Ali Zahraei scite author profile

The electrochemical water-oxidation reaction usually requires a catalyst to reduce the overpotential and Earth-abundant catalysts, like MnO2, are attracting much attention. Here we use chemometric analysis, EPR and UV-Vis spectroscopies to track Mn(II) and MnO4(-) byproducts to the reaction of a MnO2 film in the presence of cerium(IV) ammonium nitrate. Permanganate ion is involved in at least two key reactions: it may oxidize water to O2 or can combine with Mn(II) to remake MnO2 solid. We propose mechanisms for water oxidation and present a self-healing process for this reaction.

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Age‐dependent changes in glutathione metabolism pathways in the lens: New insights into therapeutic strategies to prevent cataract formation—A review

Lim

Grey

Zahraei

et al. 2020

Clinical Exper Ophthalmology

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Ocular tissues possess a robust antioxidant defence system to minimize oxidative stress and preserve tissue structure and function. Glutathione (GSH) is a powerful antioxidant and in the lens exists at unusually high concentrations. However, with advancing age, GSH levels deplete specifically in the lens centre initiating a chain of biochemical events that ultimately result in protein aggregation, light scattering and age-related nuclear cataract. However, antioxidant supplementation has been shown to be ineffective in preventing or delaying cataract indicating that a better understanding of the delivery, uptake and metabolism of GSH in the different regions of the lens is required. This information is essential for the development of scientifically informed approaches that target the delivery of GSH to the lens nucleus, the region of the lens most affected by age-related cataract.

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Synthesis and catalytic activity of carbon supported copper nanoparticles for the synthesis of aryl nitriles and 1,2,3-triazoles

et al. 2015

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FTICR mass spectrometry-based multivariate analysis to explore distinctive metabolites and metabolic pathways: A comprehensive bioanalytical strategy toward time-course metabolic profiling of Thymus vulgaris plants responding to drought stress

et al. 2020

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Mapping glucose metabolites in the normal bovine lens: Evaluation and optimisation of a matrix‐assisted laser desorption/ionisation imaging mass spectrometry method

et al. 2020

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The spatial resolution of microdissection-based analytical methods to detect ocular lens glucose uptake, transport and metabolism are poor, whereas the multiplexing capability of fluorescence microscopy-based approaches to simultaneously detect multiple glucose metabolites is limited in comparison with mass spectrometry-based methods. To better understand lens glucose transport and metabolism, a more highly spatially resolved technique that maintains the fragile ocular lens tissue is required. In this study, a sample preparation method for matrix-assisted laser desorption/ionisation imaging mass spectrometry (MALDI IMS) analysis of ocular lens glucose uptake and metabolism has been evaluated and optimised. Matrix choice, tissue preparation and normalisation strategy were determined using negative ion mode MALDI-Fourier transform-ion cyclotron resonance MS of bovine lens tissue and validation performed using gas chromatography-MS. An internal standard was applied concurrently with N-(1-naphthyl)ethylenediamine dihydrochloride (NEDC) matrix to limit cracking of the fresh frozen lens tissue sections. MALDI IMS data were collected at a variety of spatial resolutions to detect both endogenous lens metabolites and stable isotopically labelled glucose introduced by ex vivo lens culture. Using this approach, initial steps in important metabolic processes that are linked to diabetic cataract formation were spatially mapped in the bovine lens. In the future, this method can be applied to study the dynamics of glucose uptake, transport and metabolic flux to aid in the study of diabetic lens cataract pathophysiology.

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Applications of stable isotopes in MALDI imaging: current approaches and an eye on the future

et al. 2021

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Matrix-assisted laser desorption/ionisation-imaging mass spectrometry (MALDI-IMS) is now an established imaging modality with particular utility in the study of biological, biomedical and pathological processes. In the first instance, the use of stable isotopically labelled (SIL) compounds in MALDI-IMS has addressed technical barriers to increase the accuracy and versatility of this technique. This has undoubtedly enhanced our ability to interpret the two-dimensional ion intensity distributions produced from biological tissue sections. Furthermore, studies using delivery of SIL compounds to live tissues have begun to decipher cell, tissue and inter-tissue metabolism while maintaining spatial resolution. Here, we review both the technical and biological applications of SIL compounds in MALDI-IMS, before using the uptake and metabolism of glucose in bovine ocular lens tissue to illustrate the current limitations of SIL compound use in MALDI-IMS. Finally, we highlight recent instrumentation advances that may further enhance our ability to use SIL compounds in MALDI-IMS to understand biological and pathological processes.

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Synthesis, characterization, antibacterial and catalytic activity of a nanopolymer supported copper(ii) complex as a highly active and recyclable catalyst for the formamidation of arylboronic acids under aerobic conditions

et al. 2014

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Self-healing for nanolayered manganese oxides in the presence of cerium(iv) ammonium nitrate: new findings

et al. 2015

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The self-healing reactions for metal oxides are among the most important reactions. For Mn oxides in the presence of cerium(IV) ammonium nitrate, Mn(II) and MnO 4 À combine and heal the Mn oxide. In the reaction, Mn(II) is formed from the reductive dissolution of the Mn oxide or by disproportionation of Mn(III) on the surface of the oxide. This Mn(II) is then oxidized by cerium(IV) ammonium nitrate to MnO 4 À . The MnO 4 À in the presence of Mn oxide oxidizes water or in a second pathway is reduced by Mn(II) to form Mn oxide. Here, we use the multivariate curve resolution-alternative least squares method for the first time to analyze spectroscopic data and obtain concentration profiles of cerium(IV) ammonium nitrate and MnO 4 À during the reaction under different conditions.

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Ali Zahraei

Mechanism, decomposition pathway and new evidence for self-healing of manganese oxides as efficient water oxidizing catalysts: new insights

Age‐dependent changes in glutathione metabolism pathways in the lens: New insights into therapeutic strategies to prevent cataract formation—A review

Synthesis and catalytic activity of carbon supported copper nanoparticles for the synthesis of aryl nitriles and 1,2,3-triazoles

FTICR mass spectrometry-based multivariate analysis to explore distinctive metabolites and metabolic pathways: A comprehensive bioanalytical strategy toward time-course metabolic profiling of Thymus vulgaris plants responding to drought stress

Mapping glucose metabolites in the normal bovine lens: Evaluation and optimisation of a matrix‐assisted laser desorption/ionisation imaging mass spectrometry method

Applications of stable isotopes in MALDI imaging: current approaches and an eye on the future

Synthesis, characterization, antibacterial and catalytic activity of a nanopolymer supported copper(ii) complex as a highly active and recyclable catalyst for the formamidation of arylboronic acids under aerobic conditions

Self-healing for nanolayered manganese oxides in the presence of cerium(iv) ammonium nitrate: new findings

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