The physical chemistry characteristics of honey are directly related to floral origin and, as a result, to the production region. There are some available methods that can determine the botanical or geographical origin of honey such as the free amino acids profile analysis. This paper reports data on the free amino acid composition, determined by reversed-phase high-performance liquid chromatography UV detection on 56 honey samples from three different Argentine regions, with characteristic apiarian flora. To evaluate if the quantified amino acid could be used to verify the geographical or botanical origin of honey, statistical analyses were performed. The cluster analysis showed that samples were grouped in clusters related to sampling regions and more strictly to apiarian flora around apiaries. Each cluster appears associated, in accordance with the principal component analysis, to high or low concentrations of different amino acids.
Antioxidant capacity was evaluated by a cellular model (Saccharomyces cerevisiae) and chemical
methods (FRAP, TEAC and total phenols by Folin-Ciocalteu assay) in the hydrophilic fraction (phenolic
compounds and ascorbic acid) of orange juices (OJs) from six varieties (Midknight, Delta Seedless, Rohde
Red, Seedless, Early and clone Sambiasi), harvested in two seasons. The contents of phenolic compounds
and ascorbic acid analyzed, respectively, by UPLC and HPLC were 370.04 76.97 mg/L and
52.05 6.69 mg/100 mL. Variety and season significantly influenced (p < 0.05) composition and antioxidant
capacity. TEAC and FRAP values correlated well with individual hydrophilic compounds (R2 > 0.991) but no
correlation with cellular assay was observed. An increase in survival rates between 23% and 38% was
obtained, excepting for two varieties that showed no activity (Rohde Red and Seedless). Narirutin, naringin-d,
ferulic acid-d2, didymin, neoeriocitrin and sinapic acid hexose and caffeic acid-d1 were the phenolic
compounds which contributed to survival rates (R2 = 0.979, p < 0.01
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