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dc.creatorBretz, Raphael Resende-
dc.creatorCastro, Alexandre A. de-
dc.creatorFerreira, Igor F. Lara-
dc.creatorRamalho, Teodorico de Castro-
dc.creatorSilva, Maria Cristina-
dc.date.accessioned2020-09-24T20:48:13Z-
dc.date.available2020-09-24T20:48:13Z-
dc.date.issued2020-10-
dc.identifier.citationBRETZ, R. R. et al. Experimental and theoretical affinity and catalysis studies between halogenated phenols and peroxidases: understanding the bioremediation potential. Ecotoxicology and Environmental Safety, [S. I.], v. 202, Oct. 2020. DOI: https://doi.org/10.1016/j.ecoenv.2020.110895.pt_BR
dc.identifier.urihttps://doi.org/10.1016/j.ecoenv.2020.110895pt_BR
dc.identifier.urihttp://repositorio.ufla.br/jspui/handle/1/43194-
dc.description.abstractHalogenated phenols, such as 2,4-dichlorophenol (2,4-DCP) and 4-bromophenol (4-BP) are pollutants generated by a various industrial sectors like chemical, dye, paper bleaching, pharmaceuticals or in an agriculture as pesticides. The use of Horseradish peroxidase (HRP) in the halogenated phenols treatment has already been mentioned, but it is not well understood how the different phenolic substrates can bind in the peroxidase active site nor how these specific interactions can influence in the bioremediation potential. In this work, different removal efficiencies were obtained for phenolic compounds investigated using HRP as catalyst (93.87 and 59.19% to 4BP and 2,4 DCP, respectively). Thus, to rationalize this result based on the interactions of phenols with active center of HRP, we combine computational and experimental methodologies. The theoretical approaches utilized include density functional theory (DFT) calculations, docking simulation and quantum mechanics/molecular mechanics (QM/MM) technique. Michaelis Menten constant (Km) obtained through experimental methodologies were 2.3 and 0.95 mM to 2,4-DCP and 4-BP, respectively, while the specificity constant (Kcat/Km) found was 1.44 mM−1 s−1 and 0.62 mM−1 s−1 for 4-BP and 2,4-DCP, respectively. The experimental parameters appointed to the highest affinity of HRP to 4-BP. According to the molecular docking calculations, both ligands have shown stabilizing intermolecular interaction energies within the HRP active site, however, the 4-BP showed more stabilizing interaction energy (−53.00 kcal mol−1) than 2,4-dichlorophenol (−49.23 kcal mol−1). Besides that, oxidative mechanism of 4-BP and 2,4-DCP was investigated by the hybrid QM/MM approach. This study showed that the lowest activation energy values for transition states investigated were obtained for 4-BP. Therefore, by theoretical approach, the compound 4-BP showed the more stabilizing interaction and activation energy values related to the interaction within the enzyme and the oxidative reaction mechanism, respectively, which corroborates with experimental parameters obtained. The combination between experimental and theoretical approaches was essential to understand how the degradation potential of the HRP enzyme depends on the interactions between substrate and the active center cavity of the enzyme.pt_BR
dc.languageenpt_BR
dc.publisherElsevierpt_BR
dc.rightsrestrictAccesspt_BR
dc.sourceEcotoxicology and Environmental Safetypt_BR
dc.subjectHorseradish peroxidase (HRP)pt_BR
dc.subjectHalogenated phenolspt_BR
dc.subjectExperimental techniquespt_BR
dc.subjectTheoretical calculationspt_BR
dc.subjectPeroxidase de rábanopt_BR
dc.subjectFenóis halogenadospt_BR
dc.subjectTécnicas experimentaispt_BR
dc.subjectBiorremediaçãopt_BR
dc.titleExperimental and theoretical affinity and catalysis studies between halogenated phenols and peroxidases: understanding the bioremediation potentialpt_BR
dc.typeArtigopt_BR
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