Cited By ~ 4

Author(s):

Nick Bryan ◽

Dominic Jones ◽

Rose Keepax ◽

Dean Farrelly ◽

Liam Abrahamsen ◽

...

Keyword(s):

Humic Acid ◽

Metal Ions ◽

Humic Substances ◽

Rate Constants ◽

Metal Ion ◽

Dissociation Rate ◽

Factors Affecting ◽

Ion Concentrations ◽

Dissociation Rate Constants ◽

Actinide Ions

AbstractPreviously, it has been suggested that metal ions complexed to humic acid in the environment might show slower dissociation than those added to humic substances in the laboratory, which has serious implications for the transport of radionuclides in the environment. The dissociation of lanthanide and anthropogenic actinide ions from humic substance complexes has been studied as a function of humic concentration and metal ion:humic concentration ratio. The results suggest that the apparently slower kinetics observed for metal ions complexed in the environment are probably due to the large humic concentrations that are used in those studies. Further, there is no evidence that the dissociation rate constant varies at very low metal ion concentrations. Although humic samples size-fractionated by ultrafiltration showed that more metal may be bound non-exchangeably, there was no evidence for different rate constants. Ultrafiltration of Eu(III)/humic acid mixtures did show a shift in Eu from smaller to larger fractions over a period of two days. Therefore, the results suggest that dissociation rate constants determined in the laboratory at metal ion concentrations higher than those expected in the environment may be used in predicting radionuclide mobility, provided that the humic acid concentration is in the range expected at the site.

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Disruption of the Metal Ion Environment by EDTA for Silk Formation Affects the Mechanical Properties of Silkworm Silk

International Journal of Molecular Sciences ◽

10.3390/ijms20123026 ◽

2019 ◽

Vol 20 (12) ◽

pp. 3026 ◽

Cited By ~ 2

Author(s):

Qingsong Liu ◽

Xin Wang ◽

Xiaoyin Tan ◽

Xiaoqian Xie ◽

Haonan Dong ◽

...

Keyword(s):

Mechanical Properties ◽

Secondary Structure ◽

Metal Ions ◽

Silk Fibroin ◽

Metal Ion ◽

Conformational Transition ◽

Direct Injection ◽

Silk Gland ◽

Silk Fiber ◽

Edta Treatment

Silk fiber has become a research focus because of its comprehensive mechanical properties. Metal ions can influence the conformational transition of silk fibroin. Current research is mainly focused on the role of a single ion, rather than the whole metal ion environment. Here, we report the effects of the overall metal ion environment on the secondary structure and mechanical properties of silk fibers after direct injection and feeding of silkworms with EDTA. The metal composition of the hemolymph, silk gland, and silk fiber changed significantly post EDTA treatment. Synchrotron FTIR analysis indicated that the secondary structure of silk fiber after EDTA treatment changed dramatically; particularly, the β-sheets decreased and the β-turns increased. Post EDTA treatment, the silk fiber had significantly decreased strength, Young’s modulus, and toughness as compared with the control groups, while the strain exhibited no obvious change. These changes can be attributed to the change in the metal ion environment in the silk fibroin and sericin in the silk gland. Our investigation provides a new theoretical basis for the natural silk spinning process, and our findings could help develop a method to modify the mechanical properties of silk fiber using metal ions.

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Metal ion catalysis in nucleophilic displacement reactions at carbon, phosphorus, and sulfur centers. III. Catalysis vs. inhibition by metal ions in the reaction of p-nitrophenyl benzenesulfonate with ethoxide

Canadian Journal of Chemistry ◽

10.1139/v90-287 ◽

1990 ◽

Vol 68 (10) ◽

pp. 1846-1858 ◽

Cited By ~ 21

Author(s):

Marko J. Pregel ◽

Edward J. Dunn ◽

Erwin Buncel

Keyword(s):

Alkali Metal ◽

Transition State ◽

Metal Ions ◽

Ground State ◽

Rate Constants ◽

Metal Ion ◽

Ion Pairs ◽

Alkali Metal Ions ◽

Complexing Agent ◽

Metal Ion Catalysis

The rate of the nucleophilic displacement reaction of p-nitrophenyl benzenesulfonate (1) with alkali metal ethoxides in ethanol at 25 °C has been studied by spectrophotometric techniques. For lithium ethoxide, sodium ethoxide, potassium ethoxide, and cesium ethoxide, the observed rate constants increase in the order LiOEt < NaOEt < CsOEt < KOEt. The effect of added crown ether and cryptand complexing agents was also investigated. Addition of complexing agent to the reaction of KOEt results in the rate decreasing to a minimum value corresponding to the reaction of free ethoxide. Conversely, addition of complexing agent to the reaction of LiOEt results in the rate increasing to a maximum value that is identical to the minimum value seen in the reaction of KOEt in the presence of excess complexing agent. In complementary experiments, alkali metal ions were added in the form of unreactive salts. Addition of a K+ salt to the reaction of KOEt increases the reaction rate, while addition of a Li+ salt to the reaction of LiOEt decreases the rate. The involvement of metal ions in the reaction of 1 is proposed to occur via reactive alkali metal – ethoxide ion pairs. The kinetic data are analyzed in terms of an ion pairing treatment that allows the calculation of second-order rate constants for free ethoxide and metal–ethoxide ion pairs; the rate constants increase in the order LiOEt < EtO−< NaOEt < CsOEt < KOEt. Thus, Li+isaninhibitorofthereactionofethoxidewith1, whiletheothermetalsionsstudiedareallcatalysts. Equilibrium constants for the association of the various metal ions with the transition state are calculated using a thermodynamic cycle, and are compared to association constants in the ground state. Consistent with the observed kinetic results, Li+ is found to stabilize the ground state more than the transition state, while Na+, K+, and Cs+ all stabilize the transition state more than the ground state. The trend in the magnitude of the transition state stabilization is interpreted in terms of interactions of the transition state with bare or solvated metal ions. It is concluded that the transition state for the reaction of 1 with ethoxide forms solvent separated ion pairs with alkali metal ions. Analogous data were available for the reaction of p-nitrophenyl diphenylphosphinate (2) with ethoxides, where Li+, Na+, K+, and Cs+ all function as catalysts, and the results are analyzed as above. In contrast to the sulfonate system, it is proposed that the phosphinate transition state forms contact ion pairs with alkali metal ions. The difference is attributed to a greater localization of negative charge in the phosphinate transition state, leading to stronger interactions with metal ions, which overcome metal ion – solvent interactions. Keywords: nucleophilic substitution at sulfur, alkali metal ion catalysis.

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