Synthesis of aqueous magnetic liquids by surface complexation of maghemite nanoparticles

Tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL) is a member of the TNF cytokine superfamily. TRAIL is able to induce apoptosis through engagement of its death receptors DR4 and DR5 in a wide variety of tumor cells while sparing vital normal cells. This makes it a promising agent for cancer therapy. Here, we present two different ways of covalently grafting TRAIL onto maghemite nanoparticles (NPs): (a) by using carboxylic acid groups of the protein to graft it onto maghemite NPs previously functionalized with amino groups, and (b) by using the amino functions of the protein to graft it onto NPs functionalized with carboxylic acid groups. The two resulting nanovectors, NH-TRAIL@NPs-CO and CO-TRAIL@NPs-NH, were thoroughly characterized. Biological studies performed on human breast and lung carcinoma cells (MDA-MB-231 and H1703 cell lines) established these nanovectors are potential agents for cancer therapy. The pro-apoptotic effect is somewhat greater for CO-TRAIL@NPs-NH than NH-TRAIL@NPs-CO, as evidenced by viability studies and apoptosis analysis. A computational study indicated that regardless of whether TRAIL is attached to NPs through an acid or an amino group, DR4 recognition is not affected in either case.

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Interaction of cyclosporin A molecules with alkali and transition metal atoms on Cu(111)

Chemical Communications ◽

10.1039/d1cc00125f ◽

2021 ◽

Vol 57 (23) ◽

pp. 2923-2926

Author(s):

Yuanyuan Guo ◽

Li Jiang ◽

Ari Paavo Seitsonen ◽

Bodong Zhang ◽

Joachim Reichert ◽

...

Keyword(s):

Transition Metal ◽

Cyclosporin A ◽

Surface Complexation ◽

Metal Atoms ◽

Transition Metal Atoms ◽

Natural Peptide

Discriminatory on-surface complexation by the natural peptide CsA: up to two K atoms within its macrocycle, Co to residue 9 and the macrocycle, Fe non-selectively.

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The proximity effect on semiconducting mineral surfaces: a new aspect of mineral surface reactivity and surface complexation theory?

Geochimica et Cosmochimica Acta ◽

10.1016/s0016-7037(01)00624-x ◽

2001 ◽

Vol 65 (16) ◽

pp. 2641-2649 ◽

Cited By ~ 82

Author(s):

Udo Becker ◽

Kevin M. Rosso ◽

Michael F. Hochella

Keyword(s):

Proximity Effect ◽

Surface Complexation ◽

Surface Reactivity ◽

Mineral Surfaces ◽

Mineral Surface

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Ultrafast and highly capture of U(VI) by hierarchical mesoporous carbon

Radiochimica Acta ◽

10.1515/ract-2019-3233 ◽

2020 ◽

Vol 108 (9) ◽

pp. 717-726 ◽

Cited By ~ 1

Author(s):

Han Guo ◽

Ying Li ◽

Huihui Wang ◽

Ning Zhang ◽

Alhadi Ishag ◽

...

Keyword(s):

Mesoporous Carbon ◽

Surface Complexation ◽

Batch Adsorption ◽

Layer Model ◽

Environmental Cleanup ◽

Triple Layer ◽

High Efficient ◽

Diffuse Layer Model ◽

Capture Capacity ◽

Inner Sphere Complexes

AbstractIn this study, the hierarchical mesoporous carbon (HMC) was synthesized by the hydrothermal method. The batch adsorption experiments showed that HMC exhibited the ultrafast equilibrium fate (80 % U(VI) capture efficiency within 5 min), high UO22+ capture capacity (210 mg/g, pH = 4.5) and well recyclability. The investigations of XPS techniques indicated the oxygen-containing functional groups were responsible for high efficient UO22+ adsorption. The pH-dependent adsorption was simulated by three surface complexation modellings, revealing that UO22+ adsorption on HMC was excellently fitted by triple layer model using two inner-sphere complexes (i. e. SOUO2+ and SOUO2(CO3)35− species) compared to constant capacitance model and diffuse layer model. These findings are crucial for expanding actual applications of HMC towards the removal of radionuclides under environmental cleanup.

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ChemInform Abstract: Photochemical H2Generation by Visible Light. Sensitization of TiO2Particles by Surface Complexation with 8-Hydroxyquinoline.

Chemischer Informationsdienst ◽

10.1002/chin.198347024 ◽

1983 ◽

Vol 14 (47) ◽

Author(s):

V. H. HOULDING ◽

M. GRAETZEL

Keyword(s):

Visible Light ◽

Surface Complexation

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Comparison of a Non Electrostatic Surface Complexation Model and Surface Phase Theories for Prediction of Future Sorption Properties.

MRS Proceedings ◽

10.1557/proc-824-cc7.2 ◽

2004 ◽

Vol 824 ◽

Author(s):

Allan T. Emrén ◽

Anna-Maria Jacobsson

Keyword(s):

Aqueous Solution ◽

Chemical Potential ◽

Surface Complexation ◽

Sorption Properties ◽

Phase Method ◽

Detailed Knowledge ◽

Surface Phase ◽

Surface Complexation Model ◽

Advantages And Disadvantages ◽

The One

AbstractIn performance assessments, sorption of radionuclides dissolved in groundwater is mostly handled by the use of fixed Kd values. It has been well known that this approach is unsatisfying. Only during the last few years, however, tools have become available that make it possible to predict the actual Kd value in an aqueous solution that differs from the one in which the sorption properties were measured.One such approach is surface complexation (SC) that gives a detailed knowledge of the sorption properties. In SC, one tries to find what kinds of sorbed species are available on the surface and the thermodynamics for their formation from species in the bulk aqueous solution. Recently, a different approach, surface phase method (SP), has been developed. In SP, a thin layer including the surface is treated as a separate phase. In the bulk aqueous solution, the surface phase is treated as a virtual component, and from the chemical potential of this component, the sorption properties can be found.In the paper, we compare advantages and disadvantages of the two kinds of models. We also investigate the differences in predicted sorption properties of a number of radionuclides (Co, Np, Th and U). Furthermore, we discuss under which circumstances, one approach or the other is preferable.

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Heterogeneity of population of microorganisms grown in presence of iron oxide maghemite nanoparticles

EPJ Web of Conferences ◽

10.1051/epjconf/201818510002 ◽

2018 ◽

Vol 185 ◽

pp. 10002 ◽

Cited By ~ 2

Author(s):

Tatyana P. Denisova ◽

Elena V. Simonova ◽

Lubov A. Kokorina ◽

Evgenia N. Maximova ◽

Oleg M. Samatov ◽

...

Keyword(s):

Iron Oxide ◽

Intercellular Communication ◽

Maghemite Nanoparticles ◽

Cultivation Temperature ◽

Large White ◽

Laser Target ◽

Water Based

In this work γ-Fe2O3 MNPs were obtained by laser target evaporation and water based suspensions were prepared. Maximum permissive dose of iron in water (MPD) is 0.3 mg/L. It was found that 100 MPD dose of iron induces formation of non-typical colonies after 72 or 96 hours exposition: against a background of small black colonies large white colonies appeared due to a disruption in tyrosine synthesis. Multiple re-cloning of the white colonies grown with MNPs showed that they retained their properties both under standard conditions (temperature of 24 °C) and at the temperatures up to 37o C. E.nigrum grown with MNPs demonstrated very scant extension of small colonies at the cultivation temperature of 24o C, their growth was completely blocked at 37°C. Significant changes in the structure of the population were noted. First of all, large cells with pronounced aggregation were observed among the black colonies. These aggregates consisted of large cells connected to each other by matrix. In the white colonies the appearance of very long threadlike cells connecting different groups of the cells establishing an intercellular communication was evident. Fe2O3 MNPs induce an increase in the heterogeneity of the population, expressed as a change in morpho-physiological states.

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