In the case of the complex at 100 μmol L−1, the value increased t

In the case of the complex at 100 μmol L−1, the value increased to 78%. The same assay was performed with β-CD alone and no significant antioxidant activity toward DPPH was observed, as described by Lu et al. (2009). It is noticeable that the effect of β-CD on RSA-DPPH was more pronounced at a low concentration Dinaciclib nmr of MGN. Several authors studied the complexation of cyclodextrins

with polyphenols with evidence of increase in their antioxidant capacity (Alvarez-Parrilla, de La Rosa, Torres-Rivas, Rodrigo-Gracia, & González-Aguiar, 2005). In the present work, it was observed that the antioxidant activity of MGN is influenced by β-CD. The antioxidant activity of MGN is increased after complexation PARP inhibitor with β-CD (at 50 and 100 μmol L−1). According to Dar et al. (2005), positions 6 and 7 (Fig. 1b) of MGN are mainly responsible for its antioxidant property. Ferreira et al. (2010) showed that the NMR signals for H-5 and H-8 (Fig. 1b) of MGN in the complexed form underwent downfield shifts from 6.8 to 6.9 δ and from 7.4 to 7.6 δ, respectively, indicating that its aromatic hydrogen signals are influenced by the presence

of β-CD in the medium, increasing the antioxidant activity of the MGN:β-CD complex. A possible rational for this enhancement is based on the following equilibrium reaction: MGN+β−CD⇌MGN:β−CDMGN+β−CD⇌MGN:β−CD The reaction between MGN and DPPH can occur in solution, i.e. mangiferin goes out of the cavity (maintaining Enzalutamide chemical structure a close proximity), undergoes the process of oxidation and then its oxidized form search stability in the cavity of β-CD. It is also worth remembering that even though the

6-OH and 7-OH are the most important groups concerning the antioxidant activity of MGN, 1-OH and 3-OH (out of the cavity) are also likely to suffer the oxidation process (Gómez-Zaleta et al., 2006). Initially, for the DPPH assays, methanol was used as a solvent. Some authors (Lucas-Abellán, Mercader-Ros, Zafrilla, Gabaldón, & Núñez-Delicado, 2011) criticize the use of large amounts of organic solvents when using this DPPH assay to evaluate antioxidant activity of substances complexed with cyclodextrin. Thus, a study of the solvent effects on the antioxidant activity of MGN was performed, using methanol–water and ethanol–water. The concentrations used were 100 μmol L−1 for MGN and 50 μmol L−1 for DPPH . Fig. 5 shows the solvent effects on the antioxidant activity of MGN, for its complex 1:1 and for GA. It is not possible to use a percentage of solvent lower than 50%, because DPPH precipitates in the medium, due to its insolubility in water, as already described by Li, Zhang, Chao, and Shuang (2009). Some authors use only organic solvent to determine the antioxidant activity of complexes with CDs, as cited by Strazisar, Andrensek, and Smidovnik (2008) and Lu et al. (2009). Lucas-Abbellán et al.

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