Potential antioxidant and chemical composition of peanut genotypes adapted to semiarid environment

Peanuts (Arachis hypogaea L.) are a widely appreciated grains throughout the world and it has been grown both in developed and developing countries. The plant is an oleaginous with high nutritional value and rich in bioactive compounds that has been cultivated in semi-arid zones - where drought prevails and it affects grain yield and composition. Thus, the aim of this work was in evaluating the chemical composition, antioxidant activity, phenolic compounds, tocopherols and fatty acids of contrasting peanut genotypes in relation to the adaptation to water limitation environments, as well as defining which attributes are able to characterize these genotypes. The adapted peanuts to water stress used here came from the breeding program of Embrapa Algodão (Campina Grande - PB). Grains with and without skin were analyzed, since their consumption can occur in both forms. In relation to the grains without the skin, the characterization of the oily fraction was made through the identification and quantification of the fatty acids and tocoferols, whereas the chemical evaluation of the phenolic fraction was performed by high-resolution mass spectrometry (LC-ESI-LTQ-Orbitrap-MS). The antioxidant activity was determined by reactive oxygen species deactivation (superoxide, hypochlorous acid and peroxyl) and on-line method (HPLC-ABTS). The results obtained through characterization of the oily and phenolic fraction of the grains without skin were further evaluated by multivariate analysis to determine which attributes were able to characterize the different peanut genotypes. In relation to the grains with skin, it was made the chemical characterization of the polyphenols by LC-ESI-LTQ-Orbitrap-MS and the evaluation of the antioxidant activity by the sequestration of the radicals DPPH and ABTS; besides, it was made the multivariate analysis of the results. In general, the samples tolerant to drought were the ones that presented greater antioxidant capacity than the others. The evaluated peanut genotypes presented 36 to 58% of monounsaturated fatty acids in relation to the total lipids in its constitution and showed oleic/linoleic ratio classified in normal and mid-oleic, which is a higher ratio for non-drought tolerant genotypes. Significant amounts of tocopherols were also found in the analyzed materials. p-coumaric acid, caffeic acid and rutin were identified and quantified by high-performance liquid chromatography. Twenty-six phenolic compounds were also identified in peanuts without skin using the high-resolution mass spectrometry technique. The peanuts with skin showed a more complex phenolic characteristc by being identified 58 compounds belonging to five different classes. The isomers of coutaric acid were the major polyphenols, followed by isorhamnetin-3-O-rutinoside and the isomers of coumaric acid. According to the results obtained and the literature, it is been identified 9 new compounds which were never found in peanuts. The variables analyzed in this study showed that it is possible to group contrasting genotypes peanuts as to drought tolerance. (AU)