Large segments of the Brazilian population
still suffer from malnutrition
and diet-related illnesses. In contrast, many native fruits have biodiversity
and are underexploited sources of bioactive compounds and unknown
to consumers. The phytochemical composition of nine underexplored
Brazilian fruits
was determined. Carotenoids and anthocyanins were identified and quantified
by high performance liquid chromatography-photodiode array-tandem
mass spectrometry (HPLC-PDA-MS/MS), and phenolic compounds and iridoids
were identified by flow injection analysis-electrospray-ion trap-tandem
mass spectrometry (FIA-ESI-IT-MS/MS); in total, 84 compounds were
identified. In addition, the chemical structure and pathway mass fragmentation
of new iridoids from jenipapo (Genipa americana)
and jatoba (Hymenae coubaril) are proposed. The highest
level of carotenoids was registered in pequi (Caryocar brasiliense; 10156.21 μg/100 g edible fraction), while the major total
phenolic content was found in cambuci (Campomanesia coubaril; 221.70 mg GAE/100 g). Anthocyanins were quantified in jabuticaba
(Plinia cauliflora; 45.5 mg/100 g) and pitanga (Eugenia uniflora; 81.0 mg/100 g). Our study illustrates
the chemical biodiversity of underexplored fruits from Brazil, supporting
the identification of new compounds and encouraging the study of more
food matrixes not yet investigated.
A more sustainable extractive approach to obtain carotenoids from an underexplored tropical biomass was developed by applying ethanolic-based ionic liquid solutions. This process is, not only more efficient and biocompatible, but also more economic and environmentally friendly.
In this work, a process
for the extraction and purification of carotenoids from the fruit Bactris
gasipaes was developed. Ethanolic and aqueous solutions
of ionic liquids (ILs) and surfactants were evaluated on the extraction
of these pigments. Thus, we developed an optimized sustainable downstream
process mediated by the best solvent with further isolation of the
carotenoids and the recyclability of the IL used. The process was
characterized not only in terms of efficiency but also regarding its
environmental impact. The recyclability of the solvents as well as
the high efficiency (maximum yield of extraction of carotenoids =
88.7 ± 0.9 μgcarotenoids·gdried biomass
–1) and the low environmental impact of the integrated
process developed in this work were demonstrated. In the end, in order
to incorporate functional activity for an alternative food-packaging
material, carotenoids were successfully applied on the preparation
of chitosan-based films with excellent results regarding their mechanical
parameters and antioxidant activity.
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