moschata ‘Menina Brasileira’ and C maxima ‘Exposição’ pumpkin pu

moschata ‘Menina Brasileira’ and C. maxima ‘Exposição’ pumpkin purees, respectively. For the

C. moschata ‘Menina Brasileira’ samples, the major carotenoids were Stem Cell Compound Library ic50 all-trans-β-carotene and α-carotene, with lower amounts of ζ-carotene, violaxanthin and lutein. In the samples of C. maxima ‘Exposição’, the major carotenoid was all-trans-β-carotene, with good amounts of violaxanthin and lutein in raw pumpkins. Although they are still considered interesting when compared with other plant species, concentrations of carotenoids in raw pumpkins are lower than those reported in other studies regarding the same species and varieties of pumpkins. Azevedo-Meleiro and Rodriguez-Amaya (2007) also noted the all-trans-β-carotene and α-carotene as the major carotenoids in C. moschata ‘Menina Brasileira’ pumpkins, but with higher concentrations, 66.7 ± 9.1 μg/g to all-trans-β-carotene and 26.8 ± 5.1 μg/g to α-carotene. In the C. maxima ‘Exposição’ species, authors noted violaxanthin (20.6 ± 3.3 μg/g)

find more as its major carotenoid. The all-trans-β-carotene was the second in concentration, 15.4 ± 4.2 vs 13.38 ± 2.25 μg/g detected in this present study, where it was the major carotenoid. Indeed, the concentration ranges cited in literature are wide. Rodriguez-Amaya et al. (2008) detected concentrations of 14–79 μg/g of all-trans-β-carotene and 8.3–42 μg/g of α-carotene for C. moschata ‘Menina Brasileira’ pumpkins, and 3.1–28 μg/g of all-trans-β-carotene for C. maxima ‘Exposição’

pumpkins. Major qualitative and quantitative differences in carotenoids, even within the same species and variety, can be noted depending on the cultivar, Rebamipide differences in growing environment, such as temperature, nutrient availability, soil, intensity of sunlight, ripening stage, post harvesting, amongst other factors that can significantly affect the biosynthesis and metabolism of carotenoids in vegetables ( Cazzonelli and Pogson, 2010 and Rodriguez-Amaya, 1999). The studies mentioned above, for example, were conducted with pumpkins harvested in the northeast and southeast regions of Brazil, where the average temperatures are higher than those in the southern region of the country, where the pumpkins used in this study were cultivated. Regarding the effect of processing on the carotenoids, in almost all the cases where a decrease in the concentrations was noted during processing, they occurred mainly in the cooking stage. For instance, for the samples of the C. moschata ‘Menina Brasileira’ pumpkins, besides the disappearance of violaxanthin there was also a decrease of 23.7% in ζ-carotene after cooking. Even after cooking, there was a decrease of 17.9% and of 16.9% in α-carotene and all-trans-β-carotene, respectively, but the concentrations of these carotenes in cooked pumpkins were not considered significantly different (P ⩽ 0.05) from those obtained for raw pumpkins.

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