Faruk Nome scite author profile

The phosphorylation of imidazole by two activated phosphate diesters and a triester gives phosphorylimidazole derivatives that are stable enough in aqueous solution to be observed and identified by ESI-MS/MS and NMR. Half-lives ranging from hours to days (in the case of the monoethyl ester) show that it is possible to design molecules with variable half-lives with potential to be used for biological intervention experiments as possible inhibitors of biosignaling processes or as haptens for the generation of antibodies.

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Imidazole-Functionalized Pillar[5]arenes: Highly Reactive and Selective Supramolecular Artificial Enzymes

Wanderlind

et al. 2018

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Phosphate diester hydrolysis is strongly accelerated, by a factor of 104, in the presence of artificial enzymes especially designed in the light of spatiotemporal concepts, anchoring imidazoles in a pillar[5]arene matrix. Host:guest complexes cleave the aryl phosphodiesters via nucleophilic attack of the properly placed imidazole moieties with the release of 2,4-dinitrophenolate and the formation of unstable phosphoroamidates that regenerate the catalyst and 2,4-dinitrophenyl phosphate. Comparison of the reactivity of P5IMD with that of imidazole shows a 270-fold increase. Asymmetrical diesters allow the formation of two different docking structures of the host:guest complex, with just one being reactive and allowing selectivity increases of 102-fold, compared with the reaction in bulk water of the same asymmetrical diesters.

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GPx-Like Activity of Selenides and Selenoxides: Experimental Evidence for the Involvement of Hydroxy Perhydroxy Selenane as the Active Species

et al. 2011

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The reaction mechanism of the GPx-like oxidation of PhSH with H(2)O(2) catalyzed by selenoxides proceeds via formation of the hydroxy perhydroxy selenane, which is a stronger oxidizing agent than selenoxide. A hydroxy perhydroxy selenane intermediate was observed by electrospray ionization mass spectrometry and (77)Se NMR spectroscopy in reactions of selenoxide 8 with H(2)O(2).The initial velocity of oxidation of PhSH by H(2)O(2) with selenoxide 8 is 4 orders of magnitude higher than that of 8 without peroxide. Selenoxide 8 is not reduced to selenide 6 by PhSH in the presence of H(2)O(2). While electronic substituent effects have minimal impact on the catalytic performance of selenoxides, chelating groups increase the rate of catalysis.

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Faruk Nome

Ion binding and reactivity at charged aqueous interfaces

Partitioning behavior of solutes eluted with micellar mobile phases in liquid chromatography

Phosphorylimidazole Derivatives: Potentially Biosignaling Molecules

Imidazole-Functionalized Pillar[5]arenes: Highly Reactive and Selective Supramolecular Artificial Enzymes

GPx-Like Activity of Selenides and Selenoxides: Experimental Evidence for the Involvement of Hydroxy Perhydroxy Selenane as the Active Species

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