The h ab (hue) and Cab∗ (chroma) values were calculated according to Eqs. (1) and (2), respectively. equation(1) hab=arctanb∗a∗ equation(2) Cab∗=(a∗)2+(b∗)2 Steady-state illumination was utilised for the excitation of the photosensitizer MB and formation of 1O2, the excitation source being a 150 W filament xenon lamp coupled to a red cut-off filter, allowing only the passage of light with wavelengths longer than 600 nm. The method of oxygen radical absorbance capacity
(ORAC) for the measurement of peroxyl radical scavenger capacity was carried out in a microplate reader Synergy Mx (Bio-Tek Instruments, Winooski, USA). All chromatographic analysis were carried out on a Shimadzu HPLC (LC-20AD model, Kyoto, Japan) equipped with quaternary pump system, on GDC-0973 research buy Pictilisib in vivo line degasser and Rheodyne injection valve of 20 μl, connected in series to a diode array detector (DAD) (Shimadzu, SPD-M20A model) and a mass spectrometer
(MS) with ion trap analyzer, equipped with electrospray (ESI) and atmospheric pressure chemical ionisation (APCI) interfaces (Bruker Daltonics, Esquire 4000 model, Bremen, Germany). Anthocyanins were exhaustively extracted from 3.0 g of homogenised fruit using ethanol containing 1% HCl, while the other phenolic compounds were exhaustively extracted from 10.0 g, with methanol/water (8:2, v/v). Besides these two extracts, a third extract rich in anthocyanins was obtained with ethanol containing 5% H3PO4 as acidifying agent, called functional extract (FE), which was used to evaluate the antioxidant properties. This solvent combination was chosen due to its extractability capacity and/or acceptability for use in food products. All extracts (anthocyanins, phenolic compounds and FE) were obtained by stirring in a Metabo GE700 homogenizer (Nürtingen, Germany), followed by vacuum filtration. The extracts were concentrated in a rotary evaporator (T < 35 °C) and stored under nitrogen, at −36 °C. All extraction procedures were performed in duplicate. Before HPLC-DAD-MS/MS analysis, the anthocyanin extract was partially purified
on a XAD-7 column Ureohydrolase (Sigma) in order to remove sugars. The carotenoids were exhaustively extracted from 15.0 g of homogenised fruit (De Rosso & Mercadante, 2007a). The carotenoids present in the FE were isolated using liquid–liquid extraction with ethyl acetate. Both extracts were submitted to complete solvent evaporation in rotary evaporator (T < 40 °C), and stored under nitrogen at −36 °C. Ascorbic acid extraction was carried out with 10.0 g of fruit or 10 mL of FE stirring with 30 mL of 1% oxalic acid aqueous solution, filtering, and additional washing of the sample with 10 mL of the extraction solution. The extract was transferred to a 50 mL volumetric flask, the volume was completed with the same solution used for extraction, and immediately submitted to HPLC-DAD analysis.