A computational study of the thermolysis of β‐hydroxy ketones in gas phase and in <i>m</i>‐xylene solution

Henao, Diana; Murillo, Juliana; Ruíz, Pablo; Quíjano, Jairo; Mejía, Bárbara; Castañeda, Leonardo; Notario, Rafael

doi:10.1002/poc.2940

Cited by 9 publications

(5 citation statements)

References 20 publications

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“…On the other hand, the metal chelation was modeled only in aqueous solution, because this is the relevant phase for ionic species. The M05-2X functional has been chosen because it is recommended for kinetic calculations by its developers, and its reliability has been independently confirmed by other authors. − It is among the best performing functionals for kinetic calculations in solution, and for modeling reaction energies involving free radicals . The M05 functional was chosen for the Cu involving systems because it was parametrized including both metals and nonmetals, while M05-2X has double the amount of nonlocal exchange (2×) and was parametrized mainly for nonmetals.…”

Section: Computational Detailsmentioning

confidence: 99%

N-Acetylserotonin and 6-Hydroxymelatonin against Oxidative Stress: Implications for the Overall Protection Exerted by Melatonin

et al. 2015

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The protection exerted by N-acetylserotonin (NAS) and 6-hydroxymelatonin (6OHM) against oxidative stress was investigated using the density functional theory. It was found that these compounds are better peroxyl radical scavengers than melatonin itself, Trolox, caffeine, or genistein both in lipid and aqueous solutions. The related kinetic data is provided for the first time. The solvent polarity influences not only the absolute reactivity of NAS and 6OHM toward peroxyl radicals, but also their relative scavenging activity. In addition, they both fully inhibit the oxidative effects of copper-ascorbate mixtures, and (•)OH production via the Haber-Weiss reaction, albeit the effects on the later are only partial. On the basis of comparisons with other melatonin-related compounds, it is proposed that the role of NAS and 6OHM on the overall protection exerted by melatonin against oxidative stress is mainly related to their free radical scavenging activities. Moreover, they increase such protection. The role of the phenol moiety on such activity is demonstrated.

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Section: Computational Detailsmentioning

confidence: 99%

N-Acetylserotonin and 6-Hydroxymelatonin against Oxidative Stress: Implications for the Overall Protection Exerted by Melatonin

et al. 2015

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“…The M05-2X functional was chosen because it is recommended for kinetic calculations by their developers, 35 and it has been successfully used by several independent authors to that purpose. [36][37][38][39][40][41][42][43] In a previous benchmark study it has also been demonstrated to be one of the best performing functionals for kinetic calculations of radicalmolecule reactions in solution. 44 The SMD solvent model has been chosen since its performance for describing solvation energies of both neutral and ionic species, in aqueous and also in non-aqueous solvents, is better than that achieved with other solvent models.…”

Section: Computational Detailsmentioning

confidence: 99%

A combined experimental–theoretical study of the acid–base behavior of mangiferin: implications for its antioxidant activity

et al. 2016

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“…All the electronic calculations were carried out by means of the Gaussian 09 package in the framework of DFT and TD-DFT. The exchange-correlation functional used for geometry optimizations and frequency calculations is M05-2X (global hybrid functional, with 56% HF exchange), as it is recommended for kinetic calculations by its developers, and its reliability has been independently confirmed by other authors. − The standard 6-311+G** basis set of Pople and co-workers was used for all the atoms . The M05-2X functional has been chosen because it is among the best performing functionals for kinetic calculations in solutions and for calculating reaction energies involving free radicals .…”

Section: Computational Detailsmentioning

confidence: 99%

A Boron-Containing Compound Acting on Multiple Targets Against Alzheimer’s Disease. Insights from Ab Initio and Molecular Dynamics Simulations

Ritacca

Ritacco

Dabbish

et al. 2021

J. Chem. Inf. Model.

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Given the multifactorial nature and pathogenesis of Alzheimer's disease, therapeutic strategies are addressed to combine the benefits of every single-target drug into a sole molecule. Quantum mechanics and molecular dynamics (MD) methods were employed here to investigate the multitarget action of a boron-containing compound against Alzheimer's disease. The antioxidant activity as a radical scavenger and metal chelator was explored by means of density functional theory. The most plausible radical scavenger mechanisms, which are hydrogen transfer, radical adduct formation, and single-electron transfer in aqueous and lipid environments, were fully examined. Metal chelation ability was investigated by considering the complexation of Cu(II) ion, one of the metals that in excess can even catalyze the β-amyloid (Aβ) aggregation. The most probable complexes in the physiological environment were identified by considering both the stabilization energy and the shift of the λ max induced by the complexation. The excellent capability to counteract Aβ aggregation was explored by performing MD simulations on protein−ligand adducts, and the activity was compared with that of curcumin, chosen as a reference.

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A computational study of the thermolysis of β‐hydroxy ketones in gas phase and in m‐xylene solution

Cited by 9 publications

References 20 publications

N-Acetylserotonin and 6-Hydroxymelatonin against Oxidative Stress: Implications for the Overall Protection Exerted by Melatonin

N-Acetylserotonin and 6-Hydroxymelatonin against Oxidative Stress: Implications for the Overall Protection Exerted by Melatonin

A combined experimental–theoretical study of the acid–base behavior of mangiferin: implications for its antioxidant activity

A Boron-Containing Compound Acting on Multiple Targets Against Alzheimer’s Disease. Insights from Ab Initio and Molecular Dynamics Simulations

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