Recebido para publicação em 03/09/2013 Aceito para publicação em 28/05/2014 RESUMO. O fruto de noni (Morinda citrifolia L.) é consumido há milênios na medicina popular polinésia devido aos benefícios nutricionais e terapêuticos. O consumo de noni em outros países, incluindo o Brasil, cresceu vertiginosamente nos últimos anos em decorrência das atividades biológicas atribuídas a ingestão do suco da fruta, principalmente pela propriedade anticâncer. Contudo, a composição química da planta, que está relacionada com suas propriedades biológicas, é determinada pelo seu local de origem, e por influência do clima e do solo onde é cultivada. Neste sentido, este trabalho teve como objetivo analisar a polpa extraída de frutos maduros de noni cultivados em Maringá-PR. A análise da polpa in natura apresentou 89,16% ABSTRACT: Proximate composition, bioactive compounds and antioxidant activity of fruits of Morinda citrifolia L. (noni) cultivated in Paraná, Brazil. The noni fruit (Morinda citrifolia L.) has been consumed for millennia in the Polynesian folk medicine because of its nutritional and therapeutic benefits. The consumption of the noni fruit in other countries, including Brazil, has increased in recent years because of the biological activities attributed to the ingestion of noni juice, especially the anticancer effect. However, the chemical composition of the plant, which is related to its biological properties, is determined by its geographical origin and is influenced by climate and soil. Therefore, this study aimed to analyze the pulp extracted from noni fruit grown in Maringá, state of Paraná, Brazil. The fresh pulp analysis showed 89.16% of moisture, 0.75% of ash, 2.10% of protein, 2.19% of fat and 5.81% of carbohydrates. The bioactive compounds analyzed were anthocyanins (1.39 mg.100 g -1 pulp), yellow flavonoids (13.01 mg.100 g -1 pulp), carotenoids (0.45 mg.100 g -1 pulp) and vitamin C (12.16 mg.100 g -1 pulp). For the analysis of total phenols and antioxidant activity, different extracts were prepared. The highest total phenolic contents were found in the aqueous extract (1143.56 mg EAG.100 g -1 ), followed by the ethanol extract (966.96 mg EAG.100 g -1 ), methanol/acetone extract (820.88 mg EAG.100 g -1 ) and methanol extract (306.33 mg EAG.100 g -1 ). The results for the antioxidant capacity were determined by the EC 50 , which is concentration of extract required to reduce 50% of the DPPH radical. The best results for the antioxidant capacity were found in the methanol/ acetone extract (EC 50 of 25.18 mg.mL -1 ) and in the methanol extract (EC 50 of 25.96 mg.mL -1 ). The antioxidant activity of the fruit may be related to its vitamin C content, since the extracts with lower total phenolic content were those that had lower EC 50 values.
