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Aquacobalamin Accelerates Orange II Destruction by Peroxymonosulfate via the Transient Formation of Secocorrinoid: A Mechanistic Study.
Dereven'kov, Ilia A; Sakharova, Ekaterina S; Osokin, Vladimir S; Makarov, Sergei V.
Affiliation
  • Dereven'kov IA; Department of Food Chemistry, Ivanovo State University of Chemistry and Technology, Sheremetevskiy Str. 7, 153000 Ivanovo, Russia.
  • Sakharova ES; Department of Food Chemistry, Ivanovo State University of Chemistry and Technology, Sheremetevskiy Str. 7, 153000 Ivanovo, Russia.
  • Osokin VS; Department of Food Chemistry, Ivanovo State University of Chemistry and Technology, Sheremetevskiy Str. 7, 153000 Ivanovo, Russia.
  • Makarov SV; Department of Food Chemistry, Ivanovo State University of Chemistry and Technology, Sheremetevskiy Str. 7, 153000 Ivanovo, Russia.
Int J Mol Sci ; 23(19)2022 Oct 07.
Article in En | MEDLINE | ID: mdl-36233209
Besides its use in medicine, vitamin B12 (cobalamin) and its derivatives have found in numerous applications as catalysts. However, studies related to the activation of oxidants via cobalamin are scant. In this work, we showed how the addition of aquacobalamin (H2OCbl) accelerates the destruction of azo-dye Orange II by peroxymonosulfate (HSO5-) in aqueous solutions. In neutral and weakly alkaline media, the process is initiated by the modification of the corrin macrocycle with HSO5-, which requires the preliminary deprotonation of the aqua-ligand in H2OCbl to give hydroxocobalamin, producing 5,6-dioxo-5,6-secocobalamin or its isomer (14,15-dioxo-14,15-secocobalamin). In acidic solutions, where the concentration of hydroxocobalamin is negligible, the formation of dioxo-seco-species is not observed, and the reaction between H2OCbl and HSO5- results in slow chromophore bleaching. Using terephthalic acid, we demonstrated the formation of hydroxyl radicals in the mixture of H2OCbl with HSO5-, whereas the generation of sulfate radicals was proved by comparing the effects of ethanol and nitrobenzene on Orange II destruction using the H2OCbl/HSO5- system. The reaction mechanism includes the binding of HSO5- to the Co(III) ion of dioxo-secocobalamin, which results in its deprotonation and the labilization of the O-O bond, leading to the formation of sulfate and hydroxyl radicals which further react with Orange II.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Vitamin B 12 / Hydroxocobalamin Language: En Journal: Int J Mol Sci Year: 2022 Document type: Article Affiliation country: Rusia Country of publication: Suiza

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Vitamin B 12 / Hydroxocobalamin Language: En Journal: Int J Mol Sci Year: 2022 Document type: Article Affiliation country: Rusia Country of publication: Suiza