Reactivity of Chalcones with 1-Hydroxymethyl Radicals

Mokrini, R., Trouillas, P., Kaouadji, M., Champavier, Y., Houée-Lévin, C., Calliste, C. A., Fagnère, C. and Duroux, J. L. Reactivity of Chalcones with 1-Hydroxymethyl Radicals. Radiat. Res. 166, 928–941 (2006). Reactivity of chalcones with reactive species issued from methanol radiolysis was investi...

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Veröffentlicht in:	Radiation research 2006-12, Vol.166 (6), p.928-941
Hauptverfasser:	Mokrini, Redouane, Trouillas, Patrick, Kaouadji, Mourad, Champavier, Yves, Houée-Lévin, Chantal, Fagnère, Catherine, Duroux, Jean-Luc
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Sprache:	eng
Schlagworte:	Alcohols Antioxidants Chalcones - chemistry Chalconoids Chemical bonding Flavonoids Free Radicals - chemistry Free Radicals - radiation effects Irradiation Methanol - chemistry Methanol - radiation effects Oxygen Protons Radiolysis Reactivity REGULAR ARTICLES Space life sciences
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creator	Mokrini, Redouane Trouillas, Patrick Kaouadji, Mourad Champavier, Yves Houée-Lévin, Chantal Fagnère, Catherine Duroux, Jean-Luc
description	Mokrini, R., Trouillas, P., Kaouadji, M., Champavier, Y., Houée-Lévin, C., Calliste, C. A., Fagnère, C. and Duroux, J. L. Reactivity of Chalcones with 1-Hydroxymethyl Radicals. Radiat. Res. 166, 928–941 (2006). Reactivity of chalcones with reactive species issued from methanol radiolysis was investigated in the absence or presence of dioxygen. Chalcones are natural antioxidants that are present in fruit and vegetables. Their degradation in the radiolysed solutions was followed by HPLC, NMR, FAB-LSIMS mass spectroscopy and analytical TLC in deaerated solution. Among the 18 identified radiolytic compounds, 16 were new. The formation of the radiolytic products was not influenced by A- and B-ring substitutions. To explain the degradation process, we thus suggested that the primary step was an attack of the α,β-double bond by the 1-hydroxymethyl radical, either at Cα or at Cβ. This step was followed by addition, cyclization or bond dissociations. Different chemical pathways were discussed that implicate the reactive species issued from methanol radiolysis. This paper highlights the relative importance of the different radical species, especially the carbon-centered radical, 1-hydroxymethyl (HMR) and the corresponding oxygen-centered isomer. In addition, an interesting unusual role of dioxygen should be noted; indeed, in the presence of dioxygen, degradation of chalcones was inhibited.
doi_str_mv	10.1667/RR0615.1
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A., Fagnère, C. and Duroux, J. L. Reactivity of Chalcones with 1-Hydroxymethyl Radicals. Radiat. Res. 166, 928–941 (2006). Reactivity of chalcones with reactive species issued from methanol radiolysis was investigated in the absence or presence of dioxygen. Chalcones are natural antioxidants that are present in fruit and vegetables. Their degradation in the radiolysed solutions was followed by HPLC, NMR, FAB-LSIMS mass spectroscopy and analytical TLC in deaerated solution. Among the 18 identified radiolytic compounds, 16 were new. The formation of the radiolytic products was not influenced by A- and B-ring substitutions. To explain the degradation process, we thus suggested that the primary step was an attack of the α,β-double bond by the 1-hydroxymethyl radical, either at Cα or at Cβ. This step was followed by addition, cyclization or bond dissociations. Different chemical pathways were discussed that implicate the reactive species issued from methanol radiolysis. This paper highlights the relative importance of the different radical species, especially the carbon-centered radical, 1-hydroxymethyl (HMR) and the corresponding oxygen-centered isomer. 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A., Fagnère, C. and Duroux, J. L. Reactivity of Chalcones with 1-Hydroxymethyl Radicals. Radiat. Res. 166, 928–941 (2006). Reactivity of chalcones with reactive species issued from methanol radiolysis was investigated in the absence or presence of dioxygen. Chalcones are natural antioxidants that are present in fruit and vegetables. Their degradation in the radiolysed solutions was followed by HPLC, NMR, FAB-LSIMS mass spectroscopy and analytical TLC in deaerated solution. Among the 18 identified radiolytic compounds, 16 were new. The formation of the radiolytic products was not influenced by A- and B-ring substitutions. To explain the degradation process, we thus suggested that the primary step was an attack of the α,β-double bond by the 1-hydroxymethyl radical, either at Cα or at Cβ. This step was followed by addition, cyclization or bond dissociations. Different chemical pathways were discussed that implicate the reactive species issued from methanol radiolysis. This paper highlights the relative importance of the different radical species, especially the carbon-centered radical, 1-hydroxymethyl (HMR) and the corresponding oxygen-centered isomer. 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subjects	Alcohols Antioxidants Chalcones - chemistry Chalconoids Chemical bonding Flavonoids Free Radicals - chemistry Free Radicals - radiation effects Irradiation Methanol - chemistry Methanol - radiation effects Oxygen Protons Radiolysis Reactivity REGULAR ARTICLES Space life sciences
title	Reactivity of Chalcones with 1-Hydroxymethyl Radicals
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