In Table 2 there are distinct values of the antioxidant potential

In Table 2 there are distinct values of the antioxidant potential of the broth samples when three genotypes are compared with the same preparation methods and also when compared with the same genotype prepared in different ways. It was found that the ability

to capture free radicals in broth samples is associated with the analyzed bean genotype and the used preparation method. The total phenolics in the broths (Table 2), the highest values in all the preparation methods were observed in the BAF 55, which may be explained by the elevated tannin concentration, specially in soaking samples. Since the tannin is a phenolic compound (Stanley, 1992), it interfered directly on the total phenolic values. In the IAPAR-81 bean (carioca group) the tannin was detected as a trace element

(Table 2), its result was expected due to the lighter seed pigmentation in this genotype (Coelho, Bellato, Doramapimod price et al., 2007). Wang, Hatcher, MG-132 cell line Tyler, Toews, and Gawalko (2009) verified the direct interaction between bean color, independent of showing light and/or dark colors, and the cooking with and without previous soaking in all tested genotypes, significantly reduced tannin contents (p < 0.001). When the broths were analyzed, it was found the highest phytate contents in BAF 55, of 1.4% (Table 2) which did not pass by previous soaking (CWS). This differential response may be due to the genotype effect, which had greater leaching of phytate from the bean to Dynein the broth and can be related to increased susceptibility of this genotype to phytate hydrolysis. Table 3 presents Pearson’s correlation coefficient between the analyzed variables, where a positive correlation between tannin and total phenolic concentration in beans (p < 0.0001) was found. The antioxidant activity in grains was not significantly correlated with total phenolics (p = 0.751). Contradicting these results, Boateng, Vergheses, Walker, and Ogutu (2008) found a positive correlation between the antioxidant activity and the total phenolic content (p < 0.05) analyzing three

different genotypes of raw and cooked beans, which may be explained by the use of beans and broths together to perform the analysis increasing the concentration of these compounds in the samples, because there were not losses of nutrients to the grains or to the broths. In another analysis ( Espinosa-Alonso et al., 2006) it was also verified the increase of a positively correlated antioxidant activity (p < 0.05) with the increase of phenolic compounds in fruits and vegetables. Another positive correlation found in the beans (Table 3) was between total phenolic levels and phytate (p = 0.028), indicating that as the phenolic concentration gets higher, the phytate content elevates as well.

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