The production of compounds via enzymatic esterification has great scientific and technological interest due to the several inconveniences related to acid catalysis, mainly by these systems do not fit to the concept of "green chemistry". Besides, natural products as clove oil present compounds with excellent biological potential. Bioactives compounds are often toxic at high doses. The evaluation of lethality in a less complex animal organism can be used to a monitoring simple and rapid, helping the identification of compounds with potential insecticide activity against larvae of insect vector of diseases. In this sense, the toxicity against Artemia salina of clove essential oil and its derivative eugenyl acetate obtained by enzymatic esterification using Novozym 435 as biocatalyst was evaluated. The conversion of eugenyl acetate synthesis was 95.6%. The results about the evaluation of toxicity against the microcrustacean Artemia salina demonstrated that both oil (LC 50 = 0.5993 µg.mL -1 ) and ester (LC 50 = 0.1178 µg.mL -1 ) presented high toxic potential, being the eugenyl acetate almost 5 times more toxic than clove essential oil. The results reported here shows the potential of employing clove oil and eugenyl acetate in insecticide formulations.Keywords: Novozym 435, Caryophyllus aromaticus, enzymatic esterification.Toxicidade do óleo essencial de cravo e seu éster acetato de eugenila contra Artemia salina ResumoA produção de compostos via esterificação enzimática possui grande interesse científico e tecnológico devido às inúmeras inconveniências relacionadas com a catálise ácida, principalmente por estes sitemas não se adequarem ao atual termo "tecnologias limpas". Além disso, produtos naturais como o óleo de cravo, apresentam compostos com excelentes potenciais biológicos. Compostos bioativos são quase sempre tóxicos em altas doses. A avaliação da letalidade em um organismo animal menos complexo pode ser usada para um monitoramento simples e rápido, servindo também para a identificação de compostos com potencial atividade inseticida contra larvas de insetos vetores de doenças. Neste sentido, foi determinada a toxicidade frente a Artemia salina do óleo essencial de cravo e do seu derivado acetato de eugenila obtido por esterificação enzimática com lipase Novozym 435. A conversão da reação de síntese de acetato de eugenila foi de 95,6%. Os resultados referentes à avaliação da toxicidade frente ao microcrustáceo Artemia salina demonstraram que tanto o óleo (LC 50 = 0,5993 µg.mL -1 ) quanto o éster (LC 50 = 0,1178 µg.mL -1 ) apresentam elevado potencial toxicológico, sendo que o éster apresenta aproximadamente 5 vezes mais toxicidade em relação ao óleo. Estes resultados demonstram o potencial emprego do óleo de cravo e de acetato de eugenila em formulações de inseticidas.Palavras-chave: Novozym 435, Caryophyllus aromaticus, esterificação enzimática.
Common bean (Phaseolus vulgaris L.) seeds are an economical protein source rich in bioactive compounds with antioxidant activity. In this work, we evaluated processed seeds from two common bean cultivars regarding protein profile and antioxidant capacity before and after enzymatic digestion in vitro. We provided protein maps by two‐dimensional electrophoresis (2‐DE) of seeds germinated during 36 h and 72 h. The principal component analysis (PCA) showed that protein abundance had more variation on germination times than the cultivar ones. Seeds germinated for 36 h showed greater antioxidant capacity compared to germination for 72 h and cooking, before and after enzymatic digestion. In protein isolates, cooking associated with digestion provided better antioxidant capacity. Germination time influences protein expression as well as the antioxidant capacity of common beans. Furthermore, in vitro digestion increases the antioxidant capacity of cooked bean protein isolates.
Foods are susceptible to matrix interferences during the gastrointestinal transit that can affect bioactive molecules. We proposed in vitro co-digestion of cowpea beans and orange juice to assess polyphenols bioaccessibility and synergisms. We performed gastrointestinal simulation combining beans and a fruit beverage, to mimic a common meal in a more realistic set-up than the usual single-food models. Twenty phenolic compounds were released in oral, gastric and intestinal compartments and were identified by HPLC-DAD. Gallic acid, (À)-epicatechin and chlorogenic acid were the most bioaccessible polyphenols.Cooking and solvent extraction of cowpea beans affected their polyphenolic concentrations. After digestion, the bioaccessibility indexes were higher for cowpea (136.11%) and cooked cowpea (744.74%) when compared to orange juice (31.87%) indicating that the thermal treatment enhanced the bioaccessibility of cowpea phenolics. The antioxidant capacity was higher in the end of co-digestion compared to cooked cowpea and orange juice digested alone due to synergistic polyphenol-polyphenol interactions or polyphenol-protein interactions. The combination of orange juice with cooked cowpea in co-digestion promoted high content of some bioaccessible phenolics, with 10 out of 20 compounds showing positive interactions at the intestinal phase, suggesting that food synergisms are not neglectable for beans and citrus polyphenols release during the digestion course.
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